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 Table Of Contents

Standard Items

See Device Standard Items.

Protocol Items

The ROC protocol implementation supports the following item names for use by client applications:

Configurable Opcode Point Items

If present in the ROC Operating System, there are eight Configurable Opcode points. The parameters for this Point Type consist of a sequence number and 44 ROC parameter identifications (Point Type, Logical Number, and Parameter Number – TLP). See TLP Data Type.

Note

All configuration items are Read Only. 

Opcode 6 Items

ItemData TypeDescription

CONFIG.NUM_DI:n

UI2

Number of discrete inputs

CONFIG.NUM_AI:n

UI2

Number of analog inputs

CONFIG.NUM_DO:n

UI2

Number of discrete outputs

CONFIG.NUM_AO:n

UI2

Number of analog outputs

CONFIG.NUM_METER:n

UI2

Number of meter runs

CONFIG.NUM_PULSE:n

UI2

Number of pulse inputs

CONFIG.NUM_PIDS:n

UI2

Number of PID loops

CONFIG.NUM_TANKS:n

UI2

Number of tanks

CONFIG.NUM_DB_BASE:n

UI2

Number of Base RAM historical points

CONFIG.NUM_DB_RAM1:n

UI2

Number of RAM 1 historical points

CONFIG.NUM_DB_RAM2:n

UI2

Number of RAM 2 historical points

CONFIG.NUM_DB_RAM3:n

UI2

Number of RAM 3 historical points

CONFIG.FST_PRESENT:n

UI1

FST present flag

CONFIG.UTILITIES:n

UI1

Utilities installed bitmask

•       Bit 0: AGA report

•       Bit 1: LCD installed

•       Bit 2: COM1 User Enable

•       Bit 3: COM2 User Enable

•       Bit 4: User C Enable

•       Bit 5: Not Used

•       Bit 6: Not Used

•       Bit 7: Not Used

CONFIG.MANUAL_STATUS:n

UI1

ROC manual status

CONFIG.ALARM_STATUS:n

UI1

ROC alarm status

CONFIG.NUM_SOFT_PT:n

UI1

Number of softpoints

CONFIG.NUM_PORTS:n

UI1

Number of softpoints

CONFIG.ROC_TYPE:n

UI1

Number of softpoints

CONFIG.NUM_TABLES:n

UI1

Number of softpoints

CONFIG.CUSTOMER_NAME:n

STRING

20 character customer name

CONFIG.NUM_TYPE_22:n

UI1

Indicates existence of any User Defined Points

CONFIG.NUM_TYPE_23:n

UI1

Indicates existence of any User Defined Points

CONFIG.NUM_TYPE_24:n

UI1

Indicates existence of any User Defined Points

CONFIG.NUM_TYPE_25:n

UI1

Indicates existence of any User Defined Points

CONFIG.NUM_TYPE_27:n

UI1

Indicates existence of any User Defined Points

CONFIG.NUM_TYPE_28:n

UI1

Indicates existence of any User Defined Points

CONFIG.NUM_TYPE_29:n

UI1

Indicates existence of any User Defined Points

CONFIG.NUM_TYPE_30:n

UI1

Indicates existence of any User Defined Points

CONFIG.NUM_TYPE_31:n

UI1

Indicates existence of any User Defined Points

CONFIG.NUM_TYPE_32:n

UI1

Indicates existence of any User Defined Points

CONFIG.NUM_TYPE_33:n

UI1

Indicates existence of any User Defined Points

CONFIG.NUM_TYPE_34:n

UI1

Indicates existence of any User Defined Points

CONFIG.NUM_TYPE_35:n

UI1

Indicates existence of any User Defined Points

CONFIG.NUM_TYPE_36:n

UI1

Indicates existence of any User Defined Points

CONFIG.NUM_TYPE_37:n

UI1

Indicates existence of any User Defined Points

CONFIG.NUM_TYPE_38:n

UI1

Indicates existence of any User Defined Points

CONFIG.NUM_TYPE_39:n

UI1

Indicates existence of any User Defined Points

CONFIG.NUM_MVS:n – FloBoss 407

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_TYPE_40:n – FloBoss 500

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_RUN:n – FloBoss 407

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_TYPE_41:n – FloBoss 500

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_EXTRA_RUN:n – FloBoss 407

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_TYPE_42:n – FloBoss 500

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_USERS_LIST:n – FloBoss 407

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_TYPE_43:n – FloBoss 500

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_POWER_CONTROL:n – FloBoss 407

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_TYPE_44:n – FloBoss 500

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_TYPE_45:n

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_TYPE_46:n

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES ONLY..

CONFIG.NUM_TYPE_47:n

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_TYPE_48:n

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_TYPE_49:n

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_TYPE_50:n

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_TYPE_51:n

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_TYPE_52:n

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_TYPE_53:n

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_TYPE_54:n

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_TYPE_55:n

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.AI_CALIB:n – FloBoss 407

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_TYPE_56:n – FloBoss 500

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND  

500 SERIES ONLY.

CONFIG.KEYPAD_LOGON_SEC:n – FloBoss 407

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_TYPE_57:n – FloBoss 500

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_TYPE_58:n

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_TYPE_59:n

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

CONFIG.NUM_TYPE_60:n

UI1

NOTE: THIS ITEM IS SUPPORTED

IN FB 407 AND 500 SERIES

ONLY.

Opcode 103 - Firmware Items

ItemData TypeDescription

FIRMWARE.LAST_POWER_OFF_TI ME:n

STRING

Date/Time ROC was last shut down. The format is yyyy/mm/dd hh:mm:ss, where yyyy is the Four digit year, mm is the two digit month, dd is the two digit day of the month,hh is the Hour, mm is the Minutes, ss is the Seconds.  

READ ONLY

FIRMWARE.LAST_POWER_ON_TI ME:n

STRING

Date/Time ROC was last powered up. The format is yyyy/mm/dd hh:mm:ss, where yyyy is the Four digit year, mm is the two digit month, dd is the two digit day of the month,hh is the Hour, mm is the Minutes, ss is the Seconds.  

READ ONLY

FIRMWARE.CURRENT_MANUAL_C LEAR_SET:n

UI1

Current manual cleared or set.  

READ ONLY

FIRMWARE.CURRENT_ALARM_CL EAR_SET:n

UI1

Current alarm cleared or set.  READ ONLY

FIRMWARE.PRODUCT_ID:n

STRING

Product Identification.  READ ONLY

FIRMWARE.DATE_TIME_PRODUC

ED:n

STRING

Date/Time Firmware produced.  READ ONLY

FIRMWARE.ROC_UNIT:n

UI1

ROC unit address for communications.  READ ONLY

FIRMWARE.ROC_ADDRESS:n

UI1

ROC unit address for communications.  READ ONLY

FIRMWARE.ROC_GROUP:n

UI1

ROC group address for communications.  READ ONLY

FIRMWARE.STATION_NAME:n

STRING

20 character name or location of the ROC. READ ONLY.

FIRMWARE.DATE_TIME:n

STRING

Date and Time string from ROC real time clock setting. The format is yyyy/mm/dd hh:mm:ss, where yyyy is the Four digit year, mm is the two digit month, dd is the two digit day of the month,hh is the Hour, mm is the Minutes, ss is the Seconds.  

READ ONLY.

Point Type 3 - Main Board Analog Input Items

The main board analog inputs can be read just as any other analog input. The following items describe each main board analog input and its address:

ItemData TypeDescriptionT.P:L

AI.FILTERED_EU:64

R4

The loop input voltage (+T) in engineering units.

3.14:64

AI.FILTERED_EU:65

R4

The board supply voltage (V++) in engineering units.

3.14:65

AI.FILTERED_EU:66

R4

The Aux analog output #1 in engineering units.

3.14:66

AI.FILTERED_EU:67

R4

The Aux analog output #2 in engineering units.

3.14:67

AI.FILTERED_EU:68

R4

The Aux analog output #3 in engineering units.

3.14:68

Point Type 0 and 99 – Configurable Opcode Items

Use the Opcode table to group data being polled for more efficient communications. You can assign parameters from different point types to the Opcode table data points, which can substantially reduce the number of polls from a host computer.

Use of the term Opcode in this context does not refer to the operator identification codes in ROC protocols.

ROC800 devices use point type 99 for the configurable Opcode Table, other models use point type 0.


In ROCLink, use the Configure menu to find the Opcode Table settings.  There are 16 tables of 44 parameters for a total of 704 possible parameters. In the example below, there are two parameters defined in the fourth table.


To use these these tags with ACM in an OPC client use the USER_OPCODE_DATA_mm:n tag.

The mm defines the point within the table, the n represents the table number which are zero-based; i.e. Table No. 3 in ROCLink will be referenced by the number 2 in the OPC item.

For example, to reference the first tag in the image above use:  

USER_OPCODE_DATA_01:3 (first point, fourth table)


Polling USER_OPCODE_DATA_01:3 will return the TLP of the tag, not the value. To poll the value you must apply the <T***> modifier such as:

USER_OPCODE_DATA_01:3<TFLP> for floating point or:

USER_OPCODE_DATA_01:3<TINT8> for an 8-bit integer. See the Data Types section above for a complete list of <T***> modifiers.


How do I know if my tag is floating point or integer? When you define the tag in ROCLink by clicking the ellipsis button next to the tag, you see the data type on that dialog (in this case UINT8):


ItemData TypeDescriptionT.P:L

USER_OPCODE.DATA_mm:n

STRING

Parameter of the configurable Opcode point where mm is a two digit decimal number from 01 to 44 and n represents the table (zero-based).

0.m:n

USER_OPCODE.REVISION:n

R4

Sequence/Revision number of the configurable Opcode point where the n is the logical number.  

0.0:n

Point Type 1 - Discrete Input Items

ItemData TypeDescriptionT.P:L

DI.POINT_TAG_ID:n

STRING

 10 character name for the discrete input. 

1.0:n

DI.FILTER:n

UI1

Number of time intervals required in high state for input to be considered high. Bit 2 of the mode parameter is used to determine the time basis.

1.1:n

DI.STATUS:n

UI1

The state of the input. Normally, a value of 1 is high and a value of 0 is low. This can be reversed by setting bit 7 of the mode parameter (Invert Enable).

1.2:n

DI.MODE:n

UI1

Bitmask settings for the discrete input

•       Bit 0: Invert Enable (1 = Invert, 0 = Normal)

•       Bit 1: Latch Enable (1 = Latch on Set, 0 = Normal)

•       Bit 2: Filter Interval 0 = 250 msec. (50 msec. for built in DI) 1 = 15 sec (3 sec for built in DI))

•       Bit 3: TDI Enable (1 = Timed Discrete Input, 0 = Normal)

•       Bit 4: ALM Enable (1 = Alarm checking active,

0 = No alarm checking)

•       Bit 5: RBX on Clear (1 = Generate RBX when exiting alarm condition, 0 = No RBX generated)

•       Bit 6: RBX on Set (1 = Generate RBX when entering alarm condition, 0 = No RBX  generated)

•       Bit 7: Manual Mode (1 = scan disabled, 0 = Normal scan)


DI.ALARM_CODE:n

UI1

Bitmask containing alarm information

•         Bit 0: TDI Low Alarm

•         Bit 1: TDI Low Low Alarm

•         Bit 2: TDI High Alarm

•         Bit 3: TDI High High Alarm

•         Bit 4: TDI Rate Alarm

•         Bit 5: Status Change

•         Bit 6: Not used

•         Bit 7: Manual mode READ ONLY.

1.4:n

DI.ACCUM_VALUE:n

UI4

Number of 0 to 1 transitions.

1.5:n

DI.ON_COUNTER:n

UI4

Number of scan periods when the Status parameter is in the 1 state.

1.6:n

DI.OFF_COUNTER:n

UI4

Number of scan periods when the Status parameter is in the 0 state.

1.7:n

DI.0_COUNT:n

I2

Number of scan periods that represent a 0 percent input pulse width (TDI).

1.8:n

DI.100_COUNT:n

I2

Number of scan periods that represent a 100 percent input pulse width (TDI).

1.9:n

DI.MAX_COUNT:n

UI2

The number of scan periods in which the input must make a transition from the 0 to 1 state (TDI).

1.10:n

DI.UNITS:n

STRING

 10 character name for the engineering units (TDI).

1.11:n

DI.SCAN_PERIOD:n

UI2

The number of scan periods between Status updates.

1.12:n

DI.ZERO_EU:n

R4

EU value corresponding to 0 percent input (TDI).

1.13:n

DI.SPAN_EU:n

R4

EU value corresponding to 100 percent input (TDI).

1.14:n

DI.LOW_ALARM:n

R4

EU value representing the low alarm threshold (TDI).

1.15:n

DI.HIGH_ALARM:n

R4

EU value representing the high alarm threshold (TDI).

1.16:n

DI.LOLO_ALARM:n

R4

EU value representing the low low alarm threshold (TDI).

1.17:n

DI.HIHI_ALARM:n

R4

EU value representing the high high alarm threshold (TDI).

1.18:n

DI.DELTA_ALARM:n

R4

EU value representing greatest allowable change between scans before generating an alarm (TDI).

1.19:n

DI.ALARM_DEADBAND:n

R4

EU value representing a dead zone above high alarm limits and below the low alarm limits to prevent spurious alarms (TDI).

1.20:n


DI.EU_VALUE:n

R4

Calculated EU value (TDI).

1.21:n

DI.TDI_COUNT:n

UI2

The number of scan periods that the pulse width of the input signal is in the 1 state (TDI). 

READ ONLY.

1.22:n

Point Type 2 - Discrete Output Items

ItemData TypeDescriptionT.P:L

DO.POINT_TAG_ID:n

STRING

 10 character name for the discrete output.

2.0:n

DO.TIME_ON:n

UI2

Number of 50 msec. intervals the output is on.

2.1:n

DO.SPARE_1:n

UI1

Parameter number 2. Not Used.  READ ONLY.

2.2:n

DO.STATUS:n

UI1

The current state of the output.

2.3:n

DO.MODE:n

UI1

Bitmask settings for the discrete output.

•      Bit 0: Momentary (0 = Disable, 1 = Enable)

•      Bit 1: Toggle (0 = Disable, 1 = Enable)

•      Bit 2: Not Used (Do not set)

•      Bit 3: TDO Enable (1 = Timed Discrete Output, 0 = Normal)

•      Bit 4: CLR on Reset (0 = Disable, 1 =Enable)

•      Bit 5: Not Used

•      Bit 6: Not Used

•      Bit 7: Manual Mode (1 = scan disabled, 0 = Normal scan)

2.4:n

DO.ALARM_CODE:n

UI1

Bitmask settings for the discrete output.

•       Bit 0-5: Not Used

•       Bit 6: Point Fail (FloBoss 107 Only)

•       Bit 7: Manual Mode

2.5:n

DO.ACCUM_VALUE:n

UI4

Number of 0 to 1 transitions.

2.6:n

DO.UNITS:n

STRING

 10 character name for the Engineering Units.

2.7:n

DO.CYCLE_TIME:n

UI2

The sum of the on and off time (1 cycle time) in 50 msec. periods.

2.8:n

DO.0_COUNT:n

I2

The count in 50 msec. periods that represent a 0 percent output pulse width.

2.9:n

DO.100_COUNT:n

I2

The count in 50 msec. periods that represent a 100 percent output pulse width.

2.10:n

DO.LOW_READING_EU:n

R4

The EU value corresponding to the 0 percent count.

2.11:n

DO.HIGH_READING_EU:n

R4

The EU value corresponding to the 100 percent count.

2.12:n

DO.EU_VALUE:n

R4

EU value that corresponds to the amount of on-time for the discrete output.

2.13:n

Point Type 3 - Analog Input Items

ItemData TypeDescriptionT.P:L

AI.POINT_TAG_ID:n

STRING

 10 character name for the analog input.

3.0:n

AI.UNITS:n

STRING

 10 character name for the Engineering Units.

3.1:n

AI.SCAN_PERIOD:n

UI2

Time between updates in 50 msec. intervals.

3.2:n

AI.FILTER:n

UI2

Percentage of last value used in calculating current value.

3.3:n

AI.ADJUSTED_ATOD_0:n

I2

A/D value corresponding to 0 percent input.

3.4:n

AI.ADJUSTED_ATOD_100:n

I2

A/D value corresponding to 100 percent input.

3.5:n

AI.LOW_READING_EU:n

R4

EU value corresponding to 0 percent input.

3.6:n

AI.HIGH_READING_EU:n

R4

EU value corresponding to 100 percent input.

3.7:n

AI.LOW_ALARM_EU:n

R4

EU value representing the low alarm threshold.

3.8:n

AI.HIGH_ALARM_EU:n

R4

EU value representing the high alarm threshold.

3.9:n

AI.LOLO_ALARM_EU:n

R4

EU value representing the low low alarm threshold.

3.10:n

AI.HIHI_ALARM_EU:n

R4

EU value representing the high high alarm threshold.

3.11:n

AI.DELTA_ALARM_EU:n

R4

EU value representing greatest allowable change between scans before generating an alarm.

3.12:n

AI.ALARM_DEADBAND:n

R4

EU value representing a dead zone above high alarm limits and below the low alarm limits to prevent spurious alarms.

3.13:n

AI.FILTERED_EU:n

R4

The current value in engineering units.

3.14:n

AI.MODE:n

UI1

Bitmask settings for the analog input.

•         Bit 0: Not Used

•         Bit 1: Low Low and High High Clamping (0 = Disable, 1 = Enable)

•         Bit 2: Temperature Compensation (0 = Enable, 1 = Disable)

•         Bit 3: Use Average Input (0 = Disable, 1 = Enable)

•         Bit 4: ALM Enable (0 = Disable, 1 = Enable)

•         Bit 5: RBX on Clear (0 = Disable, 1 = Enable)

•         Bit 6: RBX on Set (0 = Disable, 1 = Enable)

•        Bit 7: Manual Mode (0 = Disable, 1 = Enable)

3.15:n

AI.RAW_ATOD_INPUT:n

I2

Raw A/D input reading: 

READ ONLY IN ROC 300 SERIES AND FB 407.

R/W IN FB 100 SERIES AND FB 500 SERIES.

3.17:n

AI.ACTUAL_SCAN:n

UI2

Actual scan time. Should be the same as Scan Period unless system is overloaded. 

READ ONLY.

3.18:n

AI.FAULT_EU_VALUE:n

R4

Fault EU Value

3.19:n

AI. CALIB_ZERO_RAW:n


UI2

Calibrated Zero Raw

3.20:n

AI.CALIB_MID_RAW_1:n

UI2

Calibrated Mid-point Raw #1 A/D Value

3.21:n

AI.CALIB_MID_RAW_2:n

UI2

Calibrated Mid-point Raw #2 A/D Value

3.22:n

AI.CALIB_MID_RAW_3:n

UI2

Calibrated Mid-point Raw #3 A/D Value

3.23:n

AI.CALIB_SPAN_RAW:n

UI2

Calibrated Span Raw

3.24:n

AI.CALIB_ZERO_EU_VALUE:n

R4

Calibrated Zero EU Value

3.25:n

AI.CALIB_MID_EU_VALUE_1:n

R4

Calibrated Mid-point EU #1

3.26:n

AI.CALIB_MID_EU_VALUE_2:n

R4

Calibrated Mid-point EU #2

3.27:n

AI.CALIB_MID_EU_VALUE_3:n

R4

Calibrated Mid-point EU #3

3.28:n

AI.CALIB_SPAN_EU:n

R4

Calibrated Span EU

3.29:n

AI.OFFSET_ADDED_CALC_EU:n

      R4

Offset to be added to all calculated EU fields

3.30:n

AI_CALIB_SET_VALUE_ED:n

R4

Calibrated set value; desired ED value for a calibrated point

3.31:n

AI_CALIB_MANUAL_VALUE:n

R4

Calibrated manual value; the current EU value of the AI while performing calibration

3.32:n

AI.CALIB_TIMER:n

UI2

Calibration Timer-number of seconds until a timeout occurs

3.33:n

AI.CALIB_TIMER:n

UI2

Calibration Timer-number of seconds until a timeout occurs

3.33:n

AI.CALIB_MODE:n

UI8

Calibration Mode

•       0 = Use current calibration

•       1 = Start calibration

•       2 = Calibrate input

•       3 = Restore previous calibration values

•       4 = End calibration

Note: No event is logged for this parameter

3.34:n

AI.CALIB_TYPE:n

UI8

Calibration Mode

  • 0 = No calibration active
  • 1 = Set Zero
  • 2 = Set Span
  • 3 = Set Mid-point #1
  • 4 = Set Mid-point #2
  • 5 = Set Mid-point #3
  • 6 = Set Offset

3.35:n

Point Type 4 - Analog Output Items

ItemData TypeDescriptionT.P:L

AO.POINT_TAG_ID:n

STRING

 10 character name for the analog output.

4.0:n

AO.UNITS:n

STRING

 10 character name for the Engineering Units.

4.1:n

AI.ADJUSTED_ATOD_0:n

I2

A/D value corresponding to 0 percent output.

4.2:n

AO.ADJUSTED_ATOD_100:n

I2

A/D value corresponding to 100 percent output.

4.3:n

AO.LOW_READING_EU:n

R4

EU value corresponding to 0 percent output.

4.4:n

AO.HIGH_READING_EU:n

R4

EU value corresponding to 100 percent output.

4.5:n

AO.VALUE_EU:n

R4

EU value represents the last analog output scan.

4.6:n

AO.MODE:n

UI1

Bitmask settings for the analog output

•       Bit 0: Not Used

•       Bit 1: Not Used

•       Bit 2: Not Used

•       Bit 3: Clear on Reset (0 = Disable, 1 = Enable)

•       Bit 4: ALM Enable (0 = Disable, 1 = Enable)

•       Bit 5: RBX on Clear (0 = Disable, 1 = Enable)

•       Bit 6: RBX on Set (0 = Disable, 1 = Enable)

•       Bit 7: Manual Mode (0 = Disable, 1 = Enable)

4.7:n

AO.ALARM_CODE:n

UI1

Bitmask alarm codes

•               Bit 0: Not Used

•               Bit 1: Not Used

•               Bit 2: Not Used

•               Bit 3: Not Used

•               Bit 4: Not Used

•               Bit 5: Not Used

•               Bit 6: Point Fail

•               Bit 7: Manual Mode READ ONLY.

4.8:n

AO.RAW_ATOD_INPUT:n

I2

Raw A/D input reading.  READ ONLY.

4.9:n

AO.SCAN_MODE:n

UI1

Scan mode-valid values are 0 (Automatic) and 1 (Manual)

4.10:n

AO_MANUAL_EU:n

R4

Indicates the Manual EU

4.11:n

AO.PHYSICAL_EU:n

R4

Indicates the Physical EU

4.12:n

Point Type 5 - Pulse Input Items

ItemData TypeDescriptionT.P:L

PULSE.POINT_TAG_ID:n

STRING

 10 character name for the pulse input.

5.0:n

PULSE.UNITS:n

STRING

 10 character name for the Engineering Units.

5.1:n

PULSE.RATE_FLAG:n

UI1

Type of pulse input selected

•       0: Rate mode

•       1: Accumulator, maximum Rollover

•       2: Accumulator, entered Rollover

5.2:n

PULSE.RATE_PERIOD:n

UI1

Time period used for rate calculation

•       0: EU/minute

•       1: EU/hour

•       2: EU/day

5.3:n

PULSE.TYPE:n

UI1

Type of measurement performed.  READ ONLY.

5.4:n

PULSE.SCAN_PERIOD:n

UI2

50 msec. intervals between scans of the EU value.

5.5:n

PULSE.CONVERSION:n

R4

The number of pulses times this number equals the Units.

5.6:n

PULSE.LOW_ALARM_EU:n

R4

EU value representing the low alarm threshold.

5.7:n

PULSE.HIGH_ALARM_EU:n

R4

EU value representing the high alarm threshold.

5.8:n

PULSE.LOLO_ALARM_EU:n

R4

EU value representing the low low alarm threshold.

5.9:n

PULSE.HIHI_ALARM_EU:n

R4

EU value representing the high high alarm threshold.

5.10:n

PULSE.DELTA_ALARM_EU:n

R4

EU value representing greatest allowable change between scans before generating an alarm.

5.11:n

PULSE.ALARM_DEADBAND:n

R4

The dead zone for alarms or the rollover value depending on the Rate Flag.

5.12:n

PULSE.VALUE_EU:n

R4

The measured value, either EUs per unit of time or accumulated EUs, depending on the Rate Period.

5.13:n

PULSE.MODE:n

UI1

Bitmask settings for the Pulse Input

•       Bit 0: Not Used

•       Bit 1: Not Used

•       Bit 2: Not Used

•       Bit 3: Conversion (1 = Direct, 0 = Reciprocal)

•       Bit 4: ALM Enable (1 = Enable, 0 = Disable)

•       Bit 5: RBX on Clear (1 = Enable, 0 = Disable)

•       Bit 6: RBX on Set (1 = Enable, 0 = Disable)

•       Bit 7: Manual Mode (1 = Manual, 0 = Normal)

5.14:n

PULSE.ALARM_CODE:n

UI1

Bitmask alarm codes

•       Bit 0: Low Alarm

•       Bit 1: Low Low Alarm

•       Bit 2: High Alarm

•       Bit 3: High High Alarm

•       Bit 4: Rate Alarm

•       Bit 5: Not Used

•       Bit 6: Not Used

•       Bit 7: Manual Mode


READ ONLY.

5.15:n

PULSE.ACCUM_VALUE:n

UI4

The value of raw counts accumulated during each scan period.

READ ONLY FOR INDUSTRY CANADA UNITS.

5.16:n

PULSE.CURRENT_RATE:n

R4

EU value representing the rate as of the most recent scan. 

READ ONLY.

5.17:n

PULSE.TOTAL_TODAY:n

R4

Total EUs accumulated since the most recent contract hour.

5.18:n

PULSE.TOTAL_YD:n

R4

Total EUs accumulated during the most recent 24 hours since the last contract hour. 

READ ONLY.

5.19:n

PULSE.CONT_ACCUM:n

UI4

Continuous Accumulator. 

READ ONLY NOTE:  

This item is supported in Industry Canada ROC devices only and replaces the PULSE.TOTAL_YD item. 

Enable the Industry Canada ROC type in the device screen.

5.19:n

PULSE.PULSE_FOR_DAY:n

UI4

Pulses for Day. 

NOTE:  

This item is supported in FB 500 series devises only.

5.20:n

PULSE.FREQ:n

R4

Frequency in Hertz

5.21:n

Point Type 5 – Pulse Input Items (Alternates)

ItemData TypeDescriptionT.P:L

PULSE.CONT_ACCUM:n

UI32

Continuous accumulator (for Industry Canada)

5.19:n

Point Type 6 - PID Items

ItemData TypeDescriptionT.P:L

PID.POINT_TAG_ID:n

STRING

 10 character name for the PID.

6.0:n

PID.CONTROL_TYPE:n

UI1

Bitmask settings for control

•       Bit 0: Operation Mode (0 = Manual, 1  = Automatic)

•       Bit 1: Control Type (0 = Primary, 1  = Override)

•       Bit 2: DO Control (0 = On, 1 = Off)

•       Bit 3: Not Used

•       Bit 4: PID shutdown on ROC restart (0 = Disable, 1 = Enable)

•       Bit 5: Not Used

•       Bit 6: Manual Tracking Enable (0 = Disable, 1 = Enable)

•       Bit 7: PID Loop Shutdown Bit (0 = Shutdown, 1 = Operational)

6.1:n

PID.LOOP_STATUS:n

UI1

Current state of PID algorithm.

•      0 = Primary and Override loops disabled

•      1 = Primary loop running

•      2 = Override loop running READ ONLY.

6.2:0

PID.ACTUAL_SCAN_TIME:n

UI2

Number of 50 msec. periods between PID scans. READ ONLY.

6.3:n

PID.PRI_INPUT_VAR:n

STRING

 Primary input point.

6.4:n

PID.PRI_OUTPUT_VAR:n

STRING

 Primary output point.

6.5:n

PID.PRI_SW_SETPOINT:n

R4

Input value at which control passes to override control loop.

6.6:n

PID.PRI_SW_VAR:n

STRING

 Primary switch process variable

6.7:n

PID.PRI_SW_MODE:n

STRING

 Comparison type (greater than, less than) that causes switch-over from primary to override control loop.

6.8:n

PID.OVR_INPUT_VAR:n

STRING

 Override input point.

6.9:n

PID.OVR_OUTPUT_VAR:n

STRING

 Override output point – second output of PID.

6.10:n

PID.OVR_SW_SETPOINT:n

R4

Input value at which control passes to primary control loop.

6.11:n

PID.OVR_SW_VAR:n

STRING

 Override switch process variable

6.12:n

PID.OVR_SW_MODE:n

STRING

 Comparison type (greater than, less than) that causes switch-over from override to primary control loop.

6.13:n

PID.PRI_SETPOINT:n

R4

Setpoint is used for controlling the primary process variable.

6.14:n

PID.PRI_CHANGE_EU_MIN:n

R4

The maximum rate at which the primary process variable is allowed to ramp to a new set point.

6.15:n

PID.PRI_LOOP_PERIOD:n

UI2

The amount of time between PID calculations in 50 msec. periods for the primary loop calculations.

6.16:n

PID.PRI_P_GAIN:n

R4

Ratio of change in output to change in input based on continuous linear relationship for the primary control loop.

6.17:n

PID.PRI_I_GAIN:n

R4

Ratio of change in output to change in input based on time relationship for the primary control loop.

6.18:n

PID.PRI_D_GAIN:n

R4

Ratio of change in output to change in input based on rate of change relationship for the primary control loop.

6.19:n

PID.PRI_SCALE_FACTOR:n

R4

Ratio of output span to input span for the primary control loop.

6.20:n

PID.PRI_DEADBAND:n

R4

Dead zone around setpoint in which integral action is disabled for the primary control loop.

6.21:n

PID.PRI_PV:n

R4

Current value of primary control loop process variable.

6.22:n

PID.PRI_OUTPUT_EU:n

R4

EU value of output of primary PID loop.

6.23:n

PID.PRI_SW_PV_EU:n

R4

Input value that is compared to the primary switch value which is used to determine if control should be passed to the override control loop.

6.24:n

PID.MIN_CTL_TIME:n

UI2

The minimum amount of time (in 50 msec. periods) that the primary or override control loop must maintain control before switching back to the other control loop.

6.25:n

PID.OVR_SETPOINT:n

R4

Setpoint is used for controlling the override process variable.

 6.26:n

PID.OVR_CHANGE_EU_MIN:n

R4

The maximum rate at which the override process variable is allowed to ramp to a new setpoint.

6.27:n

PID.OVR_LOOP_PERIOD:n

UI2

The amount of time between PID calculations in 50 msec. periods for the override loop calculations.

6.28:n

PID.OVR_P_GAIN:n

R4

Ratio of change in output to change in input based on continuous linear relationship for the override control loop.

6.29:n

PID.OVR_I_GAIN:n

R4

Ratio of change in output to change in input based on time relationship for the override control loop.

6.30:n

PID.OVR_D_GAIN:n

R4

Ratio of change in output to change in input based on rate of change relationship for the override control loop.

6.31:n

PID.OVR_SCALE_FACTOR:n

R4

Ratio of output span to input span for the override control loop.

6.32:n

PID.OVR_DEADBAND:n

R4

Dead zone around setpoint in which integral action is disabled for the override control loop.

6.33:n

PID.OVR_PV:n

R4

Current value of override control loop process variable.

6.34:n

PID.OVR_OUTPUT_EU:n

R4

EU value of output of override PID loop.

6.35:n

PID.OVR_SW_PV_EU:n

R4

Input value that is compared to the override switch value which is used to determine if control should be passed to the primary control loop.

6.36:n

Point Type 7 - AGA Items

ItemData TypeDescriptionT.P:L

AGA.POINT_TAG_ID

STRING

10 character name for the AGA.

7.0:n

AGA.LATITUDE:n

R4

Geographic latitude of metering location.

7.1:n

AGA.ELEVATION:n

R4

Elevation of metering location.

7.2:n

AGA.CALC_METHOD:n

UI1

Bitmask setting for calculation method

•       Bit 0: Super compressibility method (0 = NX-19, 1 = AGA8)

•       Bit 1: Calculation method (0 = AGA3, 1  = AGA7)

•       Bit 2: AGA3 algorithm (0 = 1985, 1  = 1992)

•       Bit 3: Units (0 = US, 1 = Metric)

•       Bit 4: ALM Enable (0 = Disable, 1 = Log Alarms)

•       Bit 5: RBX on Clear (0 = Disable, 1  = Enable)

•       Bit 6: RBX on Set (0 = Disable, 1  = Enable)

•       Bit 7: Not Used

7.3:n

AGA.OPTIONS:n

UI1

Bitmask configuration options

•       Bit 0: Tap type (0 = Flange, 1 = Pipe)

•       Bit 1: Specific Gravity (0 = Calculate, 1  = Entered)

•       Bit 2: Static Pressure (0 = Downstream, 1  = Upstream)

•       Bit 3: Static Pressure (0 = Gauge, 1  = Absolute)

•       Bit 4: Heating Value (0 = Calculate, 1  = Entered)

•       Bit 5: Acceleration (0 = Calculate, 1  = Entered)

•       Bit 6: Heating Value (0 = Mass, 1  = Volume)

•       Bit 7: Not Used

7.4:n

AGA.SPECIFIC_GRAVITY:n

R4

Specific gravity.

7.5:n

AGA.HEATING_VALUE:n

R4

Heating value.

7.6:n

AGA.GRAV_ACCEL_ CORRECTION:n

R4

Gravitational Acceleration value.

7.7:n

AGA.SCAN_PERIOD:n

UI2

Number of 50 msec. periods between flow calculations.

7.8:n

AGA.PIPE_DIAMETER:n

R4

Inside pipe diameter used for AGA3 calculation.

7.9:n

AGA.ORIFICE_DIAMETER:n

R4

Orifice diameter used for AGA3 calculation.

7.10:n

AGA.ORIFICE_MEASURED_TE MP:n

R4

Orifice plate temperature.

7.11:n

AGA.ORIFICE_MATERIAL:n

UI1

Orifice plate material (0 = Stainless steel,  1 = Monel, 2 = Carbon Steel)

7.12:n

AGA.DESCRIPTION:n

STRING

30 character description of meter run.

7.13:n

AGA.ALARM_CODE:n

UI1

Bitmask alarm fields

  • Bit 0: Low Alarm
  • Bit 1: Not Used
  • Bit 2: High Alarm
  • Bit 3: Not Used
  • Bit 4: Not Used
  • Bit 5: Not Used
  • Bit 6: No Flow
  • Bit 7: Manual Mode READ ONLY.

7.14:n

AGA.LOW_ALARM_EU:n

R4

Flow value that triggers a low alarm.

7.15:n

AGA.HIGH_ALARM_EU:n

R4

EU value representing the high alarm threshold.

7.16:n

AGA.VISCOSITY:n

R4

Viscosity of flowing gas.

7.17:n

AGA.SPECIFIC_HEAT_RATIO:n

R4

Specific Heat Ratio.

7.18:n

AGA.CONTRACT_PRESSURE:n

R4

Flow measurement pressure specified in gas contract.

7.19:n

AGA.CONTRACT_TEMP:n

R4

Flow measurement temperature specified in gas contract.

7.20:n

AGA.DP_LOW_CUTOFF:n

R4

Low flow limits that sets flow calculation to zero. ORIFICE

7.21:n

AGA.KFACTOR

R4

Low flow limits that sets flow calculation to zero.

TURBINE  

FB 504, 104, AND 107 ONLY.

7.21:n

AGA.MFACTOR

R4

Low flow limits that sets flow calculation to zero.

TURBINE

FB 407 VERSION 1.10 OR GREATER ONLY.

7.21:n

AGA.GRAVITY_CORRECTION:n

      R4

Correction for local gravity.

7.22:n

AGA.NITROGEN:n

R4

Mole percent Nitrogen.

7.23:n

AGA.CARBON_DIOXIDE:n

R4

Mole percent Carbon Dioxide.

7.24:n

AGA.HYDROGEN_SULFIDE:n

R4

Mole percent Hydrogen Sulfide.

7.25:n

AGA.WATER:n

R4

Mole percent Water.

7.26:n

AGA.HELIUM:n

R4

Mole percent Helium.

7.27:n

AGA.METHANE:n

R4

Mole percent Methane.

7.28:n

AGA.ETHANE:n

R4

Mole percent Ethane.

7.29:n

AGA.PROPANE:n

R4

Mole percent Propane.

7.30:n

AGA.N_BUTANE:n

R4

Mole percent n-Butane.

7.31:n

AGA.I_BUTANE:n

R4

Mole percent i-Butane.

7.32:n

AGA.N_PENTANE:n

R4

Mole percent n-Pentane.

7.33:n

AGA.I_PENTANE:n

R4

Mole percent i-Pentane.

7.34:n

AGA.N_HEXANE:n

R4

Mole percent n-Hexane.

7.35:n

AGA.N_HEPTANE:n

R4

Mole percent n-Heptane.

7.36:n

AGA.N_OCTANE:n

R4

Mole percent n-Octane.

7.37:n

AGA.N_NONANE:n

R4

Mole percent n-Nonane.

7.38:n

AGA.N_DECANE:n

R4

Mole percent n-Decane.

7.39:n

AGA.OXYGEN:n

R4

Mole percent Oxygen.

7.40:n

AGA.CARBON_MONOXIDE:n

R4

Mole percent Carbon Monoxide.

7.41:n

AGA. HYDROGEN:n

R4

Mole percent Hydrogen.

7.42:n

AGA.SPARE_1:n

UI1

Not used.

7.43:n

AGA.ENABLE_STACK_UP:n

UI1

Using stacked differential pressure transmitters.

7.44:n

AGA.LOW_DP_VAR:n

STRING

Low differential pressure (hw) input.

7.45:n

AGA.DP_VAR:n

STRING

Differential Pressure (hw) Input. ORIFICE

7.46:n

AGA.FLOW_RATE_INPUT

STRING

Flow Rate Input  TURBINE

7.46:n

AGA.PF_VAR:n

STRING

Static pressure input – Pf.

7.47:n

AGA.TF_VAR:n

STRING

Temperature input – Pf.

7.48:n

AGA.LOW_DP_SETPOINT:n

R4

Setpoint value at which switchover to low differential pressure input occurs.

7.49:n

AGA.HIGH_DP_SETPOINT:n

R4

Setpoint value at which switchover to high differential pressure input occurs.

7.50:n

AGA.HW:n

R4

Differential pressure.

7.51:n

AGA.PF:n

R4

Static pressure.

7.52:n

AGA.TF:n

R4

Temperature of flowing fluid.

7.53:n

Point Type 7 – AGA (Alternate)

ItemData TypeDescriptionT.P:L

AGA.KFACTOR:n

R4

k-Factor (107, 504, 104)

7.21:n

AGA.MFACTOR:n

R4

k-Factor (407 turbine version 1.1 or greater))

7.21:n

AGA.FLOW_RATE_INPUT:n

R4

k-Factor (turbine)

7.46:n

Point Type 8 – HISTORY Items

ItemData TypeDescriptionT.P:L

HISTORY.POINT_TAG_ID_mm:n

STRING

Where mm is a two digit decimal number from 01 to 15

8.P:n

HISTORY.POINT_mm:n

STRING

Where mm is a two digit decimal number from 01 to 15

8.P:n

HISTORY.ARCHIVE_TYPE_mm:n

UI1

Where mm is a two digit decimal number from 01 to 15

8.P:n

HISTORY.RATE_TYPE_mm:n

UI1

Where mm is a two digit decimal number from 01 to 15

8.P:n

Point Type 9 - LCD Items

ItemData TypeDescriptionT.P:L

LCD.TEXT_LINE1:n

STRING

Text for display line 1.

9.0:n

LCD.TEXT_LINE2:n

STRING

Text for display line 2.

9.1:n

LCD.TEXT_LINE3:n

STRING

Text for display line 3.

9.2:n

LCD.DATA_LINE1_VAR:n

STRING

Data for line 1.

9.3:n

LCD.DATA_LINE2_VAR:n

STRING

Data for line 2.

9.4:n

LCD.DATA_LINE3_VAR:n

STRING

Data for line 3.

9.5:n

Point Type 10 - AGA Flow Items

ItemData TypeDescriptionT.P:L

AGAFLOW.DP:n or AGAFLOW.HW:n

R4

Differential pressure. 

ORIFICE

READ ONLY.

10.0:n

AGAFLOW.UNCORRECTED_FLOW:n

R4

Uncorrected Flow. 

TURBINE

READ ONLY.

10.0:n

AGAFLOW.PF:n

R4 

Static pressure.  READ ONLY.

10.1:n

AGAFLOW.TF:n

R4

Temperature of flowing fluid.  READ ONLY.

10.2:n

AGAFLOW.MCF_PER_DAY:n

R4

Instantaneous flow rate in thousands of cubic feet per day.  

READ ONLY.

10.3:n

AGAFLOW.MMBTU_PER_DAY:n

R4

Instantaneous energy rate in millions of cubic feet per day. 

READ ONLY.

10.4:n

AGAFLOW.MCF_TODAY:n

R4

Accumulated flow rate since start of contract day in thousands of cubic feet. 

READ ONLY IN FB 500 - SERIES.

10.5:n

AGAFLOW.MMBTU_TODAY:n 

R4

Accumulated energy rate since start of contract day in millions of cubic feet. 

READ ONLY IN FB 500 SERIES.

10.6:n

AGAFLOW.MCF_YD:n

R4

Accumulated flow rate in thousands of cubic feet in 24 hour period prior to start of current Contract day. 

READ ONLY IN FB 500 SERIES.

10.7:n

AGAFLOW.MCF_CONT_ACCUM:n

UI4

Flow continuous accumulated. 

NOTE: THIS ITEM IS SUPPORTED IN INDUSTRY CANADA ROC DEVICES ONLY AND REPLACES THE AGAFLOW. MCF_YD ITEM.  

ENABLE THE INDUSTRY CANADA ROC TYPE IN THE DEVICE SCREEN.

10.7:n

AGAFLOW.MMBTU_YD:n

R4

Accumulated energy rate in millions of cubic feet in 24 hour period prior to start of current Contract day. 

READ ONLY IN FB 500 - SERIES.

10.8:n

AGAFLOW.MMBTU_CONT_ACCUM:n

UI4

Energy continuous accumulated. 

NOTE: THIS ITEM IS SUPPORTED IN INDUSTRY CANADA ROC DEVICES ONLY AND REPLACES THE AGAFLOW. MMBTU_YD ITEM.  

ENABLE THE INDUSTRY CANADA ROC TYPE IN THE DEVICE SCREEN.

10.8:n

AGAFLOW.PRESSURE_EXT:n

R4

Calculated pressure extension value.  READ ONLY.

10.9:n

AGAFLOW.C_PRIME:n

R4

Calculated C' value.  READ ONLY.

10.10:n

AGAFLOW.SAMPLE_TIME:n

R4

Sample time value.  READ ONLY.

10.11:n

AGAFLOW.EXPANSION_FACTOR:n

R4

READ ONLY.

10.12:n

AGAFLOW.FR:n

R4

Reynolds number value.  READ ONLY.

10.13:n

AGAFLOW.FTF:n

R4

Flowing temperature factor value. READ ONLY.

10.14:n

AGAFLOW.FPV:n

R4

Super-compressibility factor value.  READ ONLY.

10.15:n

AGAFLOW.FGR:n

R4

Specific gravity factor value.  READ ONLY.

10.16:n

AGAFLOW.FB:n

R4

Orifice flow factor value.  READ ONLY.

10.17:n

AGAFLOW.FPB:n

R4

Pressure base factor value.  READ ONLY.

10.18:n

AGAFLOW.FTB:n

R4

Temperature base factor value.  READ ONLY.

10.19:n

AGAFLOW.FA:n

R4

Thermal expansion factor value.  READ ONLY.

10.20:n

AGAFLOW.FLOW_MINUTES:n

R4

Flowing minute (ROCPAC only).  READ ONLY.

10.21:n

Point Type 10 – AGA Flow Items (Alternates)

ItemData TypeDescriptionT.P:L

AGAFLOW.HW:n

R4

Orifice: hw – Meter Differential Pressure

Value (Inches H2O or kPa) 


10.0:n

AGAFLOW.UNCORRECTED_FLOW:n

R4

Turbine: Uncorrected Flow Rate

10.9:n

AGAFLOW.MCF_CONT_ACCUM:n

R4

Flow Continuous Accum – MCF or km3

(Industry Canada) 


10.7:n

AGAFLOW.MMBTU_CONT_ACCUM:n

R4

Energy Continuous Accum – MMBTU or

GJ (Industry Canada) 


10.8:n

Point Type 11 - Tank Items

ItemData TypeDescriptionT.P:L

TANK.TAG:n

STRING

 10 character name for tank.

11.0:n

TANK.UNITS:n

STRING

 10 character name for the engineering units.

11.1:n

TANK.LEVEL_VAR:n

STRING

 Tank level input.

11.2:n

TANK.METER_OUTPUT_VAR:n

STRING

 Meter output (Pulse input).

11.3:n

TANK.SCAN_PERIOD:n

UI2

Number of 50msec periods between volume calculations.

11.4:n

TANK.ALARM_CODE:n

UI1

Bitmask of alarms

•  Bit 4: Rate Alarm

•  Others: Not Used READ ONLY.

11.5:n

TANK.SPARE_1:n

UI1

Not Used. 

READ ONLY.

11.6:n

TANK.DELTA_ALARM_EU:n

R4

The maximum drop in level between scans before an alarm is generated.

11.7:n

TANK.STRAPPING_VALUE:n

R4

Factor for equating 1 inch of water column to the volumetric quantity of the tank.

11.8:n

TANK.SPECIFIC_GRAVITY:n

R4

Specific gravity of the liquid stored in the tank.

11.9:n

TANK.LEVEL_DEADBAND:n

R4

The amount of change in level required before the rate alarm clears.

11.10:n

TANK.MANUAL_ENTRY_BBLS:n

R4

Amount of liquid manually removed from tank.

11.11:n

TANK.TOTAL_BBLS_HAULED:n

R4

Sum of manually removed units.  READ ONLY.

11.12:n

TANK.CUR_FLUID_LEVEL:n

R4

Current liquid level in tank. 

READ ONLY.

11.13:n

TANK.MIDNIGHT_LEVEL:n

R4

Liquid level at start of contract day.  READ ONLY.

11.14:n

TANK.BBLS_DISCHARGED:n

R4

Volume of liquid discharged through the turbine since start of contract day. 

READ ONLY.

11.15:n

TANK.TODAYS_VOLUME:n

R4

Net volume gain or loss since start of contract day.  

READ ONLY.

11.16:n

TANK.YD_VOLUME:n

R4

Yesterday's net volume gain or loss.  READ ONLY.

11.17:n

TANK.LAST_SCAN_LEVEL:n

R4

Level of liquid in tank at time of last scan.  READ ONLY.

11.18:n

TANK.CORRECTED_BASE_PI:n

R4

Corrected base PI..  READ ONLY.

11.19:n

Point Type 11 – Tank Items (Alternates)

ItemData TypeDescriptionT.P:L

AGAFLOW.POINT_TAG_ID:n

STRING

10 character name for tank.

11.0:n

Point Type 12 - Clock Items

ItemData TypeDescriptionT.P:L

CLOCK.SECOND

UI1

Current second in real time clock.

12.0:n

CLOCK.MINUTE

UI1

Current minute in real time clock.

12.1:n

CLOCK.HOUR

UI1

Current hour in real time clock.

12.2:n

CLOCK.DAY

UI1

Current day in real time clock.

12.3:n

CLOCK.MONTH

UI1

Current month in real time clock.

12.4:n

CLOCK.YEAR

UI1

Current year in real time clock. 2 digit year.

12.5:n

CLOCK.LEAP_YEAR

UI1

For ROC 300 series and FB 407, the number of years ago that the last leap year occurred. Equals 0 on a leap year. 

For FB 500 series, 1 for a leap year, 2 for not a leap year.

READ ONLY IN FB 500 - SERIES.

12.6:n

CLOCK.DAY_OF_WEEK

UI1

Current day of week ( 1=Sunday, 7=Saturday ).

READ ONLY IN FB 500 - SERIES.

