| 0 |
array_CalculationUnsignedCharVariable |
| 1 |
index_array_CalculationUnsignedCharVariable |
| 2 |
array_IOBUSUnsignedCharVariable |
| 3 |
index_array_IOBUSUnsignedCharVariable |
| 4 |
array_ESUnsignedCharVariable |
| 5 |
index_array_ESUnsignedCharVariable |
| 6 |
array_HMIUnsignedCharVariable |
| 7 |
index_array_HMIUnsignedCharVariable |
| 8 |
array_UnsignedShortVariable |
| 9 |
index_array_UnsignedShortVariable |
| 10 |
array_UnsignedLongVariable |
| 11 |
index_array_UnsignedLongVariable |
| 12 |
array_FloatVariable |
| 13 |
index_array_FloatVariable |
| 14 |
Lower Range Value Too High |
| 15 |
Lower Range Value Too Low |
| 16 |
Upper Range Value Too High |
| 17 |
Upper Range Value Too Low |
| 18 |
Warning! Span Too Small (Device Accuracy May Be Impaired) |
| 19 |
array_DoubleVariable |
| 20 |
index_array_DoubleVariable |
| 21 |
array_PerformAction |
| 22 |
index_array_PerformAction |
| 23 |
Sensor Not Connected |
| 24 |
array_ReadString |
| 25 |
index_array_ReadString |
| 26 |
array_VariableAlarmRange |
| 27 |
index_array_VariableAlarmRange |
| 28 |
array_VariableWithUnit |
| 29 |
index_array_VariableWithUnit |
| 30 |
array_SimulateDeviceVariable |
| 31 |
index_array_SimulateDeviceVariable |
| 32 |
array_VariableRange |
| 33 |
index_array_VariableRange |
| 34 |
array_TotalizerBaseUnitValue |
| 35 |
index_array_TotalizerBaseUnitValue |
| 36 |
K-SET |
| 37 |
Select the Kfactor for Gas/Steam or Liquid |
| 38 |
Gas/Steam |
| 39 |
Liquid |
| 40 |
Sensor Type |
| 41 |
Swirl |
| 42 |
Vortex |
| 43 |
Meter Size |
| 44 |
DN 15 |
| 45 |
DN 20 |
| 46 |
DN 25 |
| 47 |
DN 32 |
| 48 |
DN 40 |
| 49 |
DN 50 |
| 50 |
DN 80 |
| 51 |
DN 100 |
| 52 |
DN 150 |
| 53 |
DN 200 |
| 54 |
DN 300 |
| 55 |
DN 400 |
| 56 |
DN 250 |
| 57 |
ANSI 15 |
| 58 |
ANSI 25 |
| 59 |
ANSI 40 |
| 60 |
ANSI 50 |
| 61 |
ANSI 80 |
| 62 |
ANSI 100 |
| 63 |
ANSI 150 |
| 64 |
ANSI 200 |
| 65 |
ANSI 250 |
| 66 |
ANSI 300 |
| 67 |
K-Linearization |
| 68 |
Average K |
| 69 |
1 Point K |
| 70 |
2 Points K |
| 71 |
3 Points K |
| 72 |
4 Points K |
| 73 |
5 Points K |
| 74 |
6 Points K |
| 75 |
7 Points K |
| 76 |
8 Points K |
| 77 |
Iout at 103 % |
| 78 |
Off |
| 79 |
High |
| 80 |
Low |
| 81 |
Process Mode |
| 82 |
Liquid Volume |
| 83 |
Liquid Normal Volume |
| 84 |
Liquid Mass |
| 85 |
Liquid Energy |
| 86 |
Gas Actual Volume |
| 87 |
Gas Standard Volume |
| 88 |
Gas Mass |
| 89 |
Gas Energy |
| 90 |
Biogas Actual Volume |
| 91 |
Biogas Standard Volume |
| 92 |
Steam Volume |
| 93 |
Steam/Water Mass |
| 94 |
Steam/Water Energy |
| 95 |
Unit Qv |
| 96 |
Unit Qn |
| 97 |
Unit Qm |
| 98 |
Unit Energy Flow |
| 99 |
Unit Density |
| 100 |
Unit Temperature |
| 101 |
Unit Pressure |
| 102 |
Liquid Mass Correction |
| 103 |
Liquid Power Computation |
| 104 |
Density Correction |
| 105 |
