ABB PROFIBUS FEX100-DP User Manual Download

Page: 53 / 68

WaterMaster

Electromagnetic flowmeter

2 Parameter Tables

IM/WMPBST–EN Rev. B

34 / 18

MAIN_OPERATOR_VIEW_3_DISPLAY_MODE

Local display Operator Page 3 mode.

0: Off
5: 1 x 6
6: 1 x 6 + Bargraph
7: 1 x 9
8: 1 x 9 + Bargraph
9: 2 x 9
10: 2 x 9 + Bargraph
11: 3 x 9

Unsigned 8

r,w / C / a

Off

35 / 19

MAIN_OPERATOR_VIEW_3_1

Local display Operator Page 3 1

line.

0: Volume Flowrate
1: Q%
3: Velocity
4: Volume Forward
5: Volume Reverse
6: Volume Net
14: Display Value

Unsigned 8

r,w / C / a

Volume Flowrate

36 / 20

MAIN_OPERATOR_VIEW_3_2

Local display Operator Page 3 2

line.

0: Volume Flowrate
1: Q%
3: Velocity
4: Volume Forward
5: Volume Reverse
6: Volume Net
14: Display Value

Unsigned 8

r,w / C / a

Volume Flowrate

37 / 21

MAIN_OPERATOR_VIEW_3_3

Local display Operator Page 3 3

line.

0: Volume Flowrate
1: Q%
3: Velocity
4: Volume Forward
5: Volume Reverse
6: Volume Net
14: Display Value

Unsigned 8

r,w / C / a

Volume Flowrate

Abs. Idx /

Rel. Idx

Variable Name / Brief Description

Data Type

Size

Store

Access /

Usage /

Transport

Default

Table 2.13 Slot 11 – Transducer Block 4 – Display (Continued)

Summary of Contents for PROFIBUS FEX100-DP

Page 1: ... ABB MEASUREMENT ANALY TICS USER GUIDE SUPPLEMENT IM WMPBST EN REV B WaterMaster Electromagnetic flowmeter PROFIBUS FEX100 DP Parameter Tables Measurement made easy WaterMaster electromagnetic flowmeter ...

Page 2: ...his code Search for or click on Data Sheet WaterMaster Electromagnetic flowmeter DS WM EN User Guide WaterMaster Electromagnetic flowmeter IM WM Programming Guide WaterMaster Electromagnetic flowmeter IM WMP User Guide Supplement PROFIBUS RS485 Physical Layer FEX100 DP WaterMaster Electromagnetic flowmeter IM WMPBS EN Setup Guide VeriMaster Software tools IM WM VM ...

Page 3: ...t 3 Internal Volume Reverse Totalizer 22 2 7 Slot 6 Analog Input 4 Diagnostic Signal 25 2 8 Slot 7 Analog Output 1 Display Value 28 2 9 Slot 8 Transducer Block 1 Flow 31 2 10 Slot 9 Transducer Block 2 Device Info 39 2 11 Slot 10 Transducer Block 3 Special Function 44 2 12 Slot 11 Transducer Block 4 Display 48 2 13 Slot 12 Transducer Block 5 Diagnostics 53 Appendix A PROFIBUS PA Block Structure Dia...

Page 4: ...S User Organisation www profibus com TB PROFIBUS PA Transducer Block TOT Totalizer Function Block Table 1 1 Acronyms and Abbreviations Legend Description Abs Idx Rel Idx Relative index of parameters within the block and the absolute index of the parameters within the slot In accordance with the PROFIBUS PA Profile all blocks start on absolute index 16 with the BLOCK_OBJECT structure parameter Data...

Page 5: ...The input parameters are used by the algorithm in conjunction with the state of the Function Block application containing the block to determine if the algorithm can achieve the target mode of operation established for it See parameter MODE_BLK Permitted element for possible values Unsigned 8 1 S r w C a Auto 22 6 MODE_BLK The MODE_BLK is a structured parameter composed of the actual mode the norm...

Page 6: ...for Diagnostic information bytes OctetString 4 Cst r C a 0 32 16 DIAGNOSIS_MASK_EXTENSION Mask for Extended Diagnostic information bytes OctetString 6 Cst r C a 0xFE 0xBF 0x67 0x FF 0xBD 0x01 33 17 DEVICE_CERTIFICATION Available certifications for the device VisibleString 32 Cst r C a 34 18 WRITE_LOCKING Software write locking for the PROFIBUS interface 0 Write Locking Enabled 2457 Write Locking D...