12.7:n

CLOCK.DATE_TIME

STRING

 Date and Time string from ROC real time clock setting. The format is WWW Mmm dd,yyyy hh:mm:ss, were WWW is the Day Of The Week

Text, Mmm is the Month Text, dd is the Day of the month, yyyy is the Four Digit Year, hh is the Hour, mm is the Minutes, ss is the Seconds. 

Example: WED Jul 11, 2001 16:34:15. 

All the values are read from opcode 7. 

READ ONLY.

12.8:n

CLOCK.DATE_TIME_2

STRING

 Date and Time string from ROC real time clock

setting. The format is yyyy/mm/dd hh:mm:ss, where yyyy is the Four digit year, mm is the two digit month, dd is the two digit day of the month, hh is the Hour, mm is the Minutes, ss is the Seconds. All the values are read from Point type 12, Parameter number 8 using opcode 180 and 181.

NOTE: This item is available in Version 5.0.1.3 and above.

12.8:n

CLOCK.CENTURY

UI1


First two digits of a four digit year. 

NOTE: This item is supported in Industry

Canada ROC devices only. Enable the Industry Canada ROC type in the device screen.

12.9:n

CLOCK.DAYLIGHT_SAVINGS

     UI1

•       1 for daylight savings enabled

•       0 for daylight savings not enabled

 NOTE: This item is supported in Industry

Canada ROC devices only. Enable the Industry Canada ROC type in the device SCREEN.

12.10:n

CLOCK.DATE

UI4

Date from the ROC real time clock setting in the form YYYYMMDD. READ ONLY.

N/A

CLOCK.TIME

UI4

Time from the ROC real time clock setting in the form HHMMSS.  READ ONLY. 

N/A

Point Type 12 – Clock Items (Alternates)

ItemData TypeDescriptionT.P:L

CLOCK.FLAG_23:n

UI1

Comm Port 2 Security

12.23:n

CLOCK.FLAG_24:n

UI1

Manages LCD Port Security for FloBoss 107. Valid values are: 

0            = Disabled 

1            = Enabled; managed by password  2 = Enabled; managed by passwoprd and access level security 

12.24:n

CLOCK.FLAG_25:n

UI1

Sets Comm Port Pass-Through mode for FloBoss 100-Series,: 

0            = No Pass Through. 

1            = LOI to COM1 (103/104 and 107) 

2            = COM1 to LOI (103/104), LOI to COM2 (107) 

3            = LOI to COM2 (103/104), LOI to COM3 (107) 

4            = COM2 to LOI (103/104), COM1 to LOI (107) 

5            = COM1 to COM2 (103/104), COM1 to

COM2 (107) 

6            = COM2 to COM1 (103/104), COM1 to

COM3 (107) 

7            = COM2 to LOI (107) 

8            = COM2 to COM1 (107) 

9            = COM2 to COM 3 (107) 

10         = COM3 to LOI (107) 

11         = COM3 to COM1 (107) 

12         = COM3 to COM2 (107)  

12.25:n

CLOCK.FLAG_26:n

UI1

For FloBoss 103/104, manages the 6 Point I/O Setup Flag: 

Bit 0: 0 = AI1 1 = DI1 

Bit 1: 0 = AI2 1 = DI2 

Bit 2: 0 = AO 1 = DO1 

Bit 4: 0 = PI1 1 = DI3 

Bit 5: 0 = PI2 1 = DI4 

Bits 3, 6, and 7 – Not Used  

12.26:n

CLOCK.FLAG_27:n

UI1

Manages Comm Port 3 Security for FloBoss 107. Valid values are: 

0  = Disabled 

1  = Enabled; managed by password 

2  = Enabled; managed by password and

access level security  

12.27:n

CLOCK.FLAG_28:n

UI1

Manages communications port 3 RTS for

FloBoss 107 only, 

0  = Disabled 

1  = Enable for 30 seconds  

12.28:n

CLOCK.FLAG_29:n

UI1

Manages the configured number of daily history logs for FloBoss 107 only,  

12.29:n

Point Type 13 - System Flag Items

ItemData TypeDescriptionT.P:L

SYSTEM_FLAG.CRC_CHECK

UI1

Indicates the CRC check.

13.0:n

SYSTEM_FLAG.FLAG_1

UI1

System flag 1.

13.1:n

SYSTEM_FLAG.FLAG_2

UI1

System flag 2.

13.2:n

SYSTEM_FLAG.FLAG_3

UI1

System flag 3.

13.3:n

SYSTEM_FLAG.FLAG_4

UI1

System flag 4.

13.4:n

SYSTEM_FLAG.FLAG_5

UI1

System flag 5.

13.5:n

SYSTEM_FLAG.FLAG_6

UI1

System flag 6.

13.6:n

SYSTEM_FLAG.FLAG_7

UI1

System flag 7.

13.7:n

SYSTEM_FLAG.RTS_ROI

UI1

Enable RTS use on operator interface port.

13.8:n

SYSTEM_FLAG.RTS_COMM1

UI1

Enable RTS use on communications port 1.

13.9:n

SYSTEM_FLAG.RTS_COMM2

UI1

Enable RTS use on communications port 2.

13.10:n

SYSTEM_FLAG.CLEAR_FIRM

UI1

Clear all saved restart data, restores factory defaults.

13.11:n

SYSTEM_FLAG.IO_SCAN_EN

UI1

Enable I/O scamming.

13.12:n

SYSTEM_FLAG.RTS_OUT2_ON

UI1

Control Auxiliary Output 2.

13.13:n

SYSTEM_FLAG. RTS_OUT1_ON

UI1

Control Auxiliary Output 1

13.14:n

SYSTEM_FLAG.COLD_START

UI1

ROC initialized from restart configuration.

13.15:n

SYSTEM_FLAG.WARM_START

UI1

ROC initialized from RAM.

13.16:n

SYSTEM_FLAG.READ_IO

UI1

Forces ROC to read and update I/O configuration.

13.17:n

SYSTEM_FLAG.WRITE_TO_FIRM

UI1

Save configuration settings to EEPROM.

13.18:n

SYSTEM_FLAG.WR_FIRM_DONE

UI1

Signals when a write to EEPROM has completed

13.19:n

SYSTEM_FLAG.EVENT_LOG_FLAG

UI1

Enables the Event Log for FB 100 Series and FB 500 Series.

Enables Init. History for FB 407 and ROC 300 Series with FlashPAC

13.20:n

SYSTEM_FLAG.LOI_SECURITY

UI1

Manages LOI Security

13.21:n

SYSTEM_FLAG.PORT_1_SECURITY

UI1

ManagesCom Port 1Security

13.22:n

SYSTEM_FLAG.PORT_2_SECURITY

UI1

ManagesCom Port 2Security

13.23:n

SYSTEM_FLAG.PORT_PASSTHRU_MO


Sets Comm Port Pass-Through mode:

13.25:n

SYSTEM_FLAG.PT_IO_SETUP_FLAG


Manages the 6 Point I/O Setup Flag

13.26:n

SYSTEM_FLAG.PORT_3_SECURITY


ManagesCom Port 3Security

13.27:n

SYSTEM_FLAG.PORT_3_RTS_TEST


SetsComm Port 3 RTS Test

13.28:n

SYSTEM_FLAG.CFG_DAILY_HIST


Manages the configured number of daily history logs.

13.29:n

SYSTEM_FLAG.HISTORY_TS_OPT


Manages the history time stamp option.

13.30:n

SYSTEM_FLAG.CFG_DAILY_HIST


Manages the configured number of daily history logs.

13.31:n

Point Type 13 – System Flag Items (Alternates)

ItemData TypeDescriptionT.P:L

SYSTEM_FLAG.FLAG_23:n

UI1

Comm Port 2 Security

12.23:n

SYSTEM_FLAG.FLAG_24:n

UI1

Manages LCD Port Security for FloBoss 107. Valid values are: 

0              = Disabled 

1              = Enabled; managed by password  2 = Enabled; managed by passwoprd and access level security 


12.24:n

SYSTEM_FLAG.FLAG_25:n

UI1

Sets Comm Port Pass-Through mode for FloBoss 100-Series,:  0 = No Pass Through. 

1              = LOI to COM1 (103/104 and 107) 

2              = COM1 to LOI (103/104), LOI to COM2 (107) 

3              = LOI to COM2 (103/104), LOI to COM3 (107) 

4              = COM2 to LOI (103/104), COM1 to LOI (107) 

5              = COM1 to COM2 (103/104), COM1 to COM2 (107) 

6              = COM2 to COM1 (103/104), COM1 to COM3 (107) 

7              = COM2 to LOI (107) 

8              = COM2 to COM1 (107) 

9              = COM2 to COM 3 (107) 

10           = COM3 to LOI (107) 

11           = COM3 to COM1 (107) 

12           = COM3 to COM2 (107)  

12.25:n

SYSTEM_FLAG.FLAG_26:n

UI1

For FloBoss 103/104, manages the 6 Point I/O Setup Flag:  Bit 0: 0 = AI1 1 = DI1 

Bit 1: 0 = AI2 1 = DI2 

Bit 2: 0 = AO 1 = DO1 

Bit 4: 0 = PI1 1 = DI3 

Bit 5: 0 = PI2 1 = DI4  

Bits 3, 6 and 7 – Not Used  

12.26:n

SYSTEM_FLAG.FLAG_27:n

UI1

Manages Comm Port 3 Security for FloBoss 107. Valid values are: 

0              = Disabled 

1              = Enabled; managed by password 

2              = Enabled; managed by passwoprd and access level security  

12.27:n

SYSTEM_FLAG.FLAG_28:n

UI1

Manages communications port 3 RTS for FloBoss 107 only,  0 = Disabled 1 = Enable for 30 seconds  

12.28:n

SYSTEM_FLAG.FLAG_29:n

UI1

Manages the configured number of daily history logs for FloBoss 107 only,  

12.29:n

Point Type 14 - Communication Port Items

ItemData TypeDescriptionT.P:L

PORT.TAG_ID:n

STRING

10 character name for the communications port.

14.0:n

PORT.BAUD_RATE:n

UI2

Transmit and receive data rate.

14.1:n

PORT.STOP_BITS:n

UI1

Number of stop bits in a character.

14.2:n

PORT.DATA_BITS:n

UI1

Number of data bits in a character.

14.3:n

PORT.PARITY:n

UI1

Parity checks to be performed on incoming data.

14.4:n

PORT.STATUS:n

UI1

Bitmask indicators of communications card status

•               Bit 0: No Port Installed (1  = No port installed, 0 = port installed)

•               Bit 1: RBX Enable (1  = RBX active,  0 = No RBX)

•               Bit 2: Not Used

•               Bit 3: Not Used

•               Bit 4: Not Used

•               Bit 5: Not Used

•               Bit 6: Not Used

•               Bit 7: User Configurable READ ONLY.

14.5:n

PORT.MODE:n

UI1

Bitmask settings of communications card

•       Bit 0: Not Used

•       Bit 1: Enable RBX (0 = RBX inactive, 1 = RBX message pending)

•       Bit 2: Enable Extra Key-On

•       Bit 3: Not Used

•       Bit 4: Not Used

•       Bit 5: Not Used

•       Bit 6: User Configurable Flag

•       Bit 7: User Configurable Flag

14.6:n

PORT.KEY_ON_DELAY:n

UI1

Push-to-talk delay in 50msec or 10msec intervals.

14.7:n

PORT.TURNAROUND_DELAY:n

UI1

Delay between receipt of a request and the transmission of a response, in 50msec or 10msec intervals.

14.8:n

PORT.RETRY_COUNT:n

UI1

Number of times a message is repeated if a valid response is not received.

14.9:n

PORT.RETRY_TIME:n

UI2

Key-on delay for RBXs over trunked communications systems in 50msec or 10msec intervals.

14.10:n

PORT.ALARM_POINTER:n

UI2

The pointer to the last alarm in the alarm log that triggered a RBX. READ ONLY.

14.11:n

PORT.RECV_COUNTER_COPY:n

UI2

Number of received messages  READ ONLY.

14.12:n

PORT.RETRY_COUNTER:n

UI2

Number of retries due to no response.  READ ONLY.

14.13:n

PORT.VALID_RECEIVE_CTR:n

UI2

Number of valid Opcodes received on this port.

14.14:n

PORT.MODEM_STATUS:n

UI1

READ ONLY. Note: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver. 1.05 and greater only.

14.15:n

PORT.MODEM_TYPE:n

UI1

Note: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver. 1.05 and greater only.

14.16:n

PORT.CONNECT_TIME:n

R4

Note: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver. 1.05 and greater only.

14.17:n

PORT.CONFIG_COMMAND:n

STRING

Note: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver. 1.05 and greater only.

14.18:n

PORT.CONNECT_COMMAND:n

STRING

Note: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver. 1.05 and greater only.

14.19:n

PORT.DISCONNECT_TIME:n

R4

Note: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver. 1.05 and greater only.

14.20:n

PORT.INACTIVITY_TIME:n

R4

Note: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver. 1.05 and greater only.

14.21:n

PORT.RBX_TIME_BASE_1:n

R4

Note: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver. 1.05 and greater only.

14.22:n

PORT.RBX_RETRY_COUNT_1:n

UI1

Note: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver. 1.05 and greater only.

14.23:n

PORT.RBX_TIME_BASE_2:n

R4

Note: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver. 1.05 and greater only.

14.24:n

PORT.RBX_RETRY_COUNT_2:n

UI1

Note: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver. 1.05 and greater only.

14.25:n

PORT.RBX_TIME_BASE_3:n

R4

Note: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver. 1.05 and greater only.

14.26:n

PORT.RBX_RETRY_COUNT_3:n

UI1

Note: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver. 1.05 and greater only.

14.27:n

PORT.RBX_UNIT:n

or 

PORT.RBX_ADDRESS:n  

UI1

Note: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver. 1.05 and greater only.

14.28:n

PORT.RBX_GROUP:n

UI1

Note: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver. 1.05 and greater only.

14.29:n

PORT.STORE_FORWARD_ADDR_

1:n

UI1

Note: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver. 1.05 and greater only.

14.30:n

PORT.STORE_FORWARD_GROU

P_1:n

UI1

Note: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver. 1.05 and greater only.

14.31:n

PORT.STORE_FORWARD_ADDR_

2:n

UI1

Note: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver. 1.05 and greater only.

14.32:n

PORT.STORE_FORWARD_GROU

P_2:n

UI1

Note: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver. 1.05 and greater only.

14.33:n

PORT.STORE_FORWARD_ADDR_

3:n

UI1

Note: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver. 1.05 and greater only.

14.34:n

PORT.STORE_FORWARD_GROU

P_3:n

UI1

Note: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver. 1.05 and greater only.

14.35:n

Point Type 14 – Port Items (Alternates)

ItemData TypeDescriptionT.P:L

PORT.RBX_ADDRESS:n

UI1

RBX Address

14.28:n

Point Type 15 - System Items

ItemData TypeDescriptionT.P:L

SYSTEM.ROC_UNIT or

SYSTEM.ROC_ADDRESS 

UI1

ROC unit address for communications. 

15.0:n

SYSTEM.ROC_GROUP

UI1

ROC group address for communications.

15.1:n

SYSTEM.STATION_NAME

STRING

 20 character name or location of the ROC.

15.2:n

SYSTEM.ACTIVE_PIDS

UI1

Number of PID loops that are enabled.

15.3:n

SYSTEM.ACTIVE_AGAS

UI1

Number of AGA calculations that are enabled.

15.4:n

SYSTEM.ACTIVE_TANKS

UI1

Number of Tank functions which are enabled.

15.5:n

SYSTEM.HISTORY_BASE

UI1

Number of Base RAM history points enabled.

15.6:n

SYSTEM.HISTORY_1

UI1

Number of RAM 1 history points enabled.

15.7:n

SYSTEM.HISTORY_2

UI1

Number of RAM 2 history points enabled.

15.8:n

SYSTEM.HISTORY_3

UI1

Number of RAM 3 history points enabled.

15.9:n

SYSTEM.CONTRACT_HOUR

UI1

Hour considered as start of day.

15.10:n

SYSTEM.PART_NUMBER

STRING

 Version name.  READ ONLY.

15.11:n

SYSTEM.FISHER_ID

STRING

 Firmware identification.

15.12:n

SYSTEM.TIME_CREATED

STRING

 Time and date when firmware was created.  READ ONLY.

15.13:n

SYSTEM.SERIAL_NUMBER

STRING

 ROM serial number.  READ ONLY.

15.14:n

SYSTEM.CUSTOMER_NAME

STRING

 Customer name for which the ROM version was created. READ ONLY.

15.15:n

SYSTEM.ROM_PIDS

UI1

Maximum PID loops supported.  READ ONLY.

15.16:n

SYSTEM.ROM_AGAS

UI1

Maximum AGA calculations supported.  READ ONLY.

15.17:n

SYSTEM.ROM_TANKS

UI1

Maximum Tank functions supported.  READ ONLY.

15.18:n

SYSTEM.FST_ACTIVE

UI1

Number of FSTs that can be run. READ ONLY.

15.19:n

SYSTEM.RAM

UI1

Number of 128K RAM segments.  READ ONLY.

15.20:n

SYSTEM.ROM

UI1

Number of 128K ROM segments.  READ ONLY.

15.21:n

SYSTEM.MPU_LOADING

R4

Percentage of time that processor is busy.  READ ONLY.

15.22:n

SYSTEM.UTILITIES

UI1

Bitmask utility code

•               Bit 0: AGA reports installed

•               Bit 1: LCD installed

•               Bit 2: COM1 User Enable

•               Bit 3: COM2 User Enable

•               Bit 4: User C Enable

•               Bit 5: Not Used

•               Bit 6: Not Used

•               Bit 7: Not Used READ ONLY.

15.23:n

SYSTEM.ROC_TYPE 

UI2

Read Only.

Note: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver.  1.05 and greater  only.

15.24:n

SYSTEM.UNITS_FLAG

UI1

Note: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver. 1.05 and greater only.

15.25:n

SYSTEM.ENCRYPT_KEY1

UI4

Encryption Key 1

15.26:n

SYSTEM.ENCRYPT_KEY2

UI4

Encryption Key 2

15.27:n

SYSTEM.ENCRYPT_KEY3

UI4

Encryption Key 3

15.28:n

SYSTEM.ENCRYPT_KEY4

UI4

Encryption Key 4

15.29:n

SYSTEM.ENCRYPT_KEY5

UI4

Encryption Key 5

15.30:n

SYSTEM.ENCRYPT_KEY6

UI4

Encryption Key 6

15.31:n

SYSTEM.ENCRYPT_KEY7

UI4

Encryption Key 7

15.32:n

SYSTEM.ENCRYPT_KEY8

UI4

Encryption Key 8

15.33:n

Point Type 15 – System Items (Alternates)

ItemData TypeDescriptionT.P:L

SYSTEM.ROC_ADDRESS:n

UI1

ROC Address

15.0:n

Point Type 16 - FST Items

ItemData TypeDescriptionT.P:L

FST.POINT_TAG_ID:n

STRING

10 character name for the FST.

16.0:n

FST.RESULT_REG:n

R4

The result register or SVA.

16.1:n

FST.REG_01:n

R4

Register used for global storage.

16.2:n

FST.REG_02:n

R4

Register used for global storage.

16.3:n

FST.REG_03:n

R4

Register used for global storage.

16.4:n

FST.REG_04:n

R4

Register used for global storage.

16.5:n

FST.REG_05:n

R4

Register used for global storage.

16.6:n

FST.REG_06:n

R4

Register used for global storage.

16.7:n

FST.REG_07:n

R4

Register used for global storage.

16.8:n

FST.REG_08:n

R4

Register used for global storage.

16.9:n

FST.REG_09:n

R4

Register used for global storage.

16.10:n

FST.REG_10:n

R4

Register used for global storage.

16.11:n

FST.TIMER_1:n

UI4

Timer value.

16.12:n

FST.TIMER_2:n

UI4

Timer value.

16.13:n

FST.TIMER_3:n

UI4

Timer value.

16.14:n

FST.TIMER_4:n

UI4

Timer value.

16.15:n

FST.MESSAGE_1:n

STRING

30 character field for storing a message.

16.16:n

FST.MESSAGE_2:n

STRING

30 character field for storing a message.

16.17:n

FST.MESSAGE_DATA:n

STRING

10 character field for message data.  READ ONLY.

16.18:n

FST.MISC_1:n

UI1

Eight bits of global storage.

16.19:n

FST.MISC_2:n

UI1

Eight bits of global storage.

16.20:n

FST.MISC_3:n

UI1

Eight bits of global storage.

16.21:n

FST.MISC_4:n

UI1

Eight bits of global storage.

16.22:n

FST.COMPARE_FLAG_SVD:n

UI1

Compare value of 0 - 255.

16.23:n

FST.RUN_FALG:n

UI1

Indicator of running status for FST (0 = shut down, 1 = running).

16.24:n

FST.CODE_SIZE:n

UI2

Number of bytes used by the FST.

NOTE: This item is supported in FB 100 series, FB 407, and ROC 300 Series only.

16.25:n

FST.INSTRUCTION_POINTER:n


R4

Location in memory of next function to be executed.

NOTE: This item is supported in FB 500 Series, FB 100 Series, FB 407, and ROC 300 Series only.

16.26:n

FST.EXECUTION_DELAY:n

UI2

Delay in 100 msec. periods between FST commands.

16.27:n

FST.MSG2_DATA

STRING

Message #2 Data (for FB107): MS2 function puts its value into this parameter. 

16.28:n

Point Type 17 - Soft Point Items

ItemData TypeDescriptionT.P:L

SOFT_POINT.POINT_TAG_ID:n

STRING

10 character name of soft point.

17.0:n

SOFT_POINT.INTEGER_FLAG:n

UI2

Integer flag used by FST or User program.

17.1:n

SOFT_POINT.DATA_01:n

R4

Where n represents the Soft Point numbers 1 to 32 using a zero based decimal number of 0 to 31.

17.2:n

SOFT_POINT.DATA_02:n

R4

Where n represents the Soft Point numbers 1 to 32 using a zero based decimal number of 0 to 31.

17.3:n

SOFT_POINT.DATA_03:n

R4

Where n represents the Soft Point numbers 1 to 32 using a zero based decimal number of 0 to 31.

17.4:n

SOFT_POINT.DATA_04:n

R4

Where n represents the Soft Point numbers 1 to 32 using a zero based decimal number of 0 to 31.

17.5:n

SOFT_POINT.DATA_05:n

R4

Where n represents the Soft Point numbers 1 to 32 using a zero based decimal number of 0 to 31.

17.6:n

SOFT_POINT.DATA_06:n

R4

Where n represents the Soft Point numbers 1 to 32 using a zero based decimal number of 0 to 31.

17.7:n

SOFT_POINT.DATA_07:n

R4

Where n represents the Soft Point numbers 1 to 32 using a zero based decimal number of 0 to 31.

17.8:n

SOFT_POINT.DATA_08:n

R4

Where n represents the Soft Point numbers 1 to 32 using a zero based decimal number of 0 to 31.

17.9:n

SOFT_POINT.DATA_09:n

R4

Where n represents the Soft Point numbers 1 to 32 using a zero based decimal number of 0 to 31.

17.10:n

SOFT_POINT.DATA_10:n

R4

Where n represents the Soft Point numbers 1 to 32 using a zero based decimal number of 0 to 31.

17.11:n

SOFT_POINT.DATA_11:n

R4

Where n represents the Soft Point numbers 1 to 32 using a zero based decimal number of 0 to 31.

17.12:n

SOFT_POINT.DATA_12:n

R4

Where n represents the Soft Point numbers 1 to 32 using a zero based decimal number of 0 to 31.

17.13:n

SOFT_POINT.DATA_13:n

R4

Where n represents the Soft Point numbers 1 to 32 using a zero based decimal number of 0 to 31.

17.14:n

SOFT_POINT.DATA_14:n

R4

Where n represents the Soft Point numbers 1 to 32 using a zero based decimal number of 0 to 31.

17.15:n

SOFT_POINT.DATA_15:n

R4

Where n represents the Soft Point numbers 1 to 32 using a zero based decimal number of 0 to 31.

17.16:n

SOFT_POINT.DATA_16:n

R4

Where n represents the Soft Point numbers 1 to 32 using a zero based decimal number of 0 to 31.

17.17:n

SOFT_POINT.DATA_17:n

R4

Where n represents the Soft Point numbers 1 to 32 using a zero based decimal number of 0 to 31.

17.18:n

SOFT_POINT.DATA_18:n

R4

Where n represents the Soft Point numbers 1 to 32 using a zero based decimal number of 0 to 31.

17.19:n

SOFT_POINT.DATA_19:n

R4

Where n represents the Soft Point numbers 1 to 32 using a zero based decimal number of 0 to 31.

17.20:n

SOFT_POINT.DATA_20:n

R4

Where n represents the Soft Point numbers 1 to 32 using a zero based decimal number of 0 to 31.

17.21:n

SOFT_POINT.SOFT_POINT_LOGGING

UI1

Controls soft point logging. Valid values are: 

0  (Enable logging) 

1  (Disable logging)  

17.22:n

Point Type 19 - Database Items

ItemData TypeDescriptionT.P:L

DATABASE.POINTER_TO_TAG:n

R4

Memory pointer to database tag.  READ ONLY.

19.0:n

DATABASE.ARCHIVE_TYPE:n

UI1

Archive type of database point.

19.1:n

DATABASE.POINT_TYPE:n

UI1

Point type of database point.

19.2:n

DATABASE.POINT_LOGIC_NUM:n

UI1

Point logic number of database point.

19.3:n

DATABASE.PARAMETER_NUM:n

UI1

Parameter number of database point.

19.4:n

DATABASE.TOTAL_YD:n

R4

NOTE: This item is supported in FB 500 series, ROC 300 FlashPACs and FB 407 ver. 1.05 and greater only.

19.5:n

DATABASE_LAST_DAILY_VALUE:n

R4

Last Daily Value (FloBoss 500-Series, FloBoss 100-Series, FlashPACs, FloBoss 407 version 1.05 or greater, and RegFlo)  

19.6:n

DATABASE_LAST_HOUR_TOTAL:n


LAST HOUR’S TOTAL (FLOBOSS 103/104 VERSION 2.00 OR GREATER AND FLOBOSS 107)  

19.7:n

DATABASE_USER_TEXT_1:n

STRING

USER-SPECIFIED TEXT TYPICALLY USED FOR HISTORY VALUE UNITS.  

DEFAULT VALUES FOR FB107: LOGICAL  

0: “MINUTES…” LOGICAL  

1: “INH2)…..” LOGICAL  

2: “PSIG……” LOGICAL  

3: “DEG F “ LOGICAL  

4: “……….” LOGICAL  5: “……….” LOGICAL  

6: “MCF…….” LOGICAL  

7: “MMBTU…..” LOGICALS  

8 – 99: “……….”  


Point Type 20 - Task Parameter Items

ItemData TypeDescriptionT.P:L

TASK.STACK_POINTER:n

UI2

Pointer to task.  READ ONLY.

20.0:n

TASK.STACK_SEGMENT:n

UI2

Stack segment used by task.  READ ONLY.

20.1:n

TASK.PRIORITY:n

UI1

Priority of task. READ ONLY.

20.2:n

TASK.STATUS:n

UI1

Status value of task.

20.3:n

TASK.TASK_NAME:n

STRING

10 character name of task.  READ ONLY.

20.4:n

TASK.CHILD:n

R4

Child identifier of task. READ ONLY.

20.5:n

TASK.ENTRY_TIME:n

UI2

Time of entry of last execution.  READ ONLY.

20.6:n

TASK.EXIT_TIME:n

UI2

Time of exit of last execution.  READ ONLY.

20.7:n

Point Type 20 - User Defined Items 

Note

These items are defined using “T.P:L<Data Type>” where “Data Type” is defined in Section 9.1.8 – TLP Data Type for user defined points.

Point Type 32 – MODBUS CONFIG A1 Items

ItemData TypeDescriptionT.P:L

MODBUS_CONFIG_A_1.STATUS

I1

Modem status.

32.0:n

MODBUS_CONFIG_A_1.MODEM_TYPE

STRING

Modem type.

32.1:n

MODBUS_CONFIG_A_1.CONNECT_TIME

UI2

Connect time.

32.2:n

MODBUS_CONFIG_A_1.CONFIG_COMMAND

STRING

Config command.

32.3:n

MODBUS_CONFIG_A_1.RTU_ADDR_1

UI1

1st RTU Address

32.4:n

MODBUS_CONFIG_A_1.RTU_ADDR_2

UI1

2nd RTU Address

32.5:n

MODBUS_CONFIG_A_1.RTU_ADDR_3

UI1

3rd RTU Address

32.6:n

MODBUS_CONFIG_A_1.RTU_ADDR_4

UI1

4th RTU Address

32.7:n

MODBUS_CONFIG_A_1.RTU_ADDR_5

UI1

5th RTU Address

32.8:n

MODBUS_CONFIG_A_1.RTU_ADDR_6

UI1

6th RTU Address

32.9:n

MODBUS_CONFIG_A_1.CONNECT_COMMAND_1

STRING

1st connect command

32.10:n

MODBUS_CONFIG_A_1.CONNECT_COMMAND_2

STRING

2nd connect command

32.11:n

MODBUS_CONFIG_A_1.CONNECT_COMMAND_3

STRING

3rd connect command

32.12:n

MODBUS_CONFIG_A_1.CONNECT_COMMAND_4

STRING

4th connect command

32.13:n

MODBUS_CONFIG_A_1.CONNECT_COMMAND_5

STRING

5th connect command

32.14:n

MODBUS_CONFIG_A_1.CONNECT_COMMAND_6

STRING

6th connect command

32.15:n

MODBUS_CONFIG_A_1.DISCONNECT_TIME

UI2

Disconnect time

32.16:n

Point Type 33 – MODBUS CONFIG A2 Items

ItemData TypeDescriptionT.P:L

MODBUS_CONFIG_A_2.STATUS

I1

 Modem status.

33.0:n

MODBUS_CONFIG_A_2.MODEM_TYPE

STRING

  Modem type.

33.1:n

MODBUS_CONFIG_A_2.CONNECT_TIME

UI2

 Connect time.

33.2:n

MODBUS_CONFIG_A_2.CONFIG_COMMAND

STRING

  Config command.

33.3:n

MODBUS_CONFIG_A_2.RTU_ADDR_1

UI1

1st RTU Address

33.4:n

MODBUS_CONFIG_A_2.RTU_ADDR_2

UI1

2nd RTU Address

33.5:n

MODBUS_CONFIG_A_2.RTU_ADDR_3

UI1

3rd RTU Address

33.6:n

MODBUS_CONFIG_A_2.RTU_ADDR_4

UI1

4th RTU Address

33.7:n

MODBUS_CONFIG_A_2.RTU_ADDR_5

UI1

5th RTU Address

33.8:n

MODBUS_CONFIG_A_2.RTU_ADDR_6

UI1

6th RTU Address

33.9:n

MODBUS_CONFIG_A_2.CONNECT_COMMAND_1

STRING

 1st connect command

33.10:n

MODBUS_CONFIG_A_2.CONNECT_COMMAND_2

STRING

 2nd connect command

33.11:n

MODBUS_CONFIG_A_2.CONNECT_COMMAND_3

STRING

 3rd connect command

33.12:n

MODBUS_CONFIG_A_2.CONNECT_COMMAND_4

STRING

 4th connect command

33.13:n

MODBUS_CONFIG_A_2.CONNECT_COMMAND_5

STRING

 5th connect command

33.14:n

MODBUS_CONFIG_A_2.CONNECT_COMMAND_6

STRING

 6th connect command

33.15:n

MODBUS_CONFIG_A_2.DISCONNECT_TIME

UI2

Disconnect time

33.16:n

Point Type 34 – MODBUS CONFIG B1 Items

ItemData TypeDescriptionT.P:L

MODBUS_CONFIG_B_1.RTU

UI1

Format (RTU or ASCII)

34.0:n

MODBUS_CONFIG_B_1.BYTE_ORDER_MSB

UI1

Byte Order 

34.1:n

MODBUS_CONFIG_B_1.HOST_ENABLE

UI1

Host Enable

34.2:n

MODBUS_CONFIG_B_1.LOG_DATA

UI1

Log Data

34.3:n

MODBUS_CONFIG_B_1.INIT_MEMORY

UI1

Init Memory

34.4:n

MODBUS_CONFIG_B_1.PORT_SWITCH_ENABLE

UI1

Port Switch Enabled

34.5:n

MODBUS_CONFIG_B_1.DCD_DI_SPT

UI2

DCD, DI, or SPT

34.6:n

MODBUS_CONFIG_B_1.MODBUS_BAUD_RATE

UI2

Modbus Baud Rate

34.7:n

MODBUS_CONFIG_B_1.SWITCH_BAUD_RATE

UI2

Switch Baud Rate

34.8:n

MODBUS_CONFIG_B_1.INPUT_DATA_START

UI2

Input Data Start

34.9:n

MODBUS_CONFIG_B_1.OUTPUT_DATA_START

UI2

Output Data Start

34.10:n

MODBUS_CONFIG_B_1.HI_INTEGER_SCALE

I2

HI Integer Scale

34.11:n

MODBUS_CONFIG_B_1.LOW_INTEGER_SCALE

I2

LOW Integer Scale

34.12:n

MODBUS_CONFIG_B_1.HI_FLOAT_SCALE_1

R4

HI Float Scale 1

34.13:n

MODBUS_CONFIG_B_1.LO_FLOAT_SCALE_1

R4

LOW Float Scale 1

34.14:n

MODBUS_CONFIG_B_1.HI_FLOAT_SCALE_2

R4

HI Float Scale 2

34.15:n

MODBUS_CONFIG_B_1.LO_FLOAT_SCALE_2

R4

LOW Float Scale 2

34.16:n

MODBUS_CONFIG_B_1.HI_FLOAT_SCALE_3

R4

HI Float Scale 3

34.17:n

MODBUS_CONFIG_B_1.LO_FLOAT_SCALE_3

R4

LOW Float Scale 3

34.18:n

MODBUS_CONFIG_B_1.HI_FLOAT_SCALE_4

R4

HI Float Scale 4

34.19:n

MODBUS_CONFIG_B_1.LO_FLOAT_SCALE_4

R4

LOW Float Scale 4

34.20:n

MODBUS_CONFIG_B_1.HI_FLOAT_SCALE_5

R4

HI Float Scale 5

34.21:n

MODBUS_CONFIG_B_1.LO_FLOAT_SCALE_5

R4

LOW Float Scale 5

34.22:n

MODBUS_CONFIG_B_1.HI_FLOAT_SCALE_6

R4

HI Float Scale 6

34.23:n

MODBUS_CONFIG_B_1.LO_FLOAT_SCALE_6

R4

LOW Float Scale 6

34.24:n

MODBUS_CONFIG_B_1.HI_FLOAT_SCALE_7

R4

HI Float Scale 7

34.25:n

MODBUS_CONFIG_B_1.LO_FLOAT_SCALE_7

R4

LOW Float Scale 7

34.26:n

MODBUS_CONFIG_B_1.HI_FLOAT_SCALE_8

R4

HI Float Scale 8

34.27:n

MODBUS_CONFIG_B_1.LO_FLOAT_SCALE_8

R4

LOW Float Scale 8

34.28:n

Point Type 35 – FUNCTION CONFIG 1 Items

ItemData TypeDescriptionT.P:L

FUNCTION_CONFIG_1.FUNCTION_TAG_ID

 STRING

 10 character name of Function Config 1 Item.

35.0:n

FUNCTION_CONFIG_1.START_ADDR_01

UI2

Start Address 1

35.1:n

FUNCTION_CONFIG_1.END_ADDR_01

UI2

End Address 1

35.2:n

FUNCTION_CONFIG_1.TYPE_01

UI1

Type 1

35.3:n

FUNCTION_CONFIG_1.LGL_01

UI1

Logical Number 1

35.4:n

FUNCTION_CONFIG_1.PARAM_01

UI1

Parameter 1

35.5:n

FUNCTION_CONFIG_1.CONV_01

UI1

Conversion 1

35.6:n

FUNCTION_CONFIG_1.START_ADDR_02

UI2

Start Address 2

35.7:n

FUNCTION_CONFIG_1.END_ADDR_02

UI2

End Address 2

35.8:n

FUNCTION_CONFIG_1.TYPE_02

UI1

Type 2

35.9:n

FUNCTION_CONFIG_1.LGL_02

UI1

Logical Number 2

35.10:n

FUNCTION_CONFIG_1.PARAM_02

UI1

Parameter 2

35.11:n

FUNCTION_CONFIG_1.CONV_02

UI1

Conversion 2

35.12:n

FUNCTION_CONFIG_1.START_ADDR_03

UI2

Start Address 3

35.13:n

FUNCTION_CONFIG_1.END_ADDR_03

UI2

End Address 3

35.14:n

FUNCTION_CONFIG_1.TYPE_03

UI1

Type 3

35.15:n

FUNCTION_CONFIG_1.LGL_03

UI1

Logical Number 3

35.16:n

FUNCTION_CONFIG_1.PARAM_03

UI1

Parameter 3

35.17:n

FUNCTION_CONFIG_1.CONV_03

UI1

Conversion 3

35.18:n

FUNCTION_CONFIG_1.START_ADDR_04

UI2

Start Address 4

35.19:n

FUNCTION_CONFIG_1.END_ADDR_04

UI2

End Address 4

35.20:n

FUNCTION_CONFIG_1.TYPE_04

UI1

Type 4

35.21:n

FUNCTION_CONFIG_1.LGL_04

UI1

Logical Number 4

35.22:n

FUNCTION_CONFIG_1.PARAM_04

UI1

Parameter 4

35.23:n

FUNCTION_CONFIG_1.CONV_04

UI1

Conversion 4

35.24:n

FUNCTION_CONFIG_1.START_ADDR_05

UI2

Start Address 5

35.25:n

FUNCTION_CONFIG_1.END_ADDR_05

UI2

End Address 5

35.26:n

FUNCTION_CONFIG_1.TYPE_05

UI1

Type 5

35.27:n

FUNCTION_CONFIG_1.LGL_05

UI1

Logical Number 5

35.28:n

FUNCTION_CONFIG_1.PARAM_05

UI1

Parameter 5

35.29:n

FUNCTION_CONFIG_1.CONV_05

UI1

Conversion 5

35.30:n

FUNCTION_CONFIG_1.START_ADDR_06

UI2

Start Address 6

35.31:n

FUNCTION_CONFIG_1.END_ADDR_06

UI2

End Address 6

35.32:n

FUNCTION_CONFIG_1.TYPE_06

UI1

Type 6

35.33:n

FUNCTION_CONFIG_1.LGL_06

UI1

Logical Number 6

35.34:n

FUNCTION_CONFIG_1.PARAM_06

UI1

Parameter 6

35.35:n

FUNCTION_CONFIG_1.CONV_06

UI1

Conversion 6

35.36:n

FUNCTION_CONFIG_1.START_ADDR_07

UI2

Start Address 7

35.37:n

FUNCTION_CONFIG_1.END_ADDR_07

UI2

End Address 7

35.38:n

FUNCTION_CONFIG_1.TYPE_07

UI1

Type 7

35.39:n

FUNCTION_CONFIG_1.LGL_07

UI1

Logical Number 7

35.40:n

FUNCTION_CONFIG_1.PARAM_07

UI1

Parameter 7

35.41:n

FUNCTION_CONFIG_1.CONV_07

UI1

Conversion 7

35.42:n

FUNCTION_CONFIG_1.START_ADDR_08

UI2

Start Address 8

35.43:n

FUNCTION_CONFIG_1.END_ADDR_08

UI2

End Address 8

35.44:n

FUNCTION_CONFIG_1.TYPE_08

UI1

Type 8

35.45:n

FUNCTION_CONFIG_1.LGL_08

UI1

Logical Number 8

35.46:n

FUNCTION_CONFIG_1.PARAM_08

UI1

Parameter 8

35.47:n

FUNCTION_CONFIG_1.CONV_08

UI1

Conversion 8

35.48:n

FUNCTION_CONFIG_1.START_ADDR_09

UI2

Start Address 9

35.49:n

FUNCTION_CONFIG_1.END_ADDR_09

UI2

End Address 9

35.50:n

FUNCTION_CONFIG_1.TYPE_09

UI1

Type 9

35.51:n

FUNCTION_CONFIG_1.LGL_09

UI1

Logical Number 9

35.52:n

FUNCTION_CONFIG_1.PARAM_09

UI1

Parameter 9

35.53:n

FUNCTION_CONFIG_1.CONV_09

UI1

Conversion 9

35.54:n

FUNCTION_CONFIG_1.START_ADDR_10

UI2

Start Address 10

35.55:n

FUNCTION_CONFIG_1.END_ADDR_10

UI2

End Address 10

35.56:n

FUNCTION_CONFIG_1.TYPE_10

UI1

Type 10

35.57:n

FUNCTION_CONFIG_1.LGL_10

UI1

Logical Number 10

35.58:n

FUNCTION_CONFIG_1.PARAM_10

UI1

Parameter 10

35.59:n

FUNCTION_CONFIG_1.CONV_10

UI1

Conversion 10

35.60:n

Point Type 36 – HOST CONFIG 1 Items

ItemData TypeDescriptionT.P:L

HOST_CONFIG_1.HOST_TAG_ID

STRING

 10 character name of Host Config 1 Item.

36.0:n

HOST_CONFIG_1.RTU_ADDR_01

UI1

0 RTU Address

36.1:n

HOST_CONFIG_1.FNC_NUM_01

UI1

0 Function Number

36.2:n

HOST_CONFIG_1.REG_NUM_01

UI2

0 Register Number

36.3:n

HOST_CONFIG_1.SAVE_NUM_01

UI2

0 Slave Number

36.4:n

HOST_CONFIG_1.NUM_REGS_01

UI1

0 Number of Registers

36.5:n

HOST_CONFIG_1.STATUS_01

UI1

0 Status

36.6:n

HOST_CONFIG_1.RTU_ADDR_02

UI1

1 RTU Address

36.7:n

HOST_CONFIG_1.FNC_NUM_02

UI1

1 Function Number

36.8:n

HOST_CONFIG_1.REG_NUM_02

UI2

1 Register Number

36.9:n

HOST_CONFIG_1.SAVE_NUM_02

UI2

1 Slave Number

36.10:n

HOST_CONFIG_1.NUM_REGS_02

UI1

1 Number of Registers

36.11:n

HOST_CONFIG_1.STATUS_02

UI1

1 Status

36.12:n

HOST_CONFIG_1.RTU_ADDR_03

UI1

2 RTU Address

36.13:n

HOST_CONFIG_1.FNC_NUM_03

UI1

2 Function Number

36.14:n

HOST_CONFIG_1.REG_NUM_03

UI2

2 Register Number

36.15:n

HOST_CONFIG_1.SAVE_NUM_03

UI2

2 Slave Number

36.16:n

HOST_CONFIG_1.NUM_REGS_03

UI1

2 Number of Registers

36.17:n

HOST_CONFIG_1.STATUS_03

UI1

2 Status

36.18:n

HOST_CONFIG_1.RTU_ADDR_04

UI1

3 RTU Address

36.19:n

HOST_CONFIG_1.FNC_NUM_04

UI1

3 Function Number

36.20:n

HOST_CONFIG_1.REG_NUM_04

UI2

3 Register Number

36.21:n

HOST_CONFIG_1.SAVE_NUM_04

UI2

3 Slave Number

36.22:n

HOST_CONFIG_1.NUM_REGS_04

UI1

3 Number of Registers

36.23:n

HOST_CONFIG_1.STATUS_04

UI1

3 Status

36.24:n

HOST_CONFIG_1.RTU_ADDR_05

UI1

4 RTU Address

36.25:n

HOST_CONFIG_1.FNC_NUM_05

UI1

4 Function Number

36.26:n

HOST_CONFIG_1.REG_NUM_05

UI2

4 Register Number

36.27:n

HOST_CONFIG_1.SAVE_NUM_05

UI2

4 Slave Number

36.28:n

HOST_CONFIG_1.NUM_REGS_05

UI1

4 Number of Registers

36.29:n

HOST_CONFIG_1.STATUS_05

UI1

4 Status

36.30:n

HOST_CONFIG_1.RTU_ADDR_06

UI1

5 RTU Address

36.31:n

HOST_CONFIG_1.FNC_NUM_06

UI1

5 Function Number

36.32:n

HOST_CONFIG_1.REG_NUM_06

UI2

5 Register Number

36.33:n

HOST_CONFIG_1.SAVE_NUM_06

UI2

5 Slave Number

36.34:n

HOST_CONFIG_1.NUM_REGS_06

UI1

5 Number of Registers

36.35:n

HOST_CONFIG_1.STATUS_06

UI1

5 Status

36.36:n

HOST_CONFIG_1.RTU_ADDR_07

UI1

6 RTU Address

36.37:n

HOST_CONFIG_1.FNC_NUM_07

UI1

6 Function Number

36.38:n

HOST_CONFIG_1.REG_NUM_07

UI2

6 Register Number

36.39:n

HOST_CONFIG_1.SAVE_NUM_07

UI2

6 Slave Number

36.40:n

HOST_CONFIG_1.NUM_REGS_07

UI1

6 Number of Registers

36.41:n

HOST_CONFIG_1.STATUS_07

UI1

6 Status

36.42:n

HOST_CONFIG_1.RTU_ADDR_08

UI1

7 RTU Address

36.43:n

HOST_CONFIG_1.FNC_NUM_08

UI1

7 Function Number

36.44:n

HOST_CONFIG_1.REG_NUM_08

UI2

7 Register Number

36.45:n

HOST_CONFIG_1.SAVE_NUM_08

UI2

7 Slave Number

36.46:n

HOST_CONFIG_1.NUM_REGS_08

UI1

7 Number of Registers

36.47:n

HOST_CONFIG_1.STATUS_08

UI1

7 Status

36.48:n

HOST_CONFIG_1.RTU_ADDR_09

UI1

8 RTU Address

36.49:n

HOST_CONFIG_1.FNC_NUM_09

UI1

8 Function Number

36.50:n

HOST_CONFIG_1.REG_NUM_09

UI2

8 Register Number

36.51:n

HOST_CONFIG_1.SAVE_NUM_09

UI2

8 Slave Number

36.52:n

HOST_CONFIG_1.NUM_REGS_09

UI1

8 Number of Registers

36.53:n

HOST_CONFIG_1.STATUS_09

UI1

8 Status

36.54:n

HOST_CONFIG_1.RTU_ADDR_10

UI1

9 RTU Address

36.55:n

HOST_CONFIG_1.FNC_NUM_10

UI1

9 Function Number

36.56:n

HOST_CONFIG_1.REG_NUM_10

UI2

9 Register Number

36.57:n

HOST_CONFIG_1.SAVE_NUM_10

UI2

9 Slave Number

36.58:n

HOST_CONFIG_1.NUM_REGS_10

UI1

9 Number of Registers

36.59:n

HOST_CONFIG_1.STATUS_10

UI1

9 Status

36.60:n

Point Type 37 – MODBUS CONFIG B2 Items

ItemData TypeDescriptionT.P:L

MODBUS_CONFIG_B_2.RTU

UI1

Format (RTU or ASCII)

37.0:n

MODBUS_CONFIG_B_2.BYTE_ORDER_MSB

UI1

Byte Order 

37.1:n

MODBUS_CONFIG_B_2.HOST_ENABLE

UI1

Host Enable

37.2:n

MODBUS_CONFIG_B_2.LOG_DATA

UI1

Log Data

37.3:n

MODBUS_CONFIG_B_2.INIT_MEMORY

UI1

Init Memory

37.4:n

MODBUS_CONFIG_B_2.PORT_SWITCH_ENABLE

UI1

Port Switch Enabled

37.5:n

MODBUS_CONFIG_B_2.DCD_DI_SPT

UI2

DCD, DI, or SPT

37.6:n

MODBUS_CONFIG_B_2.MODBUS_BAUD_RATE

UI2

Modbus Baud Rate

37.7:n

MODBUS_CONFIG_B_2.SWITCH_BAUD_RATE

UI2

Switch Baud Rate

37.8:n

MODBUS_CONFIG_B_2.INPUT_DATA_START

UI2

Input Data Start

37.9:n

MODBUS_CONFIG_B_2.OUTPUT_DATA_START

UI2

Output Data Start

37.10:n

MODBUS_CONFIG_B_2.HI_INTEGER_SCALE

I2

HI Integer Scale

37.11:n

MODBUS_CONFIG_B_2.LOW_INTEGER_SCALE

I2

LOW Integer Scale

37.12:n

MODBUS_CONFIG_B_2.HI_FLOAT_SCALE_1

R4

HI Float Scale 1

37.13:n

MODBUS_CONFIG_B_2.LO_FLOAT_SCALE_1

R4

LOW Float Scale 1

37.14:n

MODBUS_CONFIG_B_2.HI_FLOAT_SCALE_2

R4

HI Float Scale 2

37.15:n

MODBUS_CONFIG_B_2.LO_FLOAT_SCALE_2

R4

LOW Float Scale 2

37.16:n

MODBUS_CONFIG_B_2.HI_FLOAT_SCALE_3

R4

HI Float Scale 3

37.17:n

MODBUS_CONFIG_B_2.LO_FLOAT_SCALE_3

R4

LOW Float Scale 3

37.18:n

MODBUS_CONFIG_B_2.HI_FLOAT_SCALE_4

R4

HI Float Scale 4

37.19:n

MODBUS_CONFIG_B_2.LO_FLOAT_SCALE_4

R4

LOW Float Scale 4

37.20:n

MODBUS_CONFIG_B_2.HI_FLOAT_SCALE_5

R4

HI Float Scale 5

37.21:n

MODBUS_CONFIG_B_2.LO_FLOAT_SCALE_5

R4

LOW Float Scale 5

37.22:n

MODBUS_CONFIG_B_2.HI_FLOAT_SCALE_6

R4

HI Float Scale 6

37.23:n

MODBUS_CONFIG_B_2.LO_FLOAT_SCALE_6

R4

LOW Float Scale 6

37.24:n

MODBUS_CONFIG_B_2.HI_FLOAT_SCALE_7

R4

HI Float Scale 7

37.25:n

MODBUS_CONFIG_B_2.LO_FLOAT_SCALE_7

R4

LOW Float Scale 7

37.26:n

MODBUS_CONFIG_B_2.HI_FLOAT_SCALE_8

R4

HI Float Scale 8

37.27:n

MODBUS_CONFIG_B_2.LO_FLOAT_SCALE_8

R4

LOW Float Scale 8

37.28:n

Point Type 38 – FUNCTION CONFIG 2 Items

ItemData TypeDescriptionT.P:L

FUNCTION_CONFIG_2.FUNCTION_TAG_ID

 STRING

  10 character name of Function Config 2 Item.