Volume Correction |
| 106 |
Without Correction |
| 107 |
Gas Ref. Conditions |
| 108 |
14.7 psia 60°F (15.4°C) (UK) |
| 109 |
14.7 psia70°F (21.6°C) (US) |
| 110 |
1013.25 mbar and 0°C |
| 111 |
1013.25 mbar and 20°C |
| 112 |
Gas Std Mode |
| 113 |
Ideal Gas |
| 114 |
ISO12212-2/AGA8 |
| 115 |
ISO12212-3/SGERG88 |
| 116 |
Gas Density Selec. |
| 117 |
Ref Density |
| 118 |
Actual Density |
| 119 |
Internal RTD Type |
| 120 |
PT100 |
| 121 |
PT1000 |
| 122 |
None |
| 123 |
RelativeDensityRef_LABEL |
| 124 |
RELATIVE_DENSITY_REF_DEG0_101325 |
| 125 |
RELATIVE_DENSITY_REF_DEG15_101325 |
| 126 |
RELATIVE_DENSITY_REF__60F_101592 |
| 127 |
RELATIVE_DENSITY_REF__60F_101560 |
| 128 |
CalorificValueRef_LABEL |
| 129 |
CALORIFIC_REF_DEG25_DEG0_101325 |
| 130 |
CALORIFIC_REF_DEG0_DEG0_101325 |
| 131 |
CALORIFIC_REF_DEG15_DEG15_101325 |
| 132 |
CALORIFIC_REF_60F_6OF_101592 |
| 133 |
CALORIFIC_REF_60F_6OF_101560 |
| 134 |
Steam Mass Computation |
| 135 |
Water |
| 136 |
Saturated Steam |
| 137 |
Overheat Steam |
| 138 |
Water/Steam Type |
| 139 |
Overheated Steam |
| 140 |
Hot Water |
| 141 |
Unit Volume Totalizer |
| 142 |
Unit NormVolume Totalizer |
| 143 |
Unit Mass Totalizer |
| 144 |
Unit Energy |
| 145 |
totQvPUnit_LABEL |
| 146 |
totQnPUnit_LABEL |
| 147 |
Gas K-Protection |
| 148 |
Enable |
| 149 |
Disable |
| 150 |
Function Check |
| 151 |
Out of Specification |
| 152 |
Maintenance Required |
| 153 |
Min. Flowrate Alarm |
| 154 |
Max. Flowrate Alarm |
| 155 |
Flowrate Over Range |
| 156 |
Sensor Temperature Out of Specification |
| 157 |
Tx Temperature Out of Specification |
| 158 |
Diagnosis Condition to Simulate |
| 159 |
OFF |
| 160 |
Sig. Sensor Fault |
| 161 |
Int. T Sesnor Fault |
| 162 |
Vbr. Sesnor Fault |
| 163 |
AI Out of Range |
| 164 |
Max Alarm Flowrate |
| 165 |
Max Alarm Int. Temp |
| 166 |
AI Cutoff |
| 167 |
Max Alarm Pressure |
| 168 |
Min Alarm Flowrate |
| 169 |
Min Alarm Int. Temp |
| 170 |
Current Output Saturated |
| 171 |
Min Alarm Pressure |
| 172 |
Bad SNR |
| 173 |
Sensor NV Error |
| 174 |
Sensor Not Calibrated |
| 175 |
Sync. Signal Error |
| 176 |
Sensor Comm Error |
| 177 |
Transmitter NV Error |
| 178 |
No Analog Input |
| 179 |
Pulse Output Cutoff |
| 180 |
Re. out of Range |
| 181 |
Wrong Steam Type |
| 182 |
Maintenance Warning |
| 183 |
Voltage Warning |
| 184 |
Min Alarm Housing Temp |
| 185 |
Max Alarm Housing Temp |
| 186 |
Flowrate Cutoff |
| 187 |
Flowrate > 103% |
| 188 |
Data Simulation |
| 189 |
Alarm Simulation |
| 190 |
Fixed Current Output |
| 191 |
Current Output Fault |
| 192 |
O/P Read back Hi Fail |
| 193 |
O/P Read back Low Fail |
| 194 |
NV Replace Warning |
| 195 |
Sensor RAM Fault |
| 196 |
Totalizer Stop |
| 197 |
No HART Input |
| 198 |
Temperature External Source |
| 199 |
From AI |
| 200 |