Page 7: ...ite Protection Disabled 2 HW Write Protection Enabled Unsigned 8 1 D r C a HW Write Protection Disabled 42 26 FEATURE Feature information for the device OctetString 8 N r C a 0 43 27 COND_STATUS_DIAG Enables disables condensed diagnosis 0 Condensed Diagnosis Disabled 1 Condensed Diagnosis Enabled Unsigned 8 1 S r w C a Condensed Diagnosis Enabled 44 28 PI RESERVED Parameter reserved for future use...

Page 8: ...isplay overrun 1600hrs 12 Totalizer reset 13 Intermittent sensor comms 15 Tx memory fault detected 16 Sensor memory not detected 17 Tx measurement suspended 18 Empty pipe 21 Open circuit electrode 22 Short circuit electrode 24 Installation fault condition 25 Open circuit coil wiring 26 Short circuit coil wiring 27 Check cable coil resistance 28 Transmitter hardware fault 29 Bad flow data 30 Accura...

Page 9: ... 28 Accuracy warning 29 OIML self check limits exceeded 30 Measurement starting 32 Sensor setup not complete 33 Incompatible sensor 34 Tx code memory fault 35 Tx data memory fault 37 Non volatile summary alarm Unsigned 8 1 D r w C a Off 57 41 CLEAR_ALARM_HISTORY Clears the alarm history in the device Unsigned 8 1 S r w C a 58 42 MASK_MAINTENANCE_REQUIRED Mask for the Maintenance group alarms 0 Dis...

Page 10: ...IT_MIN_ALARM Flowrate for min flow alarm Min 0 Max 130 Unit Float 4 S r w C a 0 67 51 FLOWRATE_LIMIT_MAX_ALARM Flowrate for max flow alarm Min 0 Max 130 Unit Float 4 S r w C a 110 68 52 DATA_EXCHANGE_ACTIVE Flag set when the device is cyclically exchanging data with a master 0 Inactive 1 Active Unsigned 8 1 D r C a Inactive Abs Idx Rel Idx Variable Name Brief Description Data Type Size Store Acces...

Page 11: ...terface application The input parameters are used by the algorithm in conjunction with the state of the Function Block application containing the block to determine if the algorithm can achieve the target mode of operation established for it See parameter MODE_BLK Permitted element for possible values Unsigned 8 1 S r w C a Auto 22 6 MODE_BLK The MODE_BLK is a structured parameter composed of the ...

Page 12: ...ype not used fixed to NO_LINEARISATION 0 No Linearization Unsigned 8 1 S r w C a No Linearization 30 14 CHANNEL Reference to the active Transducer Block that provides the measurement value to the Function Block 0x0111 TB1 VOLUME_FLOW Unsigned 16 2 S r w C a TB1 VOLUME_FLO W 31 15 UNUSED Unused parameter 32 16 PV_FTIME Filter time of the Process Variable The Function Block parameter PV_FTIME contai...

Page 13: ...the upper limit value the State Bits in the Status Byte of OUT and in the FB parameter ALARM_SUM are set to 1 Float 4 S r w C a 40 24 UNUSED Unused parameter 41 25 LO_LIM Lower limit value for alarms with the same engineering unit as that of the OUT parameter If the measured variable is equal to or lower than the lower limit value the State Bits in the Status Byte of OUT and in the FB parameter AL...

Page 14: ...d time stamp The time stamp expresses the time at which the measured variable has been equal to or lower than the lower limit of the alarm DS 39 16 D r C a 50 34 SIMULATE For commissioning and test purposes the input value from the Transducer Block to the block can be simulated Note that the Transducer block is disconnected from the block when the SIMULATE parameter is in use DS 50 6 S r w C a 51 ...

Page 15: ...blished for it See parameter MODE_BLK Permitted element for possible values Unsigned 8 1 S r w C a Auto 22 6 MODE_BLK The MODE_BLK is a structured parameter composed of the actual mode the normal mode and the permitted mode of the block The actual mode is set calculated by the block during its execution to reflect the mode used during execution Normal mode is the required operating mode of the blo...