38.0:n

FUNCTION_CONFIG_2.START_ADDR_01

UI2

Start Address 1

38.1:n

FUNCTION_CONFIG_2.END_ADDR_01

UI2

End Address 1

38.2:n

FUNCTION_CONFIG_2.TYPE_01

UI1

Type 1

38.3:n

FUNCTION_CONFIG_2.LGL_01

UI1

Logical Number 1

38.4:n

FUNCTION_CONFIG_2.PARAM_01

UI1

Parameter 1

38.5:n

FUNCTION_CONFIG_2.CONV_01

UI1

Conversion 1

38.6:n

FUNCTION_CONFIG_2.START_ADDR_02

UI2

Start Address 2

38.7:n

FUNCTION_CONFIG_2.END_ADDR_02

UI2

End Address 2

38.8:n

FUNCTION_CONFIG_2.TYPE_02

UI1

Type 2

38.9:n

FUNCTION_CONFIG_2.LGL_02

UI1

Logical Number 2

38.10:n

FUNCTION_CONFIG_2.PARAM_02

UI1

Parameter 2

38.11:n

FUNCTION_CONFIG_2.CONV_02

UI1

Conversion 2

38.12:n

FUNCTION_CONFIG_2.START_ADDR_03

UI2

Start Address 3

38.13:n

FUNCTION_CONFIG_2.END_ADDR_03

UI2

End Address 3

38.14:n

FUNCTION_CONFIG_2.TYPE_03

UI1

Type 3

38.15:n

FUNCTION_CONFIG_2.LGL_03

UI1

Logical Number 3

38.16:n

FUNCTION_CONFIG_2.PARAM_03

UI1

Parameter 3

38.17:n

FUNCTION_CONFIG_2.CONV_03

UI1

Conversion 3

38.18:n

FUNCTION_CONFIG_2.START_ADDR_04

UI2

Start Address 4

38.19:n

FUNCTION_CONFIG_2.END_ADDR_04

UI2

End Address 4

38.20:n

FUNCTION_CONFIG_2.TYPE_04

UI1

Type 4

38.21:n

FUNCTION_CONFIG_2.LGL_04

UI1

Logical Number 4

38.22:n

FUNCTION_CONFIG_2.PARAM_04

UI1

Parameter 4

38.23:n

FUNCTION_CONFIG_2.CONV_04

UI1

Conversion 4

38.24:n

FUNCTION_CONFIG_2.START_ADDR_05

UI2

Start Address 5

38.25:n

FUNCTION_CONFIG_2.END_ADDR_05

UI2

End Address 5

38.26:n

FUNCTION_CONFIG_2.TYPE_05

UI1

Type 5

38.27:n

FUNCTION_CONFIG_2.LGL_05

UI1

Logical Number 5

38.28:n

FUNCTION_CONFIG_2.PARAM_05

UI1

Parameter 5

38.29:n

FUNCTION_CONFIG_2.CONV_05

UI1

Conversion 5

38.30:n

FUNCTION_CONFIG_2.START_ADDR_06

UI2

Start Address 6

38.31:n

FUNCTION_CONFIG_2.END_ADDR_06

UI2

End Address 6

38.32:n

FUNCTION_CONFIG_2.TYPE_06

UI1

Type 6

38.33:n

FUNCTION_CONFIG_2.LGL_06

UI1

Logical Number 6

38.34:n

FUNCTION_CONFIG_2.PARAM_06

UI1

Parameter 6

38.35:n

FUNCTION_CONFIG_2.CONV_06

UI1

Conversion 6

38.36:n

FUNCTION_CONFIG_2.START_ADDR_07

UI2

Start Address 7

38.37:n

FUNCTION_CONFIG_2.END_ADDR_07

UI2

End Address 7

38.38:n

FUNCTION_CONFIG_2.TYPE_07

UI1

Type 7

38.39:n

FUNCTION_CONFIG_2.LGL_07

UI1

Logical Number 7

38.40:n

FUNCTION_CONFIG_2.PARAM_07

UI1

Parameter 7

38.41:n

FUNCTION_CONFIG_2.CONV_07

UI1

Conversion 7

38.42:n

FUNCTION_CONFIG_2.START_ADDR_08

UI2

Start Address 8

38.43:n

FUNCTION_CONFIG_2.END_ADDR_08

UI2

End Address 8

38.44:n

FUNCTION_CONFIG_2.TYPE_08

UI1

Type 8

38.45:n

FUNCTION_CONFIG_2.LGL_08

UI1

Logical Number 8

38.46:n

FUNCTION_CONFIG_2.PARAM_08

UI1

Parameter 8

38.47:n

FUNCTION_CONFIG_2.CONV_08

UI1

Conversion 8

38.48:n

FUNCTION_CONFIG_2.START_ADDR_09

UI2

Start Address 9

38.49:n

FUNCTION_CONFIG_2.END_ADDR_09

UI2

End Address 9

38.50:n

FUNCTION_CONFIG_2.TYPE_09

UI1

Type 9

38.51:n

FUNCTION_CONFIG_2.LGL_09

UI1

Logical Number 9

38.52:n

FUNCTION_CONFIG_2.PARAM_09

UI1

Parameter 9

38.53:n

FUNCTION_CONFIG_2.CONV_09

UI1

Conversion 9

38.54:n

FUNCTION_CONFIG_2.START_ADDR_10

UI2

Start Address 10

38.55:n

FUNCTION_CONFIG_2.END_ADDR_10

UI2

End Address 10

38.56:n

FUNCTION_CONFIG_2.TYPE_10

UI1

Type 10

38.57:n

FUNCTION_CONFIG_2.LGL_10

UI1

Logical Number 10

38.58:n

FUNCTION_CONFIG_2.PARAM_10

UI1

Parameter 10

38.59:n

FUNCTION_CONFIG_2.CONV_10

UI1

Conversion 10

38.60:n

Point Type 39 – HOST CONFIG 2 Items

ItemData TypeDescriptionT.P:L

HOST_CONFIG_2.HOST_TAG_ID

STRING

 10 character name of Host Config 1 Item.

39.0:n

HOST_CONFIG_2.RTU_ADDR_01

UI1

0 RTU Address

39.1:n

HOST_CONFIG_2.FNC_NUM_01

UI1

0 Function Number

39.2:n

HOST_CONFIG_2.REG_NUM_01

UI2

0 Register Number

39.3:n

HOST_CONFIG_2.SAVE_NUM_01

UI2

0 Slave Number

39.4:n

HOST_CONFIG_2.NUM_REGS_01

UI1

0 Number of Registers

39.5:n

HOST_CONFIG_2.STATUS_01

UI1

0 Status

39.6:n

HOST_CONFIG_2.RTU_ADDR_02

UI1

1 RTU Address

39.7:n

HOST_CONFIG_2.FNC_NUM_02

UI1

1 Function Number

39.8:n

HOST_CONFIG_2.REG_NUM_02

UI2

1 Register Number

39.9:n

HOST_CONFIG_2.SAVE_NUM_02

UI2

1 Slave Number

39.10:n

HOST_CONFIG_2.NUM_REGS_02

UI1

1 Number of Registers

39.11:n

HOST_CONFIG_2.STATUS_02

UI1

1 Status

39.12:n

HOST_CONFIG_2.RTU_ADDR_03

UI1

2 RTU Address

39.13:n

HOST_CONFIG_2.FNC_NUM_03

UI1

2 Function Number

39.14:n

HOST_CONFIG_2.REG_NUM_03

UI2

2 Register Number

39.15:n

HOST_CONFIG_2.SAVE_NUM_03

UI2

2 Slave Number

39.16:n

HOST_CONFIG_2.NUM_REGS_03

UI1

2 Number of Registers

39.17:n

HOST_CONFIG_2.STATUS_03

UI1

2 Status

39.18:n

HOST_CONFIG_2.RTU_ADDR_04

UI1

3 RTU Address

39.19:n

HOST_CONFIG_2.FNC_NUM_04

UI1

3 Function Number

39.20:n

HOST_CONFIG_2.REG_NUM_04

UI2

3 Register Number

39.21:n

HOST_CONFIG_2.SAVE_NUM_04

UI2

3 Slave Number

39.22:n

HOST_CONFIG_2.NUM_REGS_04

UI1

3 Number of Registers

39.23:n

HOST_CONFIG_2.STATUS_04

UI1

3 Status

39.24:n

HOST_CONFIG_2.RTU_ADDR_05

UI1

4 RTU Address

39.25:n

HOST_CONFIG_2.FNC_NUM_05

UI1

4 Function Number

39.26:n

HOST_CONFIG_2.REG_NUM_05

UI2

4 Register Number

39.27:n

HOST_CONFIG_2.SAVE_NUM_05

UI2

4 Slave Number

39.28:n

HOST_CONFIG_2.NUM_REGS_05

UI1

4 Number of Registers

39.29:n

HOST_CONFIG_2.STATUS_05

UI1

4 Status

39.30:n

HOST_CONFIG_2.RTU_ADDR_06

UI1

5 RTU Address

39.31:n

HOST_CONFIG_2.FNC_NUM_06

UI1

5 Function Number

39.32:n

HOST_CONFIG_2.REG_NUM_06

UI2

5 Register Number

39.33:n

HOST_CONFIG_2.SAVE_NUM_06

UI2

5 Slave Number

39.34:n

HOST_CONFIG_2.NUM_REGS_06

UI1

5 Number of Registers

39.35:n

HOST_CONFIG_2.STATUS_06

UI1

5 Status

39.36:n

HOST_CONFIG_2.RTU_ADDR_07

UI1

6 RTU Address

39.37:n

HOST_CONFIG_2.FNC_NUM_07

UI1

6 Function Number

39.38:n

HOST_CONFIG_2.REG_NUM_07

UI2

6 Register Number

39.39:n

HOST_CONFIG_2.SAVE_NUM_07

UI2

6 Slave Number

39.40:n

HOST_CONFIG_2.NUM_REGS_07

UI1

6 Number of Registers

39.41:n

HOST_CONFIG_2.STATUS_07

UI1

6 Status

39.42:n

HOST_CONFIG_2.RTU_ADDR_08

UI1

7 RTU Address

39.43:n

HOST_CONFIG_2.FNC_NUM_08

UI1

7 Function Number

39.44:n

HOST_CONFIG_2.REG_NUM_08

UI2

7 Register Number

39.45:n

HOST_CONFIG_2.SAVE_NUM_08

UI2

7 Slave Number

39.46:n

HOST_CONFIG_2.NUM_REGS_08

UI1

7 Number of Registers

39.47:n

HOST_CONFIG_2.STATUS_08

UI1

7 Status

39.48:n

HOST_CONFIG_2.RTU_ADDR_09

UI1

8 RTU Address

39.49:n

HOST_CONFIG_2.FNC_NUM_09

UI1

8 Function Number

39.50:n

HOST_CONFIG_2.REG_NUM_09

UI2

8 Register Number

39.51:n

HOST_CONFIG_2.SAVE_NUM_09

UI2

8 Slave Number

39.52:n

HOST_CONFIG_2.NUM_REGS_09

UI1

8 Number of Registers

39.53:n

HOST_CONFIG_2.STATUS_09

UI1

8 Status

39.54:n

HOST_CONFIG_2.RTU_ADDR_10

UI1

9 RTU Address

39.55:n

HOST_CONFIG_2.FNC_NUM_10

UI1

9 Function Number

39.56:n

HOST_CONFIG_2.REG_NUM_10

UI2

9 Register Number

39.57:n

HOST_CONFIG_2.SAVE_NUM_10

UI2

9 Slave Number

39.58:n

HOST_CONFIG_2.NUM_REGS_10

UI1

9 Number of Registers

39.59:n

HOST_CONFIG_2.STATUS_10

UI1

9 Status

39.60:n

Point Type 40 - MVS Items

ItemData TypeDescriptionT.P:L

MVS.SENSOR_TAG:n

STRING

 10 character tag identification of MVS.

40.0:n

MVS.SENSOR_ADDRESS:n

UI1

Address of MVS.

40.1:n

MVS.SENSOR_CONFIG:n 

UI1

Bitmask configuration options for MVS

•       Bit 0: Type (0 = Imperial, 1 = Metric Units)

•       Bit 1: H2O temperature (0 = 60 degF, 1 = 68 degF)

40.2:n

MVS.POLL_MODE:n

UI1

Bitmask settings for poll

•       Bit 0: Off Scan

•       Bit 1: Normal Poll

•       Bit 2: Input Freeze

•       Bit 3: Not Used

•       Bit 4: Poll for Configuration

•       Bit 5: Set Tag and Address

•       Bit 6: Calibrate

•       Bit 7: Not Used

40.3:n

MVS.SPARE_1:n

UI1


40.4:n

MVS.STATUS:n

UI1

Bitmask settings for sensor status

•       Bit 0: DP Fail

•       Bit 1: AP Fail

•       Bit 2: PT Fail

•       Bit 3: Not Used

•       Bit 4: Input Frozen

•       Bit 5: Sensor Comm Fail

•       Bit 6: 485 Comm Fail

•       Bit 7: Off Scan

40.5:n

MVS.ALARMS:n

UI1

Bitmask settings for sensor alarms

•       Bit 0: DP Low Alarm

•       Bit 1: AP Low Alarm

•       Bit 2: PT Low Alarm

•       Bit 3: DP High Alarm 

•       Bit 4: AP High Alarm

•       Bit 5: PT High Alarm

•       Bit 6: Not Used

•       Bit 7: Not Used

40.6:n

MVS.VOLTAGE:n

R4

Sensor voltage.

40.7:n

MVS.DP_READING:n

R4

Differential pressure reading.

40.8:n

MVS.PRESS_READING:n

R4

Pressure reading.

40.9:n

MVS.TEMP_READING:n

R4

Temperature reading.

40.10:n

MVS.DP_REVERSE_FLOW:n

R4

DP Reverse flow.

40.11:n

MVS.STATIC_PRESS_EFFECT:n

R4

Static pressure effect.  READ ONLY.

40.12:n

MVS.DP_MIN_SCALE:n

R4

DP min cal point.  READ ONLY.

40.13:n

MVS.DP_VALUE_1:n

R4

Cal midpoint 1.  READ ONLY.

40.14:n

MVS.DP_VALUE_2:n

R4

Cal midpoint 2. READ ONLY.

40.15:n

MVS.DP_VALUE_3:n

R4

Cal midpoint 3.  READ ONLY.

40.16:n

MVS.DP_MAX_SCALE:n

R4

DP max cal point.  READ ONLY.

40.17:n

MVS.AP_MIN_SCALE:n

R4

AP min cal point.  READ ONLY.

40.18:n

MVS.AP_VALUE_1:n

R4

Cal midpoint 1.  READ ONLY.

40.19:n

MVS.AP_VALUE_2:n

R4

Cal midpoint 2.  READ ONLY.

40.20:n

MVS.AP_VALUE_3:n

R4

Cal midpoint 3.  READ ONLY.

40.21:n

MVS.AP_MAX_SCALE:n

R4

AP max cal point.  READ ONLY.

40.22:n

MVS.PT_MIN_SCALE:n

R4

PT min cal point.  READ ONLY.

40.23:n

MVS.PT_VALUE_1:n

R4

Cal midpoint 1.  READ ONLY.

40.24:n

MVS.PT_VALUE_2:n

R4

Cal midpoint 2.  READ ONLY.

40.25:n

MVS.PT_VALUE_3:n

R4

Cal midpoint 3.  READ ONLY.

40.26:n

MVS.PT_MAX_SCALE:n

R4

PT max cal point. READ ONLY.

40.27:n

MVS.CALIB_CMD:n

UI1

Calibrate command.

40.28:n

MVS.CALIB_TYPE:n

UI1

Calibrate type.

40.29:n

MVS.SET_VALUE:n

R4

Calibrate set value.

40.30:n

MVS.MANUAL_DP:n

R4

Manual differential pressure.

40.31:n

MVS.MANUAL_AP:n

R4

Manual AP.

40.32:n

MVS.MANUAL_PT:n

R4

Manual PT.

40.33:n

MVS.DP_MODE:n

UI1

Bitmask Settings for the DP Input

•       Bit 0: Sensor Alarm Enable (1 = Enable, 0 = Disable)

•       Bit 1: Not Used

•       Bit 2: Not Used

•       Bit 3: Not Used

•       Bit 4: ALM Enable (1 = Enable, 0  = Disable)

•       Bit 5: SRBX on Clear (1 = Enable, 0  = Disable)

•       Bit 6: SRBX on Set (1 = Enable, 0  = Disable )

•       Bit 7: Not Used

40.34:n

MVS.DP_ALARM_CODE:n

UI1

Bitmask DP alarm codes

•   Bit 0: Low Alarm

•   Bit 1: Not Used

•   Bit 2: High Alarm

•   Bit 3: Not Used

•   Bit 4: Not Used

•   Bit 5: Not Used

•   Bit 6: Point Fail

•   Bit 7: Not Used READ ONLY.

40.35:n

MVS.DP_LOW_ALARM:n

R4

Value representing the low alarm threshold (TDI) for DP.

40.36:n

MVS.DP_HIGH_ALARM:n

R4

Value representing the high alarm threshold (TDI).

40.37:n

MVS.DP_DEADBAND:n

R4

Dead zone around set point in which integral action is disabled for DP.

40.38:n

MVS.DP_ FAULT_VALUE:n

R4

 DP Alarm Fault Value

40.39:n

MVS.AP_MODE:n

UI1

Bitmask Settings for the AP Input

•       Bit 0: Not Used

•       Bit 1: Not Used

•       Bit 2: Not Used

•       Bit 3: Not Used

•       Bit 4: ALM Enable (1 = Enable, 0  = Disable)

•       Bit 5: RBX on Clear (1 = Enable, 0  = Disable)

•       Bit 6: RBX on Set (1 = Enable, 0  = Disable)

•       Bit 7: Not Used

40.40:n


MVS.AP_ALARM_CODE:n

UI1

Bitmask AP alarm codes

•              Bit 0: Low Alarm

•              Bit 1: Not Used

•              Bit 2: High Alarm

•              Bit 3: Not Used

•              Bit 4: Not Used

•              Bit 5: Not Used

•              Bit 6: Point Fail

•              Bit 7: Not Used READ ONLY.

40.41:n

MVS.AP_LOW_ALARM:n

R4

Value representing the low alarm threshold (TDI) for AP.

40.42:n

MVS.AP_HIGH_ALARM:n

R4

Value representing the high alarm threshold (TDI) for AP.

40.43:n

MVS.AP_DEADBAND:n

R4

Dead zone around set point in which integral action is disabled for AP.

40.44:n

MVS.AP_FAULT_VALUE:n

R4


40.45:n

MVS.PT_MODE:n

UI1

Bitmask Settings for the PT Input

•       Bit 0: Not Used

•       Bit 1: Not Used

•       Bit 2: Not Used

•       Bit 3: Not Used

•       Bit 4: ALM Enable (1 = Enable, 0  = Disable )

•       Bit 5: RBX on Clear (1 = Enable, 0  = Disable )

•       Bit 6: RBX on Set (1 = Enable, 0  = Disable )

•       Bit 7: Not Used

40.46:n


MVS.PT_ALARM_CODE:n

UI1

Bitmask PT alarm codes

•              Bit 0: Low Alarm

•              Bit 1: Not Used

•              Bit 2: High Alarm

•              Bit 3: Not Used

•              Bit 4: Not Used

•              Bit 5: Not Used

•              Bit 6: Point Fail

•              Bit 7: Not Used READ ONLY.

40.47:n

MVS.PT_LOW_ALARM:n

R4

Value representing the low alarm threshold (TDI) for PT.

40.48:n

MVS.PT_HIGH_ALARM:n

R4

Value representing the high alarm threshold (TDI) for PT.

40.49:n

MVS.PT_DEADBAND:n

R4

Dead zone around set point in which integral action is disabled for PT.

40.50:n

MVS.PT_FAULT_VALUE:n

R4


40.51:n

MVS.PT_BIAS

R4

PT Bias

40.52:n

MVS.SP_OFFSET

R4

SP Offset

40.53:n

MVS.CONFIG_CHANGE_COUNTER

UI2

Configuration Change Counter

40.54:n

MVS.SENSOR_TYPE

UI1

Sensor Type 

0  = Unknown 

1  = 4088A 

2  = 4088B 

3  = R3095 

4  = MVS205  

40.55:n

Point Type 41 - Run Items

ItemData TypeDescriptionT.P:L

RUN.POINT_TAG_ID:n

STRING

10 character name of run.

41.0:n

RUN.ATMOS_PRESS:n

R4

Value of atmospheric pressure.

41.1:n

RUN.CALC_METHOD_II:n

UI1

Bitmask setting for calculation method

  • Bit 0: Detail Level (0 = Detailed Method, 1 = Gross Method)
  • Bit 1: Gross method (0 = Gross Method II, 1 = Gross Method I)
  • Bit 2: Calculated of Manual Value (0 = Calculated, 1 = Enter Atmospheric Pressure for AGA 1992 only
  • Bit 3: BTU Dry or Wet (0 = BTU Dry, 1 = BTU Wet)
  • Bit 4: BTU Dry or Wet Override (0 = See Bit 3, 1 =BTU as Delivered )
  • Bit 5: Not Used
  • Bit 6: Not Used
  • Bit 7: Not Used

41.2:n

RUN.ORIFICE_REF_TEMP_VAR:n

 STRING

Not Used.

41.3:n

RUN.PIPE_REF_TEMP:n

R4

Pipe reference temperature.

41.4:n

RUN.PIPE_ MATERIAL:n

UI1

Pipe material.

41.5:n

RUN.FACTORY_ENTRY_DEF:n

UI1

Bitmask setting for factory entry

•             Bit 0: Fb Factor

•             Bit 1: Fr Factor

•             Bit 2: Expansion Factor

•             Bit 3: Fpb Factor

•             Bit 4: Ftb Factor

•             Bit 5: Ftf Factor

•             Bit 6: Fgr Factor

•             Bit 7: Fpv Factor

41.6:n

RUN.FB_FACTOR:n

R4

Orifice flow factor value.

41.7:n

RUN.FR_FACTOR:n

R4

Reynolds number value.

41.8:n

RUN.EXPANSION_FACTOR:n

R4

Expansion Factor (Y)

41.9:n

RUN.FPB_FACTOR:n

R4

Pressure base factor value.

41.10:n

RUN.FTB_FACTOR:n

R4

Temperature base factor value.

41.11:n

RUN.FTF_FACTOR:n

R4

Flowing temperature factor value.

41.12:n

RUN.FGR_FACTOR:n

R4

Specific gravity factor value.

41.13:n

RUN.FPV_FACTOR:n

R4

Super compressibility factor value.

41.14:n

RUN.POINT_01:n

UI1 

History point 1

41.15:n

RUN.POINT_01_ROLLUP:n

UI1

RollUp type  1

41.16:n

RUN.POINT_01_VAR:n

STRING

TLP 1

41.17:n

RUN.POINT_01_CONVERSION:n

R4

Conversion 1

41.18:n

RUN.POINT_02:n

UI1 

History point 2

41.19:n

RUN.POINT_02_ROLLUP:n

UI1

RollUp type  2

41.20:n

RUN.POINT_02_VAR:n

STRING

TLP 2

41.21:n

RUN.POINT_02_CONVERSION:n

R4

Conversion 2

41.22:n

RUN.POINT_03:n

UI1 

History point 3

41.23:n

RUN.POINT_03_ROLLUP:n

UI1

RollUp type  3

41.24:n

RUN.POINT_03_VAR:n

STRING

TLP 3

41.25:n

RUN.POINT_03_CONVERSION:n

R4

Conversion 3

41.26:n

RUN.POINT_04:n

UI1 

History point 4

41.27:n

RUN.POINT_04_ROLLUP:n

UI1

RollUp type  4

41.28:n

RUN.POINT_04_VAR:n

STRING

TLP 4

41.29:n

RUN.POINT_04_CONVERSION:n

R4

Conversion 4

41.30:n

RUN.POINT_05:n

UI1 

History point 5

41.31:n

RUN.POINT_05_ROLLUP:n

UI1

RollUp type  5

41.32:n

RUN.POINT_05_VAR:n

STRING

TLP 5

41.33:n

RUN.POINT_05_CONVERSION:n

R4

Conversion 5

41.34:n

RUN.POINT_06:n

UI1 

History point 6

41.35:n

RUN.POINT_06_ROLLUP:n

UI1

RollUp type  6

41.36:n

RUN.POINT_06_VAR:n

STRING

TLP 6

41.37:n

RUN.POINT_06_CONVERSION:n

R4

Conversion 6

41.38:n

RUN.POINT_07:n

UI1 

History point 7

41.39:n

RUN.POINT_07_ROLLUP:n

UI1

RollUp type  7

41.40:n

RUN.POINT_07_VAR:n

STRING

TLP 7

41.41:n

RUN.POINT_07_CONVERSION:n

R4

Conversion 7

41.42:n

RUN.POINT_08:n

UI1 

History point 8

41.43:n

RUN.POINT_08_ROLLUP:n

UI1

RollUp type  8

41.44:n

RUN.POINT_08_VAR:n

STRING

TLP 8

41.45:n

RUN.POINT_08_CONVERSION:n

R4

Conversion 8

41.46:n

RUN.POINT_09:n

UI1 

History point 9

41.47:n

RUN.POINT_09_ROLLUP:n

UI1

RollUp type  9

41.48:n

RUN.POINT_09_VAR:n

STRING

TLP 9

41.49:n

RUN.POINT_09_CONVERSION:n

R4

Conversion 9

41.50:n

RUN.POINT_10:n

UI1 

History point 10

41.51:n

RUN.POINT_10_ROLLUP:n

UI1

RollUp type  10

41.52:n

RUN.POINT_10_VAR:n

STRING

TLP 10

41.53:n

RUN.POINT_10_CONVERSION:n

R4

Conversion 10

41.54:n

RUN.POINT_11:n

UI1 

History point 11

41.55:n

RUN.POINT_11_ROLLUP:n

UI1

RollUp type  11

41.56:n

RUN.POINT_11_VAR:n

STRING

TLP 11

41.57:n

RUN.POINT_11_CONVERSION:n

R4

Conversion 11

41.58:n

RUN.POINT_12:n

UI1 

History point 12

41.59:n

RUN.POINT_12_ROLLUP:n

UI1

RollUp type  12

41.60:n

RUN.POINT_12_VAR:n

STRING

TLP 12

41.61:n

RUN.POINT_12_CONVERSION:n

R4

Conversion 12

41.62:n

RUN.POINT_13:n

UI1 

History point 13

41.63:n

RUN.POINT_13_ROLLUP:n

UI1

RollUp type  13

41.64:n

RUN.POINT_13_VAR:n

STRING

TLP 13

41.65:n

RUN.POINT_13_CONVERSION:n

R4

Conversion 13

41.66:n

RUN.POINT_14:n

UI1 

History point 14

41.67:n

RUN.POINT_14_ROLLUP:n

UI1

RollUp type  14

41.68:n

RUN.POINT_14_VAR:n

STRING

TLP 14

41.69:n

RUN.POINT_14_CONVERSION:n

R4

Conversion 14

41.70:n

RUN.POINT_15:n

UI1 

History point 15

41.71:n

RUN.POINT_15_ROLLUP:n

UI1

RollUp type  15

41.72:n

RUN.POINT_15_VAR:n

STRING

TLP 15

41.73:n

RUN.POINT_15_CONVERSION:n

R4

Conversion 15

41.74:n

RUN.POINT_16:n

UI1 

History point 16

41.75:n

RUN.POINT_16_ROLLUP:n

UI1

RollUp type  16

41.76:n

RUN.POINT_16_VAR:n

STRING

TLP 16

41.77:n

RUN.POINT_16_CONVERSION:n

R4

Conversion 16

41.78:n

Point Type 42 - Extra Run Items

ItemData TypeDescriptionT.P:L

EXTRA_RUN.POINT_TAG_ID:n

STRING

10 character name for extra run.

42.0:n

EXTRA_RUN.MCF_TODAY:n

R4

Accumulated flow rate since start of contract day in millions of cubic feet. 

42.1:n

EXTRA_RUN.MCF_YESTERDAY:n

R4

Yesterday’s accumulated flow rate in millions of cubic feet. 

42.2:n


EXTRA_RUN.MCF_MONTH:n

R4, UI4 in

Industry

Canada

Roc devices

Accumulated flow rate since start of contract month in millions of cubic feet.

42.3:n

EXTRA_RUN.MCF_PREV_MONTH:n

R4, UI4 in

Industry

Canada

Roc devices

Previous month’s accumulated flow in millions of cubic feet.

42.4:n

EXTRA_RUN.MCF_ACCUMULATED:n

R4, UI4 in

Industry

Canada

Roc devices

Accumulated flow during each scan period in millions of cubic feet.

42.5:n

EXTRA_RUN.MIN_TODAY:n

R4

Accumulated minutes since start of contract day. 

42.6:n

EXTRA_RUN.MIN_YESTERDAY:n

R4

Yesterday’s accumulated minutes. 

42.7:n

EXTRA_RUN.MIN_MONTH:n

R4

Accumulated minutes since start of contract month.

 42.8:n

EXTRA_RUN.MIN_PREV_MONTH:n

R4

Previous month’s accumulated minutes.

42.9:n

EXTRA_RUN.MIN_ ACCUMULATED:n

R4

Accumulated minutes during each scan period.

42.10:n

EXTRA_RUN.MMBTU_TODAY:n

R4

Accumulated energy rate in millions of cubic feet since start of current contract day. 

 42.11:n

EXTRA_RUN.MMBTU_YESTERDAY:n

R4

Accumulated energy rate in millions of cubic feet in 24 hour period prior to start of current contract day.

 42.12:n

EXTRA_RUN.MMBTU_MONTH:n

R4, UI4 in

Industry

Canada

Roc devices

Accumulated energy rate in millions of cubic feet since start of contract month.

 42.13:n

EXTRA_RUN.MMBTU_PREV_MONTH:n

R4, UI4 in

Industry

Canada

Roc devices

Previous month’s accumulated energy rate in millions of cubic feet.

42.14:n

EXTRA_RUN.MMBTU_ACCUMULATED:n

R4, UI4 in

Industry

Canada

Roc devices

Accumulated energy rate in millions of cubic feet during each scan.

 42.15:n

EXTRA_RUN.UNCORRECT_TODAY:n

R4

Accumulated uncorrected since start of contract day.

42.16:n

EXTRA_RUN.UNCORRECT_YESTERDAY:n

R4

Yesterday’s accumulated uncorrected. 

42.17:n

EXTRA_RUN.UNCORRECT_MONTH:n

R4, UI4 in

Industry

Canada

Roc devices

Accumulated uncorrected since start of contract month.

42.18:n

EXTRA_RUN.UNCORRECT_PREV_MONTH:n

R4, UI4 in

Industry

Canada

Roc devices

Previous month’s accumulated uncorrected.

42.19:n

EXTRA_RUN.UNCORRECT_ACCUMULATED:n

R4, UI4 in Industry Canada Roc devices

Accumulated uncorrected during each scan period.

42.20:n

EXTRA_RUN.ORIFICE_DIAMETER:n

R4

Orifice diameter used for calculation.  READ ONLY. 

42.21:n

EXTRA_RUN.PIPE_DIAMETER:n

R4

Pipe internal diameter used for calculation.  READ ONLY.

42.22:n

EXTRA_RUN.BETA:n

R4

Diameter ratio.  READ ONLY.

42.23:n

EXTRA_RUN.VELOCITY_APPR:n

R4

•       Ev – AGA 1992

•       Zb – AGA 1985 READ ONLY.

42.24:n

EXTRA_RUN.COEFF_DISCHARGE:n

R4

Coefficient discharge in CdFt (AGA 1992) or Zf (AGA 1985).  READ ONLY.

42.25:n

EXTRA_RUN.REYNOLDS_NUMBER:n

R4

Reynolds number value. READ ONLY.

42.26:n

EXTRA_RUN.UPSTREAM_PRESS:n

R4

Upstream static pressure. READ ONLY.

42.27:n

EXTRA_RUN.MOLECULAR_WT:n

R4

Molecular weight.  READ ONLY.

42.28:n

Point Type 42 – Extra Run Items (Alternates)

ItemData TypeDescriptionT.P:L

EXTRA_RUN.EXTRA_MCF_MONTH:n

UI32

Flow Month – MCF (km3) (Industry Canada)

(ROC300-Series and FloBoss 407) 


42.3:n

EXTRA_RUN.EXTRA_MCF_PREV_MONTH:n

UI32

Flow Previous Month – MCF (km3) (Industry Canada) (ROC300-Series and FloBoss 407) 


42.4:n

EXTRA_RUN.EXTRA_MCF_ACCUMULATED:n

UI32

Flow Accumulated (rollover at 1,000,000) - MCF (km3) (Industry Canada) (FloBoss 500-Series, FloBoss 100 Series, and RegFlo) 

42.5:n

EXTRA_RUN.EXTRA_MMBTU_MONTH:n

UI32

Energy Month – MMBTU

(GJ) (Industry Canada)

(ROC300-Series and FloBoss 407) 

42.13:n

EXTRA_RUN.EXTRA_MMBTU_PREV_MONTH:n

UI32

Energy Previous Month –

MMBTU (GJ) (Industry Canada) (ROC300-Series and FloBoss 407) 

42.14:n

EXTRA_RUN.EXTRA_MMBTU_ACCUMULATED:n

UI32

Energy Accumulated

(rollover at 1,000,000) - MCF (km3) (Industry Canada) (ROC300-Series and FloBoss 407) 


42.15:n

EXTRA_RUN.EXTRA_UNCORRECT_MONTH:n

UI32

Uncorrected Month – MCF (km3) (Industry Canada)

(ROC300-Series and FloBoss 407)  


42.18:n

EXTRA_RUN.EXTRA_UNCORRECT_PREV_MONTH:n

UI32

Uncorrected Previous Month – MCF (km3) (Industry Canada)

(ROC300-Series and FloBoss 407) 

42.19:n

EXTRA_RUN.EXTRA_UNCORRECT_ACCUMULATED:n

 UI32

Uncorrected Accumulation (rollover at 1,000,000) – MCF (km3) (Industry Canada) (ROC300-Series and FloBoss 407) 


42.20:n

Point Type 43 - User List Items

ItemData TypeDescriptionT.P:L

USER_LIST.TEXT_01:n

STRING

10 character text for display data.

43.0:n

USER_LIST.TEXT_02:n

STRING

10 character text for display data.

43.1:n

USER_LIST.TEXT_03:n

STRING

10 character text for display data.

43.2:n

USER_LIST.TEXT_04:n

STRING

10 character text for display data.

43.3:n

USER_LIST.TEXT_05:n

STRING

10 character text for display data.

43.4:n

USER_LIST.TEXT_06:n

STRING

10 character text for display data.

43.5:n

USER_LIST.TEXT_07:n

STRING

10 character text for display data.

43.6:n

USER_LIST.TEXT_08:n

STRING

10 character text for display data.

43.7:n

USER_LIST.TEXT_09:n

STRING

10 character text for display data.

43.8:n

USER_LIST.TEXT_10:n

STRING

10 character text for display data.

43.9:n

USER_LIST.TEXT_11:n

STRING

10 character text for display data.

43.10:n

USER_LIST.TEXT_12:n

STRING

10 character text for display data.

43.11:n

USER_LIST.TEXT_13:n

STRING

10 character text for display data.

43.12:n

USER_LIST.TEXT_14:n

STRING

10 character text for display data.

43.13:n

USER_LIST.TEXT_15:n

STRING

10 character text for display data.

43.14:n

USER_LIST.TEXT_16:n

STRING

10 character text for display data.

43.15:n

USER_LIST.DATA_01_VAR:n

STRING

10 character text for display data.

43.16:n

USER_LIST.DATA_02_VAR:n

STRING

10 character text for display data.

43.17:n

USER_LIST.DATA_03_VAR:n

STRING

10 character text for display data.

43.18:n

USER_LIST.DATA_04_VAR:n

STRING

10 character text for display data.

43.19:n

USER_LIST.DATA_05_VAR:n

STRING

10 character text for display data.

43.20:n

USER_LIST.DATA_06_VAR:n

STRING

10 character text for display data.

43.21:n

USER_LIST.DATA_07_VAR:n

STRING

10 character text for display data.

43.22:n

USER_LIST.DATA_08_VAR:n

STRING

10 character text for display data.

43.23:n

USER_LIST.DATA_09_VAR:n

STRING

10 character text for display data.

43.24:n

USER_LIST.DATA_10_VAR:n

STRING

10 character text for display data.

43.25:n

USER_LIST.DATA_11_VAR:n

STRING

10 character text for display data.

43.26:n

USER_LIST.DATA_12_VAR:n

STRING

10 character text for display data.

43.27:n

USER_LIST.DATA_13_VAR:n

STRING

10 character text for display data.

43.28:n

USER_LIST.DATA_14_VAR:n

STRING

10 character text for display data.

43.29:n

USER_LIST.DATA_15_VAR:n

STRING

10 character text for display data.

43.30:n

USER_LIST.DATA_16_VAR:n

STRING

10 character text for display data.

43.31:n

USER_LIST.AUX_UNITS_1

STRING

10 character Auxiliary Units String 1  

43.32:n

USER_LIST.AUX_UNITS_2

STRING

10 character Auxiliary Units String 2 

43.33:n

USER_LIST.AUX_UNITS_3

STRING

10 character Auxiliary Units String 3

43.34:n

USER_LIST.AUX_UNITS_4

STRING

10 character Auxiliary Units String 4 

43.35:n

USER_LIST.AUX_UNITS_5

STRING

10 character Auxiliary Units String 5 

43.36:n

USER_LIST.AUX_UNITS_6

STRING

10 character Auxiliary Units String 6 

43.37:n

USER_LIST.AUX_UNITS_7

STRING

10 character Auxiliary Units String 7 

43.38:n

USER_LIST.AUX_UNITS_8

STRING

10 character Auxiliary Units String 8 

43.39:n

USER_LIST.AUX_UNITS_9

STRING

10 character Auxiliary Units String 9 

43.40:n

USER_LIST.AUX_UNITS_10

STRING

10 character Auxiliary Units String 10 

43.41:n

USER_LIST.AUX_UNITS_11

STRING

10 character Auxiliary Units String 11 

43.42:n

USER_LIST.AUX_UNITS_12

STRING

10 character Auxiliary Units String 12 

43.43:n

USER_LIST.AUX_UNITS_13

STRING

10 character Auxiliary Units String 13 

43.44:n

USER_LIST.AUX_UNITS_14

STRING

10 character Auxiliary Units String 14 

43.45:n

USER_LIST.AUX_UNITS_15

STRING

10 character Auxiliary Units String 15 

43.46:n

USER_LIST.AUX_UNITS_16

STRING

10 character Auxiliary Units String 16 

43.47:n

Point Type 44 - Power Control Items

ItemData TypeDescriptionT.P:L

POWER_CONTROL.TAG:n

STRING

10 character tag identification for power control.

44.0:n

POWER_CONTROL.STATUS:n

UI2

Status value of power control. READ ONLY.

44.1:n

POWER_CONTROL.ENABLE:n

UI2

Value for enabling power control.

44.2:n

POWER_CONTROL.VALID_RX:n

UI2

 Valid RX

44.3:n

POWER_CONTROL.START_TIME_1:n

UI2

Start time 1

44.4:n

POWER_CONTROL.START_TIME_2:n

UI2

Start time 2

44.5:n

POWER_CONTROL.START_TIME_3:n

UI2

Start time 3

44.6:n

POWER_CONTROL.ON_TIME_1:n

UI2

On time 1

44.7:n

POWER_CONTROL.ON_TIME_2:n

UI2

On time 2

44.8:n

POWER_CONTROL.ON_TIME_3:n

UI2

On time 3

44.9:n

POWER_CONTROL.OFF_TIME_1:n

UI2

Off time 1

44.10:n

POWER_CONTROL.OFF_TIME_2:n

UI2

Off time 2

44.11:n

POWER_CONTROL.OFF_TIME_3:n

UI2

Off time 3

44.12:n

POWER_CONTROL.ACTIVE_ZONE:n

UI2

Time period when power control is enabled.

44.13:n

POWER_CONTROL.HOLD_TIME:n

UI2

 Hold Time

44.14:n

POWER_CONTROL.POWER_TIMER:n

UI2

Power timer value.  READ ONLY.

44.15:n

POWER_CONTROL.LOGICAL_DO:n

UI2

Discrete output number.

44.16:n

POWER_CONTROL.LOW_BATTERY:n

R4

Low Battery

44.17:n

POWER_CONTROL.ON_COUNTER:n

UI4

Number of scan periods when the Status parameter is in the 1 state.

44.18:n

POWER_CONTROL.OFF_COUNTER:n

UI4

Number of scan periods when the Status parameter is in the 0 state.

44.19:n

Point Type 45 - Sampler Items

ItemData TypeDescriptionT.P:L

SAMPLER.CALIB_OPTIONS:n

UI1

Calibration Options

45.0:n

SAMPLER.AMBIENT_TEMP_MERCURY:n

R4

Ambient temperature of Mercury

45.1:n

SAMPLER.CALIB_TEMP_MERCURY:n

R4

Temperature of Mercury when Calibrating 

45.2:n

SAMPLER.CALCU_WEIGHTS_GRAV_ACCEL:n

R4

Calibrated Weights Gravitational Acceleration

45.3:n

SAMPLER.WATER_TEMP_CALIB:n

R4

Temperature of Water when Calibrating

45.4:n

SAMPLER.AIR_TEMP_CALIB:n

R4

Temperature of Air when Calibrating

45.5:n

SAMPLER.USER_CORRECTION_FACTOR:n

R4

User Correction Factor

45.6:n

SAMPLER.SAMPLER_ENABLE:n

UI1

Sampler Enable

•       0 = Disabled

•       1 = Enabled

45.7:n

SAMPLERSAMPLER_VOL_ACCUM:n

R4

Sampler Accumulation Trigger

45.8:n

SAMPLER.SAMPLER_DURATION:n

R4

Sampler Duration

45.9:n

SAMPLER.ALARM_CODE

UI1

Sensor Module (SM) Integrity Alarm Code: (FloBoss 504 only) 

Bit 6 through 7 – Not Used 

Bit 5 – Channel B Failure 0  = No Alarm Present 1  = Alarm Present 

Bit 4 – Channel A Failure 0  = No Alarm Present 1  = Alarm Present 

Bit 3 – Frequency Discrepancy Detected 0  = No Alarm Present 1  = Alarm Present 

Bit 2 – Pulse Synchronization Error 0  = No Alarm Present 1  = Alarm Present 

Bit 1 – Phase Discrepancy Detected 0  = No Alarm Present 1  = Alarm Present 

Bit 0 – Sequence Out of Order Error 0  = No Alarm Present 1  = Alarm Present 

45.10:n

SAMPLER.ALARM_DEADBAND

UI16

SM Integrity Alarm Deadband Time (in seconds) (FloBoss 504 only) 

45.11:n

SAMPLER.ALARM_CODE

UI16

Bit 3 through 7 – Not Used 

Bit 2 – RBX on Set 0  = Disable RBX on Set 1  = Enable RBX on Set 

Bit 1 – RBX on Clear 0  = Disable RBX on Clear 1  = Enable RBX on Clear 

Bit 0 – Alarming 0  = Disabled 1  = Enabled  

45.12:n

SAMPLER.INTEGRITY_LEVEL

UI8

Integrity Level – Turbine:

(FloBoss 504 only) 

1  = Level A 

2  = Level B 

3  = Level C (Default) 

4  = Level D 

45.12:n

SAMPLER.SAMPLER_PARAMETERS

UI16

SM Alarm Control: (FloBoss 504 only) 

Bit 3 through 7 – Not Used 

Bit 2 – RBX on Set 0  = Disable RBX on Set 1  = Enable RBX on Set 

Bit 1 – RBX on Clear 0  = Disable RBX on Clear 1  = Enable RBX on Clear 

Bit 0 – Alarming 0  = Disabled 1  = Enabled  

45.13:n

Point Type 46 – NEW AGA Items

ItemData TypeDescriptionT.P:L

NEW_AGA.POINT_TAG_ID:n

STRING

10 character tag identification for Meter Configuration Parameters.