From HART |
| 201 |
From PRESET |
| 202 |
Pressure Source |
| 203 |
Density Source |
| 204 |
Content Source |
| 205 |
matrixSize_LABEL |
| 206 |
SIZE3X3 |
| 207 |
SIZE4X7 |
| 208 |
Simulation Mode |
| 209 |
Volumeflow [units] |
| 210 |
Volumeflow [%] |
| 211 |
Massflow [units] |
| 212 |
Massflow [%] |
| 213 |
Temperature (Medium/Pipe) |
| 214 |
Temperature Housing |
| 215 |
Iout |
| 216 |
Logic DO |
| 217 |
Analog Input |
| 218 |
Piezo Sensor Freq. |
| 219 |
Pulse on DO |
| 220 |
Freq on DO |
| 221 |
Steam Mass Computation |
| 222 |
Ext. Density |
| 223 |
Calc. from T&P |
| 224 |
Calc. from T |
| 225 |
Calc. from P |
| 226 |
Temperature Sensor Defect |
| 227 |
lowFlowThreshOn_LABEL |
| 228 |
ON |
| 229 |
Energy Calc. Method |
| 230 |
Gross Energy |
| 231 |
Net Energy |
| 232 |
Output Value |
| 233 |
Q-Flowrate |
| 234 |
T-Process Temperature |
| 235 |
loopCurrentMode_LABEL |
| 236 |
LOOP_MODE_ENABLED |
| 237 |
LOOP_MODE_DISABLED |
| 238 |
LOOP_MODE_SIZE |
| 239 |
Iout at Alarm |
| 240 |
alarmSelectionSource_LABEL |
| 241 |
ALARM_SELECTION_SOURCE_SW |
| 242 |
ALARM_SELECTION_SOURCE_HW_LO |
| 243 |
ALARM_SELECTION_SOURCE_HW_HI |
| 244 |
ALARM_SELECTION_SOURCE_SIZE |
| 245 |
alarmSelectionEffective_LABEL |
| 246 |
ALARM_SELECTION_EFFECTIVE_HI |
| 247 |
ALARM_SELECTION_EFFECTIVE_LO |
| 248 |
ALARM_SELECTION_EFFECTIVE_SIZE |
| 249 |
Analog In Value |
| 250 |
Ext. T |
| 251 |
Pressure |
| 252 |
Pressure (abs) |
| 253 |
Density |
| 254 |
Gas content |
| 255 |
Ext. cutoff |
| 256 |
Int. T |
| 257 |
Without |
| 258 |
hartCmdRev_LABEL |
| 259 |
HART_REVISION_5 |
| 260 |
HART_REVISION_7 |
| 261 |
lockDeviceSelection_LABEL |
| 262 |
LOCK_DEVICE_UNLOCKED |
| 263 |
LOCK_DEVICE_TEMPORARY |
| 264 |
LOCK_DEVICE_PERMANENT |
| 265 |
LOCK_DEVICE_ALL |
| 266 |
inputConnection_LABEL |
| 267 |
NO_CONNECT |
| 268 |
FLOW_CONNECT |
| 269 |
TEMP_CONNECT |
| 270 |
DO Function |
| 271 |
Logic |
| 272 |
Pulse |
| 273 |
Frequency |
| 274 |
Logic Output Action |
| 275 |
No Logic Source |
| 276 |
DO Output Alarm |
| 277 |
General Alarm |
| 278 |
Min. Flowrate Alarm |
| 279 |
Max. Flowrate Alarm |
| 280 |
Max. Sensor T Alarm |
| 281 |
Min. Sensor T Alarm |
| 282 |
Flow < LowFlowCutOff |
| 283 |
DO Logic State |
| 284 |
Normally Open |
| 285 |
Normally Closed |
| 286 |
calibrationState_LABEL |
| 287 |
CALIBRATION_OFF |
| 288 |
CALIBRATION_START |
| 289 |
CALIBRATION_STOP |
| 290 |
Simulation Logic DO |
| 291 |
On |
| 292 |
Active State |
| 293 |
Ext. Cutoff Trigger |
| 294 |
>4mA |
| 295 |
>8mA |
| 296 |
>12mA |
| 297 |
swWriteProtection_LABEL |
| 298 |
WRITE_PROTECTION_OFF |
| 299 |
WRITE_PROTECTION_ON |
| 300 |
currentOutReadbackEnable_LABEL |
| 301 |
SIL_TEST_OFF |
| 302 |
SIL_TEST_ON |
| 303 |
VSupplyReadbackEnable_LABEL |
| 304 |
ramTestEnable_LABEL |
| 305 |
romTestEnable_LABEL |