Page 16: ...B algorithm The value is assigned using the SET_TOT parameter Float 4 S r w C a 0 33 17 ALARM_HYS Hysteresis value applied to block parameters HI_HI_LIM HI_LIM LO_LIM and LO_LO_LIM The hysteresis is expressed as value below high limit and above low limit in the engineering unit of xx_LIM Float 4 S r w C a 34 18 HI_HI_LIM Upper limit value for alarms with the same engineering unit as that of the OU...

Page 17: ...er than the upper limit of the alarm DS 39 16 D r C a 40 24 LO_ALM The state of the lower limit of an alarm and the related time stamp The time stamp expresses the time at which the measured variable has been equal to or lower than the lower limit of the alarm DS 39 16 D r C a 41 25 LO_LO_ALM The state of the lower limit of an alarm and the related time stamp The time stamp expresses the time at w...

Page 18: ...n established for it See parameter MODE_BLK Permitted element for possible values Unsigned 8 1 S r w C a Auto 22 6 MODE_BLK The MODE_BLK is a structured parameter composed of the actual mode the normal mode and the permitted mode of the block The actual mode is set calculated by the block during its execution to reflect the mode used during execution Normal mode is the required operating mode of t...

Page 19: ...B algorithm The value is assigned using the SET_TOT parameter Float 4 S r w C a 0 33 17 ALARM_HYS Hysteresis value applied to block parameters HI_HI_LIM HI_LIM LO_LIM and LO_LO_LIM The hysteresis is expressed as value below high limit and above low limit in the engineering unit of xx_LIM Float 4 S r w C a 34 18 HI_HI_LIM Upper limit value for alarms with the same engineering unit as that of the OU...

Page 20: ...er than the upper limit of the alarm DS 39 16 D r C a 40 24 LO_ALM The state of the lower limit of an alarm and the related time stamp The time stamp expresses the time at which the measured variable has been equal to or lower than the lower limit of the alarm DS 39 16 D r C a 41 25 LO_LO_ALM The state of the lower limit of an alarm and the related time stamp The time stamp expresses the time at w...

Page 21: ... actual mode the normal mode and the permitted mode of the block The actual mode is set calculated by the block during its execution to reflect the mode used during execution The normal mode is the required operating mode of the block The permitted mode shows which changes of the target mode are valid for the specific block to the remote user of the MODE_BLK parameter 8 Auto 16 Manual 128 Out Of S...

Page 22: ...stUsableValue If there is no valid value available the status is set to UNCERTAINInital_Value and the OUT value is set to its initial value In the mode Out Status Bad OUT has the wrong calculated value and status is set to BAD_ with as calculated 0 Fsafe Value 1 Last Stored 2 Out Status Bad Unsigned 8 1 S r w C a Last Stored 34 18 FSAFE_VALUE Default value for the OUT parameter if a sensor or sens...

Page 23: ...d time stamp The time stamp expresses the time the measured variable has been equal or higher than the upper limit of the alarm DS 39 16 D r C a 48 32 LO_ALM The state of the lower limit of an alarm and the related time stamp The time stamp expresses the time at which the measured variable has been equal to or lower than the lower limit of the alarm DS 39 16 D r C a 49 33 LO_LO_ALM The state of th...

Page 24: ...he actual mode the normal mode and the permitted mode of the block The actual mode is set calculated by the block during its execution to reflect the mode used during execution Normal mode is the required operating mode of the block The permitted mode shows which changes of the target mode are valid for the specific block to the remote user of the MODE_BLK parameter 8 Auto 16 Manual 128 Out Of Ser...

Page 25: ...tUsableValue If there is no valid value available the status is set to UNCERTAINInital_Value and the OUT value is set to its initial value In the mode Out Status Bad OUT has the wrong calculated value and status is set to BAD_ with as calculated 0 Fsafe Value 1 Last Stored 2 Out Status Bad Unsigned 8 1 S r w C a Last Stored 34 18 FSAFE_VALUE Default value for the OUT parameter if a sensor or senso...

Page 26: ...d time stamp The time stamp expresses the time the measured variable has been equal or higher than the upper limit of the alarm DS 39 16 D r C a 48 32 LO_ALM The state of the lower limit of an alarm and the related time stamp The time stamp expresses the time at which the measured variable has been equal to or lower than the lower limit of the alarm DS 39 16 D r C a 49 33 LO_LO_ALM The state of th...