46.0:n

NEW_AGA.POINT_DESCRIPTION:n

STRING

Describes Point

46.1:n

NEW_AGA.CALCU_METHOD:n

UI1

Indicates the Calculation Method:

•       Bit 0: Properties Calc Manual Mode (1 = Normal, 0 = Manual)

•       Bit 1: Flow Calc Method (1  = Linear, 0 = Differential)

•       Bit 2: Log Meter Run Limit Events (1 = Logged, 0 = Not Logged)

•       Bit 3: Units of Measurement (1  = Metric, 0 = English) 

•       Bit 4: Meter Run Alarming (1  = Enabled, 0 = Disabled)

•       Bit 5: RBX on Clear (1 = Enabled, 0 = Disabled)

•       Bit 6: RBX on Set (1 = Enabled,  0 = Disabled)

•       Bit 7: Flow Calc Manual Mode (FB 103/104) (1 = Manual, 0 = Normal)

Turbine Calc Standard (FB 500 Series) (1 = ISO9951, 0 = AGA7) o Differential Flow Calc Standard (FB107) (1 = ISO5167, 0 = AGA3)

46.2:n

NEW_AGA.CALCU_METHOD_II:n

UI1

Indicates Calculation Method II:

•       Bit 0: AGA8 Characterization Method (1 = Gross, 0 = Detailed)

•       Bit 1: AGA8 Gross Characterization Method (1 = Gross I, 0 = GROSS II)

•       Bit 2: Atmospheric Pressure Source (1 = Manually Entered, 0 = Calculated)

•       Bit 3: BTU Dry or Wet Basis (1= BTU Wet, 0 = BTU Dry) 

•       Bit 4: BTU Dry or Wet Override (1= As Delivered, 0 = See Bit 3)

•       Bit 5: Gas Quality Input Mode

•       Bit 6: Not Used

•       Bit 7: K Factor Calc (1 = Multiple, 0 = Single)

46.3:n

NEW_AGA.OPTIONS:n

UI1

Option:

•       Bit 0: Tap Type (1 = Pipe, 0 = Flange)

•       Bit 1: Specific Gravity Source (1  = Manually Entered, 0 = Calculated)

•       Bit 2: Static Pressure Tap Location (1 = Upstream, 0 = Downstream)

•       Bit 3: Static Pressure Value (1  = Absolute, 0 = Gauge) 

•       Bit 4: Heating Value Source (1  = Manually Entered, 0 = Calculated)

•       Bit 5: Gravitational Acceleration Source (1 = Manually Entered, 0 = Calculated)

•       Bit 6: Heating Value Basis (FB 103/104, and FB 500 Series) (1 = Volume, 0 = Mass) Mass/Volume Units (FB 107) (1 = Volumetric, 0 = Mass)

•       Bit 7: Log Methane Adjustment (1  = Not Logged, 0 = Logged)

46.4:n

NEW_AGA.CONTRACT_HOUR:n

UI1

Contract Hour

46.5:n

NEW_AGA.INTEGRAL_MULT_PERIOD:n - Orifice

R4

Integral Multiplier Period

46.6:n

NEW_AGA.BASE_MULT_PERIOD:n-Turbine

R4

Base Multiplier Period

46.6:n

NEW_AGA.PIPE_DIAMETER:n

R4

Pipe Diameter

46.7:n

NEW_AGA.PIPE_REF_TEMP:n

R4

Pipe Reference Temperature

46.8:n

NEW_AGA.PIPE_MATERIAL:n

UI1

Pipe Material:

•       0 = Stainless Steel (SS)

•       1 = Monel

•       2 = Carbon Steel

•       3 = 304 Stainless Steel

•       4 = 316 Stainless Steel

•       5 = Monel 400

46.9:n

NEW_AGA.ORIFICE_DIAMETER:n

R4

Orifice Diameter

46.10:n

NEW_AGA.ORIFICE_REF_TEMP:n

R4

Orifice Reference Temperature

46.11:n

NEW_AGA.ORIFICE_MATERIAL:n

UI1

Orifice Material:

•       0 = Stainless Steel (SS)

•       1 = Monel

•       2 = Carbon Steel

46.12:n

NEW_AGA.PRESSURE:n

R4

Base or contract Pressure

46.13:n

NEW_AGA.TEMPERATURE:n

R4

Base or contract temperature

46.14:n

NEW_AGA.ATMOSPHERIC_PRESSURE:n

R4

Atmospheric Pressure

46.15:n

NEW_AGA.SPECIFIC_GRAVITY:n

R4

Specific Gravity

46.16:n

NEW_AGA.HEATING_VALUE:n

R4

Heating Value

46.17:n

NEW_AGA.VISCOSITY:n

R4

Viscosity

46.18:n

NEW_AGA.SPECIFIC_HEAT_RATIO:n

R4

Specific Heat Ratio

46.19:n

NEW_AGA.ELEVATION:n

R4

Elevation

46.20:n

NEW_AGA.LATITUDE:n

R4

Latitude

46.21:n

NEW_AGA.LOCAL_GRAV_ACCEL:n

R4

Local Gravitational Acceleration

46.22:n

NEW_AGA.NITROGEN:n

R4

Nitrogen (N2)

46.23:n

NEW_AGA.CARBON_DIOXIDE:n

R4

Carbon Dioxide (CO2)

46.24:n

NEW_AGA.HYDROGEN_SULFIDE:n

R4

Hydrogen Sulfide (H2S)

46.25:n

NEW_AGA.WATER:n

R4

Water (H2O)

46.26:n

NEW_AGA.HELIUM:n

R4

Helium (He)

46.27:n

NEW_AGA.METHANE:n

R4

Methane (CH4)

46.28:n

NEW_AGA.ETHANE:n

R4

Ethane (C2H6)

46.29:n

NEW_AGA.PROPANE:n

R4

Propane (C3H8)

46.30:n

NEW_AGA.N_BUTANE:n

R4

n-Butane (C4H10)

46.31:n

NEW_AGA.I_BUTANE:n

R4

i-Butane (C4H10)

46.32:n

NEW_AGA.N_PENTANE:n

R4

n-Pentane (C5H12)

46.33:n

NEW_AGA.I_PENTANE:n

R4

i-Pentane (C5H12)

46.34:n

NEW_AGA.N_HEXANE:n

R4

Hexane (C6H14)

46.35:n

NEW_AGA.N_HEPTANE:n

R4

Heptane (C7H16)

46.36:n

NEW_AGA.N_OCTANE:n

R4

Octane (C8H18)

46.37:n

NEW_AGA.N_NONANE:n

R4

Nonane (C9H20)

46.38:n

NEW_AGA.N_DECANE:n

R4

Decane (C10H22)

46.39:n

NEW_AGA.OXYGEN:n

R4

Oxygen (O2)

46.40:n

NEW_AGA.CARBON_MONOXIDE:n

R4

Carbon Monoxide (CO)

46.41:n

NEW_AGA.HYDROGEN:n

R4

Hydrogen (H2)

46.42:n

NEW_AGA.LOW_HW_CUTOFF:n Orifice

R4

Differential (HW) Low Flow Cutoff

46.43:n

NEW_AGA.K_FACTOR:n - Turbine

R4

K-factor

46.43:n

NEW_AGA.HIGH_HW_SETPOINT:n

R4

High Differential (HW) Set point

46.44:n

NEW_AGA.LOW_HW_SETPOINT:n

R4

Low Differential (HW) Set point

46.45:n

NEW_AGA.ENABLE_STACKED_HW:n

UI1

Enabled Stacked Differential (HW)

46.46:n

NEW_AGA.LOW_HW_TLP:n - Orifice

STRING

Low Differential (HW) TLP – Orifice K-factor TLP – Turbine

46.47:n

NEW_AGA.HW_TLP:n - Orifice

NEW_AGA.FLOW_RATE_TLP:Turbine

STRING

Differential (HW) TLP – Orifice Uncorrected Flow Rate – Turbine

46.48:n

NEW_AGA.FLOWING_PRESS_TLP:n

STRING

Flowing Pressure

46.49:n

NEW_AGA.FLOWING_TEMP_TLP:n

STRING

Flowing Temperature TLP

46.50:n

NEW_AGA.HW:n - Orifice

R4

Differential (HW) Pressure – Orifice

46.51:n

NEW_AGA.FLOW_RATE:n - Turbine

R4

Uncorrected Flow Rate – Turbine

46.51:n

NEW_AGA.FLOWING_PRESS:n

R4

Flowing Pressure (Pf)

46.52:n

NEW_AGA.FLOWING_TEMP:n

R4

Flowing Temperature (Tf)

46.53:n

NEW_AGA.ALARM_CODE:n

UI1

Alarm Code:

46.54:n

NEW_AGA.LOW_ALARM_FLOW:n

R4

Low Alarm Flow

46.55:n

NEW_AGA.HIGH_ALARM_FLOW:n

R4

High Alarm Flow

46.56:n

NEW_AGA.AVG_TECHNIQUE:n

UI1

Averaging technique for meter history

46.57:n

NEW_AGA.FULL_RECALCU_FLAG:n

UI1

Full Recalculation Flag

46.58:n

NEW_AGA.K_FACTOR_TLP:n

TLP

Input TLP for multiple K-factor calculation (FloBoss 500-Series version 2.40 or greater, FloBoss 100Series version 2.07 or greater) 

46.59:n

NEW_AGA.DEADBAND_K_FACTOR

R4

Deadband for multiple K-factor calculation (FloBoss 500-Series version 2.40 or greater, FloBoss 100Series version 2.07 or greater). 

For FloBoss 107: 

If the flow input is from a differential meter: Not used. 

If the flow input is from a linear meter: value is the deadband of the value of the TLP (parameter 59) that must be exceeded before the system calculates another variable K-factor. Units are a percentage of the low to high range of the values of the TLP (parameter 59).  

46.60:n


NEW_AGA.LOWEST_K_FACTOR_CALC

R4

Lowest K-factor calculation (FloBoss 500-Series version 2.40 or greater, FloBoss 100-Series version 2.07 or greater). 

For FloBoss 107: 

If the flow input is from a differential meter: Not used. 

If the flow input is from a linear meter: Lowest K-factor.

46.61:n


NEW_AGA.SECOND_K_FACTOR

R4

2nd K-factor (FloBoss 500-Series version 2.40 or greater, FloBoss Series-100 version 2.07 or greater.  For FloBoss 107: 

If the flow input is from a differential meter: not used. 

If the flow input is from a linear meter:

2nd lowest K-factor.  

46.62:n


NEW_AGA.THIRD_K_FACTOR

R4

2nd K-factor (FloBoss 500-Series version 2.40 or greater, FloBoss Series-100 version 2.07 or greater.  For FloBoss 107: 

If the flow input is from a differential meter: not used. 

If the flow input is from a linear meter:

3rd lowest K-factor.  

46.63:n

NEW_AGA.FOURTH_K_FACTOR

R4

2nd K-factor (FloBoss 500-Series version 2.40 or greater, FloBoss Series-100 version 2.07 or greater.  For FloBoss 107: 

If the flow input is from a differential meter: not used. 

If the flow input is from a linear meter:

4th lowest K-factor.  

46.64:n

NEW_AGA.HIGHEST_K_FACTOR

R4

Highest K-factor (FloBoss 500-Series version 2.40 or greater and FloBoss Series-100 version 2.07 or greater). 

For FloBoss 107: 

If the flow input is from a differential meter: not used. 

If the flow input is from a linear meter:

5th lowest K-factor.  

46.65:n

NEW_AGA.LOWEST_K_FACTOR_EU

R4

Lowest K-factor EU (FloBoss 500Series version 2.40 or greater, FloBoss Series-100 version 2.07 or greater). 

For FloBoss 107: 

If the flow input is from a differential meter: not used. 

If the flow input is from a linear meter: value of TLP (parameter 59) for selecting the lowest K-factor. Units are the same as the value of the TLP specified in parameter 59.  

46.66:n

NEW_AGA.SECOND_K_FACTOR_EU

R4

2nd K-factor EU (FloBoss 500-Series version 2.40 or greater, FloBoss Series-100 version 2.07 or greater). 

For FloBoss 107: 

If the flow input is from a differential meter: not used. 

If the flow input is from a linear meter:

value of TLP (parameter 59) for selecting the 2nd lowest K-factor. Units are the same as the value of the TLP specified in parameter 59.)  

46.67:n

NEW_AGA_THIRD_K_FACTOR_EU

R4

2nd K-factor EU (FloBoss 500-Series version 2.40 or greater, FloBoss Series-100 version 2.07 or greater). 

For FloBoss 107: 

If the flow input is from a differential meter: not used. 

If the flow input is from a linear meter:

value of TLP (parameter 59) for selecting the 3rd lowest K-factor. Units are the same as the value of the TLP specified in parameter 59.)  

46.68:n

NEW_AGA_FOURTH_K_FACTOR_EU

R4

2nd K-factor EU (FloBoss 500-Series version 2.40 or greater, FloBoss Series-100 version 2.07 or greater). 

For FloBoss 107: 

If the flow input is from a differential meter: not used. 

If the flow input is from a linear meter: value of TLP (parameter 59) for selecting the 4th lowest K-factor. Units are the same as the value of the TLP specified in parameter 59.)

46.69:n

NEW_AGA_HIGHEST_K_FACTOR_EU

R4

Highest K-factor EU (FloBoss 500Series version 2.40 or greater and FloBoss Series-100 version 2.07 or greater). 

For FloBoss 107: 

If the flow input is from a differential meter: not used. 

If the flow input is from a linear meter:

value of TLP (parameter 59) for selecting the 5th lowest K-factor. Units are the same as the value of the TLP specified in parameter 59,  

46.70:n

NEW_AGA_SIXTH_LOWEST_K_FACTOR

R4

FloBoss 107 only: 

If the flow input is from a differential meter: Not used. 

If the flow input is from a linear meter:

6th lowest K-factor.  

46.71:n

NEW_AGA_SEVENTH_LOWEST_K_FACTOR

R4

FloBoss 107 only: 

If the flow input is from a differential meter: Not used. 

If the flow input is from a linear meter:

7th lowest K-factor.  

46.72:n

NEW_AGA_EIGHTH_LOWEST_K_FACTOR

R4

FloBoss 107 only: 

If the flow input is from a differential meter: Not used. 

If the flow input is from a linear meter:

8th lowest K-factor.  

46.73:n


NEW_AGA_NINTH_LOWEST_K_FACTOR

R4

FloBoss 107 only: 

If the flow input is from a differential meter: Not used. 

If the flow input is from a linear meter:

9th lowest K-factor.  

46.74:n

NEW_AGA_TENTH_LOWEST_K_FACTOR

R4

FloBoss 107 only: 

If the flow input is from a differential meter: Not used. 

If the flow input is from a linear meter:

10th lowest K-factor.  

46.75:n

NEW_AGA_ELEVENTH_LOWEST_K_FACTOR

R4

FloBoss 107 only: 

If the flow input is from a differential meter: Not used. 

If the flow input is from a linear meter:

11th lowest K-factor.  

46.76:n

NEW_AGA_HIGHEST_K_FACTOR

R4

FloBoss 107 only: 

If the flow input is from a differential meter: Not used. 

If the flow input is from a linear meter: highest K-factor.  

46.77:n

NEW_AGA_SIXTH_LOWEST_K_FACTOR_LIN

R4

FloBoss 107 only: 

If the flow input is from a differential meter: Not used. 

If the flow input is from a linear meter: Value is the TLP (parameter 59) for selecting the 6th lowest K-factor. Units are the same as the value of the TLP specified in parameter 59.  

46.78:n

NEW_AGA_SEVENTH_LOWEST_K_FACTOR_LIN

R4

FloBoss 107 only: 

If the flow input is from a differential meter: Not used. 

If the flow input is from a linear meter: Value is the TLP (parameter 59) for selecting the 7th lowest K-factor. Units are the same as the value of the TLP specified in parameter 59. 

46.79:n

NEW_AGA_EIGHTH_LOWEST_K_FA CTOR_LIN

R4

FloBoss 107 only: 

If the flow input is from a differential meter: Not used. 

If the flow input is from a linear meter: Value is the TLP (parameter 59) for selecting the 8th lowest K-factor. Units are the same as the value of the TLP specified in parameter 59.  

46.80:n


NEW_AGA_NINTH_LOWEST_K_FACT OR_LIN

R4

FloBoss 107 only: 

If the flow input is from a differential meter: Not used. 

If the flow input is from a linear meter: Value is the TLP (parameter 59) for selecting the 9th lowest K-factor. Units are the same as the value of the TLP specified in parameter 59.  

46.81:n

NEW_AGA_TENTH_LOWEST_K_FAC TOR_LIN

R4

FloBoss 107 only: 

If the flow input is from a differential meter: Not used. 

If the flow input is from a linear meter: Value is the TLP (parameter 59) for selecting the 10th lowest K-factor. Units are the same as the value of the TLP specified in parameter 59.  

46.82:n

NEW_AGA_ELEVENTH_LOWEST_K_FACTOR_LIN

R4

FloBoss 107 only: 

If the flow input is from a differential meter: Not used. 

If the flow input is from a linear meter: Value is the TLP (parameter 59) for selecting the 11th lowest K-factor. Units are the same as the value of the TLP specified in parameter 59.

46.83:n

NEW_AGA_HIGHEST_K_FACTOR_LIN

R4

FloBoss 107 only: 

If the flow input is from a differential meter: Not used. 

If the flow input is from a linear meter: Value is the TLP (parameter 59) for selecting the highest K-factor. Units are the same as the value of the TLP specified in parameter 59.  

46.84:n

NEW_AGA_ARGON

R4

FloBoss 107 only: 

Argon (Ar) composition; units are mole percentage 

46.85:n

NEW_AGA_CONFIG_STATUS_BYTE_4

UI1

FloBoss 107 only: 

Configuration status, byte 4. 

Bits 5-7 – Not Used 

Bit 4 – Source of the Joule-Thomson coefficient (ISO5167 only) 0  = Calculate 1  = Manual entry 


Bit 3 – Calculation of the upsteam temperature (ISO5167 only) 0  = Disabled 1  = Enabled 


Bit 2 – Temperature tap location (ISO5167 only) 0  = Downstream 1  = Upstream 


Bit 1 – Flow rate time basis for alarming 0  = Daily flow rate 1  = Hourly flow rate 


Bit 0 – Source of the pressure loss in % (ISO5167 only). 

0 = Calculate

1 = Manual entry

46.86:n

NEW_AGA_SECONDS_INACTIVE_PU LSES

UI32

FloBoss 107 only: If the flow input is from a differential meter: Not used. 

If the flow input is from a linear meter using a PI point for the flow input:

User specified number of seconds that must elapse without pulses to consider currently there is no flow.  

46.87:n

NEW_AGA_PRIMARY_ELEMENT_TY PE

UI8

FloBoss 107 only: If the flow input is from a differential meter and the ISO 5167 standard is selected, this parameter is the type of primary element: 

0: Orifice with flange taps 1: Orifice with corner taps 2: Orifice with D and D/2 taps 10: Venturi tube 

All other meter cases: not used  

46.88:n

NEW_AGA_EXTRA_COEFF_DISCHA RGE

R4

FloBoss 107 only: If the flow input is from a differential meter and the ISO 5167 standard is selected and the primary element is a Venturi: User defineable coefficient of discharge (CdFT); dimensionless.  All other meter cases: not used  

46.89:n

NEW_AGA_ALARM_DEADBAND

R4

FloBoss 107 only: Alarm deadband, in mlb/day, lb/hr, mft3/day, ft3/hr, or the metric equivalent  

46.90:n

NEW_AGA_PRESSURE_LOSS

R4

FloBoss 107 only: 

Pressure loss, in % of differential pressure not recovered downstream of the primary element (ISO5167 only).

46.91:n

NEW_AGA_JT_COEFF

R4

FloBoss 107 only: 

Joule-Thompson coefficient, in deg

F/psi or deg C/kPa (ISO5167 only)  

46.92:n

NEW_AGA_API_OPTIONS

R4

FloBoss 107 only: API Options. 

Bits 7-2: Not used Bit 1: Expansion Factory Calculation 0 = AGA3 1992 Expansion Factor Calculation 

1 = AGA3 2011 Expansion Factory Calculation Bit 0: API 21.

1 Averaging Technique  0 = DP Averaging Technique is based on older version of API 21.1 and is not API 21.2 2011 compliant 

1 = DP Averaging Technique is API 21.1 compliant 

46.93:n

Point Type 46 – NEW AGA Items (Alternates)

ItemData TypeDescriptionT.P:L

NEW_AGA_BASE_MULT_PERIOD

R4

Base Multiplier Period – Turbine (minutes) 

47.6:n

NEW_AGA_BASE_TEMP

R4

Base or contract temperature 

47.14:n

NEW_AGA_K_FACTOR

R4

K-factor (in pulses/ft3 or pulses/m3) if the flow input is from a linear meter. This is used only when the flow input is from a pulse input point. 

47.43:n

NEW_AGA_FLOW_RATE 

TLP

Uncorrected Flow Rate – Turbine (MCF/day or km3/day) 

47.51:n

NEW_AGA _LOWEST_K_FACTOR_LIN

TLP

If the flow input is from a linear meter: Lowest K-factor 

47.61:n

IDS_PPT_SECOND_LOWEST_K_FACTOR_LIN 

R4

If the flow input is from a linear meter: 2nd lowest Kfactor. 

47.62:n

IDS_PPT_THIRD_LOWEST_K_FACTOR_LIN

R4

If the flow input is from a linear meter: 3rd lowest Kfactor.  

47.63:n

IDS_PPT_FOURTH_LOWEST_K_FACTOR_LIN

R4

If the flow input is from a linear meter: 4th lowest Kfactor. 

47.64:n

IDS_PPT_FIFTH_LOWEST_K_FACTOR_LIN

R4

If the flow input is from a linear meter: 5th lowest Kfactor. 

47.65:n

IDS_PPT_TLP_LOWEST_K_FACTOR_LIN

R4

If the flow input is from a linear meter: value of TLP for selecting the lowest K-factor.

47.66:n

IDS_PPT_TLP_SECOND_LOWEST_K_FACTOR_LIN 

R4

If the flow input is from a linear meter: value of TLP for selecting the 2nd lowest Kfactor. 

47.67:n

IDS_PPT_TLP_THIRD_LOWEST_K_FACTOR_LIN 

R4

If the flow input is from a linear meter: value of TLP for selecting the 3rd lowest Kfactor

47.68:n

IDS_PPT_TLP_FOURTH_LOWEST_K_FACTOR_LIN 

R4

If the flow input is from a linear meter: value of TLP for selecting the 4th lowest Kfactor.

47.69:n

IDS_PPT_TLP_FIFTH_LOWEST_K_FACTOR_LIN

R4

If the flow input is from a linear meter: value of TLP for selecting the 5th lowest Kfactor. 

47.70:n

Point Type 47 – NEW AGAFLOW Items

ItemData TypeDescriptionT.P:L

NEW_AGAFLOW.FLOWRATE_PER_DAY:n

R4

 Flow rate per day

47.0:n

NEW_AGAFLOW.ENERGYRATE_PER_DAY:n

R4

 Energy rate per day

47.1:n

NEW_AGAFLOW.FLOWRATE_PER_HOUR:n

R4

 Flow rate per hour

47.2:n

NEW_AGAFLOW.ENERGYRATE_PER_HOUR:n

R4

 Energy rate per hour

47.3:n

NEW_AGAFLOW.PRESSURE_EXTENSION:n

R4

 Pressure Extension (hwPf)

47.4:n

NEW_AGAFLOW.EXPANSION_FACTOR:n - Orifice

R4

 Expansion factor (Orifice)

47.5:n

NEW_AGAFLOW.FR:n – AGA 1985

R4

  

47.P:n

NEW_AGAFLOW.FB:n – AGA 1985

R4

  

47.P:n

NEW_AGAFLOW.FPB:n

R4

Base pressure factor (Fpb)

47.8:n

NEW_AGAFLOW.FTB:n

R4

Base temperature factor (Ftb)  

47.9:n

NEW_AGAFLOW.FTF:n

R4

Flow temperature factor (Ftf)

47.10:n

NEW_AGAFLOW.FGR:n

R4

Real gas relative density factor (Fgr)

47.11:n

NEW_AGAFLOW.FPV:n

R4

Supercompressibility factor (Fpv)

47.12:n

NEW_AGAFLOW.FA:n – AGA 1985

R4

  

47.13:n

NEW_AGAFLOW.ZB:n

R4

Compressibility at base conditions (Zb)

47.14:n

NEW_AGAFLOW.ZF:n – AGA 1985

R4

  

47.15:n

NEW_AGAFLOW.C_PRIME:n – AGA 1985

R4

  

47.16:n

NEW_AGAFLOW.ORIFICE_PLATE_BORE_DIAM:n

R4

Orifice Diameter

47.17:n

NEW_AGAFLOW.METER_TUBE_INTERN_DIAM:n

R4

Pipe Diameter

47.18:n

NEW_AGAFLOW.DIAMETER_RATIO:n

R4

Diameter Ratio (Beta)

47.19:n

NEW_AGAFLOW.VELOCITY_OF_APPROACH:n

R4

Velocity of Approach (Ev)

47.20:n

NEW_AGAFLOW.AVERAGE_HW:n - Orifice

R4

 Average hw – Orifice

47.21:n

NEW_AGAFLOW.TOTAL_COUNT:n - Turbine

R4

Total pulse count

47.21:n

NEW_AGAFLOW.AVERAGE_PF:n

R4

Average flowing pressure  

47.22:n

NEW_AGAFLOW.AVERAGE_TF:n

R4

Average flowing temperature

47.23:n

NEW_AGAFLOW.DENSITY:n

R4

Flowing density

47.24:n

NEW_AGAFLOW.BASE_DENSITY:n

R4

Base Density

47.25:n

NEW_AGAFLOW.REYNOLDS_NUMBER:n

R4

Reynolds number

47.26:n

NEW_AGAFLOW.UPSTREAM_STATIC_PRESS:n

R4

Upstream static pressure

47.27:n

NEW_AGAFLOW.MOLECULAR_WEIGHT:n

R4

Molecular weight

47.28:n

NEW_AGAFLOW.FAM:n

R4

Fam

47.29:n

NEW_AGAFLOW.FWT:n

R4

 Fwt

47.30:n

NEW_AGAFLOW.FWL:n

R4

 Fwl

47.31:n

NEW_AGAFLOW.FPWL_STATIC:n

R4

Local gravitation correction for static pressure

47.32:n

NEW_AGAFLOW.FPWL_DIFFERENTIAL:n

R4

Local gravitation correction for differential pressure

47.33:n

NEW_AGAFLOW.FHGM:n

R4

Fhgm

47.34:n

NEW_AGAFLOW.FHGT:n

R4

Fhgt

47.35:n

NEW_AGAFLOW.FLOW_TODAY:n

R4

Flow today

47.36:n

NEW_AGAFLOW.FLOW_YESTERDAY:n

R4

Flow yesterday

47.37:n

NEW_AGAFLOW.FLOW_MONTH:n

R4

Flow this month

47.38:n

NEW_AGAFLOW.FLOW_PREVIOUS_MONTH:n

R4

Flow previous month

47.39:n

NEW_AGAFLOW.FLOW_ACCUMULATED:n

R4

Accumulated flow since last reset

47.40:n

NEW_AGAFLOW.MINUTES_TODAY:n

R4

Minutes of flow today  

47.41:n

NEW_AGAFLOW.MINUTES_YESTERDAY:n

R4

Minutes of flow yesterday

47.42:n

NEW_AGAFLOW.MINUTES_MONTH:n

R4

Minutes of flow this month

47.43:n

NEW_AGAFLOW.MINUTES_PREVIOUS_MONTH:n

R4

 Minutes of flow previous month

47.44:n

NEW_AGAFLOW.MINUTES_ACCUMULATED:n

R4

Accumulated minutes since last reset

47.45:n

NEW_AGAFLOW.ENERGY_TODAY:n

R4

Energy today  

47.46:n

NEW_AGAFLOW.ENERGY_YESTERDAY:n

R4

Energy yesterday

47.47:n

NEW_AGAFLOW.ENERGY_MONTH:n

R4

Energy this month

47.48:n

NEW_AGAFLOW.ENERGY_PREVIOUS_MONTH:n

R4

Energy previous month

47.49:n

NEW_AGAFLOW.ENERGY_ACCUMULATED:n

R4

Accumulated energy since last reset

47.50:n

NEW_AGAFLOW.UNCORRECTED_TODAY:n

R4

Uncorrected flow today

47.51:n

NEW_AGAFLOW.UNCORRECTED_YESTERDAY:n

R4

Uncorrected flow yesterday

47.52:n

NEW_AGAFLOW.UNCORRECTED_MONTH:n

R4

Uncorrected flow this month

47.53:n

NEW_AGAFLOW.UNCORRECTED_PREV_MONTH: n

R4

Uncorrected flow previous month

47.54:n

NEW_AGAFLOW.UNCORRECTED_ACCUMULATED:n 

R4

Uncorrected accumulation since last reset 

47.55:n

NEW_AGAFLOW.PARTIAL_RECAL_FLAG:n

UI1

Partial recalculation flag

47.56:n

IDS_PPT_REDUNDANT_FLOW_RATE_PER_DAY:n

R4

Redundant Flow Rate per Day (FloBoss 504 only) 

For FloBoss 107: Reserved 

47.57:n

IDS_PPT_REDUNDANT_TOTAL_COUNTS:n

R4

Redundant Total Counts (FloBoss 504 only) 

For FloBoss 107: Reserved 

47.58:n

IDS_PPT_PULSE_COUNT_TOTAL:n

UI4

FloBoss 107: 

If the flow input is from a differential meter: Not used. 

If the flow input is from a linear meter: Raw pulses. If the flow input is from a pulse input, this value is equal to TLP=5,Logical,16. If the flow input is not from a pulse input, this value is calculated based on the rate and K-factor. 

47.59:n


IDS_PPT_FLOW_STATUS:n

UI8

Status of flow passing through the meter during the current section. Valid values are 0 (not flowing) and 1 (flowing). 

47.60:n

IDS_PPT_FLOW_RATE_PER_DAY:n

FL

Daily Mass Flow Rate (Mlb/day or Tonnes/day) (FloBoss 107 only) 

47.61:n

IDS_PPT_FLOW_RT_PER_HOUR:n

FL

Hourly Mass Flow Rate (lb/hr or kg/hr) (FloBoss 107 only)  

47.62:n

IDS_PPT_FLOW_TODAY:n

FL

Mass Flow Today (Mlb or tonnes) (FlowBoss 107 only)  

47.63:n

IDS_PPT_FLOW_YESTERDAY:n

FL

Mass Flow Yesterday (Mlb or tonnes) (FloBoss 107 only) 

47.64:n

IDS_PPT_FLOW_MONTH:n

FL

Mass Flow Current Month (Mlb or tones) (FloBoss 107 only) 

47.65:n

IDS_PPT_FLOW_PREVIOUS_MONTH:n 

FL

Mass Flow Previous Month (Mlb or tones) (FloBoss 107 only) 

47.66:n

IDS_PPT_FLOW_ACCUM:n

FL

Mass Flow Accumulated since last reset (Mlb or tones) (FloBoss 107 only) 

47.67:n

IDS_PPT_CALCULATION_METHOD:n


FL

Flow calculation configuration (FloBoss 107 only) Bits 7-4 – Not used Bit 3 – Phase of Fluid 0 = Gas 1 = Liquid Bit 2 – Flow Calculation Basis 0 = Volumetric 1 = Mass Bit 1 – Source of Properties Calculation 0 = Firmware 1 = User C Program Bit 0 – Source of Flow Calculation 0 = Firmware 1 = User C Program  

47.68:n

IDS_PPT_PRESS_MULTIPLIER:n


FL

FloBoss 107 Only:  If the calculation standard is not AGA7: Not used. 

If the calculation standard is AGA7: Pressure mulitiplier (Pf / Pb) 

47.69:n

IDS_PPT_TEMP_MULTIPLIER:n


FL

FloBoss 107 Only:  If the calculation standard is not AGA7: Not used. 

If the calculation standard is AGA7: Temperature mulitiplier (Tb / Tf) 

47.70:n

IDS_PPT_COMPRESS_MULTIPLIER:n 

FL

FloBoss 107 Only:  If the calculation standard is not AGA7: Not used. 

If the calculation standard is AGA7: Compressiblity mulitiplier (Zb / Zf) 

47.71:n

IDS_PPT_CALC_STANDARD:n 

String

Description of the standard used to calculate the flow rates of the fluid. This string is set by the firmware or a User C flow program. (FloBoss 107 only) 

47.72:n

IDS_PPT_CALC_METHOD_II:n

String

Description of the standard used to calculate the properties of the fluid. 

This string is set by the firmware of a User C properties program. (FloBoss 107 only)  

47.73:n

IDS_PPT_FLOWING_TEMP:n


FL

Upstream flowing temperature, in deg F or deg C (ISO5167 only) (FloBoss 107 only) 


47.74:n

IDS_PPT_HEATING_VALUE_TYPE:n


UI8

Heating value table in use (FloBoss 107 only). Valid values are: 

0 = GPA 2145-09 at 60 F

1 = ISO 6976 at 15 C

2 = ISO 6976 at 20 C 

47.75:n

Point Type 47 – NEW AGAFLOW Items (Alternates)

ItemData TypeDescriptionT.P:L

IDS_PPT_FPM:n

R4

Fpm – Turbine 

47.5:n

IDS_PPT_CDFT:n

R4

CdFT – Orifice 

47.6:n

IDS_PPT_FN:n

R4

Fm – Orifice 

47.7:n

IDS_PPT_FTM:n

R4

Ftm – Turbine 

47.7:n

IDS_PPT_ZS:n

R4

Compressibility at standard conditions (Zs)

47.13:n

IDS_PPT_ZFL:n

R4

Compressibility at flowing conditions (Zf1) 

47.15:n

IDS_PPT_IMV:n

R4

Integral Multiplier Value (IMV) – Orifice 

47.16:n

IDS_PPT_BMV:n

R4

Base Multiplier Value (BMV) – Turbine 

47.16:n

IDS_PPT_TOTAL_COUNT:n

R4

Total counts during last BMP (if pulse input) – linear meter 

47.21:n

Point Type 48 – NEW PID Items

ItemData TypeDescriptionT.P:L

NEW_PID.POINT_TAG_ID:n

STRING

Identifies point tag

48.0:n

NEW_PID.CONTROL_TYPE:n

UI1

Control Type

48.1:n

NEW_PID.SWITCH_STATUS:n

UI1

Active loop status

48.2:n

NEW_PID.LOOP_PERIOD:n

R4

Loop period

48.3:n

NEW_PID.ACTUAL_LOOP_PERIOD:n

R4

Actual loop period (in seconds)

48.4:n

NEW_PID.PRIMARY_INPUT_POINT:n

STRING

Primary PV input Point TLP

48.5:n

NEW_PID.PRIMARY_SETPOINT:n

R4

Setpoint of primary loop

48.6:n

NEW_PID.PRIMARY_SETPOINT_CHG_MAX:n

R4

Max setpoint change rate of primary loop

48.7:n

NEW_PID.PRIMARY_PROPORTIONAL_GAIN:n

R4

Primary proportional gain

48.8:n

NEW_PID.PRIMARY_RESET_GAIN:n

R4

Primary rest (integral) gain  

48.9:n

NEW_PID.PRIMARY_RATE_GAIN:n

R4

Primary rate (derivative) gain

48.10:n

NEW_PID.PRIMARY_SCALE_FACTOR:n

R4

Primary scale factor

48.11:n

NEW_PID.PRIMARY_INTEGRAL_DEADBAND:n

R4

Primary integral deadband

48.12:n

NEW_PID.PRIMARY_PROCESS_VARIABLE:n

R4

Primary loop process variable

48.13:n

NEW_PID.PRIMARY_CHANGE_IN_OUTPUT:n

R4

Change in output calculated by primary loop

48.14:n

NEW_PID.OVERRIDE_INPUT_POINT:n

STRING

TLP for the process variable for the override loop

48.15:n

NEW_PID.OVERRIDE_SETPOINT:n

R4

Setpoint of the override loop

48.16:n

NEW_PID.OVERRIDE_SETPOINT_CHG_MAX:n

R4

Maximum setpoint change rate of the override loop

48.17:n

NEW_PID.OVERRIDE_PROPOR_GAIN:n

R4

Proportional gain of the override loop

48.18:n

NEW_PID.OVERRIDE_RESET_GAIN:n

R4

Override Reset (Integral) gain

48.19:n

NEW_PID.OVERRIDE_RATE_GAIN:n

R4

Derivative gain of the override loop

48.20:n

NEW_PID.OVERRIDE_SCALE_FACTOR:n

R4

Override scale factor

48.21:n

NEW_PID.OVERRIDE_INTEG_DEADBAND:n

R4

Integral deadband of the override loop

48.22:n

NEW_PID.OVERRIDE_PROCESS_VARIABLE:n

R4

Process variable of the override loop

48.23:n

NEW_PID.OVERRIDE_CHANGE_IN_OUTPUT:n

R4

Change in the output calculated by the override loop

48.24:n

NEW_PID.PID_CURRENT_OUTPUT:n

R4

Current output of PID

48.25:n

NEW_PID.PID_OUTPUT:n

STRING

PID output point

48.26:n

NEW_PID.PID_SECOND_OUTPUT:n

STRING

Second output of PID

48.27:n

NEW_PID.PID_OUTPUT_LOW_LIMIT:n

R4

FloBoss 107 only:  If the output is specified to be an analog output, the low limit of the value written to the analog output. 

If the output is specified to be two (2) discrete outputs, the low limit of the value written to the discrete output for decreases 

48.28:n

IDS_PPT_OUTPUT_HIGH_LIMIT:n


R4

FloBoss 107 only:  If the output is specified to be an analog output, the high limit of the value written to the analog output. 

If the output is specified to be two (2) discrete outputs, the high limit of the value written to the discrete output for increases 

48.29:n

IDS_PPT_CONTROL_LOOP:n


UI8

Control Loop Selection,

Valid values are: 0 = Accept changes from either loop 1 = Accept changes only from primary loop 2 = Accept changes only from override loop 

Note: Bit 1 of parameter

1 is set to 0, if parameter 30 is 1 or 2. Bit 1 of parameter 1 is set to 1, if parameter 30 is 0

48.30:n


IDS_PPT_ERROR_THRESHOLD:n


R4

FloBoss 107 only:  If the control scheme is specified to use the primary and override loops: Error threshold for not selecting the override loop’s change. When the error is greater than the error threshold in the normal operating range, only changes from the primary loop are selected. Otherwise, the high/low selector selects the appropriate change from either of the loops. A threshold of 0.0 deactivates this feature which means the high/low selector always selects the appropriate change from either of the loops. If the control scheme is specified to use only one of the primary or override loops: Not used 

48.31:n

IDS_PPT_PRI_PV:n


String

Primary Loop PV and Setpoint Units FloBoss 107 only) 

48.32:n

IDS_PPT_OVR_PV:n


String

Override PV Look and Setpoint Units (FloBoss 107 only) 


48.33:n

IDS_PPT_PID_OUTPUT:n


String

PID Output Units (FloBoss 107 only) 


48.34:n

IDS_PPT_EU_VALUE_1:n

R4

Low EU value for the primary loop’s process variable and setpoint. It is the minimum value on the primary loop’s PV and SP bar graph for the LCD’s faceplate.

48.35:n

IDS_PPT_EU_VALUE_2:n


R4

High EU value for the primary loop’s process variable and setpoint. It is the maximum value on the primary loop’s PV and SP bar graph for the LCD’s faceplate.

48.36:n

IDS_PPT_EU_VALUE_3:n


R4

Low EU value for the override loop’s process variable and setpoint. It is the minimum value on the override loop’s PV and SP bar graph for the LCD’s faceplate.

48.37:n

IDS_PPT_EU_VALUE_4:n


R4

High EU value for the override loop’s process variable and setpoint. It is the maximum value on the override loop’s PV and SP bar graph for the LCD’s faceplate.

48.38:n

Point Type 52 - Battery Items

ItemData TypeDescriptionT.P:L

BATTERY.BATTERY_VOLTAGE:n

R4

Battery voltage

52.1:n

BATTERY.VOLTAGE_INPUT:n

R4

Voltage input

52.2:n

BATTERY.BATTERY_TEMPERATURE:n

R4

Battery temperature

52.3:n

BATTERY.LOW_BATTERY_DROPOUT:n

R4

Low battery dropout

52.4:n

BATTERY.BATTERY_TURN_ON_VOLTAGE:n

R4

Battery turn on voltage

52.5:n

BATTERY.REFERENCE_VOLTAGE:n

R4

Reference voltage

52.6:n

BATTERY.METRIC_ENGLISH_UNITS_FLAG:n

UI1

Metric/US units flag  

52.7:n

BATTERY.STATUS:n

UI1

 Status

52.8:n

BATTERY.DUTY_CYCLE:n

UI1

 Duty cycle

52.9:n

BATTERY.BATTERY_ACTIVITY:n

UI1

 Battery activity

52.10:n

BATTERY.TASK:n

UI1

 Task

52.11:n

BATTERY.SLEEP_FLAG:n

UI1

 Sleep flag

52.12:n

Point Type 53 - MODBUS_CONFIG Items

ItemData TypeDescriptionT.P:L

MODBUS_CONFIG.OPTIONS:n

UI1


53.0:n

MODBUS_CONFIG.STATUS:n

UI1

READ ONLY

53.1:n

MODBUS_CONFIG.HIGH_INTEGER_SCALE:n

I2


53.2:n

MODBUS_CONFIG.LOW_INTEGER_SCALE:n

I2


53.3:n

MODBUS_CONFIG.HIGH_FLOAT_SCALE_1:n

R4

High Float Scale #1 

53.4:n

MODBUS_CONFIG.LOW_FLOAT_SCALE_1:n

R4

Low Float Scale #1

53.5:n

MODBUS_CONFIG.HIGH_FLOAT_SCALE_2:n

R4

High Float Scale #2

53.6:n

MODBUS_CONFIG.LOW_FLOAT_SCALE_2:n

R4

Low Float Scale #2

53.7:n

MODBUS_CONFIG.HIGH_FLOAT_SCALE_3:n

R4

High Float Scale #3

53.8:n

MODBUS_CONFIG.LOW_FLOAT_SCALE_3:n

R4

Low Float Scale #3

53.9:n

MODBUS_CONFIG.HIGH_FLOAT_SCALE_4:n

R4

High Float Scale #4

53.10:n

MODBUS_CONFIG.LOW_FLOAT_SCALE_4:n

R4

Low Float Scale #4

53.11:n

MODBUS_CONFIG.HIGH_FLOAT_SCALE_5:n

R4

High Float Scale #5

53.12:n

MODBUS_CONFIG.LOW_FLOAT_SCALE_5:n

R4

Low Float Scale #5

53.13:n

MODBUS_CONFIG.HIGH_FLOAT_SCALE_6:n

R4

High Float Scale #6

53.14:n

MODBUS_CONFIG.LOW_FLOAT_SCALE_6:n

R4

Low Float Scale #6

53.15:n

MODBUS_CONFIG.HIGH_FLOAT_SCALE_7:n

R4

High Float Scale #7

53.16:n

MODBUS_CONFIG.LOW_FLOAT_SCALE_7:n

R4

Low Float Scale #7

53.17:n

MODBUS_CONFIG.HIGH_FLOAT_SCALE_8:n

R4

High Float Scale #8

53.18:n

MODBUS_CONFIG.LOW_FLOAT_SCALE_8:n

R4

Low Float Scale #8

53.19:n

MODBUS_CONFIG.HIGH_FLOAT_SCALE_1:n

R4

High Float Scale #1 

53.4:n

MODBUS_CONFIG.LOW_FLOAT_SCALE_1:n

R4

Low Float Scale #1 

53.5:n

Point Type 54 - MODBUS_FUNCTION Items

ItemData TypeDescriptionT.P:L

MODBUS_FUNCTION.POINT_TAG_ID:n

STRING

  

54.0:n

MODBUS_FUNCTION.START_REGISTER_01:n

UI2


54.P:n

MODBUS_FUNCTION.END_REGISTER_01:n

UI1


54.P:n

MODBUS_FUNCTION.ROC_PARAMETER_01:n

TLP - See TLP Data Type in Section 3.0.


54.P:n

MODBUS_FUNCTION.CONVERSION_CODE_01:n

UI1


54.P:n

MODBUS_FUNCTION.START_REGISTER_02:n

UI2

Start register #2

54.5:n

MODBUS_FUNCTION.END_REGISTER_02:n

UI1

End register #2

54.6:n

MODBUS_FUNCTION.ROC_PARAMETER_02:n

TLP - See TLP Data Type in Section 3.0.

ROC parameters

54.7:n

MODBUS_FUNCTION.CONVERSION_CODE_02:n

UI1

Conversion code

54.8:n

MODBUS_FUNCTION.START_REGISTER_03:n

UI2

Start register #3

54.9:n

MODBUS_FUNCTION.END_REGISTER_03:n

UI1

End register #3

54.10:n

MODBUS_FUNCTION.ROC_PARAMETER_03:n

TLP - See TLP Data Type in Section 3.0.

ROC parameters

54.11:n

MODBUS_FUNCTION.CONVERSION_CODE_03:n

UI1

Conversion code

54.12:n

MODBUS_FUNCTION.START_REGISTER_04:n

UI2

Start register #4

54.13:n

MODBUS_FUNCTION.END_REGISTER_04:n

UI1

End register #4

54.14:n

MODBUS_FUNCTION.ROC_PARAMETER_04:n

TLP - See TLP Data Type in Section 3.0.

ROC parameters

54.15:n

MODBUS_FUNCTION.CONVERSION_CODE_04:n

UI1

Conversion code

54.16:n

MODBUS_FUNCTION.START_REGISTER_05:n

UI2

Start register #5

54.17:n

MODBUS_FUNCTION.END_REGISTER_05:n

UI1

End register #5

54.18:n

MODBUS_FUNCTION.ROC_PARAMETER_05:n

TLP - See TLP Data Type in Section 3.0.

ROC parameters

54.19:n

MODBUS_FUNCTION.CONVERSION_CODE_05:n

UI1

Conversion code

54.20:n

MODBUS_FUNCTION.START_REGISTER_06:n

UI2

Start register #6

54.21:n

MODBUS_FUNCTION.END_REGISTER_06:n

UI1

End register #6

54.22:n

MODBUS_FUNCTION.ROC_PARAMETER_06:n

TLP - See TLP Data Type in Section 3.0.

ROC parameters

54.23:n

MODBUS_FUNCTION.CONVERSION_CODE_06:n

UI1

Conversion code

54.24:n

MODBUS_FUNCTION.START_REGISTER_07:n

UI2

Start register #7

54.25:n

MODBUS_FUNCTION.END_REGISTER_07:n

UI1

End register #7

54.26:n

MODBUS_FUNCTION.ROC_PARAMETER_07:n

TLP - See TLP Data Type in Section 3.0.

ROC parameters

54.27:n

MODBUS_FUNCTION.CONVERSION_CODE_07:n

UI1

Conversion code

54.28:n

MODBUS_FUNCTION.START_REGISTER_08:n

UI2

Start register #8

54.29:n

MODBUS_FUNCTION.END_REGISTER_08:n

UI1

End register #8

54.30:n

MODBUS_FUNCTION.ROC_PARAMETER_08:n

TLP - See TLP Data Type in Section 3.0.

ROC parameters

54.31:n

MODBUS_FUNCTION.CONVERSION_CODE_08:n

UI1

Conversion code

54.32:n

MODBUS_FUNCTION.START_REGISTER_09:n

UI2

Start register #9

54.33:n

MODBUS_FUNCTION.END_REGISTER_09:n

UI1

End register #9

54.34:n

MODBUS_FUNCTION.ROC_PARAMETER_09:n

TLP - See TLP Data Type in Section 3.0.

ROC parameters

54.35:n

MODBUS_FUNCTION.CONVERSION_CODE_09:n

UI1

Conversion code

54.36:n

MODBUS_FUNCTION.START_REGISTER_10:n

UI2

Start register #10

54.37:n

MODBUS_FUNCTION.END_REGISTER_10:n

UI1

End register #10

54.38:n

MODBUS_FUNCTION.ROC_PARAMETER_10:n

TLP - See TLP Data Type in Section 3.0.

ROC parameters

54.39:n

MODBUS_FUNCTION.CONVERSION_CODE_10:n

UI1

Conversion code

54.40:n

MODBUS_FUNCTION.START_REGISTER_11:n

UI2

Start register #11

54.41:n

MODBUS_FUNCTION.END_REGISTER_11:n

UI1

End register #11

54.42:n

MODBUS_FUNCTION.ROC_PARAMETER_11:n

TLP - See TLP Data Type in Section 3.0.

ROC parameters

54.43:n

MODBUS_FUNCTION.START_REGISTER_13:n

UI2

Start register #13

54.49:n

MODBUS_FUNCTION.END_REGISTER_13:n

UI1

End register #13

54.50:n

MODBUS_FUNCTION.ROC_PARAMETER_13:n

TLP - See TLP Data Type in Section 3.0.

ROC parameters

54.51:n

MODBUS_FUNCTION.CONVERSION_CODE_13:n

UI1

Conversion code

54.52:n

MODBUS_FUNCTION.START_REGISTER_14:n

UI2

Start register #14

54.53:n

MODBUS_FUNCTION.END_REGISTER_14:n

UI1

End register #14

54.54:n

MODBUS_FUNCTION.ROC_PARAMETER_14:n

TLP - See TLP Data Type in Section 3.0.

ROC parameters

54.55:n

MODBUS_FUNCTION.CONVERSION_CODE_14:n

UI1

Conversion code

54.56:n

MODBUS_FUNCTION.START_REGISTER_15:n

UI2

Start register #15

54.57:n

MODBUS_FUNCTION.END_REGISTER_15:n

UI1

End register #15

54.58:n

MODBUS_FUNCTION.ROC_PARAMETER_15:n

TLP - See TLP Data Type in Section 3.0.