| 306 |
dynamicVariablesCheckEnable_LABEL |
| 307 |
Transmitter Type |
| 308 |
0 |
| 309 |
autozeroStatus_LABEL |
| 310 |
STATUS_COMPLETED |
| 311 |
STATUS_UNCOMPLETED |
| 312 |
STATUS_FAIL |
| 313 |
SIL Detection |
| 314 |
Language |
| 315 |
English |
| 316 |
German |
| 317 |
French |
| 318 |
Spanish |
| 319 |
Italian |
| 320 |
1st Line |
| 321 |
QD in percent |
| 322 |
Volume flow in unit |
| 323 |
Volume flow in percent |
| 324 |
Partial volume flow in unit |
| 325 |
Mass flow in unit |
| 326 |
Std. Volume flow in unt |
| 327 |
Std. Partial Volume flow in unit |
| 328 |
Power flow in unit |
| 329 |
Temperature in unit |
| 330 |
Pressure in unit |
| 331 |
Methane content in % |
| 332 |
Density in unit |
| 333 |
Totalizer Actual Volume |
| 334 |
Totalizer Standard Volume |
| 335 |
Totalizer Mass flow |
| 336 |
Totalizer Net act. Volume flow |
| 337 |
Totalizer Net Std. Volume flow |
| 338 |
Totalizer Energy |
| 339 |
Pipe frequency |
| 340 |
Current Output [mA] |
| 341 |
2nd Line |
| 342 |
3rd Line |
| 343 |
Bargraph |
| 344 |
Flowrate[%] |
| 345 |
Current[mA] |
| 346 |
Totalizer Net Act. Volume flow |
| 347 |
Contrast |
| 348 |
localOperationEnable_LABEL |
| 349 |
localOperationEnable_ENUM |
| 350 |
Display Mode |
| 351 |
1x6 |
| 352 |
1x6 Bar |
| 353 |
1x9 |
| 354 |
1x9 Bar |
| 355 |
2x9 |
| 356 |
2x9 Bar |
| 357 |
3x9 |
| 358 |
OFF |
| 359 |
Auto Scroll |
| 360 |
lowLevelSoftwareRevision_LABEL |
| 361 |
lowLevelSoftwareRevision_ENUM |
| 362 |
defaultContrast_LABEL |
| 363 |
diagnosisView_LABEL |
| 364 |
diagnosisView_ENUM |
| 365 |
Flowrate Format |
| 366 |
Dp 0 |
| 367 |
Dp 1 |
| 368 |
Dp 2 |
| 369 |
Dp 3 |
| 370 |
Dp 4 |
| 371 |
Volume Format |
| 372 |
customDP_3_LABEL |
| 373 |
customDP_4_LABEL |
| 374 |
customDP_5_LABEL |
| 375 |
customDP_6_LABEL |
| 376 |
customDP_7_LABEL |
| 377 |
customDP_8_LABEL |
| 378 |
customDP_9_LABEL |
| 379 |
customDP_10_LABEL |
| 380 |
customDP_11_LABEL |
| 381 |
Date/Time Format |
| 382 |
DD-MM-YYYY |
| 383 |
MM-DD-YYYY |
| 384 |
YYYY-MM-DD |
| 385 |
displayTest_LABEL |
| 386 |
displayTest_ENUM |
| 387 |
Simulation Pulse on DO |
| 388 |
VSupplyReadbackHighThreshold_LABEL |
| 389 |
VSupplyReadbackLowThreshold_LABEL |
| 390 |
Low Flow Threshold |
| 391 |
Transmitter Run Hours |
| 392 |
Hours |
| 393 |
partialWorkingTimeHour_LABEL |
| 394 |
Maintenance Cycle Time |
| 395 |
frontendMaintain_LABEL |
| 396 |
Sensor Run Hours |
| 397 |
Auto Self Check Time |
| 398 |
min |
| 399 |
K-Average |
| 400 |
.2f |
| 401 |
1/m3 |
| 402 |
K Factor 1 |
| 403 |
K Factor 2 |
| 404 |
K Factor 3 |
| 405 |
K Factor 4 |
| 406 |
K Factor 5 |
| 407 |
K Factor 6 |
| 408 |
K Factor 7 |
| 409 |
K Factor 8 |
| 410 |
Frequency 1 |
| 411 |
Hz |
| 412 |
Frequency 2 |
| 413 |
Frequency 3 |
| 414 |
Frequency 4 |
| 415 |
Frequency 5 |
| 416 |