Page 27: ...he actual mode the normal mode and the permitted mode of the block The actual mode is set calculated by the block during its execution to reflect the mode used during execution Normal mode is the required operating mode of the block The permitted mode shows which changes of the target mode are valid for the specific block to the remote user of the MODE_BLK parameter 8 Auto 16 Manual 128 Out Of Ser...

Page 28: ...lated ACTUAL MODE remains in AUTO For mode FSafe Value the block parameter FSAFE_VALUE is used as OUT and the status is set to UNCERTAIN_Substitute Value In mode Last Stored the last stored valid OUT value is used as OUT and the status is set to UNCERTAIN_LastUsableValue If there is no valid value available the status is set to UNCERTAINInital_Value and the OUT value is set to its initial value In...

Page 29: ...able has been equal or higher than the upper limit of the alarm DS 39 16 D r C a 47 31 HI_ALM The state of the upper limit of an alarm and the related time stamp The time stamp expresses the time the measured variable has been equal or higher than the upper limit of the alarm DS 39 16 D r C a 48 32 LO_ALM The state of the lower limit of an alarm and the related time stamp The time stamp expresses ...

Page 30: ... structured parameter composed of the actual mode the normal mode and the permitted mode of the block The actual mode is set calculated by the block during its execution to reflect the mode used during execution Normal mode is the required operating mode of the block The permitted mode shows which changes of the target mode are valid for the specific block to the remote user of the MODE_BLK parame...

Page 31: ... w C a 40 24 FSAFE_TYPE Defines the reaction of the device if a failure of the actual used set point is still detected after FSAFE_TIME or if the status of actual used set point is Initiate Fail Safe In mode FSafe Value the value of parameter FSAFE_VALUE is used as the set point value and the status of OUT is set to UNCERTAIN Substitute Value In mode Use Last Valid Set Point the last value of SP w...

Page 32: ... READBACK by defining the value and the status The Transducer Block and the AO FB are disconnected when the SIMULATE parameter is in use DS 50 6 S r w C a 52 36 INCREASE_CLOSE Direction of positioner in mode RCas and Auto Unsigned 8 1 S r w C a 53 37 OUT The process variable of the analog output block in engineering units in AUTO and RCas mode and is the value specified by the operator engineer in...

Page 33: ...of the Function Block application containing the block to determine if the algorithm can achieve the target mode of operation established for it See parameter MODE_BLK Permitted element for possible values Unsigned 8 1 S r w C a Auto 22 6 MODE_BLK The MODE_BLK is a structured parameter composed of the actual mode the normal mode and the permitted mode of the block The actual mode is set calculated...

Page 34: ...rimary system variable Unit TB1 VOLUME_FLOW_UNITS 101 5 D r O a 0 34 18 VOLUME_FLOW_UNITS Volume flow units in use 1347 m3 s 1348 m3 min 1349 m3 h 1350 m3 d 1351 l s 1352 l min 1353 l h 1355 Ml d 1356 ft3 s 1357 ft3 min 1358 ft3 h 1359 ft3 d 1362 ugal s 1363 ugal min 1364 ugal h 1365 ugal d 1454 kugal min 1366 Mugal d 1367 igal s 1368 igal min 1369 igal h 1370 igal d 1371 bbl s 1372 bbl min 1373 b...

Page 35: ...T unused by WaterMaster 45 29 UNUSED Parameter TEMPERATURE unused by WaterMaster 46 30 UNUSED Parameter TEMPERATURE_UNITS unused by WaterMaster 47 31 UNUSED Parameter TEMPERATURE_LO_LIMIT unused by WaterMaster 48 32 UNUSED Parameter TEMPERATURE_HI_LIMIT unused by WaterMaster 49 33 UNUSED Parameter VORTEX_FREQ unused by WaterMaster 50 34 UNUSED Parameter VORTEX_FREQ_UNITS unused by WaterMaster 51 3...

Page 36: ... 63 47 PI RESERVED Unused parameter 64 48 PI RESERVED Unused parameter 65 49 PI RESERVED Unused parameter 66 50 PI RESERVED Unused parameter 67 51 PI RESERVED Unused parameter 68 52 PI RESERVED Unused parameter 69 53 UNUSED Unused parameter 70 54 UNUSED Unused parameter 71 55 UNUSED Unused parameter 72 56 UNUSED Unused parameter 73 57 UNUSED Unused parameter 74 58 UNUSED Unused parameter 75 59 UNU...