ROC parameters

54.59:n

MODBUS_FUNCTION.CONVERSION_CODE_15:n

UI1

Conversion code

54.60:n

Point Type 55 - MODBUS_SPECIAL Items

ItemData TypeDescriptionT.P:L

MODBUS_SPECIAL. EVENT_ALARM:n

UI2

Event/alarm register  

55.0:n

MODBUS_SPECIAL.PERIODIC_HISTORY_IND_REG:n

UI2

Periodic History Index Register 

55.1:n

MODBUS_SPECIAL.DAILY_HISTORY_IND_REG:n

UI2

Daily History Index Register 

55.2:n

IDS_PPT_EXTENDED_HIST:n

UI2

Extended History Index Register (FloBoss 103/104 version 2.00 or greater and FloBoss 107) 

55.3:n

MODBUS_SPECIAL.HISTORY_FORMAT:n

UI1


55.4:n

MODBUS_SPECIAL.HISTORY_ARCHIVE_REG_01:n

UI2

History Archive Register # 1

55.5:n

MODBUS_SPECIAL.START_HISTORY_POINT_01:n

UI1

Start History Point

55.6:n

MODBUS_SPECIAL.END_HISTORY_POINT_01:n

UI1

End History Point

55.7:n

MODBUS_SPECIAL.TYPE_HISTORY_ARCHIVE_01:n

UI1

Type of History Archive.

Valid values are: 

2  = Periodic 

3  = Daily 

4  = Extended  

55.8:n

MODBUS_SPECIAL.CONVERSION_CODE_01:n

UI1

Conversion Code

55.9:n

MODBUS_SPECIAL.HISTORY_ARCHIVE_REG_02:n

UI2

History Archive Register #2  

55.10:n

MODBUS_SPECIAL.START_HISTORY_POINT_02:n

UI1

Start History Point

55.11:n

MODBUS_SPECIAL.END_HISTORY_POINT_02:n

UI1

End History Point

55.12:n

MODBUS_SPECIAL.TYPE_HISTORY_ARCHIVE_02:n

UI1

Type of History Archive. Valid values are: 2  = Periodic 3  = Daily 4  = Extended 

55.13:n

MODBUS_SPECIAL.CONVERSION_CODE_02:n

UI1

Conversion Code

55.14:n

MODBUS_SPECIAL.HISTORY_ARCHIVE_REG_03:n

UI2

History Archive Register #3  

55.15:n

MODBUS_SPECIAL.START_HISTORY_POINT_03:n

UI1

Start History Point

55.16:n

MODBUS_SPECIAL.END_HISTORY_POINT_03:n

UI1

End History Point

55.17:n

MODBUS_SPECIAL.TYPE_HISTORY_ARCHIVE_03:n

UI1

Type of History Archive. Valid values are: 2  = Periodic 3  = Daily 4  = Extended 

55.18:n

MODBUS_SPECIAL.CONVERSION_CODE_03:n

UI1

Conversion Code

55.19:n

MODBUS_SPECIAL.HISTORY_ARCHIVE_REG_04:n

UI2

History Archive Register #4 

55.20:n

MODBUS_SPECIAL.START_HISTORY_POINT_04:n

UI1

Start History Point

55.21:n

MODBUS_SPECIAL.END_HISTORY_POINT_04:n

UI1

End History Point

55.22:n

MODBUS_SPECIAL.TYPE_HISTORY_ARCHIVE_04:n

UI1

Type of History Archive. Valid values are: 2 = Periodic 3 = Daily  4 = Extended  

55.23:n

MODBUS_SPECIAL.CONVERSION_CODE_04:n

UI1

Conversion Code

55.24:n

MODBUS_SPECIAL.HISTORY_ARCHIVE_REG_05:n

UI2

History Archive Register #5 

55.25:n

MODBUS_SPECIAL.START_HISTORY_POINT_05:n

UI1

Start History Point

55.26:n

MODBUS_SPECIAL.END_HISTORY_POINT_05:n

UI1

End History Point

55.27:n

MODBUS_SPECIAL.TYPE_HISTORY_ARCHIVE_05:n

UI1

Type of History Archive. Valid values are: 2  = Periodic 3  = Daily 4  = Extended 

55.28:n

MODBUS_SPECIAL.HISTORY_ARCHIVE_REG_06:n

UI2

History Archive Register #6  

55.30:n

MODBUS_SPECIAL.START_HISTORY_POINT_06:n

UI1

Start History Point

55.31:n

MODBUS_SPECIAL.END_HISTORY_POINT_06:n

UI1

End History Point

55.32:n

MODBUS_SPECIAL.TYPE_HISTORY_ARCHIVE_06:n

UI1

Type of History Archive. Valid values are: 2  = Periodic 3  = Daily 4  = Extended 

55.33:n

MODBUS_SPECIAL.CONVERSION_CODE_06:n

UI1

Conversion Code

55.34:n

MODBUS_SPECIAL.HISTORY_ARCHIVE_REG_07:n

UI2

History Archive Register #1  

55.35:n

MODBUS_SPECIAL.START_HISTORY_POINT_07:n

UI1

Start History Point

55.36:n

MODBUS_SPECIAL.END_HISTORY_POINT_07:n

UI1

End History Point

55.37:n

MODBUS_SPECIAL.TYPE_HISTORY_ARCHIVE_07:n

UI1

Type of History Archive. Valid values are: 2  = Periodic 3  = Daily 4  = Extended 

55.38:n

MODBUS_SPECIAL.CONVERSION_CODE_07:n

UI1

Conversion Code

55.39:n

MODBUS_SPECIAL.HISTORY_ARCHIVE_REG_06:n

UI2

History Archive Register #6  

55.30:n

MODBUS_SPECIAL.HISTORY_ARCHIVE_REG_08:n

UI2

History Archive Register #8 

55.40:n

MODBUS_SPECIAL.START_HISTORY_POINT_08:n

UI1

Start History Point

55.41:n

MODBUS_SPECIAL.END_HISTORY_POINT_08:n

UI1

End History Point

55.42:n

MODBUS_SPECIAL.TYPE_HISTORY_ARCHIVE_08:n

UI1

Type of History Archive. Valid values are: 2  = Periodic 3  = Daily 4  = Extended 

55.43:n

MODBUS_SPECIAL.CONVERSION_CODE_08:n

UI1

Conversion Code

55.44:n

MODBUS_SPECIAL.HISTORY_ARCHIVE_REG_09:n

UI2

History Archive Register #9 

55.45:n

MODBUS_SPECIAL.START_HISTORY_POINT_09:n

UI1

Start History Point

55.46:n

MODBUS_SPECIAL.END_HISTORY_POINT_09:n

UI1

End History Point

55.47:n

MODBUS_SPECIAL.TYPE_HISTORY_ARCHIVE_09:n

UI1

Type of History Archive. Valid values are: 2  = Periodic 3  = Daily 4  = Extended 

55.48:n

MODBUS_SPECIAL.CONVERSION_CODE_09:n

UI1

Conversion Code

55.49:n

MODBUS_SPECIAL.HISTORY_ARCHIVE_REG_10:n

UI2

History Archive Register #10  

55.50:n

MODBUS_SPECIAL.END_HISTORY_POINT_10:n

UI1

End History Point

55.52:n

MODBUS_SPECIAL.TYPE_HISTORY_ARCHIVE_10:n

UI1

Type of History Archive. Valid values are: 2  = Periodic 3  = Daily 4  = Extended 

55.53:n

MODBUS_SPECIAL.CONVERSION_CODE_10:n

UI1

Conversion Code

55.54:n

MODBUS_SPECIAL.CURRENT_DATE_REG:n


Date Access Register (FloBoss 103/104 version 2.12 or greater) For FB107: Date Register 

55.55:n

MODBUS_SPECIAL.CURRENT_TIME_REG:n


Time Access Register (FloBoss 103/104 version 2.12 or greater )  

55.56:n

MODBUS_SPECIAL.EFM_EXTENSIONS:n


EFM Extensions. Valid values are 0 (Disabled) and 1 (Enabled)  For FB107: 

Bit 1: 0  = Year Format 1980 1  = Year Format 2000 

Bit 2: 0 = EFM disabled 1= EFM enabled 

55.57:n

MODBUS_SPECIAL.HISTORY_ARCHIVE_REG_11:n

UI2

History Archive Register #1 

55.58:n

MODBUS_SPECIAL.END_HISTORY_POINT_10:n

UI1

End History Point

55.52:n

MODBUS_SPECIAL.START_HISTORY_POINT_11:n

UI1

Start History Point

55.59:n

MODBUS_SPECIAL.END_HISTORY_POINT_11:n

UI1

End History Point

55.60:n

MODBUS_SPECIAL.TYPE_HISTORY_ARCHIVE_11:n

UI1

Type of History Archive. Valid values are: 2  = Periodic 3  = Daily 4  = Extended 

55.61:n

MODBUS_SPECIAL.CONVERSION_CODE_11:n

UI1

Conversion Code

55.62:n

MODBUS_SPECIAL.HISTORY_ARCHIVE_REG_12:n

UI2

History Archive Register #12 

55.63:n

MODBUS_SPECIAL.START_HISTORY_POINT_12:n

UI1

Start History Point

55.64:n

MODBUS_SPECIAL.END_HISTORY_POINT_12:n

UI1

End History Point

55.65:n

MODBUS_SPECIAL.TYPE_HISTORY_ARCHIVE_12:n

UI1

Type of History Archive. Valid values are: 2  = Periodic 3  = Daily 4  = Extended 

55.66:n

MODBUS_SPECIAL.CONVERSION_CODE_12:n

UI1

Conversion Code

55.67:n

MODBUS_SPECIAL.HISTORY_ARCHIVE_REG_13:n

UI2

History Archive Register #13 

55.68:n

MODBUS_SPECIAL.START_HISTORY_POINT_13:n

UI1

Start History Point

55.69:n

MODBUS_SPECIAL.TYPE_HISTORY_ARCHIVE_13:n

UI1

Type of History Archive. Valid values are: 2  = Periodic 3  = Daily 4  = Extended 

55.71:n

MODBUS_SPECIAL.CONVERSION_CODE_13:n

UI1

Conversion Code

55.72:n

MODBUS_SPECIAL.HISTORY_ARCHIVE_REG_14:n

UI2

History Archive Register #14  

55.73:n

MODBUS_SPECIAL.START_HISTORY_POINT_14:n

UI1

Start History Point

55.74:n

MODBUS_SPECIAL.END_HISTORY_POINT_14:n

UI1

End History Point

55.75:n

MODBUS_SPECIAL.TYPE_HISTORY_ARCHIVE_14:n

UI1

Type of History Archive. Valid values are: 2  = Periodic 3  = Daily 4  = Extended 

55.76:n

MODBUS_SPECIAL.CONVERSION_CODE_14:n

UI1

Conversion Code

55.77:n

MODBUS_SPECIAL.HISTORY_ARCHIVE_REG_15:n

UI2

History Archive Register #15  

55.78:n

MODBUS_SPECIAL.START_HISTORY_POINT_15:n

UI1

Start History Point

55.79:n

MODBUS_SPECIAL.END_HISTORY_POINT_15:n

UI1

End History Point

55.80:n

MODBUS_SPECIAL.TYPE_HISTORY_ARCHIVE_15:n

UI1

Type of History Archive. Valid values are: 2  = Periodic 3  = Daily 4  = Extended 

55.81:n

MODBUS_SPECIAL.TYPE_HISTORY_ARCHIVE_13:n

UI1

Type of History Archive. Valid values are: 2  = Periodic 3  = Daily 4  = Extended

55.71:n

MODBUS_SPECIAL.CONVERSION_CODE_15:n

UI1

Conversion Code

55.82:n

MODBUS_SPECIAL.HISTORY_ARCHIVE_REG_16:n

UI2

History Archive Register #16  

55.83:n

MODBUS_SPECIAL.START_HISTORY_POINT_16:n

UI1

Start History Point

55.84:n

MODBUS_SPECIAL.END_HISTORY_POINT_16:n

UI1

End History Point

55.85:n

MODBUS_SPECIAL.TYPE_HISTORY_ARCHIVE_16:n

UI1

Type of History Archive. Valid values are: 2  = Periodic 3  = Daily 4  = Extended 

55.86:n

MODBUS_SPECIAL.CONVERSION_CODE_16:n

UI1

Conversion Code

55.87:n

MODBUS_SPECIAL.HISTORY_ARCHIVE_REG_17:n

UI2

History Archive Register #17  

55.88:n

MODBUS_SPECIAL.START_HISTORY_POINT_17:n

UI1

Start History Point

55.89:n

MODBUS_SPECIAL.END_HISTORY_POINT_17:n

UI1

End History Point

55.90:n

MODBUS_SPECIAL.TYPE_HISTORY_ARCHIVE_17:n

UI1

Type of History Archive. Valid values are: 2  = Periodic 3  = Daily 4  = Extended 

55.91:n

MODBUS_SPECIAL.CONVERSION_CODE_17:n

UI1

Conversion Code

55.92:n

MODBUS_SPECIAL.HISTORY_ARCHIVE_REG_18:n

UI2

History Archive Register #18  

55.93:n

MODBUS_SPECIAL.START_HISTORY_POINT_18:n

UI1

Start History Point

55.94:n

MODBUS_SPECIAL.END_HISTORY_POINT_18:n

UI1

End History Point

55.95:n

MODBUS_SPECIAL.TYPE_HISTORY_ARCHIVE_18:n

UI1

Type of History Archive. Valid values are: 2  = Periodic 3  = Daily 4  = Extended 

55.96:n

MODBUS_SPECIAL.CONVERSION_CODE_18:n

UI1

Conversion Code

55.97:n

MODBUS_SPECIAL.HISTORY_ARCHIVE_REG_19:n

UI2

History Archive Register #19  

55.98:n

MODBUS_SPECIAL.START_HISTORY_POINT_19:n

UI1

Start History Point

55.99:n

MODBUS_SPECIAL.END_HISTORY_POINT_19:n

UI1

End History Point

55.100:n

MODBUS_SPECIAL.TYPE_HISTORY_ARCHIVE_19:n

UI1

Type of History Archive. Valid values are: 2  = Periodic 3  = Daily 4  = Extended 

55.101:n

MODBUS_SPECIAL.CONVERSION_CODE_19:n

UI1

Conversion Code

55.102:n

MODBUS_SPECIAL.HISTORY_ARCHIVE_REG_20:n

UI2

History Archive Register #20  

55.103:n

MODBUS_SPECIAL.START_HISTORY_POINT_20:n

UI1

Start History Point

55.104:n

MODBUS_SPECIAL.END_HISTORY_POINT_20:n

UI1

End History Point

55.105:n

MODBUS_SPECIAL.TYPE_HISTORY_ARCHIVE_20:n

UI1

Type of History Archive. Valid values are: 2  = Periodic 3  = Daily 4  = Extended 

55.106:n

MODBUS_SPECIAL.CONVERSION_CODE_20:n

UI1

Conversion Code

55.107:n

Point Type 56 - AI Calibration Items

ItemData TypeDescriptionT.P:L

AI_CALIB.TAG:n

STRING

10 character tag identification for analog input calibration. READ ONLY.

56.0:n

AI_CALIB.RAW_VALUE_m:n

UI2

Raw reading #n. READ ONLY.

m is specified by decimal numbers ranging 1 to 5.

56.P:n

AI_CALIB.EU_VALUE_m:n

R4

EU value corresponding to raw reading #n. READ ONLY.

m is specified by decimal numbers ranging 1 to 5.

56.P:n

AI_CALIB.PRESS_EFFECT:n

R4

Pressure effect. READ ONLY.

56.11:n

AI_CALIB.SET_EU_VALUE:n

R4

Calibrate set EU value.

56.12:n

AI_CALIB.MANUAL_EU_VALUE:n

R4

READ ONLY.

56.13:n

AI_CALIB.TIMER:n

UI2

Timer value.  READ ONLY.

56.14:n

AI_CALIB.MODE:n

UI1

Calibrate mode. 

56.15:n

AI_CALIB.TYPE:n

UI1

Calibrate type. 

56.16:n

Point Type 57 - LCD Security Items

ItemData TypeDescriptionT.P:L

LCD_SEC.LOGIN_ID:n

STRING

3 character operator identification.

57.0:n

LCD_SEC.LIST_SEC:n

UI1

List security.

57.1:n

LCD_SEC.KEYPAD_SEC:n

UI1

Keypad security.

57.2:n

LCD_SEC.SPARE_1:n

UI1

 LCD Ever on Flag

57.3:n

LCD_SEC.PASSWORD:n

UI2

Operator password ranging 0 to 65535.

57.4:n

Point Type 58 – Information Items

ItemData TypeDescriptionT.P:L

REV_INFO.FIRMWARE:n

STRING

20 character device firmware description

58.0:n

REV_INFO.PART_NUMBER:n

STRING

10 character part number

58.1:n

REV_INFO.PART_VERSION:n

STRING

10 character part verson

58.2:n

REV_INFO.FLAG:n

UI1

Information present flag

58.3:n

Point Type 59 - Flash EEPROM Items

ItemData TypeDescriptionT.P:L

FLASH.FLAG:n

UI1

Operation in progress flag.

59.0:n

FLASH.ERROR:n

I1

Status code. READ ONLY.

59.1:n

FLASH.SWITCH_TASK:n

UI2

Service request. READ ONLY.

59.2:n

FLASH.TIMER:n

UI2

Service timer. READ ONLY.

59.3:n

FLASH.COPY_COUNTER:n

UI2

Copy index. READ ONLY.

59.4:0

FLASH.SEGMENT:n

UI2

Update sector.

59.5:0

FLASH.DEST_POINTER:n

UI4

Flash pointer. READ ONLY.

59.6:n

FLASH.SOURCE_POINTER:n

UI4

Ram pointer. READ ONLY.

59.7:n

FLASH. POINTER:n

UI4

Command pointer. READ ONLY.

59.8:n

FLASH.LONG_COUNTER:n

UI4

Update sector address. READ ONLY.

59.9:n

FLASH. COUNTER:n

UI2

COPY INDEX. READ ONLY.

59.10:n

FLASH.REGISTER:n

UI1

Dummy register. READ ONLY.

59.11:n

FLASH.VALUE:n

UI1

Dummy register. READ ONLY.

59.12:n

Point Type 83 – User Analog Items

ItemData TypeDescriptionT.P:L

USER_ANALOG.TAG:n

STRING

10 character tag name

83.0:n

USER_ANALOG.UNITS:n

STRING

10 character units description

83.1:n

USER_ANALOG.MODE1:n

UI1

Mode Selections

Bit 7 – Type of User Analog Values 0  = Calculation 1  = Manual Entry 

Bit 6 – RBX on Alarm Set 0  = Disabled 1  = Enabled 

Bit 5 – RBS on Alarm Clear 0  = Disabled 1  = Enabled 

Bit 4 – Alarm Status 0  = Disabled 1  = Enabled 

Bit 3 to 0 – Not used 

83.2:n

USER_ANALOG.ALARM_STATUS:n

UI1

Alarm Status 

Bit 4 to 7 – Not used 

Bit 3 – High High Alarm 

Bit 2 – High Alarm 

Bit 1 – Low Low Alarm 

Bit 0 – Low Alarm 

83.3:n

USER_ANALOG.AI_LOW_ALARM_EU:n

R4

Low Alarm in EUs 

83.4:n

USER_ANALOG.AI_HIGH_ALARM_EU:n

R4

High Alarm in EUs 

83.5:n

USER_ANALOG.AI_LOW__LOW_ALARM_EU:n

R4

Low Low Alarm in EUs 

83.6:n

USER_ANALOG.AI_HIGH__HIGHALARM_EU:n

R4

High High Alarm in EUs 

83.7:n

USER_ANALOG.ALARM_DEADBAND:n

R4

Alarm Deadband in EUs

83.8:n

USER_ANALOG.FILTER:n

R4

Filter, in 5 weighting assigned to previous value. (0 is No Filtering)  

83.9:n

USER_ANALOG.UNFILTERED_VALUE:n

R4

Unfiltered value. If the type of User Analog Value is Calculation from 

FST, the FST should save to this parameter.

83.10:n

USER_ANALOG.FILTERED_EU:n

R4

If the type of User Analog Value is Manual: Entered Value 

If the type of User Analog Value is Calculation, Filtered EU – Analog Scan program stores the result here  

83.11:n

Point Type 85 – HART Items

ItemData TypeDescriptionT.P:L

HART.CHANNEL_VERSION:n

STRING

10 character version number for the firmware in this channel. Read only.

85.0:n

HART.CHANNEL_IO:n

UI1

Indicates if channel is input (0) or output (1). Read only.

85.1:n

HART.COMM_MODE:n

UI1

0=Disabled, 1=Point to Point, 2=Multidrop.

85.2:n

HART.NUMBER_DEVICES:n

UI1

Number of devices connected in multidrop mode.

85.3:n

HART.COMM_STATUS:n

UI1

Communication status.  0=Not scanning, 1=Scanning normal, 2=Dual Master detected, 3=Pass thru, 4=Device in burst mode. Read only.

85.4:n

HART.ANALOG_MODE:n

UI1

Analog mode.  0=Disabled, 1=Enabled.

85.5:n

HART.PASS_THRU:n

UI1

Enables ROC protocol pass thru communication.  0=Disabled, 1=Enabled.

85.6:n

HART.PASS_THRU_TIMEOUT:n

UI4

Timeout (in millisecons) to resume after pass thru communications.

85.7:n

HART.HART_EU_VALUE:n

R4

EU value of analog input or output. Read only.

85.8:n

HART.HART_FAILSAFE_ON_RESET:n

UI1

0=Use last EU value on reset, 1=Use failsafe value on reset.

85.9:n

HART.HART_FAILSAFE_VALUE:n

R4

The value outputted when the unit is started.

85.10:n

HART.HART_MANUAL_VALUE:n

R4

The value used in output when scanning is in manual mode.

85.11:n

HART.HART_AUTO_VALUE:n

R4

The value used in output when scanning is in auto mode.

85.12:n

HART.HART_PHYSICAL_VALUE:n

R4

The current value of the output in engineering units.

85.13:n

HART.PHYSICAL_RAW_DA:n

UI2

Calculated digital-to-analog value.

85.14:n

HART.CALIBRATION_LIVE:n

R4

The live value when calibrating an AI

85.15:n

HART.CALIBRATION_ZERO:n

R4

The zero EU calibration value

85.16:n

HART.CALIBRATION_SPAN:n

R4

The span EU calibration value

85.17:n

HART.EU_RAW_VALUE:n

UI2

The EU value of AI or AO.

85.18:n

HART.EU_RAW_CALIBRATION_ZERO:n

UI2

The zero raw calibration value.

85.19:n

HART.EU_RAW_CALIBRATION_SPAN:n

UI2

The span raw calibration value.

85.20:n

HART.DEVICE_1_POLL_MODE:n

UI1

The polling mode for the device.  0=skip, 1=primary only, 2=all dynamic, 3=all slot, 4=full update.

85.21:n

HART.DEVICE_1_POLL_ADDRESS:n

UI1

Polling address for the device. Read only.

85.22:n

HART.DEVICE_1_STATUS:n

UI1

0=no device found, 1=communication, 2=comm error.

85.23:n

HART.DEVICE_1_ACTUAL_SCAN_PERIOD:n

R4

Period at which device is being updates.

85.24:n

HART. DEVICE_1_TAG:n

STRING

10 character tag that resides in this device. Read only.

85.25:n

HART.DEVICE_1_RESPONSE_CODE:n

UI2

Response code and status received from device. Read only.

85.26:n

HART.DEVICE_1_ACTIVE_ALARMS:n

UI1

Active alarms reported by device. Read only.

85.27:n

HART.DEVICE_1_CURRENT:n

R4

Current in milliamps. Read only.

85.28:n

HART.DEVICE_1_PERCENT_RANGE:n

R4

Percent of range reported by device. Read only.

85.29:n

HART.DEVICE_1_FAILSAFE_ENABLE:n

UI1

Enables the use of fail safe values for the dynamic variables when the unit resets. 

85.30:n

HART.DEVICE_1_PV_UNITS:n

UI1

Units code for primary variable reported by device. Read only.

85.31:n

HART.DEVICE_1_PV:n

R4

Value of primary variable reported by device. Read only.

85.32:n

HART.DEVICE_1_PV_FAILSAFE:n

R4

Primary fail safe value for device.

85.33:n

HART.DEVICE_1_SV_UNITS:n

UI1

Units code for secondary variable reported by device. Read only.

85.34:n

HART.DEVICE_1_SV:n

R4

Value of secondary variable reported by device. Read only.

85.35:n

HART.DEVICE_1_SV_FAILSAFE:n

R4

Secondary fail safe value for device.

85.36:n

HART.DEVICE_1_TV_UNITS:n

UI1

Units code for tertiary variable reported by device. Read only.

85.37:n

HART.DEVICE_1_TV:n

R4

Value of tertiary variable reported by device. Read only.

85.38:n

HART.DEVICE_1_TV_FAILSAFE:n

R4

Tertiary fail safe value for device.

85.39:n

HART.DEVICE_1_FV_UNITS:n

UI1

Units code for fourth variable reported by device. Read only. 

85.40:n

HART.DEVICE_1_FV:n

R4

Value of fourth variable reported by device. Read only.

85.41:n

HART.DEVICE_1_FV_FAILSAFE:n

R4

Fourth fail safe value for device.

85.42:n

HART.DEVICE_1_SLOT_0_ASSIGN:n

UI1

Slot 0 variable to request from device.

85.43:n

HART.DEVICE_1_SLOT_0_UNITS:n

UI1

Units of slot 0 variable to request from device. Read only.

85.44:n

HART.DEVICE_1_SLOT_0_VARIABLE:n

R4

Value of slot 0 variable requested from device.

85.45:n

HART.DEVICE_1_SLOT_1_ASSIGN:n

UI1

Slot 1 variable to request from device.

85.46:n

HART.DEVICE_1_SLOT_1_UNITS:n

UI1

Units of slot 1 variable to request from device. Read only.

85.47:n

HART.DEVICE_1_SLOT_1_VARIABLE:n

R4

Value of slot 1 variable requested from device.

85.48:n

HART.DEVICE_1_SLOT_2_ASSIGN:n

UI1

Slot 2 variable to request from device.

85.49:n

HART.DEVICE_1_SLOT_2_UNITS:n

UI1

Units of slot 2 variable to request from device. Read only.

85.50:n

HART.DEVICE_1_SLOT_2_VARIABLE:n

R4

Value of slot 2 variable requested from device.

85.51:n

HART.DEVICE_1_SLOT_3_ASSIGN:n

UI1

Slot 3 variable to request from device.

85.52:n

HART.DEVICE_1_SLOT_3_UNITS:n

UI1

Units of slot 3 variable to request from device. Read only.

85.53:n

HART.DEVICE_1_SLOT_3_VARIABLE:n

R4

Value of slot 3 variable requested from device.

85.54:n

HART.DEVICE_1_MESSAGE:n

STRING

40 character device message. 

85.55:n

HART.DEVICE_1_DESCRIPTION:n

STRING

20 character device description. 

85.56:n

HART.DEVICE_1_MANU_ID:n

UI2

Device manufacture ID. Read only.

85.57:n

HART.DEVICE_1_SERIAL:n

UI4

Device serial number. Read only.

85.58:n

HART.DEVICE_1_ID_NUMBER:n

UI4

Device sensor units. Read only.

85.59:n

HART.DEVICE_1_SENSOR_UNITS:n

UI1

Device sensor units. Read only.

85.60:n

HART.DEVICE_1_SENSOR_UPPER_LIM:n

R4

Device sensor upper limit. Read only.

85.61:n

HART.DEVICE_1_SENSOR_LOWER_LIM:n

R4

Device sensor lower limit. Read only.

85.62:n

HART.DEVICE_1_MINIMUM_SPAN:n

R4

Device minimum sensor span. Read only.

85.63:n

HART.DEVICE_1_OUTPUT_UNITS:n

UI1

Device output units. Read only.

85.64:n

HART.DEVICE_1_OUTPUT_UPPER_LIM:n

R4

Device output upper limit. Read only.

85.65:n

HART.DEVICE_1_OUTPUT_LOWER_LIM:n

R4

Device output lower limit. Read only.

85.66:n

HART.DEVICE_1_DAMPING_VALUE:n

R4

Device damping value. Read only.

85.67:n

HART.DEVICE_2_POLL_MODE:n

UI1

The polling mode for the device.  0=skip, 1=primary only, 2=all dynamic, 3=all slot, 4=full update.

85.68:n

HART.DEVICE_2_POLL_ADDRESS:n

UI1

Polling address for the device. Read only.

85.69:n

HART.DEVICE_2_STATUS:n

UI1

0=no device found, 1=communication, 2=comm error.

85.70:n

HART.DEVICE_2_ACTUAL_SCAN_PERIOD:n

R4

Period at which device is being updates.

85.71:n

HART. DEVICE_2_TAG:n

STRING

10 character tag that resides in this device. Read only. 

85.72:n

HART.DEVICE_2_RESPONSE_CODE:n

UI2

Response code and status received from device. Read only.

85.73:n

HART.DEVICE_2_ACTIVE_ALARMS:n

UI1

Active alarms reported by device. Read only.

85.74:n

HART.DEVICE_2_CURRENT:n

R4

Current in milliamps. Read only.

85.75:n

HART.DEVICE_2_PERCENT_RANGE:n

R4

Percent of range reported by device. Read only.

85.76:n

HART.DEVICE_2_FAILSAFE_ENABLE:n

UI1

Enables the use of fail safe values for the dynamic variables when the unit resets.

85.77:n

HART.DEVICE_2_PV_UNITS:n

UI1

Units code for primary variable reported by device. Read only.

85.78:n

HART.DEVICE_2_PV:n

R4

Value of primary variable reported by device. Read only.

85.79:n

HART.DEVICE_2_PV_FAILSAFE:n

R4

Primary fail safe value for device.

85.80:n

HART.DEVICE_2_SV_UNITS:n

UI1

Units code for secondary variable reported by device. Read only.

85.81:n

HART.DEVICE_2_SV:n

R4

Value of secondary variable reported by device. Read only.

85.82:n

HART.DEVICE_2_SV_FAILSAFE:n

R4

Secondary fail safe value for device.

85.83:n

HART.DEVICE_2_TV_UNITS:n

UI1

Units code for tertiary variable reported by device. Read only.

85.84:n

HART.DEVICE_2_TV:n

R4

Value of tertiary variable reported by device. Read only.

85.85:n

HART.DEVICE_2_TV_FAILSAFE:n

R4

Tertiary fail safe value for device.

85.86:n

HART.DEVICE_2_FV_UNITS:n

UI1

Units code for fourth variable reported by device. Read only.

85.87:n

HART.DEVICE_2_FV:n

R4

Value of fourth variable reported by device. Read only.

85.88:n

HART.DEVICE_2_FV_FAILSAFE:n

R4

Fourth fail safe value for device.

85.89:n

HART.DEVICE_2_SLOT_0_ASSIGN:n

UI1

Slot 0 variable to request from device.

85.90:n

HART.DEVICE_2_SLOT_0_UNITS:n

UI1

Units of slot 0 variable to request from device. Read only.

85.91:n

HART.DEVICE_2_SLOT_0_VARIABLE:n

R4

Value of slot 0 variable requested from device.

85.92:n

HART.DEVICE_2_SLOT_1_ASSIGN:n

UI1

Slot 1 variable to request from device.

85.93:n

HART.DEVICE_2_SLOT_1_UNITS:n

UI1

Units of slot 1 variable to request from device. Read only.

85.94:n

HART.DEVICE_2_SLOT_1_VARIABLE:n

R4

Value of slot 1 variable requested from device.

85.95:n

HART.DEVICE_2_SLOT_2_ASSIGN:n

UI1

Slot 2 variable to request from device.

85.96:n

HART.DEVICE_2_SLOT_2_UNITS:n

UI1

Units of slot 2 variable to request from device. Read only.

85.97:n

HART.DEVICE_2_SLOT_2_VARIABLE:n

R4

Value of slot 2 variable requested from device.

85.98:n

HART.DEVICE_2_SLOT_3_ASSIGN:n

UI1

Slot 3 variable to request from device.

85.99:n

HART.DEVICE_2_SLOT_3_UNITS:n

UI1

Units of slot 3 variable to request from device. Read only.

85.100:n

HART.DEVICE_2_SLOT_3_VARIABLE:n

R4

Value of slot 3 variable requested from device.

85.101:n

HART.DEVICE_2_MESSAGE:n

STRING

40 character device message. 

85.102:n

HART.DEVICE_2_DESCRIPTION:n

STRING

20 character device description. 

85.103:n

HART.DEVICE_2_MANU_ID:n

UI2

Device manufacture ID. Read only.

85.104:n

HART.DEVICE_2_SERIAL:n

UI4

Device serial number. Read only.

85.105:n

HART.DEVICE_2_ID_NUMBER:n

UI4

Device sensor units. Read only.

85.105:n

HART.DEVICE_2_SENSOR_UNITS:n

UI1

Device sensor units. Read only.

85.107:n

HART.DEVICE_2_SENSOR_UPPER_LIM:n

R4

Device sensor upper limit. Read only.

85.108:n

HART.DEVICE_2_SENSOR_LOWER_LIM:n

R4

Device sensor lower limit. Read only.

85.109:n

HART.DEVICE_2_MINIMUM_SPAN:n

R4

Device minimum sensor span. Read only.

85.110:n

HART.DEVICE_2_OUTPUT_UNITS:n

UI1

Device output units. Read only.

85.111:n

HART.DEVICE_2_OUTPUT_UPPER_LIM:n

R4

Device output upper limit. Read only.

85.112:n

HART.DEVICE_2_OUTPUT_LOWER_LIM:n

R4

Device output lower limit. Read only.

85.113:n

HART.DEVICE_2_DAMPING_VALUE:n

R4

Device damping value. Read only.

85.114:n

HART.DEVICE_3_POLL_MODE:n

UI1

The polling mode for the device.  0=skip, 1=primary only, 2=all dynamic, 3=all slot, 4=full update.

85.115:n

HART.DEVICE_3_POLL_ADDRESS:n

UI1

Polling address for the device. Read only.

85.116:n

HART.DEVICE_3_STATUS:n

UI1

0=no device found, 1=communication, 2=comm error.

85.117:n

HART.DEVICE_3_ACTUAL_SCAN_PERIOD:n

R4

Period at which device is being updates.

85.118:n

HART. DEVICE_3_TAG:n

STRING

10 character tag that resides in this device. Read only.

85.119:n

HART.DEVICE_3_RESPONSE_CODE:n

UI2

Response code and status received from device. Read only.

85.120:n

HART.DEVICE_3_ACTIVE_ALARMS:n

UI1

Active alarms reported by device. Read only.

85.121:n

HART.DEVICE_3_CURRENT:n

R4

Current in milliamps. Read only.

85.122:n

HART.DEVICE_3_PERCENT_RANGE:n

R4

Percent of range reported by device. Read only.

85.123:n

HART.DEVICE_3_FAILSAFE_ENABLE:n

UI1

Enables the use of fail safe values for the dynamic variables when the unit resets.

85.124:n

HART.DEVICE_3_PV_UNITS:n

UI1

Units code for primary variable reported by device. Read only.

85.125:n

HART.DEVICE_3_PV:n

R4

Value of primary variable reported by device. Read only.

85.126:n

HART.DEVICE_3_PV_FAILSAFE:n

R4

Primary fail safe value for device.

85.127:n

HART.DEVICE_3_SV_UNITS:n

UI1

Units code for secondary variable reported by device. Read only.

85.128:n

HART.DEVICE_3_SV:n

R4

Value of secondary variable reported by device. Read only.

85.129:n

HART.DEVICE_3_SV_FAILSAFE:n

R4

Secondary fail safe value for device.

85.130:n

HART.DEVICE_3_TV_UNITS:n

UI1

Units code for tertiary variable reported by device. Read only.

85.131:n

HART.DEVICE_3_TV:n

R4

Value of tertiary variable reported by device. Read only.

85.132:n

HART.DEVICE_3_TV_FAILSAFE:n

R4

Tertiary fail safe value for device.

85.133:n

HART.DEVICE_3_FV_UNITS:n

UI1

Units code for fourth variable reported by device. Read only.

85.134:n

HART.DEVICE_3_FV:n

R4

Value of fourth variable reported by device. Read only.

85.135:n

HART.DEVICE_3_FV_FAILSAFE:n

R4

Fourth fail safe value for device.

85.136:n

HART.DEVICE_3_SLOT_0_ASSIGN:n

UI1

Slot 0 variable to request from device.

85.137:n

HART.DEVICE_3_SLOT_0_UNITS:n

UI1

Units of slot 0 variable to request from device. Read only.

85.138:n

HART.DEVICE_3_SLOT_0_VARIABLE:n

R4

Value of slot 0 variable requested from device.

85.139:n

HART.DEVICE_3_SLOT_1_ASSIGN:n

UI1

Slot 1 variable to request from device.

85.140:n

HART.DEVICE_3_SLOT_1_UNITS:n

UI1

Units of slot 1 variable to request from device. Read only.

85.141:n

HART.DEVICE_3_SLOT_1_VARIABLE:n

R4

Value of slot 1 variable requested from device.

85.142:n

HART.DEVICE_3_SLOT_2_ASSIGN:n

UI1

Slot 2 variable to request from device.

85.143:n

HART.DEVICE_3_SLOT_2_UNITS:n

UI1

Units of slot 2 variable to request from device. Read only. 

85.144:n

HART.DEVICE_3_SLOT_2_VARIABLE:n

R4

Value of slot 2 variable requested from device.

85.145:n

HART.DEVICE_3_SLOT_3_ASSIGN:n

UI1

Slot 3 variable to request from device.

85.146:n

HART.DEVICE_3_SLOT_3_UNITS:n

UI1

Units of slot 3 variable to request from device. Read only.

85.147:n

HART.DEVICE_3_SLOT_3_VARIABLE:n

R4

Value of slot 3 variable requested from device.

85.148:n

HART.DEVICE_3_MESSAGE:n

STRING

40 character device message. 

85.149:n

HART.DEVICE_3_DESCRIPTION:n

STRING

20 character device description. 

85.150:n

HART.DEVICE_3_MANU_ID:n

UI2

Device manufacture ID. Read only.

85.151:n

HART.DEVICE_3_SERIAL:n

UI4

Device serial number. Read only.

85.152:n

HART.DEVICE_3_ID_NUMBER:n

UI4

Device sensor units. Read only.

85.153:n

HART.DEVICE_3_SENSOR_UNITS:n

UI1

Device sensor units. Read only.

85.154:n

HART.DEVICE_3_SENSOR_UPPER_LIM:n

R4

Device sensor upper limit. Read only.

85.155:n

HART.DEVICE_3_SENSOR_LOWER_LIM:n

R4

Device sensor lower limit. Read only.

85.156:n

HART.DEVICE_3_MINIMUM_SPAN:n

R4

Device minimum sensor span. Read only.

85.157:n

HART.DEVICE_3_OUTPUT_UNITS:n

UI1

Device output units. Read only.

85.158:n

HART.DEVICE_3_OUTPUT_UPPER_LIM:n

R4

Device output upper limit. Read only.

85.159:n

HART.DEVICE_3_OUTPUT_LOWER_LIM:n

R4

Device output lower limit. Read only.

85.160:n

HART.DEVICE_3_DAMPING_VALUE:n

R4

Device damping value. Read only.

85.161:n

HART.DEVICE_4_POLL_MODE:n

UI1

The polling mode for the device.  0=skip, 1=primary only, 2=all dynamic, 3=all slot, 4=full update.

85.162:n

HART.DEVICE_4_POLL_ADDRESS:n

UI1

Polling address for the device. Read only.

85.163:n

HART.DEVICE_4_STATUS:n

UI1

0=no device found, 1=communication, 2=comm error.

85.164:n

HART.DEVICE_4_ACTUAL_SCAN_PERIOD:n

R4

Period at which device is being updates.

85.165:n

HART. DEVICE_4_TAG:n

STRING

10 character tag that resides in this device. Read only.

85.166:n

HART.DEVICE_4_RESPONSE_CODE:n

UI2

Response code and status received from device. Read only.

85.167:n

HART.DEVICE_4_ACTIVE_ALARMS:n

UI1

Active alarms reported by device. Read only.

85.168:n

HART.DEVICE_4_CURRENT:n

R4

Current in milliamps. Read only.

85.169:n

HART.DEVICE_4_PERCENT_RANGE:n

R4

Percent of range reported by device. Read only.

85.170:n

HART.DEVICE_4_FAILSAFE_ENABLE:n

UI1

Enables the use of fail safe values for the dynamic variables when the unit resets.

85.171:n

HART.DEVICE_4_PV_UNITS:n

UI1

Units code for primary variable reported by device. Read only.

85.172:n

HART.DEVICE_4_PV:n

R4

Value of primary variable reported by device. Read only.

85.173:n

HART.DEVICE_4_PV_FAILSAFE:n

R4

Primary fail safe value for device.

85.174:n

HART.DEVICE_4_SV_UNITS:n

UI1

Units code for secondary variable reported by device. Read only.

85.175:n

HART.DEVICE_4_SV:n

R4

Value of secondary variable reported by device. Read only.

85.176:n

HART.DEVICE_4_SV_FAILSAFE:n

R4

Secondary fail safe value for device.

85.177:n

HART.DEVICE_4_TV_UNITS:n

UI1

Units code for tertiary variable reported by device. Read only.

85.178:n

HART.DEVICE_4_TV:n

R4

Value of tertiary variable reported by device. Read only.

85.179:n

HART.DEVICE_4_TV_FAILSAFE:n

R4

Tertiary fail safe value for device.

85.180:n

HART.DEVICE_4_FV_UNITS:n

UI1

Units code for fourth variable reported by device. Read only.

85.181:n

HART.DEVICE_4_FV:n

R4

Value of fourth variable reported by device. Read only.

85.182:n

HART.DEVICE_4_FV_FAILSAFE:n

R4

Fourth fail safe value for device.

85.183:n

HART.DEVICE_4_SLOT_0_ASSIGN:n

UI1

Slot 0 variable to request from device.

85.184:n

HART.DEVICE_4_SLOT_0_UNITS:n

UI1

Units of slot 0 variable to request from device. Read only. 

85.185:n

HART.DEVICE_4_SLOT_0_VARIABLE:n

R4

Value of slot 0 variable requested from device.

85.186:n

HART.DEVICE_4_SLOT_1_ASSIGN:n

UI1

Slot 1 variable to request from device.

85.187:n

HART.DEVICE_4_SLOT_1_UNITS:n

UI1

Units of slot 1 variable to request from device.

Read only.

85.188:n

HART.DEVICE_4_SLOT_1_VARIABLE:n

R4

Value of slot 1 variable requested from device.

85.189:n

HART.DEVICE_4_SLOT_2_ASSIGN:n

UI1

Slot 2 variable to request from device.

85.190:n

HART.DEVICE_4_SLOT_2_UNITS:n

UI1

Units of slot 2 variable to request from device.

Read only.

85.191:n

HART.DEVICE_4_SLOT_2_VARIABLE:n

R4

Value of slot 2 variable requested from device.

85.192:n

HART.DEVICE_4_SLOT_3_ASSIGN:n

UI1

Slot 3 variable to request from device.

85.193:n

HART.DEVICE_4_SLOT_3_UNITS:n

UI1

Units of slot 3 variable to request from device.

Read only.

85.194:n

HART.DEVICE_4_SLOT_3_VARIABLE:n

R4

Value of slot 3 variable requested from device.

85.195:n

HART.DEVICE_4_MESSAGE:n

STRING

40 character device message. 

85.196:n

HART.DEVICE_4_DESCRIPTION:n

STRING

20 character device description. 

85.197:n

HART.DEVICE_4_MANU_ID:n

UI2

Device manufacture ID. Read only.

85.198:n

HART.DEVICE_4_SERIAL:n

UI4

Device serial number. Read only.

85.199:n

HART.DEVICE_4_ID_NUMBER:n

UI4

Device sensor units. Read only.

85.200:n

HART.DEVICE_4_SENSOR_UNITS:n

UI1

Device sensor units. Read only.

85.201:n

HART.DEVICE_4_SENSOR_UPPER_LIM:n

R4

Device sensor upper limit. Read only.

85.202:n

HART.DEVICE_4_SENSOR_LOWER_LIM:n

R4

Device sensor lower limit. Read only.

85.203:n

HART.DEVICE_4_MINIMUM_SPAN:n

R4

Device minimum sensor span. Read only.

85.204:n

HART.DEVICE_4_OUTPUT_UNITS:n

UI1

Device output units. Read only.

85.205:n

HART.DEVICE_4_OUTPUT_UPPER_LIM:n

R4

Device output upper limit. Read only. 

85.206:n

HART.DEVICE_4_OUTPUT_LOWER_LIM:n

R4

Device output lower limit. Read only.

85.207:n

HART.DEVICE_4_DAMPING_VALUE:n

R4

Device damping value. Read only.

85.208:n

HART.DEVICE_5_POLL_MODE:n

UI1

The polling mode for the device.  0=skip, 1=primary only, 2=all dynamic, 3=all slot, 4=full update.

85.209:n

HART.DEVICE_5_POLL_ADDRESS:n

UI1

Polling address for the device. Read only.

85.210:n

HART.DEVICE_5_STATUS:n

UI1

0=no device found, 1=communication, 2=comm error.

85.211:n

HART.DEVICE_5_ACTUAL_SCAN_PERIOD:n

R4

Period at which device is being updates.

85.212:n

HART. DEVICE_5_TAG:n

STRING

10 character tag that resides in this device. Read only.

85.213:n

HART.DEVICE_5_RESPONSE_CODE:n

UI2

Response code and status received from device. Read only.

85.214:n

HART.DEVICE_5_ACTIVE_ALARMS:n

UI1

Active alarms reported by device. Read only.

85.215:n

HART.DEVICE_5_CURRENT:n

R4

Current in milliamps. Read only.

85.216:n

HART.DEVICE_5_PERCENT_RANGE:n

R4

Percent of range reported by device. Read only.

85.217:n

HART.DEVICE_5_FAILSAFE_ENABLE:n

UI1

Enables the use of fail safe values for the dynamic variables when the unit resets.

85.218:n

HART.DEVICE_5_PV_UNITS:n

UI1

Units code for primary variable reported by device. Read only.

85.219:n

HART.DEVICE_5_PV:n

R4

Value of primary variable reported by device. Read only.

85.220:n

HART.DEVICE_5_PV_FAILSAFE:n

R4

Primary fail safe value for device.

85.221:n

HART.DEVICE_5_SV_UNITS:n

UI1

Units code for secondary variable reported by device. Read only.

85.222:n

HART.DEVICE_5_SV:n

R4

Value of secondary variable reported by device. Read only.

85.223:n

HART.DEVICE_5_SV_FAILSAFE:n

R4

Secondary fail safe value for device.

85.224:n

HART.DEVICE_5_TV_UNITS:n

UI1

Units code for tertiary variable reported by device. Read only.

85.225:n

HART.DEVICE_5_TV:n

R4

Value of tertiary variable reported by device. Read only. 

85.226:n

HART.DEVICE_5_TV_FAILSAFE:n

R4

Tertiary fail safe value for device.

85.227:n

HART.DEVICE_5_FV_UNITS:n

UI1

Units code for fourth variable reported by device. Read only.

85.228:n

HART.DEVICE_5_FV:n

R4

Value of fourth variable reported by device. Read only.

85.229:n

HART.DEVICE_5_FV_FAILSAFE:n

R4

Fourth fail safe value for device.

85.230:n

HART.DEVICE_5_SLOT_0_ASSIGN:n

UI1

Slot 0 variable to request from device.

85.231:n

HART.DEVICE_5_SLOT_0_UNITS:n

UI1

Units of slot 0 variable to request from device. Read only.

85.232:n

HART.DEVICE_5_SLOT_0_VARIABLE:n

R4

Value of slot 0 variable requested from device.

85.233:n

HART.DEVICE_5_SLOT_1_ASSIGN:n

UI1

Slot 1 variable to request from device.

85.234:n

HART.DEVICE_5_SLOT_1_UNITS:n

UI1

Units of slot 1 variable to request from device. Read only.

85.235:n

HART.DEVICE_5_SLOT_1_VARIABLE:n

R4

Value of slot 1 variable requested from device.

85.236:n

HART.DEVICE_5_SLOT_2_ASSIGN:n

UI1

Slot 2 variable to request from device.