Frequency 6 |
| 417 |
Frequency 7 |
| 418 |
Frequency 8 |
| 419 |
Freq_LABEL |
| 420 |
FreqSim_LABEL |
| 421 |
temperaturePreset_LABEL |
| 422 |
GasQvPartial_LABEL |
| 423 |
GasQnPartial_LABEL |
| 424 |
GasQvPartial_Damped_LABEL |
| 425 |
GasQnPartial_Damped_LABEL |
| 426 |
Qv_LABEL |
| 427 |
Qv_Damped_LABEL |
| 428 |
Qv_MinimumSpan_LABEL |
| 429 |
Flowrate [%] |
| 430 |
% |
| 431 |
QvMax DN |
| 432 |
QvpMax DN |
| 433 |
Qn_LABEL |
| 434 |
Qn_Damped_LABEL |
| 435 |
QnMax DN |
| 436 |
QnpMax DN |
| 437 |
Qm_LABEL |
| 438 |
Qm_Damped_LABEL |
| 439 |
QmMax DN |
| 440 |
Power_LABEL |
| 441 |
Power_Damped_LABEL |
| 442 |
QpowerMax DN |
| 443 |
T_LABEL |
| 444 |
T_Damped_LABEL |
| 445 |
T_Percentage_LABEL |
| 446 |
TExt_LABEL |
| 447 |
TExt_Preset_LABEL |
| 448 |
TExt_Percentage_LABEL |
| 449 |
dvTExt_MinimumSpan_LABEL |
| 450 |
Pressure_LABEL |
| 451 |
Pressure_Preset_LABEL |
| 452 |
Pressure_MinimumSpan_LABEL |
| 453 |
Density_LABEL |
| 454 |
Density_Preset_LABEL |
| 455 |
Density_MinimumSpan_LABEL |
| 456 |
Content_LABEL |
| 457 |
Content_Preset_LABEL |
| 458 |
Content_MinimumSpan_LABEL |
| 459 |
Hw_LABEL |
| 460 |
Hc_LABEL |
| 461 |
Qn_MinimumSpan_LABEL |
| 462 |
Qm_MinimumSpan_LABEL |
| 463 |
Power_MinimumSpan_LABEL |
| 464 |
T_MinimumSpan_LABEL |
| 465 |
totQvFlowValue_LABEL |
| 466 |
totQnFlowValue_LABEL |
| 467 |
totQmFlowValue_LABEL |
| 468 |
totPowerFlowValue_LABEL |
| 469 |
totQvPartialFlowValue_LABEL |
| 470 |
totQnPartialFlowValue_LABEL |
| 471 |
meanFreq_LABEL |
| 472 |
stddevFreq_LABEL |
| 473 |
minFreq_LABEL |
| 474 |
maxFreq_LABEL |
| 475 |
Pulses per Unit |
| 476 |
Pulse Width |
| 477 |
ms |
| 478 |
Lower Frequency |
| 479 |
Upper Frequency |
| 480 |
DO Frequency |
| 481 |
Low Alarm Value |
| 482 |
mA |
| 483 |
High Alarm Value |
| 484 |
SNR |
| 485 |
Gas Energy Density |
| 486 |
MJ/Cum |
| 487 |
densityRef_LABEL |
| 488 |
refTemperature_LABEL |
| 489 |
Volume Extension Coefficients |
| 490 |
/Temp. Unit |
| 491 |
Density Extension Coefficients |
| 492 |
Heat Capacity |
| 493 |
J/(Kg.K) |
| 494 |
Min. Volume Flowrate Alarm |
| 495 |
.4f |
| 496 |
Max. Volume Flowrate Alarm |
| 497 |
Min. Flow Alarm |
| 498 |
Max. Flow Alarm |
| 499 |
Min Temp. Alarm |
| 500 |
Max Temp. Alarm |
| 501 |
Min Pressure Alarm |
| 502 |
.5f |
| 503 |
Max Pressure Alarm |
| 504 |
relativeDensity_LABEL |
| 505 |
Simulation Volume Flow [%] |
| 506 |
QvSim_LABEL |
| 507 |
Simulation Mass Flow [%] |
| 508 |
QmSim_LABEL |
| 509 |
Temperature Housing |
| 510 |
degC |
| 511 |
Temperature Offset |
| 512 |
refCalorifcValue_LABEL |
| 513 |
Simulation Analog Input |
| 514 |
trimAiLowerEndpoint_LABEL |
| 515 |
trimAiUpperEndpoint_LABEL |
| 516 |
Simulation Read Hart Receive |
| 517 |
Simulation Freq on DO |
| 518 |
RefPressure_LABEL |
| 519 |
RefTemperature_LABEL |
