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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 | Valore di campo superiore - Definisce il punto finale operativo da cui deriva il valore analogico e il punto 100% del campo percentuale. Inoltre, il valore di campo superiore definisce un punto finale operativo da cui derivano gli allarmi associati al valore analogico e gli allarmi associati alla rappresentazione del valore digitale. | R/W | Float | 32 |
lowerRange_value | 00EB | PV LRV | Valore di campo inferiore - Definisce il punto finale operativo da cui si ricava il valore analogico e il punto 0% del campo percentuale. Inoltre, il valore di campo inferiore definisce un punto finale operativo da cui derivano gli allarmi associati al valore analogico e gli allarmi associati alla rappresentazione del valore digitale. | 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 | Valore limite sensore superiore - Definisce il valore massimo utilizzabile per il valore di campo superiore. | R | Float | 8 |
pv_LSL | 40D0 | PV LSL | Valore limite sensore superiore - Definisce il valore massimo utilizzabile per il valore di campo superiore. | R | Float | 8 |
pv_Min_Span | 40D1 | Minimum Span | Valore intervallo minimo - Definisce la differenza più piccola consentita tra il valore di campo superiore e il valore di campo inferiore. | R | Float | 8 |
pv_Damp | 40D2 | Damping | Valore di smorzamento - Costante di tempo di smorzamento applicata sia alla rappresentazione del valore digitale che al valore analogico della rispettiva uscita analogica. Le unità di questa variabile sono sempre in secondi. | R/W | Float | 8 |
pv_SSN | 400E | Snsr s/n | Numero di serie sensore - Identifica in modo univoco il sensore da cui deriva principalmente la rappresentazione del valore digitale o la variabile dispositivo di campo. | R/W | Unsigned | 2048 |
analog_value | 4033 | Output Current | Valore uscita analogica - Valore che traccia la rappresentazione del valore digitale, sotto le modalità operative normali | 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 | Funzione trasferimento - Definisce la funzione di trasformazione che sarà applicata dalla variabile del dispositivo di campo all’uscita analogica e al campo percentuale. La funzione di trasferimento non influisce sulla rappresentazione del valore digitale. | R/W | Enum | 32 |
percent_range | 40D4 | PV % rnge | Percentuale di campo - Variabile che traccia la rappresentazione del valore digitale rispetto al campo definito dal valore di campo inferiore e dal valore di campo superiore, per le modalità operative normali. Le unità di questa variabile sono sempre in percentuale. | 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 |