85.237:n

HART.DEVICE_5_SLOT_2_UNITS:n

UI1

Units of slot 2 variable to request from device. Read only.

85.238:n

HART.DEVICE_5_SLOT_2_VARIABLE:n

R4

Value of slot 2 variable requested from device.

85.239:n

HART.DEVICE_5_SLOT_3_ASSIGN:n

UI1

Slot 3 variable to request from device.

85.240:n

HART.DEVICE_5_SLOT_3_UNITS:n

UI1

Units of slot 3 variable to request from device. Read only.

85.241:n

HART.DEVICE_5_SLOT_3_VARIABLE:n

R4

Value of slot 3 variable requested from device.

85.242:n

HART.DEVICE_5_MESSAGE:n

STRING

40 character device message. 

85.243:n

HART.DEVICE_5_DESCRIPTION:n

STRING

20 character device description. 

85.244:n

HART.DEVICE_5_MANU_ID:n

UI2

Device manufacture ID. Read only.

85.245:n

HART.DEVICE_5_SERIAL:n

UI4

Device serial number. Read only.

85.246:n

HART.DEVICE_5_ID_NUMBER:n

UI4

Device sensor units. Read only.

85.247:n

HART.DEVICE_5_SENSOR_UNITS:n

UI1

Device sensor units. Read only.

85.248:n

HART.DEVICE_5_SENSOR_UPPER_LIM:n

R4

Device sensor upper limit. Read only.

85.249:n

HART.DEVICE_5_SENSOR_LOWER_LIM:n

R4

Device sensor lower limit. Read only.

85.250:n

HART.DEVICE_5_MINIMUM_SPAN:n

R4

Device minimum sensor span. Read only.

85.251:n

HART.DEVICE_5_OUTPUT_UNITS:n

UI1

Device output units. Read only.

85.252:n

HART.DEVICE_5_OUTPUT_UPPER_LIM:n

R4

Device output upper limit. Read only.

85.253:n

HART.DEVICE_5_OUTPUT_LOWER_LIM:n

R4

Device output lower limit. Read only.

85.254:n

HART.DEVICE_5_DAMPING_VALUE:n

R4

Device damping value. Read only.

85.255:n

OPCODE 6 - ROC 800 System Configuration Items 

ItemData TypeDescriptionT.P:L

MODE

UINT8

The system mode the unit is currently operating in.

•       0 = Firmware Update Mode

•       1 = Run Mode

N/A

COMM_PORT

UINT16

Comm Port or Port Number that this request arrived in on. This is not defined if the above value (offset 6) is 0.

N/A

UNUSED_POINT_n

UINT8

Reserved for future use. Where n = 01 - 14

N/A

ROC_TYPE

UINT8

Type of ROC

•       1 = ROCPAC ROC 300 series

•       2 = FloBoss 407

•       3 = FlashPAC ROC 300 series

•       4 = FloBoss 503

•       5 = FloBoss 504

•       6 = ROC809

•       7 = RegFlo version 2.xx or 3.xx

•       8 = Floboss 103 version 2.xx

•       9 = 3095FC

N/A

NUM_TYPE_n

UINT8

Contains the number of logical for point type n. Where n = 60 – 137.

N/A

Point Type 91 - System Items  

ItemData TypeDescriptionT.P:L

SYSTEM.ROC_UNIT or SYSTEM.ROC_ADDRESS

UINT8

One-byte unit code of the station address. The unit code for a ROC address is configurable by the user. A 0 is used for broadcast.

91.0:n

SYSTEM.ROC_GROUP

UINT8

Group code of the station address.

91.1:n

SYSTEM.STATION_NAME

AC

A 20-character ASCII field for the station name.

91.2:n

SYSTEM.PART_VERSION

AC

Contains the software part number and version number string. READ ONLY.

91.3:n

SYSTEM.TIME_CREATED

AC

Contains the time and date stamp the firmware was created. READ ONLY.

91.4:n

SYSTEM.MANU_ID

AC

Contains manufacturing identification string. READ ONLY.

91.5:n

SYSTEM.PROD_DESCRIPTION

AC

Contains manufacturing description of product. READ ONLY.

91.6:n

SYSTEM.SERIAL_NUMBER

UINT32

Contains the serial number for the unit.  READ ONLY.

91.7:n

SYSTEM.MAX_EVENTS or SYSTEM.ROM_EVENTS

UINT16

Contains the maximum number of events that the Event Log may contain. READ ONLY.

91.8:n

SYSTEM.MAX_ALARMS or SYSTEM.ROM_ALARMS

UINT16

Contains the maximum number of alarms that the Alarm Log may contain. READ ONLY.

91.9:n

SYSTEM.MAX_PIDS or SYSTEM.ROM_PIDS 

UINT8

Contains the maximum number of PID loops that may run on the system. READ ONLY.

91.10:n

SYSTEM.MAX_AGAS or SYSTEM.ROM_AGAS

UINT8

Contains the maximum number of Meter Runs that may run on the system. READ ONLY. 

91.11:n

SYSTEM.MAX_FST or SYSTEM.ROM_FST

UINT8

Contains the maximum number of FSTs that may run on the system. READ ONLY.

91.12:n

SYSTEM.EVENT_INDEX

UINT16

Indicates the current event index in the Event Log. READ ONLY.

91.13:n

SYSTEM.ALARM_INDEX

UINT16

Indicates the current alarm index in the Alarm Log. READ ONLY.

91.14:n

SYSTEM.ACTIVE_PIDS

UINT8

Number of active PIDs

91.15:n

SYSTEM.ACTIVE_STATIONS

UINT8

Number of active stations.

91.16:n

SYSTEM.ACTIVE_ORIFICE

UINT8

Number of active orifice meter runs.

91.17:n

SYSTEM.ACTIVE_TURBINE

UINT8

Number of active turbine meter runs.

91.18:n

SYSTEM.FST_CLEAR

UINT8

Setting this parameter clears FST code from Flash ROM. 

•       0 – Does nothing. 

•       1 – Initiates clearing of FST code.

91.19:n

SYSTEM.CLEAR_CONFIG

UINT8

Used to clear the internal configuration memory stored in flash ROM.

•       0 = Do nothing

•       1 = Enable clearing of Configuration Memory

91.20:n

SYSTEM.WRITE_CONFIG

UINT8

Used to command the ROC to store certain point types (indicated throughout this document) to flash configuration memory

•       0 = Do nothing

•       1 = Perform Write to Configuration Memory

91.21:n

SYSTEM.WRITE_COMPLETE

UINT8

Used to indicate that the system is the process of writing the configuration to flash ROM

•       0 = Currently Performing the Write

•       1 = Completed the Write

READ ONLY.

91.22:n

SYSTEM.MPU_LOADING

FLP

Contains the current percentage of time the CPU is being loaded, updated every 5 seconds. READ ONLY.

91.23:n

SYSTEM.RESERVED

UINT8

Unused parameter. READ ONLY.

91.24:n

SYSTEM.IO_SCANNING

UINT8

Used to enable or disable scanning of all I/O in the system.

•       0 = Disabled

•       1 = Enabled

91.25:n

SYSTEM.WARM_START

UINT8

Used to re-start the system. A warm start is a reboot of the system without performing all the power-on-self tests.

•       0 = Do nothing

•       1 = Perform Warm Start

91.26:n

SYSTEM.COLD_START

UINT8

Used to re-start the system. A cold start always includes starting from the boot sector and performing power-on-self tests, plus the following options.

•       0 = Do nothing

•       1 = Restore Configuration from Flash

•       2 = Clear Alarms

•       3 = Clear Events

•       4 = Clear FSTs

•       5 = Clear History & Meter Runs

•       6 = Restore Configuration from Flash, Clear Alarms/Events/FST’s/History/Meter Runs

•       7 = Restore Configuration from Defaults

91.27:n

SYSTEM.LCD_INSTALLED

UINT8

•       0 = No LCD installed or LCD is disabled

•       1 = LCD installed and enabled READ ONLY.

91.28:n

SYSTEM.LCD_POWERSAVE

UINT8

Enables or disables the power saving feature of the LCD.

When enabled the display will stay on until the power off time expires. 0 – Disable Power Saving,  1 – Enable Power Saving.

Note: Since this functionality has not yet be added to the firmware (as of Version 1.00) this parameter is currently R/O. When the functionality is added, it will be made R/W.

91.29:n

SYSTEM.LCD_OWNER

UINT8

The current owner of the LCD. This is used if a user C program is needed to run the LCD.

•       0 = LCD

•       1 = User C Program 1

•       2 = User C Program 2

•       3 = User C Program 3

•       4 = User C Program 4

•       5 = User C Program 5

•       6 = User C Program 6

•       7 = User C Program 7

•       8 = User C Program 8

91.30:n

SYSTEM.BAUD_RATE_0

UINT32

The baud rate that baud rate generator #0 is to be set to.

91.31:n

SYSTEM.BAUD_RATE_1

UINT32

The baud rate that baud rate generator #1 is to be set to.

91.32:n

SYSTEM.BAUD_RATE_2

UINT32

The baud rate that baud rate generator #2 is to be set to.

91.33:n

SYSTEM.BAUD_RATE_3

UINT32

The baud rate that baud rate generator #3 is to be set to.

91.34:n

SYSTEM.CRC_CHECK

UINT8

The CRC check flag. If this flag is enabled, a CRC will be appended to all messages and a CRC will be expected on all received messages. Disabled = 0, Enabled = 1.

91.35:n

SYSTEM.LED_ENABLE

UINT8

Indicates the number of minutes the LEDs will be on before automatically turning themselves off. (The LED buttons will active the LEDs for the configured time).

•       0 = LEDs always on

•       1 - 60 = Number of minutes LEDs will be on

91.36:n

SYSTEM.BOOT_PART_NUM

AC

Contains the boot software part number and version number string. READ ONLY.

91.37:n

SYSTEM.BOOT_FIRMWARE_TIME

AC

Contains the time and date stamp the boot firmware was created. READ ONLY.

91.38:n

SYSTEM.ACTIVE_ODORIZERS

UINT8

Number of active odorizers

91.39:n

SYSTEM.CLEAR_HISTORY_CONFIG

  

Clears history database and resets configuration back to factory defaults without power cycling the ROC.

Don't clear = 0, Clear = 1.

91.40:n

Point Type 92 - ROC 800 Logon Items  

ItemData TypeDescriptionT.P:L

LOGON_PARAMETERS.OPERATOR

AC

A three character ASCII operator identifier (e.g., LOI).

92.0:n

LOGON_PARAMETERS.LIST_SECURITY

UINT8  

Controls access to the User Lists through the LCD.

Lower 4 bits: 0 = Read access not allowed

•       1 = Read access allowed

•       0 – User List 1 – 2

•       1 – User List 3 – 4

•       – User List 5 – 6

•       – User List 7 – 8

Upper 4 bits: 0 = Write access not allowed

•       1 = Write access allowed

•       – User List 7 – 8

•       – User List 5 – 6

•       – User List 3 – 4

•       7 – User List 1 - 2

92.1:n

LOGON_PARAMETERS.KEYPAD_READ_ ENABLE

UINT8

Controls what menus the user is able to access for read purposes. The user will still have read access to a menu if the menu’s bit is not set, but is set for write access in the write enable parameter.

•       0 = Read access not allowed.

•       1 = Read access allowed.

•       0 – Calibrate

•       1 – FST

•       2 – Control (PID)

•       3 – System

•       4 – Logs

•       5 – Meter Runs

•       6 – I/O

•       7 – Reserved

92.2:n

LOGON_PARAMETERS.KEYPAD_WRITE_ ENABLE

UINT8

Controls what menus the user is able to access for write purposes.

  • 0 = Write access not allowed.
  • 1 = Write access allowed.
  • 0 – Calibrate
  • 1 – FST   
  • 2 – Control (PID) 
  • 3 – System
  • 4 – Logs (Ignored – Read Only)
  • 5 – Meter Runs
  • 6 – I/O
  • 7 - Reserved

92.3:n

LOGON_PARAMETERS.PASSWORD

UINT16

A numerical value that is used as a password for the Operator Identifier (e.g., 1000)

92.4:n

Point Type 95 - ROC 800 Port Items

ItemData TypeDescriptionT.P:L

PORT.TAG_ID

AC

The customizable name for this communications port.

95.0:n

PORT.BAUD_RATE

UINT16

The baud rate generator used by this com port. Each port may use a different generator however, only 4 generators exist. See Point Type 91, System Variables, Parameter 31-34.

95.1:n

PORT.STOP_BITS

UINT8

The number of stop bits in a character.

95.2:n

PORT.DATA_BITS

UINT8

The number of data bits in a character.

95.3:n

PORT.PARITY

UINT8

For parity error checking, the host adds a 1 or 0 bit to the character to make it even or odd. The receiver then decodes this. An error occurs if the sum of the bits is not the way it was sent out.

•       None = 0

•       Odd = 1

•       Even = 2

95.4:n

PORT.COMM_TYPE

UINT8

•       0 = No Comm Module Installed

•       9 = MVS

•       10 = RS-232

•       11 = RS-485

•       12 = Modem

•       13 = HART

•       15 = Ethernet

This parameter is updated when a module insertion or removal is detected by the system. READ ONLY.

95.5:n

PORT.STORE_FORWARD_PORT

UINT8

If this is enabled all store and forward messages will be sent out this port. If it is disabled, none will be sent.

•       0 = Do Not store and forward for this port

•       1 = Store and forward for this port.

95.6:n


PORT.KEY_ON_DELAY

FLP

The period to wait after turning the RTS signal on before a message can be sent. This value is in seconds.

95.7:n

PORT.KEY_OFF_DELAY or PORT.TURNAROUND_DELAY

FLP

The period to delay turning the RTS signal off after a message has been sent. This value is in seconds.

95.8:n

PORT.MODEM_STATUS

UINT8

This is the numeric response from the modem. A non-Hayes compatible modem will not provide this information.

        •     0 = OK. READ ONLY.

95.9:n

PORT.MODEM_TYPE

UINT8

The type of modem. This will not be detected when the card is plugged in. 0 = None, 1 = External, 2 = Internal. Note 2 cannot be written by the user.

95.10:n

PORT.CONNECT_TIME

FLP

The amount of time in seconds the ROC809 waits after initiating a call to receive a connect message before terminating a call. 0 disables.

95.11:n

PORT.CONFIG_COMMAND

AC

The commands needed to initialize a modem.

95.12:n

PORT.CONNECT_COMMAND 

AC

The Hayes compatible modem command needed to dial out for SRBX communications.

95.13:n

PORT.DISCONNECT_TIME 

FLP

Time in seconds that the ROC809 will wait before disconnecting if there is no activity. 0 disables.

95.14:n

PORT.INACTIVITY_TIME 

FLP

Time in seconds that the ROC809 will wait, without receiving a signal, before it resets the modem. The inactivity timer looks at the valid receive counter to determine if the signal has been received. 0 disables.

95.15:n

PORT.DISCONNECT_COMMAND

AC

The user can use a different disconnect string for a modem.

95.16:n

PORT.RBX_STATUS

UINT8

•       0 = SRBX is currently inactive

•       1 = SRBX is currently active for this port. READ ONLY.

95.17:n

PORT.RBX_ENABLE

UINT8

If this is enabled all SRBX messages will be sent out this port. If disabled, none will be sent.

•       0 = Disable SRBX for this port

•       1 = Enable SRBX for this port

95.18:n

PORT.RBX_ALARM_INDEX

UINT16

The index into the alarm table that corresponds to the alarm that caused an SRBX.

95.19:n

PORT.RBX_TIME_BASE_1

FLP

Time in seconds that the ROC809 will use as the 1st SRBX delay.

95.20:n

PORT.RBX_RETRY_COUNT_1

UINT8

The number of retries for the 1st SRBX to use. 0 = disable, 255 = continuous.

95.21:n

PORT.RBX_TIME_BASE_2 

FLP

Time in seconds that the ROC809 will use as the 2nd SRBX delay.

95.22:n

PORT.RBX_RETRY_COUNT_2 

UINT8

The number of retries for the 1st SRBX to use. 0 = disable, 255 = continuous.

95.23:n

PORT.RBX_TIME_BASE_3 

FLP

Time in seconds that the ROC809 will use as the 3rd SRBX delay.

95.24:n

PORT.RBX_RETRY_COUNT_3 

UINT8

The number of retries for the 1st SRBX to use. 0 = disable, 255 = continuous.

95.25:n

PORT.RBX_UNIT or PORT.RBX_ADDRESS

UINT8

Used to identify the SRBX host.

95.26:n

PORT.RBX_GROUP

UINT8

Used to identify the SRBX host.

95.27:n

PORT.STORE_FORWARD_ADDR_1

UINT8

Address of the 1st destination for the store and forward path. SRBX must be enabled for this to function.

95.28:n

PORT.STORE_FORWARD_GROUP_1

UINT8

Group number of the 1st destination for the store and forward path. SRBX must be enabled for this to function.

95.29:n

PORT.STORE_FORWARD_ADDR_2

UINT8

Address of the 2nd destination for the store and forward path. SRBX must be enabled for this to function.

95.30:n

PORT.STORE_FORWARD_GROUP_2

UINT8

Group number of the 2nd destination for the store and forward path. SRBX must be enabled for this to function.

95.31:n

PORT.STORE_FORWARD_ADDR_3

UINT8

Address of the 3rd destination for the store and forward path. SRBX must be enabled for this to function.

95.32:n

PORT.STORE_FORWARD_GROUP_3

UINT8

Group number of the 3rd destination for store and forward. SRBX must be enabled for this to function.

95.33:n

PORT.SPARE_1

UINT8

Unused READ ONLY.

95.34:n

PORT.SPARE_2

UINT8

Unused READ ONLY.

95.35:n

PORT.ROC_VALID_RECEIVE_CNT

UINT16

The number of valid ROC Protocol messages received by the ROC for this port. It can be cleared by the user.

95.36:n

PORT.ROC_SUCCESS_MSG_TIME

JULIAND ATE

The time of the last successful

Opcode received by the ROC809. Indicated by the number of seconds since midnight Jan 1, 1970. READ ONLY.

95.37:n

PORT.MOD_VALID_RECEIVE_CNT

UINT16

The number of valid Modbus messages received by the ROC for this port. It can be cleared by the user.

95.38:n

PORT.MOD_SUCCESS_MSG_TIME

JULIAND ATE

The time of the last successful function code received by the ROC809. Indicated by the number of seconds since midnight Jan. 1, 1970. READ ONLY.

95.39:n

PORT.INVALID_MSG_BYTES

UINT16

The number of invalid Roc Protocol or Modbus bytes received.

95.40:n

PORT.INVALID_MSG_BYTETIME

JULIAND ATE

The time of the last unsuccessful message byte was received by the ROC809. Indicated by the number of seconds since midnight Jan. 1, 1970. READ ONLY.

95.41:n

PORT.TRANSMIT_CNT

UINT16

Number of messages sent.

95.42:n

PORT.PORT_OWNER

UINT8

The program that currently owns the port. Messages will be routed directly to the owner, bypassing the ROC protocol.

The owner will not be allowed to be changed if an MVS module is installed on the port.

•       0 = ROC Protocol / Modbus Slave

•       1 = Modbus Master (Comm 1 – 5)

•       = DS800 (Not Valid for Comm 1 on ROC809E)

•       = LCD (Comm 1)

•       = I/O Module (Read Only)

•       = User C Program 1

•       = User C Program 2

•       = User C Program 3

•       = User C Program 4

•       = User C Program 5

•       = User C Program 6

•       = User C Program 7

•       = User C Program 8

•       255 = DMMI (FAS use only)

95.43:n

PORT.ROC_SECURITY_STATUS

UINT8

Enables security for the communications port 1. Disabled = 0, Enabled = 1.

95.44:n

Point Type 96 - ROC 800 FST Items

ItemData TypeDescriptionT.P:L

FST.POINT_TAG_ID

AC

This field contains a string to describe the FST. “X” in default name is a number that correlates to the FST logical number.

96.0:n

FST.RESULT_REG

FLP

Register used to store result of last FST operation.

96.1:n

REG_n

FLP

Register used as an input to an FST or as a location to store FST data. Where n = 01 - 10.

96.P:n

TIMER_n

UINT32

Time left for count down timer. Timer resolution is 100ms. Where n = 1 - 4.

96.P:n

FST.MESSAGE_1 

AC

Text string to be output onto display. String is associated with Message Data. Written to by FST.

96.16:n

FST.MESSAGE_2

AC

Generic text field. This field is not used by any FST. It is only used as a storage space for user input.

96.17:n

FST.MESSAGE_DATA

AC

Text string used to output value to LCD. READ ONLY.

96.18:n

MISCn

UINT8

Single byte register that may be used by an FST. Where n = 1 - 4.

96.P:n

FST.COMPARE_FLAG_SVD

UINT8

Stores the result of a Boolean expression.

•       0 – FALSE

•       1 – TRUE

96.23:n

FST.RUN_FLAG  

UINT8

This parameter stores the run state of the FST.

•       0 – FST is not running.

•       1 – FST is running.

•       – Indicates FST has shut down due to an invalid point reference.

•       8 – FST Editor initiates the Trace mode.

•       9 – Indicates that the FST in ROC809 is processing.

96.24:n

FST.CODE_SIZE

UINT16

Size, in bytes, of the FST code. This size does not include storage needed for register names, description, or version. READ ONLY.  

96.25:n

FST.INSTRUCTION_POINTER

UINT16

Contains the location of the FST function to be executed next. If an error occurs, the Instruction Pointer will be set to the location of the parameter that caused the error. This parameter may also be called a program counter. READ ONLY.

96.26:n

FST.EXECUTION_DELAY

UINT16

Execution delay between FST instructions. Resolution is tenths of a second.

96.27:n

FST.FST_VERSION

AC

Stores information about the version of the FST code. The user sets this before the FST is uploaded to the ROC809. READ ONLY.

96.28:n

FST.FST_DESCRIPTION

AC

Contains a short description about the FST that is running. The user sets this before the FST is uploaded to the ROC809. READ ONLY.

96.29:n

FST.MESSAGE_DATA2

AC

Text string used to output value to LCD.

96.30:n

Point Type 97 - ROC 800 FST Register Items

ItemData TypeDescriptionT.P:L

FST_REG_TAG.REG_TAG_01

AC

Text string used as a label for Register 1 (R1).

97.0:n

FST_REG_TAG.REG_TAG_02

AC

Text string used as a label for Register 1 (R2).

97.1:n

FST_REG_TAG.REG_TAG_03

AC

Text string used as a label for Register 1 (R3).

97.2:n

FST_REG_TAG.REG_TAG_04

AC

Text string used as a label for Register 1 (R4).

97.3:n

FST_REG_TAG.REG_TAG_05

AC

Text string used as a label for Register 1 (R5).

97.4:n

FST_REG_TAG.REG_TAG_06

AC

Text string used as a label for Register 1 (R6).

97.5:n

FST_REG_TAG.REG_TAG_07

AC

Text string used as a label for Register 1 (R7).

97.6:n

FST_REG_TAG.REG_TAG_08

AC

Text string used as a label for Register 1 (R8).

97.7:n

FST_REG_TAG.REG_TAG_09

AC

Text string used as a label for Register 1 (R9).

97.8:n

FST_REG_TAG.REG_TAG_10

AC

Text string used as a label for Register 1 (R10).

97.9:n

















Point Type 98 - ROC 800 Soft Point Items

ItemData TypeDescriptionT.P:L

SOFT_PT_PARAMETERS.AS

CII_TEXT_1 

AC

Text string used to label instance of Soft Point. The ‘x’ in default is the number of the Soft Point.

98.0:n

FLOAT_n

FLP

Miscellaneous storage. Where n = 01 - 20

98.P:n

LONG_n

UINT32

Miscellaneous storage. Where n = 01 - 02

98.P:n

SHORT_n

UINT16

Miscellaneous storage. Where n = 01 - 10

98.P:n

BYTE_n

UINT8

Miscellaneous storage. Where n = 01 - 10

98.P:n

Point Type 99 - ROC 800 OPCODE Items

See Point type 0 above for a full explanation of point type 99.

Point Type 100 - ROC 800 Power Control Items

ItemData TypeDescriptionT.P:L

POWER_CONTROL.TAG

AC

The name used to identify this radio power control point.

100.0:n

POWER_CONTROL.STATUS

INT8

Status of power control on this port. READ ONLY.

•       0 = Power Disabled, 

•       1 = Power Enabled

100.1:n

POWER_CONTROL.ENABLE

INT8

The enabled mode for the power control on this port. 0 = Disabled, 1 = Enabled

100.2:n

START_TIME_n

HOURMINUTE

Zone start time. Where n = zones 1 - 3

100.P:n

ON_TIME_n

INT32

On time for Zones. The amount of time for this cycle, the DO associated with this power control will be in the on state (in milliseconds). Where n = zones 1 – 3.

100.P:n

OFF_TIME_n

INT32

Off time for Zones. The amount of time (in milliseconds) for this cycle, the DO associated with this power control will be in the off state (following the on state) Where n = zones 1 - 3.

100.P:n

POWER_CONTROL.ACTIVE_ZONE

INT8

This parameter is the current active power zone. READ ONLY. 

100.12:n

POWER_CONTROL.HOLD_TIME

INT32

Time in milliseconds that the output is held on after detection of communications.

100.13:n

POWER_CONTROL.POWER_TIMER

INT32

Counts down the amount of time, in milliseconds, (On Time, Off Time, Hold Time) that the power control is currently using.

NOTE: This item is Read Only.

100.14:n

POWER_CONTROL.DISCRETE_OUTPUT_NO

TLP

The logical discrete output number.

100.15:n

POWER_CONTROL.LOW_BATTERY

FLP

The radio will not be turned on if the voltage drops below this value. It is stored in volts.

100.16:n

POWER_CONTROL.ON_COUNTER

UINT32

The counter shows how many seconds the radio power control has been on.

100.17:n

POWER_CONTROL.OFF_COUNTER

UINT32

This counter shows how many seconds the radio power control has been off.

100.18:n

POWER_CONTROL.LOW_BAT_DEADBAND

FLP

This is a dead-band for the low battery level in power control. This is used to keep from the radio continuously turning on and off.

100.19:n

Point Type 101 - ROC 800 Discrete Input Items

ItemData TypeDescriptionT.P:L

DI.POINT_TAG_ID

AC

Identification name for specific DI. Values must be printable ASCII characters. 

101.0:n

DI.SCANNING

UINT8

If disabled, field inputs are ignored and no changes will occur unless manually entered.

•       0 = Disabled

•       1 = Enabled

101.1:n

DI.FILTER  

FLP

Number of seconds that a DI must remain in the ON state before it is recognized as valid and the Status (parameter #3) is changed. 

101.2:n

DI.STATUS

UINT8

Indicates what state the DI is currently in, ON (1) or OFF (0).

101.3:n

DI.INVERT_STATUS

UINT8

If enabled, the field input will be inverted in the

Status (parameter #3 - ON becomes OFF and viceversa). 0 = Invert Status Disabled, 1 = Invert Status Enabled.

101.4:n

DI.LATCH_STATUS

UINT8

If enabled, then, on an active transition of the input, the Status (parameter #3) will change to ON and remain in the ON state until it is cleared manually. 

•       0 = Latch Status Disabled

•       1 = Latch Status Enabled

101.5:n

DI.ACCUM_VALUE

UINT32

Number of times the Status (parameter #3) goes from OFF to ON.

101.6:n

DI.ON_COUNTER  

FLP

Number of seconds when the Status (parameter #3) is in the ON state.

101.7:n

DI.OFF_COUNTER

FLP

Number of seconds when the Status (parameter #3) is in the OFF state. 

101.8:n

DI.ALARMING

UINT8

If enabled, alarms may be generated and sent to the Alarm Log. 

•       0 = Disabled

•       1 = Enabled

101.9:n

DI.SRBX_ON_CLEAR

UINT8

Indicates a SRBX alarm is desired if an alarm condition clears. 0 = SRBX on Clear Disabled, 1 = SRBX on Clear Enabled.

101.10:n

DI.SRBX_ON_SET

UINT8

Indicates a SRBX alarm is desired if an alarm condition occurs. 

•       0 = SRBX on Set Disabled

•       1 = SRBX on Set Enabled

101.11:n

DI.ALARM_CODE

BIN

If bit 5 is set, the Status (parameter #3) is ON. If clear, the Status (parameter #3) is OFF.

If bit 7 is set, the Scanning (parameter #1) has been disabled. If clear, the Scanning (parameter #1) has been enabled. READ ONLY.

101.12:n

DI.SCAN_PERIOD  

FLP

Scan Period in Seconds READ ONLY.

101.13:n

Point Type 102 - ROC 800 Discrete Output Items

ItemData TypeDescriptionT.P:L

DO.POINT_TAG_ID

AC

Identification name for specific AO. Values must be printable ASCII characters.

102.0:n

DO.UNITS_TAG

AC

Describes the units used by the AO. Values must be printable ASCII characters.

102.1:n

DO.SCANNING

UINT8

If disabled, no changes to the output will occur. If in

Manual, only the user can change the values of the AO.

If in automatic, anything can change the values of the AO.

•       0 = Disabled

•       1 = Automatic

•       2 = Manual 

102.2:n

DO.ALARMING

UINT8

If enabled, alarms may be generated and sent to the Alarm Log.

•       0 = Disabled

•       1 = Enabled

102.3:n

DO.SRBX_ON_CLEAR

UINT8

Indicates a SRBX alarm is desired if an alarm condition clears

•       0 = SRBX on Clear Disabled

•       1 = SRBX on Clear Enabled.

102.4:n

DO.SRBX_ON_SET

UINT8

Indicates a SRBX alarm is desired if an alarm condition occurs.

•     0 = SRBX on Set Disabled

•     1 = SRBX on Set Enabled

102.5:n

DO.ALARM_CODE

BIN

If bit 5 is set, the Scanning (parameter #2) has been set to Manual. If clear, the Scanning (parameter #2) has been set to either Disable or Automatic

If bit 7 is set, the Scanning (parameter #2) has been disabled. If clear, the Scanning (parameter #2) has been set to either Automatic or Manual. READ ONLY.

102.6:n

DO.FAILSAFE_ON_RESET

UINT8

If enabled, the Status (parameter #8) will be set to the status indicated in ‘Failsafe Status Value’ (Parameter #22) on a restart of any kind. If disabled, the last Status before the restart will be used. 0 = Output Last Status on Reset, 1 = Use Failsafe value on Reset.

102.7:n

DO.STATUS

UINT8

Indicates what state the DO is currently in, ON (1) or OFF (0).

102.8:n

DO.ACCUM_VALUE  

UINT32

Number of times the Status (parameter #8) goes from OFF to ON.

102.9:n

DO.MOMENTARY_MODE  

UINT8

If enabled, the Status (parameter #8) will be turned ON for the entered Time On (parameter #14) and then be turned OFF. 

•       0 = Momentary Disabled

•       1 = Momentary Enabled

102.10:n

DO.MOMENTARY_ACTIVE

UINT8

Indicates that the DO currently has the Momentary ability active. 

•       0 = Momentary Not Active

•       1 = Momentary Active

102.11:n

DO.TOGGLE_MODE  

UINT8

If enabled, the Status (parameter #8) will be turned ON for the entered Time On (parameter #14) and then turned OFF for the same Time On. The Status will continue to cycle between the ON and OFF states. 

•       0 = Toggle Disabled

•       1 = Toggle Enabled

102.12:n

DO.TDO_MODE

UINT8

If enabled, the Status (parameter #8) will be turned ON for a calculated Time On (parameter #14) based upon the entered EU Value (parameter #20). After the Time On has expired, the Status will be turned OFF and remain that way until a new EU Value is entered. 

•       0 = TDO Disabled

•       1 = TDO Enabled

102.13:n

DO.TIME_ON

FLP

Number of seconds the Status (parameter #8) will be turned ON for if in TDO, Toggle, or Momentary Mode.

102.14:n

DO.CYCLE_TIME  

FLP

Number of seconds for when TDO Mode (parameter

#13) and Toggle Mode (parameter #12) are selected.

The Status (parameter #8) will be ON for the calculated

Time On (parameter #14) based upon the entered EU Value (parameter #20). The Status will then be turned OFF based upon the Cycle Time minus the Time On.

102.15:n

DO.LOW_READING_TIME

FLP

Minimum number of seconds the calculated Time On

(parameter #14) will be when the entered EU Value (parameter #20) is less than or equal to the entered Low Reading EU (parameter #18).

102.16:n

DO.HIGH_READING_TIME

FLP

Maximum number of seconds the calculated Time On

(parameter #14) will be when they entered EU Value (parameter #20) is greater than or equal to the entered High Reading EU (parameter #19).

102.17:n

DO.LOW_READING_EU

FLP

Minimum EU Value (parameter #20) possible.

102.18:n

DO.HIGH_READING_EU

FLP

Maximum EU Value (parameter #20) possible.

102.19:n

DO.EU_VALUE  

FLP

Value in Engineering Units.

102.20:n

DO.MANUAL_VALUE

UINT8

Manual Value used when Scanning (parameter #2) is in manual mode

102.21:n

DO.FAILSAFE_STATUS

UINT8

This is the status the output will be placed in when the unit is started and the Failsafe on Reset Parameter

(Parameter 7) is set to 1, Use Failsafe value on reset.

102.22:n

DO.RESERVED

FLP

Max Scan Period READ ONLY.

102.23:n

Point Type 103 - ROC 800 Analog Input Items

ItemData TypeDescriptionT.P:L

AI.POINT_TAG_ID

AC

Identification name for specific AI. Values must be printable ASCII characters.

103.0:n

AI.UNITS

AC

Describes the units used by the AI. Values must be printable ASCII characters.

103.1:n

AI.SCANNING

UINT8

If disabled, field inputs are ignored and no changes will occur unless manually entered.

•       0 = Disabled

•       1 = Enabled

103.2:n

AI.SCAN_PERIOD

FLP

Number of seconds between updates of the AI.

103.3:n

AI.ACTUAL_SCAN_TIME

FLP

Actual number of seconds between updates of the AI. READ ONLY.

103.4:n

AI.FILTER

UINT8

Percentage of last raw A/D reading to be weighted with the new raw A/D reading.

103.5:n

AI.AVERAGING

UINT8

If enabled, the filtered raw A/D value is averaged over the Scan Period. If disabled, the current filtered raw A/D value is used when the Scan Period is reached.

•       0 = Disabled

•       1 = Enabled

103.6:n

AI.RAW_ATOD_INPUT

INT16

Raw A/D reading used to calculate the EU Value (parameter #21).

103.7:n

AI.ZERO_RAW

INT16

Lowest calibrated raw A/D input. READ ONLY.

103.8:n

AI.MIDPOINT_RAW_01

INT16

Second lowest calibrated raw A/D input. READ ONLY.

103.9:n

AI.MIDPOINT_RAW_02

INT16

Third lowest or highest calibrated raw A/D input. READ ONLY.

103.10:n

AI.MIDPOINT_RAW_03

INT16

Second highest calibrated raw A/D input. READ ONLY.

103.11:n

AI.SPAN_RAW

INT16

Highest calibrated raw A/D input. READ ONLY.

103.12:n

AI.ZERO_EU

FLP

Lowest calibrated EU value. READ ONLY.

103.13:n

AI.MIDPOINT_EU_01

FLP

Second lowest calibrated EU value. READ ONLY.

103.14:n

AI.MIDPOINT_EU_02

FLP

Third lowest or highest calibrated EU value. READ ONLY.

103.15:n

AI.MIDPOINT_EU_03

FLP

Second highest calibrated EU value. READ ONLY.

103.16:n

AI.SPAN_EU

FLP

Highest calibrated EU value. READ ONLY.

103.17:n

AI.OFFSET

FLP

Value to be added to all calculated EU values. READ ONLY.

103.18:n

AI.SET_VALUE

FLP

Desired EU value for a calibration point. Note: No event is logged for this parameter and should possibly labeled as R/O in any external Roc Protocol Specification

103.19:n

AI.MANUAL_VALUE

FLP

Current EU Value of AI while performing calibration. READ ONLY.

103.20:n

AI.EU_VALUE

FLP

Value in Engineering Units.

103.21:n

AI.CLIPPING

UINT8

If enabled, then the EU Value (parameter #21) cannot be less than the Low Low Alarm EU (parameter #23) or greater than the High High Alarm EU (parameter #26). If disabled, no limiting of the EU Value (parameter #21) takes place.

•       0 = Disabled

•       1 = Enabled

103.22:n

AI.LOLO_ALARM_EU

FLP

Alarm value for Low Low Alarm and minimum EU Value (parameter #21) if Clipping (parameter #22) is enabled.

103.23:n

AI.LOW_ALARM_EU

FLP

Alarm value for Low Alarm.

103.24:n

AI.HIGH_ALARM_EU

FLP

Alarm value for High Alarm.

103.25:n

AI.HIHI_ALARM_EU

FLP

Alarm value for High High Alarm and maximum EU Value (parameter #21) if Clipping (parameter #22) is enabled.

103.26:n

AI.RATE_ALARM_EU or AI.DELTA_ALARM_EU

FLP

Alarm value for maximum change of EU Value (parameter#21) between Scan Periods.

103.27:n

AI.ALARM_DEADBAND

FLP

Provides a range ( ) that the EU Value (parameter #21) may move between without causing another alarm.

103.28:n

AI.ALARMING

UINT8

If enabled, alarms may be generated and sent to the Alarm Log. 

•       0 = Disabled

•       1 = Enabled

103.29:n

AI.SRBX_ON_CLEAR

UINT8

Indicates a SRBX alarm is desired if an alarm condition clears. 

•       0 = SRBX on Clear Disabled

•       1 = SRBX on Clear Enabled

103.30:n

AI.SRBX_ON_SET

UINT8

Indicates a SRBX alarm is desired if an alarm condition occurs. 

•       0 = SRBX on Set Disabled

•       1 = SRBX on Set Enabled

103.31:n

AI.ALARM_CODE

BIN

•       If bit 0 is set, the EU Value (parameter #21) is less than or equal to the Low Alarm EU (parameter #24). If clear, the EU Value (parameter #21) is greater than the Low Alarm EU (parameter #24).

•       If bit 1 is set, the EU Value (parameter #21) is less than or equal to the Low Low Alarm EU (parameter #23). If clear, the EU Value (parameter #21) is greater than the Low Low Alarm EU (parameter #23).

•       If bit 2 is set, the EU Value (parameter #21) is greater than or equal to the High Alarm EU (parameter #25). If clear, the EU Value (parameter #21) is less than the High Alarm EU (parameter #25).

•       If bit 3 is set, the EU Value (parameter #21) is greater than or equal to the High High Alarm EU (parameter #26). If clear, the EU Value (parameter #21) is less than the High High Alarm EU (parameter #26).

•       If bit 4 is set, the EU Value (parameter #21) change from last Scan Period to the new Scan Period is greater than or equal to the Rate Alarm EU (parameter #27). If clear, the EU Value (parameter #21) change from last Scan Period to the new Scan Period is less than the Rate Alarm EU (parameter #27).

•       If bit 6 is set, the AI’s hardware is reporting a malfunction. If clear, the AI’s hardware is operating properly.

•       If bit 7 is set, the Scanning (parameter #2) has been disabled. If clear, the Scanning (parameter #2) has been enabled.  READ ONLY.

103.32:n

AI.CALIBRATION_TIMER

FLP

Number of seconds until a calibration timeout occurs. READ ONLY.

103.33:n

AI.CALIBRATION_MODE

UINT8

Indicates what the calibration for the AI is doing. 

•       0 = USE CURRENT CALIBRATION,  

•       1 = START CALIBRATION,  

•       2 = CALIBRATE,  

•       3 = RESTORE PREVIOUS CALIBRATION,  

•       4 = STOP CALIBRATION.

Note: No event is logged for this parameter and should possibly label D2032as R/O in any external Roc Protocol Specification.

103.34:n

AI.CALIBRATION_TYPE

UINT8

During calibration, determines what the Set Value (parameter #19) is replacing. 

•       0 = Nothing 

•       1 = Set Zero

•       2 = Set Span

•       3 = Set Mid-Point #1 

•       4 = Set Mid-Point #2 

•       5 = Set Mid-Point #3 

•       6 = Set Offset (Zero Shift). 

NOTE: No event is logged for this parameter and should possibly label as R/O in any external Roc Protocol Specification.

103.35:n

Point Type 104 - ROC 800 Analog Output Items

ItemData TypeDescriptionT.P:L

AO.POINT_TAG_ID

AC

Identification name for specific AO. Values must be printable ASCII characters.

104.0:n

AO.UNITS

AC

Describes the units used by the AO. Values must be printable ASCII characters.

104.1:n

AO.SCANNING

UINT8

If disabled, no changes to the output will occur. If in

Manual, only the user can change the values of the AO. If in Automatic, anything can change the values of the AO. 

•       0 = Disabled 

•       1 = Automatic

•       2 = Manual

104.2:n

AO.ALARMING

UINT8

If enabled, alarms may be generated and sent to the Alarm Log. 

•       0 = Disabled

•       1 = Enabled

104.3:n

AO.SRBX_ON_CLEAR

UINT8

Indicates a SRBX alarm is desired if an alarm condition clears. 

•       0 = SRBX on Clear Disabled

•       1 = SRBX on Clear Enabled

104.4:n

AO.SRBX_ON_SET

UINT8

Indicates a SRBX alarm is desired if an alarm condition occurs. 

•       0 = SRBX on Set Disabled

•       1 = SRBX on Set Enabled

104.5:n

AO.ALARM_CODE

BIN

•       If bit 5 is set, the Scanning (parameter #2) has been set to Manual. If clear, the Scanning (parameter #2) has been set to either Disable or Automatic

•       If bit 6 is set, the AO’s hardware is reporting a malfunction. If clear, the AO’s hardware is operating properly.

•       If bit 7 is set, the Scanning (parameter #2) has been disabled. If clear, the Scanning (parameter #2) has been set to Manual or Automatic. 

READ ONLY.

104.6:n

AO.FAILSAFE_ON_RESET

UINT8

If enabled, the Raw D/A Output (parameter #13) will be set to the Failsafe value (parameter #22) on a restart of any kind. If disabled, the last EU Value (parameter #13) or the last saved EU Value will be used to determine the Raw D/A Output (parameter #13) after a restart. 

•       0 = Use last EU Value on reset, 

•       1 = Use Failsafe value on Reset.

104.7:n

AO.ZERO_RAW

INT16

Minimum D/A count the calculated Raw D/A Output

(parameter #13) will be when they entered EU Value (parameter #12) is less than or equal to the entered Zero EU (parameter #10).

104.8:n

AO.SPAN_RAW

INT16

Maximum D/A count the calculated Raw D/A Output

(parameter #13) will be when they entered EU Value (parameter #12) is greater than or equal to the entered Span EU (parameter #11).

104.9:n

AO.ZERO_EU

FLP

Minimum EU Value (parameter #12) possible.

104.10:n

AO.SPAN_EU

FLP

Maximum EU Value (parameter #12) possible.

104.11:n

AO.EU_VALUE

FLP

Value in Engineering Units.

104.12:n

AO.RAW_DTOA_OUTPUT

INT16

Calculated Digital-to-Analog value based upon EU Value (parameter #12). READ ONLY.

104.13:n

AO.MANUAL_VALUE

FLP

Manual Value used when Scanning (parameter #2) is in manual mode

104.14:n

AO.FAILSAFE_VALUE

FLP

This is the value that will be outputted when the unit is started and the Failsafe on Reset Parameter

(Parameter 7) is set to 1, Use Failsafe value on reset.

104.15:n

Point Type 105 - ROC 800 Pulse Input Items

ItemData TypeDescriptionT.P:L

PULSE.POINT_TAG_ID

AC

Identification name for specific PI. Values must be printable ASCII characters.

105.0:n

PULSE.UNITS

AC

Describes the units used by the PI. Values must be printable ASCII characters.

105.1:n

PULSE.SCANNING

UINT8

If disabled, field inputs are ignored and no changes will occur unless manually entered. 

•       0 = Disabled

•       1 = Enabled

105.2:n

PULSE.SCAN_PERIOD

FLP

Number of seconds between updates of the PI.

105.3:n

PULSE.ACCUMULATED_VALUE or PULSE.ACCUM_VALUE

UINT32

Total number of pulses that the PI has received.

105.4:n

PULSE.CONTRACT_HOUR

UINT8

Hour, in military time, that represents the end of the day for the PI.

105.5:n

PULSE.PULSES_FOR_DAY

UINT32

Total number of pulses that the PI has received for the contract day. READ ONLY.

105.6:n

PULSE.CURRENT_RT_PERIOD

UINT8

Used to determine the calculation of the Current Rate (parameter #10). 

•       0 = EU/second

•       1= EU/minute

•       2= EU/hour

•       3 = EU/day

105.7:n

PULSE.CONVERSION

UINT8

Determines if Conversion Value (parameter #9) will be multiplied or divided by the accumulated pulses to determine the units for the Current Rate (parameter #10). 

•       0 = EUs/pulse

•       1 = pulses/EU

105.8:n

PULSE.CONVERSION_VALUE

FLP

Used to calculate the units of the Current Rate (parameter #10).

105.9:n

PULSE.CURRENT_RATE

FLP

Calculated rate of the pulses. READ ONLY.

105.10:n

PULSE.EU_VALUE_MODE

UINT8

Used to determine what the EU Value (parameter #13) will represent. 

•       0 = Rate

•       1 = Accumulator with Maximum Rollover,

•       2 = Accumulator with Entered Rollover

105.11:n

PULSE.ROLLOVER_MAX

FLP

This is the Entered Rollover Maximum for the EU Value Mode (parameter #11) when it is setup for Accumulator with Entered Rollover. 

105.12:n

PULSE.EU_VALUE

FLP

Value in Engineering Units.

105.13:n

PULSE.LOLO_ALARM_EU

FLP

Alarm value for Low Low Alarm when the EU Value Mode (parameter #11) is setup for Rate.

105.14:n

PULSE.LOW_ALARM_EU

FLP

Alarm value for Low Alarm when the EU Value Mode (parameter #11) is setup for Rate.

105.15:n

PULSE.HIGH_ALARM_EU

FLP

Alarm value for High Alarm when the EU Value Mode (parameter #11) is setup for Rate.

105.16:n

PULSE.HIHI_ALARM_EU

FLP

Alarm value for High High Alarm when the EU Value Mode (parameter #11) is setup for Rate.

105.17:n

PULSE.RATE_ALARM_EU

FLP

Alarm value for maximum change of EU Value (parameter #13) between Scan Periods when the EU Value Mode (parameter #11) is setup for Rate.

105.18:n

PULSE.ALARM_DEADBAND

FLP

Provides a range ( ) that the EU Value (parameter #13) may move between without causing another alarm when the EU Value Mode (parameter #11) is setup for Rate.

105.19:n

PULSE.ALARMING

UINT8

If enabled, alarms may be generated and sent to the Alarm Log. 

•       0 = Disabled

•       1 = Enabled

105.20:n

PULSE.SRBX_ON_CLEAR

UINT8

Indicates a SRBX alarm is desired if an alarm condition clears. 0 = SRBX on Clear Disabled, 1 = SRBX on Clear Enabled.

105.21:n

PULSE.SRBX_ON_SET

UINT8

Indicates a SRBX alarm is desired if an alarm condition occurs. 0 = SRBX on Set Disabled,  1 = SRBX on Set Enabled.

105.22:n

PULSE.ALARM_CODEBIN
  • If bit 0 is set, the EU Value (parameter #13) is less than or equal to the Low

    Alarm EU (parameter #15). If clear, the EU Value (parameter #13) is greater than the Low Alarm EU (parameter #15).
  • If bit 1 is set, the EU Value (parameter #13) is less than or equal to the Low Low Alarm EU (parameter #14). If clear, the EU Value (parameter #13) is greater than the Low Low Alarm EU (parameter #14).

  • If bit 2 is set, the EU Value (parameter #13) is greater than or equal to the High Alarm EU (parameter #16). If clear, the EU Value (parameter #13) is less than the High Alarm EU (parameter #16).

  • If bit 3 is set, the EU Value (parameter #13) is greater than or equal to the High High Alarm EU (parameter #17). If clear, the EU Value (parameter #13) is less than the High High Alarm EU (parameter #17).