| 520 |
Preset Value |
| 521 |
StartAllTotalizr_LABEL |
| 522 |
StartQvTotalizer_LABEL |
| 523 |
StartQnTotalizer_LABEL |
| 524 |
StartQmTotalizer_LABEL |
| 525 |
StartEnergyTotalizer_LABEL |
| 526 |
StartQvPartialTotalizer_LABEL |
| 527 |
StartQnPartialTotalizer_LABEL |
| 528 |
StopAllTotalizer_LABEL |
| 529 |
StopQvTotalizer_LABEL |
| 530 |
StopQnTotalizer_LABEL |
| 531 |
StopQmTotalizer_LABEL |
| 532 |
StopEnergyTotalizer_LABEL |
| 533 |
StopQvPartialTotalizer_LABEL |
| 534 |
StopQnPartialtotalizer_LABEL |
| 535 |
ResetAllTotalizer_LABEL |
| 536 |
ResetQvTotalizer_LABEL |
| 537 |
ResetQnTotalizer_LABEL |
| 538 |
ResetQmTotalizer_LABEL |
| 539 |
ResetEnergyTotalizer_LABEL |
| 540 |
ResetQvPartialTotalizer_LABEL |
| 541 |
ResetQnPartialTotalizer_LABEL |
| 542 |
PresetAllTotalizer_LABEL |
| 543 |
PresetQvTotalizer_LABEL |
| 544 |
PresetQnTotalizer_LABEL |
| 545 |
PresetQmTotalizer_LABEL |
| 546 |
PresetEnergyTotalizer_LABEL |
| 547 |
PresetQvPartialTotalizer_LABEL |
| 548 |
PresetQnPartialTotalizer_LABEL |
| 549 |
trigCalibration_LABEL |
| 550 |
writeSelfDiagnosis_LABEL |
| 551 |
diagClearHistory_LABEL |
| 552 |
readParameters_LABEL |
| 553 |
writeParameters_LABEL |
| 554 |
vortexDeviceStatus_LABEL |
| 555 |
AdditionalVortexDeviceStatus_HELP |
| 556 |
familyRevision_LABEL |
| 557 |
Freq_Obj_Unit_LABEL |
| 558 |
Freq_Obj_Value_LABEL |
| 559 |
Flow Cut Off Level |
| 560 |
Velocity |
| 561 |
m/s |
| 562 |
CF 0 |
| 563 |
CF 1 |
| 564 |
CF 2 |
| 565 |
CF 3 |
| 566 |
CF 4 |
| 567 |
CF 5 |
| 568 |
CF 6 |
| 569 |
CF 7 |
| 570 |
CF 8 |
| 571 |
CF 9 |
| 572 |
CF 10 |
| 573 |
CF 11 |
| 574 |
P 4 |
| 575 |
P 1 |
| 576 |
P 2 |
| 577 |
P 3 |
| 578 |
Dummy for CMD Structure |
| 579 |
T 3 |
| 580 |
T 1 |
| 581 |
T 2 |
| 582 |
gasConfFlag_Label |
| 583 |
Not Configed |
| 584 |
Configing |
| 585 |
Configed |
| 586 |
Software Revision |
| 587 |
1.0.0 |
| 588 |
Hardware Revision |
| 589 |
Sensor ID |
| 590 |
ABB |
| 591 |
Sensor SAP/ERP No. |
| 592 |
??? |
| 593 |
First Cal. Date |
| 594 |
2012-01-01 |
| 595 |
Cal. Cert. No. |
| 596 |
0000000000 |
| 597 |
First Cal. Location |
| 598 |
Transmitter ID |
| 599 |
00000000 |
| 600 |
Tx. SAP/ERP No. |
| 601 |
00000000 |
| 602 |
000000000000 |
| 603 |
00000000000000000000000000000000 |
| 604 |
FE Firmware Ver. |
| 605 |
0.0.0 |
| 606 |
FE Hardware Ver. |
| 607 |
Boot loader Ver. |
| 608 |
0.0.4 |
| 609 |
Manufacturer |
| 610 |
ABB |
| 611 |
Street |
| 612 |
|
| 613 |
City |
| 614 |
ShangHai |
| 615 |
Phone |
| 616 |
+86 21 88888888 |
| 617 |
QvAlmRange_LABEL |
| 618 |
.3f |
| 619 |
QmAlmRange_LABEL |
| 620 |
temperatureAlmRange_LABEL |
| 621 |
dvPressureAlmRange_LABEL |
| 622 |
temperaturePreset_Obj_LABEL |
| 623 |
Preset Int. Temp |
| 624 |
temperaturePreset_Obj_HELP |
| 625 |
dvTExtPresetObj_LABEL |
| 626 |
Preset Ext. Temp |