Page 37: ...eter 86 70 UNUSED Unused parameter 87 71 UNUSED Unused parameter 88 72 UNUSED Unused parameter 89 73 UNUSED Unused parameter 90 74 Q_MAX Maximum flowrate for the sensor in use Min TB1 VOLUME_FLOW_RANGE_LOWER Max TB1 VOLUME_FLOW_RANGE_UPPER Unit TB1 VOLUME_FLOW_UNITS Float 4 S r w C a 2 5 91 75 UNUSED Unused parameter 92 76 UNUSED Unused parameter 93 77 DAMPING System damping value Min 0 02 Max 60 ...

Page 38: ...rtion factor for probe type sensors Min 0 Max 3 Float 4 S r w C a 1 101 85 PROBE_PROFILE_FACTOR Profile factor probe type sensors Min 0 Max 3 Float 4 S r w C a 1 102 86 Q_MAX_DN_SPECIAL QMax DN value for special sensors Min 0 Max 100000 Unit TB1 VOLUME_FLOW_UNITS Float 4 S r w C a 2 5 103 87 USER_SYSTEM_SPAN User span value Min 250 Max 250 Unit Float 4 S r w C a 100 104 88 MAINS_FREQUENCY Transmit...

Page 39: ...2 5B 13 6A 14 6B 15 7A 16 7B 17 7C 18 7D 19 8A 20 8B 21 8C Unsigned 8 1 D r C a 5A 110 94 EXCITATION_CURRENT Coil current value Unit mA Float 4 D r C a 180 111 95 FACTORY_CUTOFF Cutoff velocity set during calibration Unit mm s Float 4 D r C a 0 112 96 FACTORY_CUTOFF_NUM_AVERAGING_SAMPLES Number of samples used in averaging filter Unsigned 8 1 D r C a 4 113 97 CALIBRATION_STATUS Sensor calibration ...

Page 40: ...a 5 116 100 FLOW_VELOCITY_RANGE_LOWER Dynamic lower limit for velocity values Unit TB1 VELOCITY_UNIT Float 4 D r C a 0 2 117 101 FLOW_VELOCITY_RANGE_UPPER Dynamic upper limit for velocity values Unit TB1 VELOCITY_UNIT Float 4 D r C a 20a Abs Idx Rel Idx Variable Name Brief Description Data Type Size Store Access Usage Transport Default Table 2 10 Slot 8 Transducer Block 1 Flow Continued ...

Page 41: ...nput parameters are used by the algorithm in conjunction with the state of the Function Block application containing the block to determine if the algorithm can achieve the target mode of operation established for it See parameter MODE_BLK Permitted element for possible values Unsigned 8 1 S r w C a Auto 22 6 MODE_BLK The MODE_BLK is a structured parameter composed of the actual mode the normal mo...

Page 42: ...N300 22 DN350 23 DN400 24 DN450 25 DN500 26 DN600 27 DN700 41 DN750 28 DN760 29 DN800 30 DN900 31 DN1000 32 DN1050 33 DN1100 34 DN1200 42 DN1350 35 DN1400 36 DN1500 37 DN1600 43 DN1650 38 DN1800 44 DN1950 39 DN2000 45 DN2100 46 DN2200 47 DN2400 40 SPECIAL Unsigned 8 1 D r C a DN20 30 14 SPECIAL_SENSOR_BORE Special sensor bore size Unit mm Float 4 D r C a 20 31 15 SENSOR_LOCATION_TAG User defined s...

Page 43: ... 6 Not Specified Unsigned 8 1 D r C a Stonehouse 40 24 SENSOR_LAST_CAL_LOCATION The last location where the sensor was calibrated 0 Stonehouse 1 Göttingen 2 Warminster 3 Moorebank 4 Shanghai 5 Burlington 6 Not Specified Unsigned 8 1 D r C a Stonehouse 41 25 SENSOR_CALIBRATION_MODE Used to distinguish the calibration type of the sensor between ProcessMaster and WaterMaster types 0 WaterMaster 1 Pro...