  • If bit 4 is set, the EU Value (parameter #13) change from last Scan Period to the new Scan Period is greater than or equal to the Rate Alarm EU (parameter #18). If clear, the EU Value (parameter #13) change from last Scan Period to the new Scan Period is less than the Rate Alarm EU (parameter #18)
  • If bit 6 is set, the PI’s hardware is reporting a malfunction. If clear, the PI’s hardware is operating properly.

  • If bit 7 is set, the Scanning (parameter #2) has been disabled. If clear, the Scanning (parameter #2) has been enabled. 

READ ONLY.

105.23:n

PULSE.TOTAL_TODAY

FLP

Calculated value of the accumulated pulses for the contract day multiplied by the Conversion Value (parameter #9). READ ONLY.

105.24:n

PULSE.TOTAL_YD

FLP

Previous contract day’s total. READ ONLY.

105.25:n

PULSE.CORR_PULSE_ACCUM

FLP

Running accumulation of Pulses * X. Where X is = Conversion Value when Parameter 8 is set to EU/Pulse or X is set to 1/Conversion Value if Pulses/EU. Rolls over at 1,000,000.0. READ ONLY.

105.26:n


Point Type 106 - ROC 800 RTD Items

ItemData TypeDescriptionT.P:L

RTD.POINT_TAG_ID

AC

Identification name for specific RTD. Values must be printable ASCII characters.

106.0:n

RTD.UNITS

AC

Describes the units used by the RTD. Values must be printable ASCII characters.

106.1:n

RTD.SCANNING

UINT8

If disabled, field inputs are ignored and no changes will occur unless manually entered. 

•       0 = Disabled

•       1 = Enabled

106.2:n

RTD.SCAN_PERIOD

FLP

Number of seconds between updates of the RTD.

106.3:n

RTD.ACTUAL_SCAN_TIME

FLP

Actual number of seconds between updates of the RTD. READ ONLY.

106.4:n

RTD.FILTER  

UINT8

Percentage of last raw A/D reading to be weighted with the new raw A/D reading.

106.5:n

RTD.AVERAGING

UINT8

If enabled, the filtered raw A/D value is averaged over the Scan Period. If disabled, the current filtered raw A/D value is used when the Scan Period is reached. 0 = Disabled, 1 = Enabled.

106.6:n

RTD.ALPHA_OF_RTD

UINT8

Indicates what the alpha ( ) of the RTD. 0 = Alpha of 0.00385, 1 = Alpha of 0.00392.

106.7:n

RTD.RAW_ATOD_INPUT

INT16

Raw A/D reading used to calculate the EU Value (parameter #22).

106.8:n

RTD.ZERO_RAW

INT16

Lowest calibrated raw A/D input. READ ONLY.

106.9:n

RTD.MIDPOINT_RAW_01

INT16

Second lowest calibrated raw A/D input. READ ONLY.

106.10:n

RTD.MIDPOINT_RAW_02

INT16

Third lowest or highest calibrated raw A/D input. READ ONLY.

106.11:n

RTD.MIDPOINT_RAW_03

INT16

Second highest calibrated raw A/D input. READ ONLY.

106.12:n

RTD.SPAN_RAW

INT16

Highest calibrated raw A/D input. READ ONLY.

106.13:n

RTD.ZERO_EU

FLP

Lowest calibrated EU value. READ ONLY.

106.14:n

RTD.MIDPOINT_EU_01

FLP

Second lowest calibrated EU value. READ ONLY.

106.15:n

RTD.MIDPOINT_EU_02

FLP

Third lowest or highest calibrated EU value. READ ONLY.

106.16:n

RTD.MIDPOINT_EU_03

FLP

Second highest calibrated EU value. READ ONLY.

106.17:n

RTD.SPAN_EU

FLP

Highest calibrated EU value. READ ONLY.

106.18:n

RTD.OFFSET

FLP

Value to be added to all calculated EU values.

106.19:n

RTD.SET_VALUE

FLP

Desired EU value for a calibration point. Note: No event is logged for this parameter and should possibly

labeled as R/O in any external Roc Protocol Specification

106.20:n

RTD.MANUAL_VALUE

FLP

Current EU Value of RTD while performing calibration. READ ONLY.

106.21:n

RTD.EU_VALUE

FLP

Value in Engineering Units.

106.22:n

RTD.CLIPPING

UINT8

If enabled, then the EU Value (parameter #22) cannot be less than the Low Low Alarm EU (parameter #24) or greater than the High High Alarm EU (parameter #27). If disabled, no limiting of the EU Value (parameter #22) takes place. 

•       0 = Disabled

•       1 = Enabled

106.23:n

RTD.LOLO_ALARM_EU

FLP

Alarm value for Low Low Alarm and minimum EU Value (parameter #22) if Clipping (parameter #23) is enabled.

106.24:n

RTD.LOW_ALARM_EU

FLP

Alarm value for Low Alarm.

106.25:n

RTD.HIGH_ALARM_EU

FLP

Alarm value for High Alarm.

106.26:n

RTD.HIHI_ALARM_EU

FLP

Alarm value for High High Alarm and maximum EU Value (parameter #22) if Clipping (parameter #23) is enabled.

106.27:n

RTD.RATE_ALARM_EU

FLP

Alarm value for maximum change of EU Value (parameter #22) between Scan Periods.

106.28:n

RTD.ALARM_DEADBAND

FLP

Provides a range ( ) that the EU Value (parameter #22) may move between without causing another alarm.

106.29:n

RTD.ALARMING

UINT8

If enabled, alarms may be generated and sent to the Alarm Log.

•       0 = Disabled

•       1 = Enabled

106.30:n

RTD.SRBX_ON_CLEAR

UINT8

Indicates a SRBX alarm is desired if an alarm condition clears. 

•       0 = SRBX on Clear Disabled

•       1 = SRBX on Clear Enabled

106.31:n

RTD.SRBX_ON_SET

UINT8

Indicates a SRBX alarm is desired if an alarm condition occurs. 

•       0 = SRBX on Set Disabled

•       1 = SRBX on Set Enabled

106.32:n

RTD.ALARM_CODE

BIN
  • If bit 0 is set, the EU Value (parameter #22) is less than or equal to the Low Alarm EU

    (parameter #25). If clear, the EU Value (parameter #22) is greater than the Low Alarm EU (parameter #25).
  • If bit 1 is set, the EU Value (parameter #22) is less than or equal to the Low Low Alarm EU (parameter #24). If clear, the EU Value (parameter #22) is greater than the Low Low Alarm EU (parameter #24).
  • If bit 2 is set, the EU Value (parameter #22) is greater than or equal to the High Alarm EU (parameter #26). If clear, the EU Value (parameter #22) is less than the High Alarm EU (parameter #26).
  • If bit 3 is set, the EU Value (parameter #22) is greater than or equal to the High High Alarm EU (parameter #27). If clear, the EU Value (parameter #22) is less than the High High Alarm EU (parameter #27).
  • If bit 4 is set, the EU Value (parameter #22) change from last Scan Period to the new Scan Period is greater than or equal to the Rate Alarm EU (parameter #28). If clear, the EU Value (parameter #22) change from last Scan Period to the new Scan Period is less than the Rate Alarm EU (parameter #28).

  • If bit 6 is set, the RTD’s hardware is reporting a malfunction. If clear, the RTD’s hardware is operating properly.

  • If bit 7 is set, the Scanning (parameter #2) has been disabled. If clear, the Scanning (parameter #2) has been disabled. READ ONLY.

106.33:n

RTD.CALIBRATION_TIMER

FLP

Number of seconds until a calibration timeout occurs. READ ONLY.

106.34:n

RTD.CALIBRATION_MODE

UINT8

Describes what the calibration for the RTD is doing. 

•       0 = Use Current Calibration

•       1 = Start Calibration

•       2 = Calibrate

•       3 = Restore Previous Calibration

•       4 = Stop Calibration. 

Note: No event is logged for this parameter and should possibly label as R/O in any external Roc Protocol Specification.


106.35:n

RTD.CALIBRATION_TYPE

UINT8

During calibration, determines what the Set Value (parameter #20) is replacing. 

•       0 = Nothing,

•       1 = Set Zero

•       2 = Set Span

•       3 = Set Mid Point #1

•       4 = Set Mid Point #2,

•       5 = Set Mid Point #3

  • 6 = Unused.

Note: No event is logged for this parameter and should possibly label as R/O in any external Roc Protocol Specification.

106.36:n

RTD.UNITS

UINT8

Indicates what units the Point will be. 

•       0 = F

•       1 = C

•       2 = K

•       3 = R

106.37:n

Point Type 107 - ROC 800 Thermocouple Items

ItemData TypeDescriptionT.P:L

THERMOCOUPLE.POINT_TAG_ID

AC

Identification name for specific TC. Values must be printable ASCII characters.

107.0:n

THERMOCOUPLE.UNITS_TAG

AC

Describes the units used by the TC. Values must be printable ASCII characters.

107.1:n

THERMOCOUPLE.SCANNING

UINT8

If disabled, field inputs are ignored and no changes will occur unless manually entered. 

•       0 = Disabled

•       1 = Enabled

107.2:n

THERMOCOUPLE.UNITS

UINT8

Indicates what units the TC will be. 

•       0 = F

•       1 = C

•       2 = K

•       3 = R

107.3:n

THERMOCOUPLE.THERMOCOUPLE_TYPE

UINT8

Indicates which type of thermocouple is attached. 

•       0 = Type J 

•       1 = Type K

107.4:n

THERMOCOUPLE.SCAN_PERIOD

FLP

Number of seconds between updates of the TC.

107.5:n

THERMOCOUPLE.ACTUAL_SCAN_TIME

FLP

Actual number of seconds between updates of the TC. READ ONLY.

107.6:n

THERMOCOUPLE.FILTER  

UINT8

Percentage of last raw A/D reading to be weighted with the new raw A/D reading.

107.7:n

THERMOCOUPLE.AVERAGING

UINT8

If enabled, the filtered EU value is averaged over the Scan Period. If disabled, the current filtered EU value is used when the Scan Period is reached. 

•       0 = Disabled

•       1 = Enabled

107.8:n

THERMOCOUPLE.EU_VALUE

FLP

Value in Engineering Units.

107.9:n

THERMOCOUPLE.LOLO_ALARM_EU

FLP

Alarm value for Low Low Alarm and minimum EU Value (parameter #22) if Clipping (parameter #23) is enabled.

107.10:n

THERMOCOUPLE.LOW_ALARM_EU

FLP

Alarm value for Low Alarm.

107.11:n

THERMOCOUPLE.HIGH_ALARM_EU

FLP

Alarm value for High Alarm.

107.12:n

THERMOCOUPLE.HIHI_ALARM_EU

FLP

Alarm value for High High Alarm and maximum EU Value (parameter #22) if Clipping (parameter #23) is enabled.

107.13:n

THERMOCOUPLE.RATE_ALARM_EU

FLP

Alarm value for maximum change of EU Value (parameter #22) between Scan Periods.

107.14:n

THERMOCOUPLE.ALARM_DEADBAND

FLP

Provides a range ( ) that the EU Value (parameter #22) may move between without causing another alarm.

107.15:n

THERMOCOUPLE.ALARMING

UINT8

If enabled, alarms may be generated and sent to the Alarm Log. 

•       0 = Disabled

•       1 = Enabled

107.16:n

THERMOCOUPLE.SRBX_ON_CLEAR

UINT8

Indicates a SRBX alarm is desired if an alarm condition clears. 0 = SRBX on Clear Disabled, 1 = SRBX on Clear Enabled.

107.17:n

THERMOCOUPLE.SRBX_ON_SET

UINT8

Indicates a SRBX alarm is desired if an alarm condition occurs.

•       0 = SRBX on Set Disabled

•       1 = SRBX on Set Enabled

107.18:n

THERMOCOUPLE.ALARM_CODE

BIN

•       If bit 0 is set, the EU Value (parameter #22) is less than or equal to the Low Alarm EU (parameter #25). If clear, the EU Value (parameter #22) is greater than the Low Alarm EU (parameter #25).

•       If bit 1 is set, the EU Value (parameter #22) is less than or equal to the Low Low Alarm EU (parameter #24). If clear, the EU Value (parameter #22) is greater than the Low Low Alarm EU (parameter #24).

•       If bit 2 is set, the EU Value (parameter #22) is greater than or equal to the High Alarm EU (parameter #26). If clear, the EU Value (parameter #22) is less than the High Alarm EU (parameter #26).

•       If bit 3 is set, the EU Value (parameter #22) is greater than or equal to the High High Alarm EU (parameter #27). If clear, the EU Value (parameter #22) is less than the High High Alarm EU (parameter #27).

  • If bit 4 is set, the EU Value (parameter #22) change from last Scan Period to the new Scan Period is greater than or equal to the Rate Alarm EU (parameter #28). If clear, the EU Value (parameter #22) change from last Scan Period to the new Scan Period is less than the Rate Alarm EU (parameter #28).
  • If bit 6 is set, the TC’s hardware is reporting a malfunction. If clear, the TC’s hardware is operating properly.
  • If bit 7 is set, the Scanning (parameter #2) has been disabled. If clear, the Scanning (parameter #2) has been disabled.

READ ONLY.

107.19:n

Point Type 108 - ROC 800 Multi-Variable Sensor Items

ItemData TypeDescriptionT.P:L

MULT_VAR_SENSOR.SENSOR_TAG_ID

AC

Identification name for specific MVS. Values must be printable ASCII characters.

108.0:n

MULT_VAR_SENSOR.SENSOR_ADDRESS

UINT8

Unique address of MVS to allow for multi-drop communications.

108.1:n

MULT_VAR_SENSOR.POLL_MODE

UINT8

Sets the operation for the MVS Module. 

•       0 = Off Scan Mode

•       1 = Normal Poll Mode

•       2 = Input Freeze Mode

•       4 = Configuration Poll Mode

•       5 = Set Tag and Address Mode

108.2:n

MULT_VAR_SENSOR.UNITS

UINT8

Indicates what engineering units the process variables will be. 

•       0 = English Units

•       1 = Metric Units

108.3:n

MULT_VAR_SENSOR.INCHES_H20

UINT8

Indicates the reference temperature for calculating pressure properly. 

•       0 = Inches H2O at 60 F

•       1 = Inches H2O at 68 F

108.4:n

MULT_VAR_SENSOR.PRESS_TAP_LOCATION

UINT8

Indicates if the static pressure is an upstream or downstream reading.

  • 0 = Downstream
  • 1 = Upstream

108.5:n

MULT_VAR_SENSOR.ACTION_ON_FAILURE

UINT8

Indicates whether the DP Reading,

SP Reading, TMP Reading, and DP Reverse Reading should retain last value or be set to the Fault Value parameters when a 485 or Sensor Communication Failure occurs. 

•       0 = Retain Last Value

•       1 = Use Fault Value parameters

108.6:n

MULT_VAR_SENSOR.SOFTWARE_REVISION

UINT8

Current software revision of the MVS Interface software. READ ONLY.

108.7:n

MULT_VAR_SENSOR.SENSOR_VOLTAGE

FLP

Current voltage of MVS in volts.

108.8:n

MULT_VAR_SENSOR.SENSOR_ALARMING

UINT8

If enabled, alarms may be generated and sent to the Alarm Log. 

•       0 = Disabled

•       1 = Enabled

108.9:n

MULT_VAR_SENSOR.SENSOR_ALARM_CODE

BIN

•       Bit 4 set indicates the Poll Mode (parameter #2) is in Input Freeze Mode. 0 = Not in Input Freeze Mode, 1 = Input Freeze Mode.

•       Bit 5 set indicates the MVS is no longer communicating with the MVS Interface. 0 = No Failure, 1 = Sensor Communication Failure.

•       Bit 6 set indicates the MVS Interface is no longer communicating with the ROC809. 0 = No Failure, 1 = 485 Communication Failure.

  • Bit 7 set indicates the Poll Mode (parameter #2) is in Off Scan Mode. 0 = Not in Off Scan Mode, 1 = Off Scan Mode.

READ ONLY.

108.10:n

MULT_VAR_SENSOR.SENSOR_RANGE_STATUS

BIN

•       Bit 0 set indicates if the DP Reading (parameter #19) is less than the calibrated DP Zero Calibration Point (parameter #13). 0 = DP Reading greater than or equal to DP Zero Calibration Point, 1 = DP Reading less than DP Zero Calibration Point.

•       Bit 1 set indicates if the SP Reading (parameter #35) is less than the calibrated SP Zero Calibration Point (parameter #29). 0 = SP Reading greater than or equal to SP Zero Calibration Point, 1 = SP Reading less than SP Zero Calibration Point.

•       Bit 2 set indicates if the TMP Reading (parameter #50) is less than the calibrated TMP Zero Calibration Point (parameter #44). 0 = TMP Reading greater than or equal to TMP Zero Calibration Point, 1 = TMP Reading less than TMP Zero Calibration Point.

  • Bit 3 set indicates if the DP Reading (parameter #19) is greater than the calibrated DP Span Calibration Point (parameter #17). 0 = DP Reading less than or equal to DP Span Calibration Point, 1 = DP Reading greater than DP Span Calibration Point.
  • Bit 4 set indicates if the SP Reading (parameter #35) is greater than the calibrated SP Span Calibration Point (parameter #33). 0 = SP Reading less than or equal to SP Span Calibration Point, 1 = SP Reading greater than SP Span Calibration Point.
  • Bit 5 set indicates if the TMP Reading (parameter #50) is greater than the calibrated TMP Span Calibration Point (parameter #48). 0 = TMP Reading less than or equal to TMP Span Calibration Point, 1 = TMP Reading greater than TMP Span Calibration Point.

READ ONLY

108.11:n

MULT_VAR_SENSOR.STATIC_PRES_EFFECT

FLP

Calibrated Zero Shift for DP in inches of H2O or kPa. READ ONLY.

108.12:n

MULT_VAR_SENSOR.DP_ZERO_CALIBRATION_PT

FLP

Lowest calibrated DP Reading value in inches of H2O or kPa. READ ONLY.

108.13:n

MULT_VAR_SENSOR.DP_CAL_MIDPOINT_1

FLP

Second lowest calibrated DP Reading value in inches of H2O or kPa. READ ONLY.

108.14:n

MULT_VAR_SENSOR.DP_CAL_MIDPOINT_2

FLP

Third lowest or highest calibrated DP Reading value in inches of H2O or kPa. READ ONLY.

108.15:n

MULT_VAR_SENSOR.DP_CAL_MIDPOINT_3

FLP

Second highest calibrated DP Reading value in inches of H2O or kPa. READ ONLY.

108.16:n

MULT_VAR_SENSOR.DP_SPAN_CALIBRATION_PT

FLP

Highest calibrated DP Reading value in inches of H2O or kPa. READ ONLY.

108.17:n

MULT_VAR_SENSOR.MANUAL_DP

FLP

Current DP Reading while performing calibration in inches of H2O or kPa.

READ ONLY.

108.18:n

MULT_VAR_SENSOR.DP_READING

FLP

Current Differential Pressure in inches of H2O or kPa.

108.19:n

MULT_VAR_SENSOR.DP_REVERSE_READING

FLP

Current Differential Pressure

Reversed in inches of H2O or kPa.

108.20:n

MULT_VAR_SENSOR.DP_FAULT_VALUE

FLP

Value that the DP Reading (parameter #19) will be set to if a 485 Communication Failure or Sensor Communication Failure occurs in inches of H2O or kPa. The DP Reverse Reading (parameter #20) will be set to the same value of the opposite sign.

108.21:n

MULT_VAR_SENSOR.DP_LOW_ALARM_EU

FLP

DP Alarm value for DP Low Alarm in inches of H2O or kPa.

108.22:n

MULT_VAR_SENSOR.DP_HIGH_ALARM_EU

FLP

DP Alarm value for DP High Alarm in inches of H2O or kPa.

108.23:n

MULT_VAR_SENSOR.DP_ALARM_DEADBAND

FLP

Provides a range ( ) that the DP Reading (parameter #19) may move between without causing another alarm in inches of H2O or kPa.

108.24:n

MULT_VAR_SENSOR.DP_ALARMING

UINT8

If enabled, DP alarms may be generated and sent to the Alarm Log.

•       0 = DP Alarming Disabled

•       1 = DP Alarming Enabled

108.25:n

MULT_VAR_SENSOR.DP_SRBX_ON_CLEAR

UINT8

Indicates a SRBX alarm is desired if an alarm condition clears. 

•       0 = SRBX on Clear Disabled,

•       1 = SRBX on Clear Enabled.3

108.26:n

MULT_VAR_SENSOR.DP_SRBX_ON_SET

UINT8

Indicates a SRBX alarm is desired if an alarm condition occurs. 

•       0 = SRBX on Set Disabled

•       1 = SRBX on Set Enabled

108.27:n

MULT_VAR_SENSOR.DP_ALARM_CODE

BIN

  • If bit 0 is set, the DP Reading (parameter #19) is less than or equal to the DP Low Alarm EU (parameter #22). If clear, the DP Reading (parameter #19) is greater than the DP Low Alarm EU (parameter #22).
  • If bit 2 is set, the DP Reading (parameter #19) is greater than or equal to the DP High Alarm EU (parameter #23). If clear, the DP Reading (parameter #19) is less than the DP High Alarm EU (parameter #23).
  • Bit 6 set indicates a failure in the hardware or software of the MVS for Differential Pressure.
    • 0 = No Failure
    • 1 = DP Failure

READ ONLY

108.28:n

MULT_VAR_SENSOR.SP_ZERO_CALIBRATION_PT

FLP

Lowest calibrated SP Reading value in psi or kPa. READ ONLY.

108.29:n

MULT_VAR_SENSOR.SP_CAL_MIDPOINT_1

FLP

Second lowest calibrated SP Reading value in psi or kPa.

READ ONLY.

108.30:n

MULT_VAR_SENSOR.SP_CAL_MIDPOINT_2

FLP

Third lowest or highest calibrated SP Reading value in psi or kPa. READ ONLY.

108.31:n

MULT_VAR_SENSOR.SP_CAL_MIDPOINT_3

FLP

Second highest calibrated SP Reading value in psi or kPa. READ ONLY.

108.32:n

MULT_VAR_SENSOR.SP_SPAN_CALIBRATION_PT

FLP

Highest calibrated SP Reading value in psi or kPa. READ ONLY.

108.33:n

MULT_VAR_SENSOR.MANUAL_SP

FLP

Current SP Reading while performing calibration in psi or kPa. READ ONLY.

108.34:n

MULT_VAR_SENSOR.SP_READING

FLP

Current Static Pressure in psi or kPa.

108.35:n

MULT_VAR_SENSOR.SP_FAULT_VALUE

FLP

Value that the SP Reading (parameter #35) will be set to if a 485 Communication Failure or Sensor Communication Failure occurs in psi or kPa.

108.36:n

MULT_VAR_SENSOR.SP_LOW_ALARM_EU

FLP

SP Alarm value for SP Low Alarm in psi or kPa.

108.37:n

MULT_VAR_SENSOR.SP_HIGH_ALARM_EU

FLP

SP Alarm value for SP High Alarm in psi or kPa.

108.38:n

MULT_VAR_SENSOR.SP_ALARM_DEADBAND

FLP

Provides a range ( ) that the SP Reading (parameter #35) may move between without causing another alarm in psi or kPa.

108.39:n

MULT_VAR_SENSOR.SP_ALARMING

UINT8

If enabled, SP alarms may be generated and sent to the Alarm Log.

•       0 = SP Alarming Disabled

•       1 = SP Alarming Enabled

108.40:n

MULT_VAR_SENSOR.SP_SRBX_ON_CLEAR

UINT8

Indicates a SRBX alarm is desired if an alarm condition clears. 

•       0 = SRBX on Clear Disabled

•       1 = SRBX on Clear Enabled

108.41:n

MULT_VAR_SENSOR.SP_SRBX_ON_SET

UINT8

Indicates a SRBX alarm is desired if an alarm condition occurs.

•       0 = SRBX on Set Disabled

•       1 = SRBX on Set Enabled

108.42:n

MULT_VAR_SENSOR.SP_ALARM_CODE

BIN

•       If bit 0 is set, the SP Reading (parameter #35) is less than or equal to the SP Low Alarm EU (parameter #37). If clear, the SP Reading (parameter #35) is greater than the SP Low Alarm EU (parameter #37).

•       If bit 2 is set, the SP Reading (parameter #35) is greater than or equal to the SP High Alarm EU (parameter #38). If clear, the SP Reading (parameter #35) is less than the SP High Alarm EU (parameter #38).

•       Bit 6 set indicates a failure in the hardware or software of the MVS for Static Pressure o          0 = No Failure o             1 = SP Failure

READ ONLY.

108.43:n

MULT_VAR_SENSOR.TMP_ZERO_CALIBRATION_PT

FLP

Lowest calibrated TMP Reading value in F or C. 

READ ONLY.

108.44:n

MULT_VAR_SENSOR.TMP_CAL_MIDPOINT_1

FLP

Second lowest calibrated TMP Reading value in F or C. 

READ ONLY.

108.45:n

MULT_VAR_SENSOR.TMP_CAL_MIDPOINT_2

FLP

Third lowest or highest calibrated TMP Reading value in F or C. 

READ ONLY.

108.46:n

MULT_VAR_SENSOR.TMP_CAL_MIDPOINT_3

FLP

Second highest calibrated TMP Reading value in F or C.

READ ONLY.

108.47:n

MULT_VAR_SENSOR.TMP_SPAN_CALIBRATION_P

T

FLP

Highest calibrated TMP Reading value in F or C.

READ ONLY.

108.48:n

MULT_VAR_SENSOR.MANUAL_TMP

FLP

Current TMP Reading while performing calibration in F or C.

READ ONLY.

108.49:n

MULT_VAR_SENSOR.TMP_READING

FLP

Current Temperature in F or C.

108.50:n

MULT_VAR_SENSOR.TMP_FAULT_VALUE

FLP

Value that the TMP Reading

(parameter #50) will be set to if a 485

Communication Failure or Sensor Communication Failure occurs in F or C.

108.51:n

MULT_VAR_SENSOR.TMP_LOW_ALARM_EU

FLP

TMP Alarm value for TMP Low Alarm in F or C.

108.52:n

MULT_VAR_SENSOR.TMP_HIGH_ALARM_EU

FLP

TMP Alarm value for TMP High Alarm in F or C.

108.53:n

MULT_VAR_SENSOR.TMP_ALARM_DEADBAND

FLP

Provides a range ( ) that the TMP Reading (parameter #50) may move between without causing another alarm in F or C. 

108.54:n

MULT_VAR_SENSOR.TMP_ALARMING

UINT8

If enabled, TMP alarms may be generated and sent to the Alarm Log.

•       0 = TMP Alarming Disabled

•       1 = TMP Alarming Enabled

108.55:n

MULT_VAR_SENSOR.TMP_SRBX_ON_CLEAR

UINT8

Indicates a SRBX alarm is desired if an alarm condition clears. 

•       0 = SRBX on Clear Disabled

•       1 = SRBX on Clear Enabled

108.56:n

MULT_VAR_SENSOR.TMP_SRBX_ON_SET

UINT8

Indicates a SRBX alarm is desired if an alarm condition occurs. 

•       0 = SRBX on Set Disabled

•       1 = SRBX on Set Enabled

108.57:n

MULT_VAR_SENSOR.TMP_ALARM_CODE

BIN




If set, the TMP Reading (parameter #50) is less than or equal to the TMP Low Alarm EU (parameter #52). If clear, the TMP Reading (parameter #50) is greater than the TMP Low Alarm EU (parameter #52).

If set, the TMP Reading (parameter #50) is greater than or equal to the TMP High Alarm EU (parameter #53). If clear, the TMP Reading (parameter #50) is less than the TMP High Alarm EU (parameter #53).

Indicates a failure in the hardware or software of the MVS for Temperature. 

•       0 = No Failure

•       1 = TMP Failure

READ ONLY.

108.58:n

MULT_VAR_SENSOR.CALIBRATE_COMMAND

UINT8

Tells the MVS Interface what process variable is being calibrated. 

•       0 = No Action

•       1 = Calibrate DP

•       2 = Calibrate SP

•       3 = Calibrate TMP

•       4 = Calibrate Pressure Effect

•       5 = Save MVS Calibration

•       6 = Set Defaults

108.59:n

MULT_VAR_SENSOR.CALIBRATE_TYPE

UINT8

Tells the MVS Interface what point is being calibrated. 

•       0 = None

•       1 = Set Zero

•       2 = Set Span

•       3 = Set Mid Point #1

•       4 = Set Mid Point #2

•       5 = Set Mid Point #3

•       6 = Sensor Setup

•       7 = Sensor Restore

108.60:n

MULT_VAR_SENSOR.CALIBRATE_SET_VALUE

FLP

Desired value for a calibration point.

108.61:n

Point Type 109 - ROC 800 System Analog Input Items

ItemData TypeDescriptionT.P:L

SYSTEM_AI.POINT_TAG_ID

AC

Identification name for specific System AI. Values must be printable ASCII characters.

109.0:n

SYSTEM_AI.UNITS

AC

Describes the units used by the System AI. Values must be printable ASCII characters.

109.1:n

SYSTEM_AI.SCANNING

UINT8

If disabled, field inputs are ignored and no changes will occur unless manually entered. 

•       0 = Disabled

•       1 = Enabled

109.2:n

SYSTEM_AI.SCAN_PERIOD

FLP

Number of seconds between updates of the System AI.

109.3:n

SYSTEM_AI.ACTUAL_SCAN_TIME

FLP

Actual number of seconds between updates of the System AI. READ ONLY.

109.4:n

SYSTEM_AI.FILTER  

UINT8

Percentage of last raw A/D reading to be weighted with the new raw A/D reading.

109.5:n

SYSTEM_AI.AVERAGING

UINT8

If enabled, the filtered raw A/D value is averaged over the Scan Period. If disabled, the current filtered raw A/D value is used when the Scan Period is reached. 

  • 0 = Disabled
  • 1 = Enabled

109.6:n

SYSTEM_AI.RAW_ATOD_INPUT

INT16

Raw A/D reading used to calculate the EU Value (parameter #21).

109.7:n

SYSTEM_AI.ZERO_RAW

INT16

Lowest raw A/D input. READ ONLY.

109.8:n

SYSTEM_AI.SPAN_RAW

INT16

Highest raw A/D input. READ ONLY.

109.9:n

SYSTEM_AI.ZERO_EU

FLP

Lowest EU value. READ ONLY.

109.10:n

SYSTEM_AI.SPAN_EU

FLP

Highest EU value.

109.11:n

SYSTEM_AI.EU_VALUE

FLP

Value in Engineering Units.

109.12:n

SYSTEM_AI.CLIPPING

UINT8

If enabled, then the EU Value (parameter #12) cannot be less than the Low Low Alarm EU (parameter #14) or greater than the High High Alarm EU (parameter #17). If disabled, no limiting of the EU Value (parameter #12) takes place. 

•       0 = Disabled

•       1= Enabled

109.13:n

SYSTEM_AI.LOLO_ALARM_EU

FLP

Alarm value for Low Low Alarm and minimum EU Value (parameter #12) if Clipping (parameter #13) is enabled.

109.14:n

SYSTEM_AI.LOW_ALARM_EU

FLP

Alarm value for Low Alarm.

109.15:n

SYSTEM_AI.HIGH_ALARM_EU

FLP

Alarm value for High Alarm.

109.16:n

SYSTEM_AI.HIHI_ALARM_EU

FLP

Alarm value for High High Alarm and maximum EU Value (parameter #12) if Clipping (parameter #13) is enabled.

109.17:n

SYSTEM_AI.RATE_ALARM_EU

FLP

Alarm value for maximum change of EU Value (parameter #12) between Scan Periods.  

109.18:n

SYSTEM_AI.ALARM_DEADBAND

FLP

Provides a range ( ) that the EU Value (parameter #12) may move between without causing another alarm.

109.19:n

SYSTEM_AI.ALARMING

UINT8

If enabled, alarms may be generated and sent to the Alarm Log. 

•       0 = Disabled

•       1 = Enabled

109.20:n

SYSTEM_AI.SRBX_ON_CLEAR

UINT8

Indicates a SRBX alarm is desired if an alarm condition clears. 

•       0 = SRBX on Clear Disabled

•       1 = SRBX on Clear Enabled.

109.21:n

SYSTEM_AI.SRBX_ON_SET

UINT8

Indicates a SRBX alarm is desired if an alarm condition occurs. 

•       0 = SRBX on Set Disabled

•       1 = SRBX on Set Enabled

109.22:n

SYSTEM_AI.ALARM_CODE

BIN

•       If bit 0 is set, the EU Value (parameter #12) is less than or equal to the Low Alarm EU (parameter #15). If clear, the EU Value (parameter #12) is greater than the Low Alarm EU (parameter #15).

•       If bit 1 is set, the EU Value (parameter #12) is less than or equal to the Low Low Alarm EU (parameter #14). If clear, the EU Value (parameter #12) is greater than the Low Low Alarm EU (parameter #14).

•       If bit 2 is set, the EU Value (parameter #12) is greater than or equal to the High Alarm EU (parameter #16). If clear, the EU Value (parameter #12) is less than the High Alarm EU (parameter #16).

  • If bit 3 is set, the EU Value (parameter #12) is greater than or equal to the High High Alarm EU (parameter #17). If clear, the EU Value (parameter #12) is less than the High High Alarm EU (parameter #17).
  • If bit 4 is set, the EU Value (parameter #12) change from last Scan Period to the new Scan Period is greater than or equal to the Rate Alarm EU (parameter #18). If clear, the EU Value (parameter #12) change from last Scan Period to the new Scan Period is less than the Rate Alarm EU (parameter #18).
  • If bit 6 is set, the System AI’s hardware is reporting a malfunction. If clear, the System AI’s hardware is operating properly.
  • If bit 7 is set, the Scanning (parameter #2) has been disabled. If clear, the Scanning (parameter #2) has been enabled.

READ ONLY. 

109.23:n

Point Type 110 - ROC 800 PID Control Items

ItemData TypeDescriptionT.P:L

PID_CONTROL_PAR.POINT_TAG_ID

AC

Identification name for specific PID. Values must be printable ASCII characters.

110.0:n

PID_CONTROL_PAR.PID_MODE_ID

UINT8

Indicates whether the PID is disabled, in manual mode, automatic mode, or remote set point mode. 

•       0 = PID Disabled

•       1 = Manual

•       2 = Automatic

•       3 = Remote Set point

110.1:n

PID_CONTROL_PAR.LOOP_PERIOD

FLP

Desired frequency of execution of the PID algorithm in seconds.

110.2:n

PID_CONTROL_PAR.ACTUAL_LOOP_PERIOD

FLP

Actual frequency of execution of the PID algorithm in seconds.

READ ONLY.

110.3:n

PID_CONTROL_PAR.ACTION_PV_FAILURE

UINT8

Indicates what action to take if the process variable has questionable data.

•       0 = No action

•       1 = Switch mode to manual

110.4:n

PID_CONTROL_PAR.DISCRETE_OUTPUT_CONTROL

UINT8

Indicates whether discrete outputs are being used to control the PID. 

•     0 = DO Control Off

•     1 = DO Control On

110.5:n

PID_CONTROL_PAR.RESET_MODE

UINT8

Indicates whether the PID will be disabled on a restart of any kind or retain its last mode.

•       0 = Retain last mode

•       1 = Disable after Reset

110.6:n

PID_CONTROL_PAR.MANUAL_TRACKING

UINT8

If in Manual Mode, the Primary Set point is set equal to the current Primary Process Variable. If disabled, nothing occurs. 

•       0 = Disable Manual Tracking

•       1 = Enable Manual Tracking

110.7:n

PID_CONTROL_PAR.PRI_INPUT_VAR

TLP

The parameter assigned to read the Primary Process Variable (parameter #9) from.

110.8:n

PID_CONTROL_PAR.PRI_PROCESS_VAR

FLP

Input value for the Primary Loop.

110.9:n

PID_CONTROL_PAR.PRI_SETPOINT_POINT

TLP

The parameter assigned to read the primary set point (parameter #11).

110.10:n

PID_CONTROL_PAR.PRI_SETPOINT

FLP

Desired value of the Primary Process Variable (parameter #9).

110.11:n

PID_CONTROL_PAR.PRI_SETPOINT_LOW_LIMIT

FLP

Lowest allowed value for the primary set point (parameter #11).

110.12:n

PID_CONTROL_PAR.PRI_SETPOINT_HIGH_LIMIT

FLP

Highest allowed value for the primary set point (parameter #11).

110.13:n

PID_CONTROL_PAR.PRI_SETPOINT_MAX_DELTA  

FLP

Maximum rate of change allowed for the actual set point used by the Primary Loop in engineering units per minute (EU/minute). A value of 0 disables this option.

110.14:n

PID_CONTROL_PAR.PRI_PROPORTIONAL_GAIN

FLP

Proportional gain (KP) of the Primary Loop.

110.15:n

PID_CONTROL_PAR.PRI_INTEGRAL_GAIN

FLP

Integral gain (KI) of the Primary Loop.

110.16:n

PID_CONTROL_PAR.PRI_DERIVATIVE_GAIN

FLP

Derivative gain (KD) of the Primary Loop.

110.17:n

PID_CONTROL_PAR.PRI_SCALE_FACTOR

FLP

Scale factor (FS) of the Primary Loop.

110.18:n

PID_CONTROL_PAR.PRI_INTEGRAL_DEADBAND

FLP

Range ( ) that the error at time t (et) must be greater than or equal to for the Primary Loop to include the KI term for the change in output calculation.

110.19:n

PID_CONTROL_PAR.PRI_CHANGE_IN_OUTPUT

FLP

Calculated change in output from the Primary Loop.

READ ONLY.

110.20:n

PID_CONTROL_PAR.OVERRIDE_LOOP_MODE

UINT8

•       Indicates which loops have been enabled for control. 0 = Primary Loop Only, 1 = Primary and Override Loop

•       2 = Override Loop Only

110.21:n

PID_CONTROL_PAR.LOOP_SWITCH_SELECT

UINT8

Indicates when to switch to the Override Loop based upon whether the Primary change in output is less than or greater than the Override change in output. 

•       0 = Low Override

•       1 = High Override

110.22:n

PID_CONTROL_PAR.OVERRIDE_INPUT_POINT

TLP

The parameter assigned to read the Override Process Variable (parameter #24).

110.23:n

PID_CONTROL_PAR.OVERRIDE_PROCESS_VAR

FLP

Input value for the Override Loop.

110.24:n

PID_CONTROL_PAR.OVERRIDE_SETPOINT_POINT

TLP

The parameter assigned to read the override set point (parameter #26) from

110.25:n

PID_CONTROL_PAR.OVERRIDE_SETPOINT

FLP

Desired value of the Override Process Variable (parameter #24).

110.26:n

PID_CONTROL_PAR.OVERRIDE_SETPOINT_LOW_LIMIT

FLP

Lowest allowed value for the override set point (parameter #26).

110.27:n

PID_CONTROL_PAR.OVERRIDE_SETPOINT_HIGH_LIMI

T

FLP

Highest allowed value for the override set point (parameter #26).

110.28:n

PID_CONTROL_PAR.OVERRIDE_SETPOINT_MAX_DELT

A  

FLP

Maximum rate of change allowed for the actual set  point used by the Override Loop in engineering units per minute (EU/minute).

110.29:n

PID_CONTROL_PAR.OVERRIDE_PROPORTIONAL_GAI

N

FLP

Proportional gain (KP) of the Override Loop.

110.30:n

PID_CONTROL_PAR.OVERRIDE_INTEGRAL_GAIN

FLP

Integral gain (KI) of the Override Loop.

110.31:n

PID_CONTROL_PAR.OVERRIDE_DERIVATIVE_GAIN

FLP

Derivative gain (KD) of the Override Loop.

110.32:n

PID_CONTROL_PAR.OVERRIDE_SCALE_FACTOR

FLP

Scale factor (FS) of the Override Loop.

110.33:n

PID_CONTROL_PAR.OVERRIDE_INTEGRAL_DEADBAN

D

FLP

Range ( ) that the error at time t (et) must be greater than or equal to for the Override Loop to include the KI term for the change in output calculation.

110.34:n

PID_CONTROL_PAR.OVERRIDE_CHANGE_IN_OUTPUT

FLP

Calculated change in output from the Override Loop.  

READ ONLY.

110.35:n

PID_CONTROL_PAR.SWITCH_STATUS

UINT8

Indicates what loop is currently being used to control the process variable. 

•       0 = Neither

•       1 = Primary Loop

•       2 = Override Loop

READ ONLY.

110.36:n

PID_CONTROL_PAR.CURRENT_PID_OUTPUT

FLP

Value that is sent to current output.

110.37:n

PID_CONTROL_PAR.OUTPUT_OF_PID_POINT

TLP

The parameter assigned to write the analog control output of the PID loop to. Only used of DO Control (parameter #5) is Off.

110.38:n

PID_CONTROL_PAR.DISCRETE_OPEN_PID_OUTPUT

TLP

The parameter assigned to write the increase/open output to. Only used if DO Control (parameter #5) is On.

110.39:n

PID_CONTROL_PAR.DISCRETE_CLOSE_PID_OUTPUT

TLP

The parameter assigned to write the decrease/closed output to. Only used if DO Control (parameter #5) is On.

110.40:n

PID_CONTROL_PAR.OUTPUT_LOW_LIMIT

FLP

Minimum allowable PID output. If the change in output calculated by the loop would cause the current value of the output to go below this value, the output will be set to this value.

110.41:n

PID_CONTROL_PAR.OUTPUT_HIGH_LIMIT

FLP

Maximum allowable PID output. If the change in output calculated by the loop would cause the current value of the output to go above this value, the output will be set to this value.

110.42:n

PID_CONTROL_PAR.OUTPUT_LOW_LIMIT_STATUS

UINT8

Indication that the output of the PID loop has been clipped by the low output limit. 

•       0 = Not limited, 

•       1 = Low output limited.

READ ONLY.

110.43:n

PID_CONTROL_PAR.OUTPUT_HIGH_LIMIT_STATUS

UINT8

Indication that the output of the PID loop has been clipped by the high output limit. 

•       0 = Not limited

•       1 = High output limited

READ ONLY.

110.44:n

PID_CONTROL_PAR.PRI_PROCESS_VAR_STATUS

UINT8

Indication of the status of the primary process variable. 

•       0 = No error

•       1 = Questionable data

•       = Invalid TLP

READ ONLY.

110.45:n

PID_CONTROL_PAR.PRI_SETPT_LOW_LIMIT_STATUS

UINT8

Indication that the primary set point has been clipped by the low set point limit. 

•       0 = Not limited

•       1 = Low set point limited

READ ONLY.

110.46:n

PID_CONTROL_PAR.PRI_SETPT_HIGH_LIMIT_STATUS

UINT8

Indication that the primary set point has been clipped by the high set point limit.

•       0 = Not limited

•       1 = High set point limited

READ ONLY.

110.47:n

PID_CONTROL_PAR.PRI_SETPT_RATE_LIMITED

UINT8

Indication that the primary set point currently being used by the PID calculation is currently being limited by the maximum set point change rate (parameter #14).

READ ONLY.

110.48:n

PID_CONTROL_PAR.OVERRIDE_PROCESS_VAR_STATUS

UINT8

Indication of the status of the override process variable. 

•       0 = No error

•       1 = Questionable data

•       = Invalid TLP

READ ONLY.

110.49:n

PID_CONTROL_PAR.OVERRIDE_SETPT_LOW_LIMIT_STATUS

UINT8

Indication that the override set point has been clipped by the low set point limit.

•       0 = Not limited

•       1 = Low set point limited

READ ONLY.

110.50:n

PID_CONTROL_PAR.OVERRIDE_SETPT_HIGH_LIMIT_STATUS

UINT8

Indication that the override set point has been clipped by the high set point limit. 

•       0 = Not limited

•       1 = High set point limited

READ ONLY.

110.51:n

PID_CONTROL_PAR.OVERRIDE_SETPT_RATE_LIMITED

UINT8

Indication that the override set point currently being used by the PID calculation is currently being limited by the maximum set point change rate (parameter #29).

READ ONLY.

110.52:n

Point Type 111 - ROC 800 Sampler/Odorizer Items

ItemData TypeDescriptionT.P:L

SAMPLER_PARAMETERS.MODE

UINT8

Indicates whether a sampler or odorizer is being used. 

•       0 = Disabled

•       1 = Enabled

111.0:n

SAMPLER_PARAMETERS.TLP_INPUT_RATE

TLP

Rate input being used for sampler or odorizer.

111.1:n

SAMPLER_PARAMETERS.INPUT_RATE_VALUE

FLP

Rate input value. READ ONLY.

111.2:n

SAMPLER_PARAMETERS.TIME_BASIS

UINT8

States what rate the input value is. 0 = Per Second, 1 = Per Minute, 2 = Per Hour, 3 = Per Day.

111.3:n

SAMPLER_PARAMETERS.UINT_ACCUMULATION

FLP

Amount of units allowed past before activating sampler or odorizer.

111.4:n

SAMPLER_PARAMETERS.DURATION

FLP

Amount of time, in seconds, for sampler to collect gas or odorizer to inject odor.

111.5:n

SAMPLER_PARAMETERS.OUTPUT_TLP

TLP

Indicates what DO is being used to control a sampler or odorizer.

111.6:n

Point Type 112 - ROC 800 Station Items

ItemData TypeDescriptionT.P:L

STATION_PARAMETERS.POINT_TAG_ID

AC

Identification name for specific Station. Values must be printable ASCII characters.

112.0:n

STATION_PARAMETERS.CALC_STANDARD

UINT8

Indicates what calculation standard is to be used to calculate the station’s meter runs. 

•       0 = AGA, 

•       1 = ISO.

112.1:n

STATION_PARAMETERS.CALC_EDITION

UINT8

Indicates what edition of the meter run calculations is to be used for the calculation. 0 = 1992. 

READ ONLY.

112.2:n

STATION_PARAMETERS.COMPRESS_CALC

UINT8

Indicates what method to use to calculate the compressibility of natural gas and other related hydrocarbons. 

•       0 = AGA Report #8 Detail Method

•       1 = AGA Report #8 Gross Method #1

•       2 = AGA Report #8 Gross Method #2

112.3:n

STATION_PARAMETERS.UINTS

UINT8

Indicates what engineering units the process variables, inputs, and calculation should be.

•       0 = English Units

•       1 = Metric Units

112.4:n

STATION_PARAMETERS.ALARMING

UINT8

If enabled, alarms may be generated and sent to the Alarm Log. 

•       0 = Disabled

•       1 = Enabled

112.5:n

STATION_PARAMETERS.SRBX_ON_CLEAR

UINT8

Indicates a SRBX alarm is desired if an alarm condition clears. 

•       0 = SRBX on Clear Disabled

•       1 = SRBX on Clear Enabled

112.6:n

STATION_PARAMETERS.SRBX_ON_SET

UINT8

Indicates a SRBX alarm is desired if an alarm condition occurs. 

•       0 = SRBX on Set Disabled

•       1 = SRBX on Set Enabled

112.7:n

STATION_PARAMETERS.ALARM_CODE

BIN

•       This alarm is set (bit 0) if the Flow Rate per Day (parameter #53) is less than or equal to the Low Alarm Flow (parameter #9). This alarm is cleared if the Flow Rate per Day (parameter #53) is greater than the Low Alarm Flow (parameter #9) plus the alarm dead band (parameter #11).

•       This alarm is set (bit 2) if the Flow Rate per Day (parameter #53) is greater than or equal to the High Alarm Flow (parameter #10). This alarm is cleared if the Flow Rate per Day (parameter #53) is less than the High Alarm Flow (parameter #10) minus the alarm dead band (parameter #11).

  • If bit 6 is set, then no flow conditions are present and the Flow Rate per Day (parameter #53) is zero. If clear, then flowing conditions exist and the Flow Rate per Day (parameter #53) is not zero.

READ ONLY. 

112.8:n

STATION_PARAMETERS.LOW_ALARM_FLOW

FLP

Alarm value for Low Alarm in mft3/day or km3/day.

112.9:n

STATION_PARAMETERS.HIGH_ALARM_FLOW

FLP

Alarm value for High Alarm in mft3/day or km3/day.

112.10:n

STATION_PARAMETERS.ALARM_DEADBAND

FLP

The value that the Flow Rate Per Day (parameter #53) must be above the low alarm value (parameter #9) or below the high alarm value (parameter #10) before the associated alarm will clear.