| 627 |
dvPressurePresetObj_LABEL |
| 628 |
Preset Pressure(abs) |
| 629 |
dvDensityPresetObj_LABEL |
| 630 |
Preset Density |
| 631 |
dummyU8_LABEL |
| 632 |
DUMMY |
| 633 |
Preset Content |
| 634 |
densigyRefObj_LABEL |
| 635 |
Ref. Density Value |
| 636 |
refTemperatureObj_LABEL |
| 637 |
Ref Temperature Value |
| 638 |
refPressureObj_LABEL |
| 639 |
QvSimEnable_LABEL |
| 640 |
QvSimObj_LABEL |
| 641 |
Simulation Volume Flow [units] |
| 642 |
QnSimEnable_LABEL |
| 643 |
QnSimObj_LABEL |
| 644 |
QmSimEnable_LABEL |
| 645 |
QmSimObj_LABEL |
| 646 |
Simulation Mass Flow [units] |
| 647 |
QpSimEnable_LABEL |
| 648 |
QpSimObj_LABEL |
| 649 |
QvPartialSimEnable_LABEL |
| 650 |
QvPartialSimObj_LABEL |
| 651 |
QnPartialSimEnable_LABEL |
| 652 |
QnPartialSimObj_LABEL |
| 653 |
frequencySim_Enable_LABEL |
| 654 |
frequency_SimObj_LABEL |
| 655 |
Simulation Piezo Sensor Freq. |
| 656 |
temperatureSim_Enable_LABEL |
| 657 |
temperatureSim_Obj_LABEL |
| 658 |
Simulation Temperature Housing |
| 659 |
dvTExtSimEnable_LABEL |
| 660 |
dvTExtSimObj_LABEL |
| 661 |
dvPressureSimEnable_LABEL |
| 662 |
dvPressureSimObj_LABEL |
| 663 |
dvDensitySimObj_LABEL |
| 664 |
dvDensitySimEnable_LABEL |
| 665 |
dvContentSimEnable_LABEL |
| 666 |
dvContentSim_LABEL |
| 667 |
Qmax Qv |
| 668 |
QvLowerRangeObj_LABEL |
| 669 |
Qmax Qn |
| 670 |
QnLowerRangeObj_LABEL |
| 671 |
Qmax Qm |
| 672 |
QmLowerRangeObj_LABEL |
| 673 |
Qmax Qpower |
| 674 |
QpLowerRangeObj_LABEL |
| 675 |
QvPartialUpperRangeObj_LABEL |
| 676 |
Qmax Qvp |
| 677 |
QvPartialLowerRangeObj_LABEL |
| 678 |
QnPartialUpperRangeObj_LABEL |
| 679 |
Qmax Qnp |
| 680 |
QnPartialLowerRangeObj_LABEL |
| 681 |
dvTExtUpperRangeObj_LABEL |
| 682 |
Temperature Upper Range |
| 683 |
dvTExtLowerRangeObj_LABEL |
| 684 |
Temperature Low Range |
| 685 |
dvPressureUpperRangeObj_LABEL |
| 686 |
P(abs) Upper Range |
| 687 |
dvPressureLowerRangeObj_LABEL |
| 688 |
P(abs) Low Range |
| 689 |
Density Upper Range |
| 690 |
dvDensityLowerRangeObj_LABEL |
| 691 |
Density Low Range |
| 692 |
Gas Content Upper Range |
| 693 |
Gas Content Low Range |
| 694 |
temperature_UpperRange_Obj_LABEL |
| 695 |
Temp -> l = 100 % |
| 696 |
temperature_LowerRange_Obj_LABEL |
| 697 |
Temp -> l = 0 % |
| 698 |
Hart In value |
| 699 |
Gas Content |
| 700 |
burstUpUnitType_LABEL |
| 701 |
BURST_IN_TEMPERATURE |
| 702 |
BURST_IN_PRESSURE |
| 703 |
BURST_IN_CONTENT |
| 704 |
BURST_IN_DENSITY |
| 705 |
BURST_IN_NONE |
| 706 |
HartAccessLevel_LABEL |
| 707 |
SERVICE_service |
| 708 |
SERVICE_advanced |
| 709 |
SERVICE_standard |
| 710 |
Enter Password to Login into Service Mode |
| 711 |
***** |
| 712 |
Mode |
| 713 |
|
| 714 |
4 - 20mA |
| 715 |
Overflow Count |
| 716 |
Overflow Thresh |
| 717 |
Pressure Upper Range |
| 718 |
Pressure Low Range |