Page 44: ...entification number of the transmitter Unsigned 32 4 D r C a 1 48 32 TX_PIN PIN used in generation of service level access rights code Unsigned 16 2 D r C a 1 49 33 TRANSMITTER_SAP_ERP_NUMBER Transmitter SAP ERP number VisibleString 20 Cst r C a 50 34 TRANSMITTER_SOFTWARE_VERSION Transmitter firmware version number VisibleString 20 Cst r C a 51 35 APPLICATION_CRC CRC of transmitter firmware Visibl...

Page 45: ...nt date of transmitter calibration VisibleString 20 D r C a 58 42 TX_CAL_CERT_NO Transmitter calibration certificate number VisibleString 20 D r C a 59 43 MID_STATUS The current MID status of the device 0 Non MID 1 Unlocked 2 Locked Unsigned 8 1 D r C a Non MID Abs Idx Rel Idx Variable Name Brief Description Data Type Size Store Access Usage Transport Default Table 2 11 Slot 9 Transducer Block 2 D...

Page 46: ...ontaining the block to determine if the algorithm can achieve the target mode of operation established for it See parameter MODE_BLK Permitted element for possible values Unsigned 8 1 S r w C a Auto 22 6 MODE_BLK The MODE_BLK is a structured parameter composed of the actual mode the normal mode and the permitted mode of the block The actual mode is set calculated by the block during its execution ...

Page 47: ... Pulse R 1 Pulse F Logic 2 Pulse FR Logic 3 Logic Logic Unsigned 8 1 S r w C a Pulse FR Logic 37 21 DO1_LOGIC_SIGNAL_SOURCE Signal source for Logic Output 1 0 No Function 1 F R Signal 2 Digital Out Alarm Unsigned 8 1 S r w C a No Function 38 22 DO1_GENERAL_ALARM_BEHAVIOUR General alarm behavior for Logic Output 1 0 Off 1 On Unsigned 8 1 S r w C a Off 39 23 DO1_MIN_ALARM_BEHAVIOUR Min Flow alarm be...

Page 48: ... for Logic Output 2 2 Off 3 On Unsigned 8 1 S r w C a Off 48 32 DO2_LOGIC_ACTION_STATE Action state for Logic Output 2 0 Normally Open 1 Normally Closed Unsigned 8 1 S r w C a Normally Open 49 33 DO3_LOGIC_SIGNAL_SOURCE Signal source for Logic Output 3 0 No Function 1 F R Signal 2 Digital Out Alarm Unsigned 8 1 S r w C a No Function 50 34 DO3_GENERAL_ALARM_BEHAVIOUR General alarm behavior for Logi...

Page 49: ...t mm Float 4 S r w C a 5 58 42 LIMIT_FREQUENCY Digital Output limit frequency Min TB3 LIMIT_FREQUENCY_RANGE_LOWER Max TB3 LIMIT_FREQUENCY_RANGE_UPPER Unit Hz Float 4 S r w C a 5250 59 43 FULLSCALE_FREQUENCY Digital Output fullscale frequency Min 0 25 Max 10000000 Unit Hz Float 4 S r w C a 5000 60 44 PULSES_PER_UNIT Digital Output pulse factor Min 0 00001 Max 10000000 Float 4 S r w C a 50 61 45 LIM...

Page 50: ...hat mode of operation is required for the block It is normally set by a control application or by an operator through a human interface application The input parameters are used by the algorithm in conjunction with the state of the Function Block application containing the block to determine if the algorithm can achieve the target mode of operation established for it See parameter MODE_BLK Permitt...

Page 51: ... 10 2 x 9 Bargraph 11 3 x 9 Unsigned 8 1 S r w C a 1 x 6 27 11 MAIN_OPERATOR_VIEW_1_1 Local display Operator Page 1 1st line 0 Volume Flowrate 1 Q 3 Velocity 4 Volume Forward 5 Volume Reverse 6 Volume Net 14 Display Value Unsigned 8 1 S r w C a Volume Flowrate 28 12 MAIN_OPERATOR_VIEW_1_2 Local display Operator Page 1 2nd line 0 Volume Flowrate 1 Q 3 Velocity 4 Volume Forward 5 Volume Reverse 6 Vo...

