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Name | ID | Label | Description | Type | Access | Class |
---|---|---|---|---|---|---|
deviceID | 4009 | Device ID | R | Enum | 4096 | |
xmtr_specific_status_id | 40BA | Highest priority alarm | Highest priority alarm | R | BitEnum | 2048 |
xmtr_specific_status_classification | 40BB | Highest priority alarm - classification | Highest priority alarm - classification | R | BitEnum | 2048 |
xmtr_specific_status_group | 40BC | Highest priority alarm - group | Highest priority alarm - group | R | BitEnum | 2048 |
upperRange_value | 00EA | PV URV | Upper Range Value- Defines the operational endpoint from which the Analog Value, and the 100% point of the Percent Range are derived. In addition, the Upper Range Value defines an operational endpoint which the alarms associated with the Analog Value, and the alarms associated with the Digital Value representation are derived. | R/W | Float | 32 |
lowerRange_value | 00EB | PV LRV | Lower Range Value- Defines the operational endpoint from which the Analog Value, and the 0% point of the Percent Range are derived. In addition, the Lower Range Value defines an operational endpoint which the alarms associated with the Analog Value, and the alarms associated with the Digital Value representation are derived. | R/W | Float | 32 |
pv_Value | 402F | PV | R | Float | 10 | |
pv_Units | 40CE | PV Snsr unit | Field Device Variable Unit- Engineering unit to be displayed with the Digital Value representation, Minimum Span, Upper Range Value, Lower Range Value, Lower Sensor Limit, and Upper Sensor Limit | R/W | Enum | 8 |
pv_USL | 40CF | PV URV | Upper Sensor Limit Value- Defines the maximum usable value for the Upper Range Value. | R | Float | 8 |
pv_LSL | 40D0 | PV LSL | Upper Sensor Limit Value- Defines the maximum usable value for the Upper Range Value. | R | Float | 8 |
pv_Min_Span | 40D1 | Minimum Span | Minimum Span Value- Defines the smallest allowable difference between the Upper Range Value and the Lower Range Value. | R | Float | 8 |
pv_Damp | 40D2 | Damping | Damping Value- Damping time constant applied to both the Digital Value representation and Analog Value of the respective Analog Output. The units of this variable are always in seconds. | R/W | Float | 8 |
pv_SSN | 400E | Snsr s/n | Sensor Serial Number- Uniquely identifies the sensor from which the Digital Value representation or Field Device variable is primarily derived. | R/W | Unsigned | 2048 |
analog_value | 4033 | Output Current | Analog Output Value- Value that tracks the Digital Value representation, under normal operating modes | R/W | Float | 66 |
alarmSelection | 40D3 | AO Alrm typ | Linearity determines the transfer function applied from the process variable to the analog output and its digital representation. Linearity could be set to Linear or Function-generator. | R/W | Enum | 64 |
transfer_function | 1F84 | Linearity | Transfer Function- Defines the transformation function that will be applied from the Field Device Variable to the Analog Output, and Percent Range. The Transfer Function does not affect the Digital Value representation. | R/W | Enum | 32 |
percent_range | 40D4 | PV % rnge | Percent of Range- Variable that tracks the Digital Value representation with respect to the range defined by the Lower Range Value and Upper Range Value, for normal operating modes. The units of this variable are always in percent. | R | Float | 34 |
sv_Value | 4030 | Temperature (SV) | Secondary variable temperature | R | Float | 10 |
sv_Units | 401F | Temp. (SV) unit | Secondary variable temperature engineering units | R/W | Enum | 8 |
tv_Value | 4032 | Reference Impedance (TV) | Tertiary variable sensor reference impedance value. | R | Float | 10 |
tv_Units | 40D5 | Ref.Impd.(TV) unit | Tertiary variable reference impedance engineering units | R | Enum | 8 |
qv_Value | 4031 | Sensor Input (QV) | Quaternary variable sensor input | R | Float | 10 |
qv_Units | 40D6 | Sensor Input (QV) unit | Quaternary variable sensor input engineering units | R | Enum | 8 |
var_analyzerType | 400F | Analyzer type | Primary Value type selection | R/W | Enum | 8 |
var_phSensor | 4016 | pH sensor type | Type of pH sensor. Valid for primary value type = pH | R/W | Enum | 8 |
var_refImpedanceLimit | 401E | Ref. Impedance Limit | The Reference Electrode Impedance that triggers a diagnostic condition. | R/W | Float | 8 |
var_isopotentialPt | 4017 | Isopotential point | The Isopotential Point is the potential of the sensor that is not affected by sample fluid temperature changes. When the PH_SENSOR_TYPE is Glass or Antimony, the Isopotential Point is READ_ONLY. Isopotential Point can be modified only for a Custom pH Sensor Type. Valid for primary value type = pH | R/W | Float | 8 |