112.11:n

STATION_PARAMETERS.HISTORY_SEGMENT

UINT8

The history segment that the station will use for storing history. 

•       0 = No history stored

•       1 - 10 = history segment to be use

112.12:n

STATION_PARAMETERS.BASE_PRESSURE or

STATION_PARAMETERS.CONTRACT_PRESSURE

FLP

Used to correct the standard volume flow rate to the base volume flow rate.

Entered in psi (lb/in2) or kPa.

112.13:n

STATION_PARAMETERS.BASE_TEMP or

STATION_PARAMETERS.CONTRACT_TEMP

FLP

Used to correct the standard volume flow rate to the base volume flow rate.

Entered in F or C.

112.14:n

STATION_PARAMETERS.ATMOSPHERIC_PRES_O PTION

UINT8

Indicates whether to calculate the atmospheric pressure or use the entered value. 

•       0 = Calculate Atmospheric Pressure

•       1 = Use Entered Atmospheric Pressure

112.15:n

STATION_PARAMETERS.ATMOSPHERIC_PRESSURE

FLP

Amount of pressure in psi (lb/in2) or kPa that is added to the static pressure to calculate an absolute pressure from a gauge pressure.

112.16:n

STATION_PARAMETERS.GRAVITY_OPTION

UINT8

Indicates whether to calculate the gravity or use the entered value. 

•       0 = Calculate Gravity

•       1 = Use Entered Gravity

112.17:n

STATION_PARAMETERS.LOCAL_GRAV_ACCELERATION

FLP

Local value of gravity at the station in ft/sec2 or m/sec2.

112.18:n

STATION_PARAMETERS.ELEVATION

FLP

Distance from sea level in feet or meters for the station.

112.19:n

STATION_PARAMETERS.LATITUDE

FLP

Latitude of station in degrees.

112.20:n

STATION_PARAMETERS.HEATING_VALUE_TYPE

UINT8

Indicates what the type of entered Heating Value is. 0 = Dry, 1 = Wet, 2 = As Delivered.

112.21:n

STATION_PARAMETERS.HEATING_VALUE

FLP

Gas property indicating how much energy it takes to heat the gas based upon a per-unit mass or volume basis. For English units, either Btu/lbm or Btu/ft3 are used and for Metric units, either MJ/kg or MJ/m3.

112.22:n

STATION_PARAMETERS.SPECIFIC_GRAVITY

FLP

Real gas relative density.

112.23:n

STATION_PARAMETERS.GAS_QUALITY

UINT8

Indicates if the gas quality for the station will be live or constant.

•       0 = Constant Gas Quality

•       1 = Live Gas Quality

112.24:n

STATION_PARAMETERS.NORMALIZATION_TYPE

UINT8

Indicates if the gas composition is adjusted to 100% by modifying the methane or using normalization. 0 = Methane Adjust, 1 = Normalize Gas

112.25:n

STATION_PARAMETERS.NITROGEN

FLP

Percent of gas present.

112.26:n

STATION_PARAMETERS.CARBON_DIOXIDE

FLP

Percent of gas present.

112.27:n

STATION_PARAMETERS.METHANE

FLP

Percent of gas present.

112.28:n

STATION_PARAMETERS.ETHANE

FLP

Percent of gas present.

112.29:n

STATION_PARAMETERS.PROPANE

FLP

Percent of gas present.

112.30:n

STATION_PARAMETERS.N_BUTANE

FLP

Percent of gas present.

112.31:n

STATION_PARAMETERS.I_BUTANE

FLP

Percent of gas present.

112.32:n

STATION_PARAMETERS.N_PENTANE

FLP

Percent of gas present.

112.33:n

STATION_PARAMETERS.I_PENTANE

FLP

Percent of gas present.

112.34:n

STATION_PARAMETERS.N_HEXANE

FLP

Percent of gas present.

112.35:n

STATION_PARAMETERS.N_HEPTANE

FLP

Percent of gas present.

112.36:n

STATION_PARAMETERS.N_OCTANE

FLP

Percent of gas present.

112.37:n

STATION_PARAMETERS.N_NONANE

FLP

Percent of gas present.

112.38:n

STATION_PARAMETERS.N_DECANE

FLP

Percent of gas present.

112.39:n

STATION_PARAMETERS.HYDROGEN_SULFIDE

FLP

Percent of gas present.

112.40:n

STATION_PARAMETERS.WATER

FLP

Percent of gas present.

112.41:n

STATION_PARAMETERS.HELIUM

FLP

Percent of gas present.

112.42:n

STATION_PARAMETERS.OXYGEN

FLP

Percent of gas present.

112.43:n

STATION_PARAMETERS.CARBON_MONOXIDE

FLP

Percent of gas present.

112.44:n

STATION_PARAMETERS.HYDROGEN

FLP

Percent of gas present.

112.45:n

STATION_PARAMETERS.HEAVY_GAS_OPTION

UINT8

Indicates whether to separate Heavy Gas Percent (C6+) (parameter #47) into individual components in the percentages configured in parameters #48-52 and write to gas components hexane and heavier (parameters #35-39). 0 = C6+ not used, 1 = C6+ used.

112.46:n

STATION_PARAMETERS.HEAVY_GAS_PCT_GT_HEXANE

FLP

Percent of gas that is a composite of hydrocarbons hexane and heavier. Values for C6+ should be written to this parameter.

112.47:n

STATION_PARAMETERS.HEAVY_GAS_PERCENT_HEXANE

FLP

Percent of hexane believed to be present in the composite heavy gas.

112.48:n

STATION_PARAMETERS.HEAVY_GAS_PERCENT_HEPTANE

FLP

Percent of heptane believed to be present in the composite heavy gas.

112.49:n

STATION_PARAMETERS.HEAVY_GAS_PERCENT_ OCTANE

FLP

Percent of octane believed to be present in the composite heavy gas.

112.50:n

STATION_PARAMETERS.HEAVY_GAS_PERCENT_ NONANE

FLP

Percent of nonane believed to be present in the composite heavy gas.

112.51:n

STATION_PARAMETERS.HEAVY_GAS_PERCENT_ DECANE

FLP

Percent of decane believed to be present in the composite heavy gas.

112.52:n

STATION_PARAMETERS.FLOW_RATE_PER_DAY

FLP

Volume flow rate at base condition in mft3/day or km3/day. READ ONLY.

112.53:n

STATION_PARAMETERS.ENERGY_RATE_PER_DAY

FLP

Energy rate at base conditions in mmBtu/day or GJ/day. READ ONLY.

112.54:n

STATION_PARAMETERS.FLOW_TODAY

FLP

Total accumulation of flow for the current contract day in mft3 or km3.

READ ONLY.

112.55:n

STATION_PARAMETERS.FLOW_YESTERDAY

FLP

Total accumulation of flow for the previous contract day in mft3 or km3.

READ ONLY.

112.56:n

STATION_PARAMETERS.ENERGY_TODAY

FLP

Total accumulation of energy for the current contract day in mmBtu or GJ.

READ ONLY.

112.57:n

STATION_PARAMETERS.ENERGY_YESTERDAY

FLP

Total accumulation of energy for the previous contract day in mmBtu or GJ.

READ ONLY.

112.58:n

STATION_PARAMETERS.ZS

FLP

Represents the compressibility at standard conditions. READ ONLY.

112.59:n

STATION_PARAMETERS.ZB

FLP

Represents the compressibility at base conditions. READ ONLY.

112.60:n

STATION_PARAMETERS.BASE_DENSITY

FLP

Represents the density of a fluid at base conditions in lbm/ft3 or kg/m3. 

READ ONLY.

112.61:n

Point Type 113 - ROC 800 Orifice Meter Run Items

ItemData TypeDescriptionT.P:L

ORIFICE_MR_CONFIG.POINT_TAG_ID

AC

Identification name for specific Orifice Meter Run. Values must be printable ASCII characters.

113.0:n

ORIFICE_MR_CONFIG.POINT_DESCRIPTION

AC

Description for specific Meter Run. Values must be printable ASCII characters.

113.1:n

ORIFICE_MR_CONFIG.STATIC_PRES_UNITS

UINT

8

Indicates whether the static pressure is in gauge or absolute pressure units. 

•       0 = Gauge

•       1 = Absolute

113.2:n

ORIFICE_MR_CONFIG.STATIC_PRES_TAP

UINT

8

Indicates if the static pressure is an upstream or downstream reading.

•       0 = Downstream

•       1= Upstream

113.3:n

ORIFICE_MR_CONFIG.ALARMING

UINT

8

If enabled, alarms may be generated and sent to the Alarm Log. 

•       0 = Disabled

•       1 = Enabled

113.4:n

ORIFICE_MR_CONFIG.SRBX_ON_CLEAR

UINT

8

Indicates a SRBX alarm is desired if an alarm condition clears. 

•       0 = SRBX on Clear Disabled

•       1 = SRBX on Clear Enabled

113.5:n

ORIFICE_MR_CONFIG.SRBX_ON_SET

UINT

8

Indicates a SRBX alarm is desired if an alarm condition occurs. 

•       0 = SRBX on Set Disabled

•       1 = SRBX on Set Enabled

113.6:n

ORIFICE_MR_CONFIG.ALARM_CODE

BIN

This alarm is set (bit 0) if the Flow Rate per Day (point type 114, parameter #0) is less than or equal to the Low Alarm Flow (parameter #8). This alarm is cleared if the Flow Rate per Day (point type 114, parameter #0) is greater than the Low Alarm Flow (parameter #8) plus the alarm deadband (parameter #10).

This alarm is set (bit 2) if the Flow Rate per Day (point type 114, parameter #0) is greater than or equal to the High Alarm Flow (parameter #9). This alarm is cleared if the Flow Rate per Day (point type 114, parameter #0) is less than the High Alarm Flow (parameter #9) minus the alarm deadband (parameter #10).

If bit 6 is set, then no flow conditions are present and the Flow Rate per Day (point type 114, parameter #0) is zero. If clear, then flowing conditions exist and the Flow Rate per Day (point type 114, parameter #0) is not zero.

If bit 7 is set, then one of the DP TLP (parameter #25), SP TLP (parameter #27), TMP TLP (parameter #29), or Low DP TLP (parameter #24), if Stacked DP is enabled, is set to Manual (0,0,0). If clear, then the DP TLP (parameter #25), SP TLP (parameter #27), TMP TLP (parameter #29), and Low DP TLP (parameter #24), if Stacked DP is enabled, are not set to Manual. READ ONLY.

113.7:n

ORIFICE_MR_CONFIG.LOW_ALARM_FLOW

FLP

Alarm value for Low Alarm in mft3/day or km3/day.

113.8:n

ORIFICE_MR_CONFIG.HIGH_ALARM_FLOW

FLP

Alarm value for High Alarm in mft3/day or km3/day.

113.9:n

ORIFICE_MR_CONFIG.ALARM_DEADB AND

FLP

The value that the Flow Rate Per Day (Point Type 114, parameter #0) must be above the low alarm value (parameter #8) or below the high alarm value (parameter #9) before the associated alarm will clear.

113.10:n

ORIFICE_MR_CONFIG.STATION_NUMBER

UINT8

Indicates what station the meter run is a part of.

113.11:n

ORIFICE_MR_CONFIG.PIPE_DIAMETER

FLP

Meter tube internal diameter in inches or millimeters. Must be greater than 0.0.

113.12:n

ORIFICE_MR_CONFIG.PIPE_REFERENCE_TEMP

FLP

Reference temperature of the meter tube inside diameter in F or C.

113.13:n

ORIFICE_MR_CONFIG.PIPE_MATERIAL

UINT8

Indicates what the meter tube is made of. This is for determining the linear coefficient of thermal expansion for the meter tube. 

•       0 = Type 304 or 316 Stainless Steel, 

•       1 = Monel

•       2 = Carbon Steel

113.14:n

ORIFICE_MR_CONFIG.ORIFICE_DIAMETER

FLP

Orifice plate bore diameter in inches or millimeters. Must be greater than 0.0 and less than Pipe Diameter (parameter #12).

113.15:n

ORIFICE_MR_CONFIG.ORIFICE_REF_TEMP

FLP

Reference temperature of the orifice plate bore diameter in F or C.

113.16:n

ORIFICE_MR_CONFIG.ORIFICE_MATERIAL

UINT8

Indicates what the orifice plate is made of. This is for determining the linear coefficient of thermal expansion for the orifice plate. 

•       0 = Type 304 or 316 Stainless Steel

•       1 = Monel

•       2 = Carbon Steel

113.17:n

ORIFICE_MR_CONFIG.VISCOSITY

FLP

Absolute viscosity of flowing fluid in Lbm/FtSec.

113.18:n

ORIFICE_MR_CONFIG.SPECIFIC_HEAT_RATIO

FLP

Isentropic exponent for natural gas. Must be greater than 0.0.

113.19:n

ORIFICE_MR_CONFIG.LOW_DP_CUTOFF or ORIFICE_MR_CONFIG.DP_LOW_CUTOFF

FLP

This is the cutoff point for the differential pressure, in inches of H2O or kPa, to determine whether the meter run is flowing or not.

113.20:n

ORIFICE_MR_CONFIG.STACKED_DP

UINT8

Indicates a stacked differential pressure for the meter run is being used. 

•       0 = Disabled

•       1 = Enabled

113.21:n

ORIFICE_MR_CONFIG.HIGH_DP_SETPOINT

FLP

If a stacked differential pressure is enabled, this is the differential pressure value, in inches of H2O or kPa, which indicates to start reading from the DP TLP (parameter #25).

113.22:n

ORIFICE_MR_CONFIG.LOW_DP_SETPOINT

FLP

If a stacked differential pressure is enabled, this is the differential pressure value, in inches of H2O or kPa, which indicates to start reading from the Low DP TLP (parameter #24).

113.23:n

ORIFICE_MR_CONFIG.LOW_DP_TLP

TLP

Indicates what is being used to get the DP (parameter #26) if the stacked differential pressure says to use the lower DP.

113.24:n

ORIFICE_MR_CONFIG.DP_TLP

TLP

This indicates what is being used to get the DP (parameter #26).

113.25:n

ORIFICE_MR_CONFIG.DP

FLP

This is the differential pressure in inches of H2O or kPa.

113.26:n

ORIFICE_MR_CONFIG.SP_TLP

TLP

Indicates what is being used to get the SP (parameter #28).

113.27:n

ORIFICE_MR_CONFIG.SP

FLP

Static pressure in psi (lb/in2) or kPa.

113.28:n

ORIFICE_MR_CONFIG.TMP_TLP

TLP

Indicates what is being used to get the TMP (parameter #30).

113.29:n

ORIFICE_MR_CONFIG.TMP

FLP

Temperature in F or C

113.30:n

ORIFICE_MR_CONFIG.STATIC_PRES_DEADWEIGHT_CAL

UINT

8

Expand the volume flow equation to include the local gravitational correction for the deadweight calibrator on Static Pressure (Fpwl(static)). 

•       0 = Do Not Use

•       1 = Use

113.31:n

ORIFICE_MR_CONFIG.DP_DEADWEIGHT_C ALIBRATOR

UINT

8

Expand the volume flow equation to include the local gravitational correction for the deadweight calibrator on Differential Pressure (Fpwl (differential)). 

•       0 = Do Not Use

•       1 = Use

113.32:n

ORIFICE_MR_CONFIG.CAL_WEIGHTS_GRA V_ACC

FLP

Used to calculate Fpwl. Entered in ft/sec2 or m/sec2.

113.33:n

ORIFICE_MR_CONFIG.USER_CORRECTIO N_FACTOR

FLP

Variable multiplied through the volume flow equation to allow the user to modify the flow.

113.34:n

Point Type 114 - ROC 800 Orifice Meter Run Value Items

ItemData TypeDescriptionT.P:L

ORIFICE_MR_VALUES.FLOW_RT_PER_DAY

FLP

Volume flow rate at base condition in mft3/day or km3/day. READ ONLY.

114.0:n

ORIFICE_MR_VALUES.ENERGY_RT_PER_DAY

FLP

Energy rate at base conditions in mmBtu/day or GJ/day. READ ONLY.

114.1:n

ORIFICE_MR_VALUES.FLOW_RT_PER_HOUR

FLP

Volume flow rate at base conditions in ft3/hour or m3/hour. READ ONLY.

114.2:n

ORIFICE_MR_VALUES.ENERGY_RT_PER_HOUR

FLP

Energy rate at base conditions in Btu/hour or MJ/hour. READ ONLY.

114.3:n

ORIFICE_MR_VALUES.PRES_EXTENSION

FLP

Represents the square root of Differential Pressure times Static Pressure (hw * Pf).

READ ONLY.

114.4:n

ORIFICE_MR_VALUES.CDFT

FLP

Represents the Coefficient of discharge at a specified pipe Reynolds number for flange-tapped orifice meter. READ ONLY.

114.5:n

ORIFICE_MR_VALUES.VELOCITY_OF_APPROACH

FLP

Represents the velocity of approach factor. READ ONLY.

114.6:n

ORIFICE_MR_VALUES.EXPANSION_FACTOR

FLP

Represents the Expansion factor based on upstream absolute static pressure.

READ ONLY.

114.7:n

ORIFICE_MR_VALUES.ORIFICE_BORE_DIAMETER

FLP

Orifice plate bore diameter calculated at the average flowing temperature over the imp in inches. READ ONLY.

114.8:n

ORIFICE_MR_VALUES.ZF1

FLP

Represents the compressibility at upstream flowing conditions. READ ONLY.

114.9:n

ORIFICE_MR_VALUES.FPB

FLP

Represents the base pressure factor. READ ONLY.

114.10:n

ORIFICE_MR_VALUES.FTB

FLP

Represents the base temperature factor. READ ONLY.

114.11:n

ORIFICE_MR_VALUES.MULT_VAL

FLP

Represents the value multiplied by the square root of the product of differential and static pressure to calculate instantaneous flow rate. READ ONLY.

114.12:n

ORIFICE_MR_VALUES.METER_TUBE_ID

FLP

Meter tube internal diameter calculated at the average flowing temperature over the imp in inches.

114.13:n

ORIFICE_MR_VALUES.DIAMETER_RATIO

FLP

Ratio of orifice plate bore diameter to meter tube internal diameter calculated at the average flowing temperature over the imp. READ ONLY.

114.14:n

ORIFICE_MR_VALUES.DENSITY

FLP

Represents the density of a fluid at flowing conditions in lbm/ft3 or kg/m3. 

READ ONLY.

114.15:n

ORIFICE_MR_VALUES.REYNOLDS_NUM

FLP

Represents the pipe Reynolds number.  READ ONLY.

114.16:n

ORIFICE_MR_VALUES.UPSTREAM_STATIC_PRES

FLP

Represents the instantaneous upstream static pressure in psia or kPa. READ ONLY.

114.17:n

ORIFICE_MR_VALUES.FPWL

FLP

Represents the local gravitational correction for the deadweight tester. When a deadweight calibrator is used for both the differential and static pressure, this factor is used twice. 

READ ONLY.  

114.18:n

ORIFICE_MR_VALUES.FLOW_TODAY

FLP

Total accumulation of flow for the current contract day in mft3 or km3. 

READ ONLY.

114.19:n

ORIFICE_MR_VALUES.FLOW_YESTERDAY

FLP

Total accumulation of flow for the previous contract day in mft3 or km3. 

READ ONLY.

114.20:n

ORIFICE_MR_VALUES.FLOW_MONTH

FLP

Total accumulation of flow for the current month in mft3 or km3. READ ONLY.  

114.21:n

ORIFICE_MR_VALUES.FLOW_PREV_MONTH

FLP

Total accumulation of flow for the previous month in mft3 or km3. READ ONLY.

114.22:n

ORIFICE_MR_VALUES.FLOW_ACCUM

FLP

Total accumulation of flow for the meter run in mft3 or km3. The 1,000,000.0 rollover is to ensure that flow accuracy is not lost due to the significant digits of a float data type. READ ONLY.

114.23:n

ORIFICE_MR_VALUES.MINUTES_TODAY

FLP

Total accumulation of flowing minutes for the current contract day. READ ONLY.

114.24:n

ORIFICE_MR_VALUES.MINUTES_YESTERDAY

FLP

Total accumulation of flowing minutes for the previous contract day. READ ONLY.

114.25:n

ORIFICE_MR_VALUES.MINUTES_MONTH

FLP

Total accumulation of flowing minutes for the current month. READ ONLY.

114.26:n

ORIFICE_MR_VALUES.MINUTES_PREV_MONTH

FLP

Total accumulation of flowing minutes for the previous month. READ ONLY.

114.27:n

ORIFICE_MR_VALUES.MINUTES_ACCUM

FLP

Total accumulation of flowing minutes for the meter run. The 1,000,000.0 rollover is to ensure that flow minutes accuracy is not lost due to the significant digits of a float data type. READ ONLY.

114.28:n

ORIFICE_MR_VALUES.ENERGY_TODAY

FLP

Total accumulation of energy for the current contract day in mmBtu or GJ.

READ ONLY.

114.29:n

ORIFICE_MR_VALUES.ENERGY_YESTERDAY

FLP

Total accumulation of energy for the previous contract day in mmBtu or GJ.

READ ONLY.

114.30:n

ORIFICE_MR_VALUES.ENERGY_MONTH

FLP

Total accumulation of energy for the current month in mmBtu or GJ. READ ONLY.

114.31:n

ORIFICE_MR_VALUES.ENERGY_PREV_MONTH

FLP

Total accumulation of energy for the previous month in mmBtu or GJ. READ ONLY.

114.32:n

ORIFICE_MR_VALUES.ENERGY_ACCUM

FLP

Total accumulation of energy for the meter run in mmBtu or GJ. The 1,000,000.0 rollover is to ensure that energy accuracy is not lost due to the significant digits of a float data type. READ ONLY.

114.33:n

Point Type 115 - ROC 800 Turbine Meter Run Items

ItemData TypeDescriptionT.P:L

TURBINE_MR_CONFIG.POINT_TAG_ID

AC

Identification name for specific Turbine Meter Run. Values must be printable ASCII characters.

115.0:n

TURBINE_MR_CONFIG.POINT_DESCRIPTION

AC

Description for specific Meter Run. Values must be printable ASCII characters.

115.1:n

TURBINE_MR_CONFIG.STATIC_PRES_UNITS

UINT8

Indicates whether the static pressure is in gauge or absolute pressure units. 

•       0 = Gauge

•       1 = Absolute

115.2:n

TURBINE_MR_CONFIG.ALARMING

UINT8

If enabled, alarms may be generated and sent to the Alarm Log.

•       0 = Disabled

•       1 = Enabled

115.3:n

TURBINE_MR_CONFIG.SRBX_ON_CLEAR

UINT8

Indicates a SRBX alarm is desired if an alarm condition clears. 

•       0 = SRBX on Clear Disabled

•       1 = SRBX on Clear Enabled

115.4:n

TURBINE_MR_CONFIG.SRBX_ON_SET

UINT8

Indicates a SRBX alarm is desired if an alarm condition occurs. 

•       0 = SRBX on Set Disabled

•       1 = SRBX on Set Enabled

115.5:n

TURBINE_MR_CONFIG.ALARM_CODE

BIN

•       This alarm is set (bit 0) if the Flow Rate per Day (point type 116, parameter #0) is less than or equal to the Low Alarm Flow (parameter #7). This alarm is cleared if the Flow Rate per Day (point type 116, parameter #0) is greater than the Low Alarm Flow (parameter #7) plus the alarm deadband (parameter #9).

•       This alarm is set (bit 2) if the Flow Rate per Day (point type 116, parameter #0) is greater than or equal to the High Alarm Flow (parameter #8). This alarm is cleared if the Flow Rate per Day (point type 116, parameter #0) is less than the High Alarm Flow (parameter #8) minus the alarm deadband (parameter #9).

•       If bit 6 is set, then no flow conditions are present and the Flow Rate per Day (point type 116, parameter #0) is zero. If clear, then flowing conditions exist and the Flow Rate per Day (point type 116, parameter #0) is not zero.

•       If bit 7 is set, then one of the Uncorrected Flow Rate TLP (parameter #13), SP TLP (parameter #15), or TMP TLP (parameter #17) is set to Manual (0,0,0). If clear, then the Uncorrected Flow Rate TLP (parameter #13), SP TLP (parameter #15), and TMP TLP (parameter #17) are not set to Manual.

READ ONLY.

115.6:n

TURBINE_MR_CONFIG.LOW_ALARM_FLOW

FLP

Alarm value for Low Alarm in mft3/day or km3/day.

115.7:n

TURBINE_MR_CONFIG.HIGH_ALARM_FLOW

FLP

Alarm value for High Alarm in mft3/day or km3/day.

115.8:n

TURBINE_MR_CONFIG.ALARM_DEADBAND

FLP

The value that the Flow Rate Per Day (Point Type 116, parameter #0) must be above the low alarm value (parameter #7) or below the high alarm value (parameter #8) before the associated alarm will clear.

115.9:n

TURBINE_MR_CONFIG.STATION_NUMBER

UINT8

Indicates what station a meter run is a part of.

115.10:n

TURBINE_MR_CONFIG.K_FACTOR

FLP

This is the linear meter constant (K-Factor) in pulses/ft3 or pulses/m3.

115.11:n

TURBINE_MR_CONFIG.NO_FLOW_TIME

FLP

Amount of time in seconds without a pulse before the meter is considered not to have flow.

115.12:n

TURBINE_MR_CONFIG.UNCORRECTED_FLOW_RT_TLP

TLP

This indicates what is being used to get the pulses from the turbine and the Uncorrected Flow Rate (parameter #14).

115.13:n

TURBINE_MR_CONFIG.UNCORRECTED_FL OW_RATE

FLP

This is the uncorrected flow rate in mft3/day or km3/day.

115.14:n

TURBINE_MR_CONFIG.SP_TLP

TLP

Indicates what is being used to get the SP (parameter #16).

115.15:n

TURBINE_MR_CONFIG.SP

FLP

Static pressure in psi (lb/in2) or kPa.

115.16:n

TURBINE_MR_CONFIG.TMP_TLP

TLP

Indicates what is being used to get the TMP (parameter #18).

115.17:n

TURBINE_MR_CONFIG.TMP

FLP

Temperature in F or C

115.18:n

TURBINE_MR_CONFIG.SP_DEADWEIGHT_CALIBRATOR

UINT8

Expand the volume flow equation to include the local gravitational correction for the deadweight calibrator on Static Pressure (Fpwl (static)).

•       0 = Do Not Use

•       1 = Use

115.19:n

TURBINE_MR_CONFIG.CAL_WEIGHTS_GRA V_ACC

FLP

Used to calculate Fpwl (static). Entered in ft/sec2 or m/sec2.

115.20:n

TURBINE_MR_CONFIG.USER_CORRECTION _FACTOR

FLP

Variable multiplied through the volume flow equation to allow the user to modify the flow (Fuc).

115.21:n

TURBINE_MR_CONFIG.LOW_FLOW_CUTOFF

FLP

This is the cutoff point for the uncorrected flow rate if it is not obtained from a pulse input. If the uncorrected flow rate input is equal to or below this value, the uncorrected flow rate value (parameter #14) will be set to zero. If the uncorrected flow rate is obtained from a pulse input, all pulses are considered flow and this value is meaningless.

115.22:n

Point Type 116 - ROC 800 Turbine Meter Run Value Items

ItemData TypeDescriptionT.P:L

TURBINE_MR_VALUES.FLOW_RT_PER_DAY

FLP

Volume flow rate at base condition in mft3/day or km3/day. READ ONLY.

116.0:n

TURBINE_MR_VALUES.ENERGY_RT_PER_DAY

FLP

Energy rate at base conditions in mmBtu/day or GJ/day. READ ONLY.

116.1:n

TURBINE_MR_VALUES.FLOW_RT_PER_HOUR

FLP

Volume flow rate at base conditions in ft3/hour or m3/hour. READ ONLY.

116.2:n

TURBINE_MR_VALUES.ENERGY_RT_PER_HOUR

FLP

Energy rate at base conditions in Btu/hour or MJ/hour. READ ONLY.

116.3:n

TURBINE_MR_VALUES.PRESS_MULTIPLIER


Represents the pressure factor. READ ONLY.

116.4:n

TURBINE_MR_VALUES.TEMP_MULTIPLIER

FLP

Represents the flowing temperature factor. READ ONLY.

116.5:n

TURBINE_MR_VALUES.COMPRESS_MULTIPLIER


Represents the compressibility factor. READ ONLY.

116.6:n

TURBINE_MR_VALUES.ZF1

FLP

Represents the compressibility at upstream flowing conditions. READ ONLY.

116.7:n

TURBINE_MR_VALUES.MULTIPLIER_VALUE

FLP

Represents the product of the pressure multiplier, the temperature multiplier and the compressibility multiplier.

116.8:n

TURBINE_MR_VALUES.PULSES_ACCUMULATED

FLP

Ongoing accumulation of the number of pulses input to this meter run. Not used if uncorrected flow rate is not configured for a pulse input point. READ ONLY.

116.9:n

TURBINE_MR_VALUES.DENSITY

FLP

Represents the density of a fluid at flowing conditions in lbm/ft3 or kg/m3.

READ ONLY.

116.10:n

TURBINE_MR_VALUES.FPWL

FLP

Represents the local gravitational correction for the deadweight tester static pressure standard. READ ONLY.

116.11:n

TURBINE_MR_VALUES.FLOW_TODAY

FLP

Total accumulation of flow for the current contract day in mft3 or km3. READ ONLY.

116.12:n

TURBINE_MR_VALUES.FLOW_YESTERDAY

FLP

Total accumulation of flow for the previous contract day in mft3 or km3.

READ ONLY.

116.13:n

TURBINE_MR_VALUES.FLOW_MONTH

FLP

Total accumulation of flow for the current month in mft3 or km3. READ ONLY.

116.14:n

TURBINE_MR_VALUES.FLOW_PREV_MONTH

FLP

Total accumulation of flow for the previous month in mft3 or km3. READ ONLY.

116.15:n

TURBINE_MR_VALUES.FLOW_ACCUM

FLP

Total accumulation of flow for the meter run in mft3 or km3. The 1,000,000.0 rollover is to ensure that flow accuracy is not lost due to the significant digits of a float data type. READ ONLY.

116.16:n

TURBINE_MR_VALUES.MINUTES_TODAY

FLP

Total accumulation of flowing minutes for the current contract day. READ ONLY.

116.17:n

TURBINE_MR_VALUES.MINUTES_YESTERDAY

FLP

Total accumulation of flowing minutes for the previous contract day. READ ONLY.

116.18:n

TURBINE_MR_VALUES.MINUTES_MONTH

FLP

Total accumulation of flowing minutes for the current month. READ ONLY.

116.19:n

TURBINE_MR_VALUES.MINUTES_PREV_MONTH

FLP

Total accumulation of flowing minutes for the previous month. READ ONLY.

116.20:n

TURBINE_MR_VALUES.MINUTES_ACCUM

FLP

Total accumulation of flowing minutes for the meter run. The 1,000,000.0 rollover is to ensure that flow minutes accuracy is not lost due to the significant digits of a float data type. READ ONLY.

116.21:n

TURBINE_MR_VALUES.ENERGY_TODAY

FLP

Total accumulation of energy for the current contract day in mmBtu or GJ.

READ ONLY.

116.22:n

TURBINE_MR_VALUES.ENERGY_YESTERDAY

FLP

Total accumulation of energy for the previous contract day in mmBtu or GJ.

READ ONLY.

116.23:n

TURBINE_MR_VALUES.ENERGY_MONTH

FLP

Total accumulation of energy for the current month in mmBtu or GJ. READ ONLY.

116.24:n

TURBINE_MR_VALUES.ENERGY_PREV_MONTH

FLP

Total accumulation of energy for the previous month in mmBtu or GJ. READ ONLY.

116.25:n

TURBINE_MR_VALUES.ENERGY_ACCUM

FLP

Total accumulation of energy for the meter run in mmBtu or GJ. The 1,000,000.0 rollover is to ensure that energy accuracy is not lost due to the significant digits of a float data type.

READ ONLY.

116.26:n

TURBINE_MR_VALUES.UNCORRECTED_TODAY

FLP

Total accumulation of uncorrected flow for the current contract day in mft3 or km3. READ ONLY.

116.27:n

TURBINE_MR_VALUES.UNCORRECTED_YESTERDAY

FLP

Total accumulation of uncorrected flow for the previous contract day in mft3 or km3. READ ONLY.

116.28:n

TURBINE_MR_VALUES.UNCORRECTED_MONTH

FLP

Total accumulation of uncorrected flow for the current month in mft3 or km3.

READ ONLY.

116.29:n

TURBINE_MR_VALUES.UNCORRECTED_PREV_MONTH

FLP

Total accumulation of uncorrected flow for the previous month in mft3 or km3.

READ ONLY.

116.30:n

TURBINE_MR_VALUES.UNCORRECTED_ACCUM

FLP

Total accumulation of uncorrected flow for the meter run in mft3 or km3. The 1,000,000.0 rollover is to ensure that uncorrected flow accuracy is not lost due to the significant digits of a float data type. READ ONLY.

116.31:n

Point Type 117 - ROC 800 Modbus Configuration Items

ItemData TypeDescriptionT.P:L

MODBUS_CONFIG.TRANSMISSION_MODE

UINT8

Controls the type of transmission mode desired.

•       0 = RTU Mode

•       1 = ASCII Mode 

117.0:n

MODBUS_CONFIG.BYTE_ORDER

UINT8

Controls which byte is sent out first for floats, short integers, and long integers.

•       0 = LSB first (Associated with little endian processors)

•       1 = MSB first (Associated with big endian processors) 

117.1:n

MODBUS_CONFIG.EVENT_LOG_ENABLE

UINT8

Controls if changes to Modbus registers are logged to the event log or not (Slave mode only).

•       0 = No Logging

•       1 = Log to Event Log 

117.2:n

MODBUS_CONFIG.SLAVE_EXCEPTION_STATUS

UINT8

Contains the error code for the last Modbus message received (Slave mode only).

•       0 = No Error

•       1 = Illegal Function

•       2 = Illegal Data Address

•       3 = Illegal Data Value 

READ ONLY

117.3:n

MODBUS_CONFIG.MASTER_POLL_REQUEST_TRIGGER

UINT8

Controls the initiation of a Modbus master polling sequence (Master mode only).

•       0 = No polling

•       1 = Begin polling with the entry in the Modbus master table indicated by the master starting request number (parameter #5) and continue through the table for the number of master requests (parameter #6). This parameter will be reset by the system when the polling sequence has been completed.

117.4:n

MODBUS_CONFIG.MASTER_STARTING_REQUEST_NUM

UINT16

Contains the request number in the Modbus master table to begin with when the Modbus master poll request trigger (parameter #4) is set (Master mode only).

117.5:n

MODBUS_CONFIG.MASTER_NUM_OF_REQUESTS

UINT16

Contains the total number of Modbus requests to be made when the Modbus master poll request trigger (parameter #4) is set (Master mode only).

117.6:n

MODBUS_CONFIG.MASTER_CONTINUOUS_POLL_ENAB

UINT8

Controls whether the Modbus master poll request sequence specified is executed on a continuous basis (Master mode only).

•       0 = Continuous polling disabled

•       1 = Continuous polling enabled

117.7:n

MODBUS_CONFIG.MASTER_POLL_REQUEST_DELAY

FLP

Contains the delay time in seconds between continuous master poll requests (Continuous poll mode only).

117.8:n

MODBUS_CONFIG.MASTER_ACTIVITY_STATUS

UINT8

Contains the status of the Modbus master transmission (Master mode only).

•       0 = Inactive

•       1 = Transmission in progress

READ ONLY.

117.9:n

MODBUS_CONFIG.LOW_INTEGER_SCALE

INT16

Contains the lower limit value when scaling floating-point data.

117.10:n

MODBUS_CONFIG.HIGH_INTEGER_SCALE

INT16

Contains the upper limit value when scaling floating-point data.

117.11:n

LOW_FLOAT_SCALE_n

FLP

Contains the lower limit in float range n when converting integers to floats and vice-versa.

Where n = 1 - 8

117.P:n

HIGH_FLOAT_SCALE_n

FLP

Contains the upper limit in float range n when converting integers to floats and vice-versa.

Where n = 1 - 8

117.P:n

Point Type 118 - ROC 800 Modbus to TLP Mapping Items

ItemData TypeDescriptionT.P:L

MODBUS_TO_TLP.POINT_TAG_ID

AC

String that describes the instance of the mapping table.

118.0:n

START_REGISTER_n

UINT16

The starting register number for range n of Modbus registers that map to ROC Protocol TLP(s). Where n = 01 - 15

118.P:n

END_REGISTER_n

UINT16

The ending register number for range n of Modbus registers that map to ROC Protocol TLP(s). Where n = 01 - 15

118.P:n

ROC_PARAMETER_n

TLP

The starting ROC Protocol TLP that maps to range n of Modbus registers. Where n = 01 - 15

118.P:n

INDEXING_n

UINT8

Indicates whether multiple registers access consecutive logical numbers or consecutive parameters from the starting TLP. 0 = Logical indexing, 1 = Parameter indexing. Where n = 01 - 15

118.P:n

CONVERSION_CODE_n

UINT8

Contains the conversion code to convert the ROC809 data into a format that is compatible to a Modbus device. Where n = 01 - 15

118.P:n

COMM_PORT_n

UINT8

Communication port range n of registers map to. 

•       0 = LOI

•       1 = Comm Port 1

•       2 = Comm Port 2

•       3 = Comm Port 3

•       4 = Comm Port 4

•       5 = Comm Port 5

•       255 = All Comm Ports

Where n = 01 - 15

118.P:n

Point Type 119 - ROC 800 Modbus Event, Alarm, and History Items

ItemData TypeDescriptionT.P:L

MODBUS_EVENTS.ALARM_REGISTER

UINT16

Contains a unique register number that indicates the request is for Events and Alarm records.

119.0:n

MODBUS_EVENTS.CURRENT_DATE_REG

UINT16

Contains a unique register that allows a Modbus read/write command to access the current date in MMDDYY format

119.1:n

MODBUS_EVENTS.CURRENT_TIME_REG

UINT16

Contains a unique register that allows a Modbus read/write command to access the current time in HHMMSS format.

119.2:n

PERIODIC_HIS_REG_n

UINT16

Contains a unique register number that indicates the request is for periodic values for range n of history points. Where n = 1 - 20

119.P:n

DAILY_HIS_REG_n

UINT16

Contains a unique register number that indicates the request is for daily values for range n of history points. Where n = 1 - 20

119.P:n

HISTORY_SEGMENT_n

UINT8

Contains the history segment for range n. Where n = 1 - 20

119.P:n

START_HISTORY_POINT_n

UINT16

Contains the starting history point number for range n. Where n = 1 - 20

119.P:n

END_HISTORY_POINT_n

UINT16

Contains the ending history point number for range n. Where n = 1 - 20

119.P:n

CONVERSION_CODE_n

UINT8

Contains the conversion code to convert the ROC809 data into a format that is compatible to a Modbus device. Where n = 1 - 20

119.P:n

Point Type 120 - ROC 800 Modbus Master Modem Configuration Items

ItemData TypeDescriptionT.P:L

MODBUS_MODEM.TAG_ID

AC

String that describes the instance of the Master modem table.

120.0:n

RTUn_ADDRESS

UINT8

Associates an RTU address to the Connect Command. Where n = 1 - 6

120.P:n

RTUn_CONNECT_COMMAND

AC

A 30-character modem command typically used to represent the telephone number of the slave RTU.

Where n = 1 - 6

120.P:n

Point Type 122 - ROC 800 DS800 Items

ItemData TypeDescriptionT.P:L

DS800_CONFIG.POWER_SWITCH

UINT8

Turns DS800 on and off

•       0 – OFF

•       1 - ON

122.0:n

DS800_CONFIG.RSI_ENABLE

UINT8

Enables/Disables the DS800 serial task.

Changes to this parameter take affect when DS800 is stopped and started again.

•       0 – Disable

•       1 - Enable

122.1:n

DS800_CONFIG.ETCP_ENABLE

UINT8

Enables/Disables the DS800 TCP/IP task.

Changes to this parameter take affect when DS800 is stopped and started again.

•       0 – Disable

•       1 - Enable

122.2:n

DS800_CONFIG.IXD_ENABLE

UINT8

Enables/Disables the DS800 IXD task.

Changes to this parameter take affect when DS800 is stopped and started again.

•       0 - Disable

•       1 - Enable

122.3:n

DS800_CONFIG.RSI_RUNNING

UINT8

Indicates whether the DS800 serial task is currently running. READ ONLY.

•       0 - Not running.

•       1 - Running.

122.4:n

DS800_CONFIG.ETCP_RUNNING

UINT8

Indicates whether the DS800 TCP/IP task is currently running. READ ONLY.

•       0 - Not running.

•       1 - Running.

122.5:n

DS800_CONFIG.IXD_RUNNING

UINT8

Indicates whether or not the DS800 IXD task is currently running. READ ONLY.

•       0 - Not running.

•       1 - Running.

122.6:n

Point Type 124 - ROC 800 History Segment Configuration Items

ItemData TypeDescriptionT.P:L

INTERNET.SEGMENT_DESCRIPTION

AC

Identifies what the segment of history is used for. For logical points 1 – 10, “XX” is the ordered number of the history type.

124.0:n

INTERNET.SEGMENT_SIZE

UINT16

Specifies how many history points are in the history segment. Parameter is R/O for Logic 0. Parameter cannot be modified from an FST. This value cannot be cannot be set less than Number of Configured Points. READ ONLY.

124.1:n

INTERNET.MAX_SEGMENT_SIZE

UINT16

Specifies the maximum number of history points that may be configured for the history segment. READ ONLY.

124.2:n

INTERNET.PERIODIC_ENTRIES

UINT16

Number of periodic entries per history point in the history segment. Actual upper range is limited by available free space.

124.3:n

INTERNET.DAILY_ENTRIES

UINT16

Number of daily entries per history point in the history segment.

124.4:n

INTERNET.PERIODIC_INDEX

UINT16

Location in each history point for the segment where the next periodic entry will be saved. READ ONLY.

124.5:n

INTERNET.DAILY_INDEX

UINT16

Location in each history point for the segment where the next daily entry will be saved. READ ONLY.

124.6:n

INTERNET.PERIODIC_SAMPLE_RATE

UINT8

The number of minute intervals that pass before an entry is made in the periodic history. The periodic sample rate for meter run history can only be set to the same value as the integral multiplier period for the meter run, or 60. 

124.7:n

INTERNET.CONTRACT_HOUR

UINT8

Hour that indicates the beginning of a new day.

124.8:n

INTERNET.LOG_SWITCH

UINT8

Switch that controls history logging for the history segment. Logging is suspended while the switch is off.

•       0 – OFF

•       1 – ON

124.9:n

INTERNET.FREE_SPACE

UINT32

Specifies the number of history entries that are unaccounted for and may be added to history points in various segments. This value applies to all history segments. READ ONLY.

124.10:n

INTERNET.FORCE_END_OF_DAY

UINT8

Allows the user to force an end of day for the history segment. 

•       0 = No Force

•       1 = Force End of Day

124.11:n

INTERNET.NUMBER_OF_CONFIGURED_ POINTS

UINT16

Number of history points that are configured in the segment. READ ONLY.

124.12:n

Point Types 125 to 135 - ROC 800 History Segment 0 to 10 Point Configuration Items

ItemData TypeDescriptionT.P:L

HISTORY_CONFIG_n.POINT_TAG_ID

AC

Same value as the Point Tag of the Point Type the History Log Point resides in. Where n = 1 – 10. READ ONLY.

T.P:n

HISTORY_CONFIG_n.PARAMETER_DESCRIPTION

AC

User supplied text string used to identify the parameter being logged in the history point. Where n = 1 - 10

T.P:n

HISTORY_CONFIG_n.HISTORY_LOG_POINT

TLP

TLP points to a value to be archived by history. Where n = 1 – 10

T.P:n

HISTORY_CONFIG_n.ARCHIVE_TYPE

UINT8

This parameter defines how a data point is archived to history. Where n = 1 – 10

•             0 – None (History point not defined)

•             65 – FST Data History

•             67 – FST Time

•             128 – Average

•             129 – Accumulate

•             130 – Current Value

•             134 – Totalize

T.P:n

HISTORY_CONFIG_n.AVERAGING_TYPE

UINT8

This field is used in conjunction with the Archive Type parameter to further define how history data is archived. This parameter defines the rate of accumulation of the averaging technique. Where n = 1 - 10 

Accumulation Rate (Archive Type = 129):

  • 10 – Per Second
  • 11 – Per Minute 

 T.P:n

HISTORY_CONFIG_n.CURRENT_VALUE

FLP

Current value of parameter being logged. Where n = 1 – READ ONLY.

T.P:n

HISTORY_CONFIG_n.LAST_DAILY_VALUE

FLP

Value logged to the daily archive at the last contract hour. Where n = 1 – 10

READ ONLY.

T.P:n

Point Type 136 - ROC 800 ROC Clock Items

ItemData TypeDescriptionT.P:L

CLOCK.SECOND  

UINT8

The seconds. READ ONLY.

136.0:n

CLOCK.MINUTE  

UINT8

The minutes. READ ONLY.

136.1:n

CLOCK.HOUR  

UINT8

The hours. READ ONLY.

136.2:n

CLOCK.DAY  

UINT8

The day. READ ONLY.

136.3:n

CLOCK.MONTH  

UINT8

The month. READ ONLY.

136.4:n

CLOCK.YEAR  

UINT16

The year. READ ONLY.

136.5:n

CLOCK.DAY_OF_WEEK  

UINT8

The day of the week. READ ONLY.

  • 1 = Sunday
  • 2 = Monday
  • 3 = Tuesday
  • 4 = Wednesday
  • 5 = Thursday
  • 6 = Friday
  • 7 = Saturday

136.6:n

CLOCK.DATE_TIME_2  

JULIANDA TE

Number of seconds elapsed since 12:00 a.m. Jan. 1, 1970. READ ONLY.

136.7:n

CLOCK.DAYLIGHT_SAVINGS  

UINT8

Indicates if daylight savings time is enabled.

•            0 = Disabled

•            1 = Enabled

136.8:n

Point Type 137 - ROC 800 Internet Configuration Items

ItemData TypeDescriptionT.P:L

INTERNET.MAC_ADDRESS

AC

Unique MAC address set by the factory. READ ONLY.

137.0:n

INTERNET.IP_ADDRESS

AC

  

137.1:n

INTERNET.SUBNET_MASK

AC

  

137.2:n

INTERNET.GATEWAY_ADDRESS

AC

  

137.3:n

Extended Items

ItemData TypeDescription

GCWrite/Txn

Variant Array

Used for automated gas quality download. 

LastAlarmRecord/n

Date

Timestamp of the last alarm record retrieved from meter number 'n'.  

LastDailyRecord/n

Date

Timestamp of the last daily record retrieved from meter number 'n'.  

LastEventRecord/n

Date

Timestamp of the last event record retrieved from meter number 'n'.  

LastHourlyRecord/n

Date

Timestamp of the last hourly record retrieved from meter number 'n'.  

LastTimeSync

Date

Timestamp of the last time synchronization attempt.  

LastTimeSyncResult

I4

Result of the last time synchronization attempt. 

MoveDaily

I2

Move the daily history retrieval pointer for meter run 1. Write a positive number to move the pointer back in time, a negative number to move the pointer forward in time. The written value represents the number of days to move. 

MoveHourly

I2

Move the hourly history retrieval pointer for meter run 1. Write a positive number to move the pointer back in time, a negative number to move the pointer forward in time. The written value represents the number of hours to move. 

Reinitialize

I2

Re-read the ROC configuration

ResetAlarm

BOOL

Erase the Alarm history retrieval pointer for meter 1 (and recollect all Alarm history during the next retrieval). 

ResetDaily

BOOL

Erase the daily history retrieval pointer for meter 1 (and recollect all daily history during the next retrieval). 

ResetEvent

BOOL

Erase the event history retrieval pointer for meter 1 (and recollect all event history during the next retrieval). 

ResetHourly

BOOL

Erase the hourly history retrieval pointer for meter 1 (and recollect all hourly history during the next retrieval). 

RetrieveHistory

I2

Retrieve enabled history.

RetrieveMeterConfiguration

I2

Retrieve enabled Meter Configuration.

SkipDaily

I2

Skip enabled history

SkipHourly

I2

Skip enabled history

TimeSync

I2

Perform time synchronization.

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