Page 52: ...erator Page 2 1st line 0 Volume Flowrate 1 Q 3 Velocity 4 Volume Forward 5 Volume Reverse 6 Volume Net 14 Display Value Unsigned 8 1 S r w C a Volume Flowrate 32 16 MAIN_OPERATOR_VIEW_2_2 Local display Operator Page 2 2nd line 0 Volume Flowrate 1 Q 3 Velocity 4 Volume Forward 5 Volume Reverse 6 Volume Net 14 Display Value Unsigned 8 1 S r w C a Volume Flowrate 33 17 MAIN_OPERATOR_VIEW_2_3 Local di...

Page 53: ... 14 Display Value Unsigned 8 1 S r w C a Volume Flowrate 36 20 MAIN_OPERATOR_VIEW_3_2 Local display Operator Page 3 2nd line 0 Volume Flowrate 1 Q 3 Velocity 4 Volume Forward 5 Volume Reverse 6 Volume Net 14 Display Value Unsigned 8 1 S r w C a Volume Flowrate 37 21 MAIN_OPERATOR_VIEW_3_3 Local display Operator Page 3 3rd line 0 Volume Flowrate 1 Q 3 Velocity 4 Volume Forward 5 Volume Reverse 6 Vo...

Page 54: ...olume totalizer decimal point format 0 x 1 x x 2 x xx 3 x xxx 4 x xxxx 5 x xxxxx Unsigned 8 1 S r w C a x 40 24 DATE_FORMAT Local display date format 0 DD MM YYYY 1 MM DD YYYY 2 YYYY MM DD Unsigned 8 1 S r w C a YYYY MM DD 41 25 DISPLAY_VALUE_UNITS Custom unit string displayed for display value VisibleString 5 S r w C a Abs Idx Rel Idx Variable Name Brief Description Data Type Size Store Access Us...

Page 55: ...hat mode of operation is required for the block It is normally set by a control application or by an operator through a human interface application The input parameters are used by the algorithm in conjunction with the state of the Function Block application containing the block to determine if the algorithm can achieve the target mode of operation established for it See parameter MODE_BLK Permitt...

Page 56: ...B5 SIMULATION_VOLUME_FLOW_RANGE_LOWER Max TB5 SIMULATION_VOLUME_FLOW_RANGE_UPPER Unit TB1 VOLUME_FLOW_UNITS Float 4 D r w C a 0 27 11 SIMULATION_FLOW_RATIO Internal volume flowrate percentage simulation value Min 200 Max 200 Unit Float 4 D r w C a 0 28 12 SIMULATION_PULSE Frequency to simulate on Digital Outputs 1 and 2 Min 0 Max 5250 Unit Hz Float 4 D r w C a 0 29 13 SIMULATION_LOGIC_1 State to s...

Page 57: ...limit of electrode voltage Unit V Float 4 D r C a 1 5 36 20 ELECTRODE_VOLTAGE_DIFFERENTIAL_LIMIT Upper limit of differential electrode voltage Unit V Float 4 D r C a 0 5 37 21 COIL_CURRENT_ALARM_BAND Percentage shift in coil current allowed before alarm Unit Float 4 D r C a 1 38 22 COIL_OPEN_CIRCUIT_RESISTANCE_LIMIT Upper limit of coil resistance range Unit Ohm Float 4 D r C a 500 39 23 COIL_SHORT...

Page 58: ...t 4 D r C a 65 46 30 TRANSMITTER_AVERAGE_GAIN_SHIFT_RANGE_LOWER Lower limit of transmitter average gain shift range Unit Float 4 D r C a 0 4 47 31 TRANSMITTER_AVERAGE_GAIN_SHIFT_RANGE_UPPER Upper limit of transmitter average gain shift range Unit Float 4 D r C a 0 4 48 32 DIAGNOSTIC_VALUE_UNITS Units of the value currently being read by the Diagnostic Signal function block 1281 Ohms 1284 kOhms 124...

Page 59: ... 61 45 UNUSED Unused parameter 62 46 UNUSED Unused parameter 63 47 UNUSED Unused parameter 64 48 UNUSED Unused parameter 65 49 UNUSED Unused parameter 66 50 UNUSED Unused parameter 67 51 UNUSED Unused parameter 68 52 UNUSED Unused parameter 69 53 UNUSED Unused parameter 70 54 UNUSED Unused parameter 71 55 UNUSED Unused parameter Abs Idx Rel Idx Variable Name Brief Description Data Type Size Store ...