var_asymmetricPot | 4018 | Asymmetric Poten. | The Asymmetric Potential value is the electrical potential across the measuring and reference half-cell of the sensor at the isopotential point. When PH_SENSOR_TYPE is Glass or Antimony, Asymmetric Potential is READ_ONLY. Asymmetric Potential can be modified only for Custom pH sensor type. Valid for primary value type = pH | R/W | Float | 8 |
var_sensorDiag | 401D | Sensor diag. | Sensor Diagnostics selection determines whether certain sensor diagnostics are enabled or disabled | R/W | Enum | 8 |
var_valence | 4019 | Valence | Ion valence ranging from -3 to +3. The valence determines the millivolt change per decade of concentration. Valid for primary value type = Ion Concentration | R/W | Enum | 8 |
var_magnitudes | 401A | Magnitudes | The number of magnitudes that defines the transmitter output. Valid for primary value type = Ion Concentration | R/W | Enum | 8 |
var_endMag | 401B | End Magnitude | End point magnitude that can be set to 10, 100 or 1000. Valid for primary value type = Ion Concentration | R/W | Enum | 8 |
var_endMv | 401C | End mV | End millivolt value associated with the end magnitude value. Valid for primary value type = Ion Concentration | R/W | Integer | 8 |
var_tempSensorType | 4024 | Temp sensor type | Temperature sensor type | R | Enum | 8 |
var_tempARStatus | 4026 | TC Recognition Status | Temp sensor recognition status. Device scans for TC at power up, when TC type is switched from MANUAL to AUTOMATIC, and when TC recognition is run through the appropriate menu. | R | Enum | 8 |
tempCompType | 4020 | Temp compensation | Determines the type of Temperature Compensation algorithm applied to the Primary Value | R/W | Enum | 8 |
var_manualTemp | 4021 | Manual Temp Setpoint. | Manual Temperature Compensation Value - is used in Nernstian temp. comp. when the Temp Comp selection is Manual | R/W | Float | 8 |
var_pHSolnCoeff | 4022 | pH solution coeff | The solution coefficient is in terms of pH units per 10 deg-C for the pH analyzer state and has a range of +/- 10 pH units per 10 deg-C. The solution coeff is used only when Auto-Solution temp comp is selected. | R/W | Float | 8 |
var_mVSolnCoeff | 4023 | mV solution coeff | The solution coefficient is in terms of millivolts per 10 deg-C for the ORP, pION and ion-conc states and has a range of +/-20 mV per 10 deg-C. The solution coeff is used only when Auto-Solution temp comp is selected. | R/W | Float | 8 |
info_text1 | 4107 | Enter all the transfer function points and then send the curve to the device | Information indicating not to transmit individual curve points one at a time to the device | R | ASCII | 4096 |
var_funcGenTableX1 | 40BE | Function-gen x1 | Function-generator curve x1 value (input value point 1 entered as a percentage of Primary value range). Valid only when Linearity is Function generator | R/W | Float | 8 |
var_funcGenTableX2 | 40BF | Function-gen x2 | Function-generator curve x2 value (input value point 2 entered as a percentage of Primary value range). Valid only when Linearity is Function generator | R/W | Float | 8 |
var_funcGenTableX3 | 40C0 | Function-gen x3 | Function-generator curve x3 value (input value point 3 entered as a percentage of Primary value range). Valid only when Linearity is Function generator | R/W | Float | 8 |
var_funcGenTableX4 | 40C1 | Function-gen x4 | Function-generator curve x4 value (input value point 4 entered as a percentage of Primary value range). Valid only when Linearity is Function generator | R/W | Float | 8 |
var_funcGenTableX5 | 40C2 | Function-gen x5 | Function-generator curve x5 value (input value point 5 entered as a percentage of Primary value range). Valid only when Linearity is Function generator | R/W | Float | 8 |
var_funcGenTableY1 | 40C3 | Function-gen y1 | Function-generator curve y1 value (Analog output value point 1 entered as a percentage of Analog Output). Valid only when Linearity is Function generator | R/W | Float | 8 |
var_funcGenTableY2 | 40C4 | Function-gen y2 | Function-generator curve y2 value (Analog output value point 2 entered as a percentage of Analog Output). Valid only when Linearity is Function generator | R/W | Float | 8 |
var_funcGenTableY3 | 40C5 | Function-gen y3 | Function-generator curve y3 value (Analog output value point 3 entered as a percentage of Analog Output). Valid only when Linearity is Function generator | R/W | Float | 8 |
var_funcGenTableY4 | 40C6 | Function-gen y4 | Function-generator curve y4 value (Analog output value point 4 entered as a percentage of Analog Output). Valid only when Linearity is Function generator | R/W | Float | 8 |
var_funcGenTableY5 | 40C7 | Function-gen y5 | Function-generator curve y5 value (Analog output value point 5 entered as a percentage of Analog Output). Valid only when Linearity is Function generator | R/W | Float | 8 |
Name | ID | Label | Description | Type | Access | Class |