Page 60: ..._RESISTANCE Resistance of coil and cable Unit Ohm 101 5 D r O a 0 76 60 COIL_INDUCTANCE Inductance of the sensor coil Unit mH 101 5 D r O a 0 77 61 SENSOR_INDUCTANCE_SHIFT Percentage shift in coil inductance Unit 101 5 D r O a 0 78 62 TRANSMITTER_AVERAGE_GAIN_SHIFT Percentage shift in transmitter span calibration Unit 101 5 D r O a 0 Abs Idx Rel Idx Variable Name Brief Description Data Type Size S...

Page 61: ...rMaster A 1 Analog Input Function Block Fig A 1 AI Block Summary Fig A 2 AI Block Structure Function Block Analog Input Standard Parameters OUT CHANNEL PV_SCALE OUT_SCALE PV_FTIME SIMULATE ALARM_HYS LO_LO_ALM Alarm Parameters Process Parameters Analog Input Function Block Simulate Parameter Enable Simulate Value and Status Operator Operator OUT Value Status Value Status Status Value On Off FB Algo...

Page 62: ...al PV EU 0 EU 100 EU 0 TV Field_Val EU 100 EU 0 EU 0 PV_SCALE PV_SCALE PV_SCALE OUT_SCALE OUT_SCALE OUT_SCALE TV Field_Val Linearization Filter Limit Check OUT Field_Val PV_SCALE LIN_TYPE OUT_SCALE PV_FTIME HI HI_HI_LIM LO LO_LO_LIM PV Primary Value from Transducer Block Totalizer Function Block CHANNEL UNIT_TOT SET_TOT PRESET_TOT MODE_TOT FAIL_TOT ALARM_HYS HI_HI_ALM Alarm Parameters Process Para...

Page 63: ...ture Fig A 6 AO Block Summary Totalizer Function Block FAIL_TOT Integrator FB Algorithm Channel MODE_TOT SET_TOT PRESET_TOT UNIT_TOT Limitation Alarm TOTAL Balanced 1 POS_ONLY if a 0 then 1 else 0 NEG_ONLY if a 0 then 1 else 0 HOLD 0 Logic Last good value Status Value 0 t Function Block Analog Output Standard SP READBACK POS_D OUT_SCALE PV_SCALE Process Parameters ...

Page 64: ...DBACK POS_D CHECKBACK from Remote Station from Operator from Operator to Operator Remote Station to Transducer Out_Channel from Operator from Operator from Transducer In_Channel Value Status Value Status Value Status Value Status Value Status Value Status Value Status Value Status Value Status Value Status FB Algorithms OUT OUT OUT Man LO OS OUT Auto RCas FB Algorithms RCas Auto Simulation Paramet...

Page 65: ...0 EU 100 EU 0 OUT PV READBACK Temp EU 100 EU 0 EU 0 Temp SP EU 0 EU 100 EU 0 OUT Temp EU 100 EU 0 EU 0 PV_SCALE PV_SCALE PV_SCALE OUT_SCALE OUT_SCALE OUT_SCALE OUT_SCALE OUT_SCALE OUT_SCALE PV_SCALE PV_SCALE PV_SCALE Flow Transducer Block Signal Conditioning Sensor Signal Processing Normalization Unit and Limit Computation Totalizer Analog input Sensor Data for example Nominal Size Process Data fo...

Page 66: ...igned8 1 2 Permitted Unsigned8 1 3 Normal Unsigned8 1 Table B 4 DS 37 Mode Structure E Element Name Data Type Size 1 Unacknowledged Unsigned8 1 2 Alarm_State Unsigned8 1 3 Time_Stamp TimeValue 8 4 Subcode Unsigned16 1 5 Value Float 4 Table B 5 DS 39 Alarm Float Structure E Element Name Data Type Size 1 Current OctetString 2 2 Unacknowledged OctetString 2 3 Unreported OctetString 2 4 Disabled Octet...

Page 67: ...Acknowledgments Profibus and Profibus DP are registered trademarks of the Profibus Organization Sales Service Software ...

Page 68: ...hina Tel 86 0 21 6105 6666 Fax 86 0 21 6105 6677 abb com measurement We reserve the right to make technical changes or modify the contents of this document without prior notice With regard to purchase orders the agreed particulars shall prevail ABB does not accept any responsibility whatsoever for potential errors or possible lack of information in this document We reserve all rights in this docum...

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