| 719 |
Signal Amplitude |
| 720 |
Vbr. Amplitude |
| 721 |
FFT Magnitude |
| 722 |
Internal RTD Password |
| 723 |
****** |
| 724 |
Analog Input Password |
| 725 |
Energy Flow Password |
| 726 |
Calibration Status |
| 727 |
Calibrated |
| 728 |
Uncalibrated |
| 729 |
Force Replace |
| 730 |
FE To CB Common Only |
| 731 |
FE To CB |
| 732 |
CB To FE |
| 733 |
Actual Volume |
| 734 |
Temperature |
| 735 |
TOT Volume |
| 736 |
Mass |
| 737 |
TOT Mass |
| 738 |
Energy |
| 739 |
TOT Energy |
| 740 |
Standard Volume |
| 741 |
TOT Std. Volume |
| 742 |
Actual Net Methane Volume |
| 743 |
TOT Partial Volume |
| 744 |
Std. Net Methane Volume |
| 745 |
TOT Std. Partial Volume |
| 746 |
Qv |
| 747 |
Qn |
| 748 |
Qm |
| 749 |
Qpower |
| 750 |
Qv Partial |
| 751 |
Qn Partial |
| 752 |
External Temperature |
| 753 |
Content |
| 754 |
values |
| 755 |
Update Period |
| 756 |
deviceVariableFamilyCodes_Label |
| 757 |
maxUpdateTime_Label |
| 758 |
transducerSerialNumber_Label |
| 759 |
1u |
| 760 |
Qv_Obj_Unit_Label |
| 761 |
Actual Volume Flow |
| 762 |
Qv_Obj_DQ_Label |
| 763 |
Qv_Obj_LS_Label |
| 764 |
Qv_Obj_Status_Label |
| 765 |
Qv_UpperRange_Obj_Label |
| 766 |
Qv_Classification_Label |
| 767 |
Damping Time |
| 768 |
s |
| 769 |
Qn_Obj_Unit_Label |
| 770 |
Standard Flow |
| 771 |
Qn_Obj_DQ_Label |
| 772 |
Qn_Obj_LS_Label |
| 773 |
Qn_Obj_Status_Label |
| 774 |
Qn_UpperRange_Obj_Label |
| 775 |
Qn_Classification_Label |
| 776 |
Qm_Obj_Unit_Label |
| 777 |
Mass Flow |
| 778 |
Qm_Obj_DQ_Label |
| 779 |
Qm_Obj_LS_Label |
| 780 |
Qm_Obj_Status_Label |
| 781 |
Qm_UpperRange_Obj_Label |
| 782 |
Qm_Classification_Label |
| 783 |
Qp_Obj_Unit_Label |
| 784 |
Energy flow |
| 785 |
Power_Obj_DQ_Label |
| 786 |
Power_Obj_LS_Label |
| 787 |
Power_Obj_Status_Label |
| 788 |
Power_UpperRange_Obj_Label |
| 789 |
Qp_Classification_Label |
| 790 |
QvP_Obj_Unit_Label |
| 791 |
Net Act. Volume Flow |
| 792 |
QvP_Obj_DQ_Label |
| 793 |
QvP_Obj_LS_Label |
| 794 |
QvP_Obj_Status_Label |
| 795 |
QvP_UpperRange_Obj_Label |
| 796 |
QvP_Classification_Label |
| 797 |
QnP_Obj_Unit_Label |
| 798 |
Net Std. Standard Volume Flow |
| 799 |
QnP_Obj_DQ_Label |
| 800 |
QnP_Obj_LS_Label |
| 801 |
QnP_Obj_Status_Label |
| 802 |
QnP_UpperRange_Obj_Label |
| 803 |
QnP_Classification_Label |
| 804 |
T_Obj_Unit_Label |
| 805 |
T_Obj_DQ_Label |
| 806 |
T_Obj_LS_Label |
| 807 |
T_Obj_Status_Label |
| 808 |
T_Classification_Label |
| 809 |
DampingTime_Label |
| 810 |
Freq_Obj_Unit_Label |
| 811 |
Flow Frequency |
| 812 |
Freq_Obj_DQ_Label |
| 813 |
Freq_Obj_LS_Label |
| 814 |
Freq_Obj_Status_Label |
| 815 |
Freq_UpperRange_Obj_Label |
| 816 |
Freq_Classification_Label |
| 817 |
TotQv_Obj_Unit_Label |
| 818 |
Totalizer Actual Volume |
| 819 |
TotQv_Obj_DQ_Label |
| 820 |
TotQv_Obj_LS_Label |
| 821 |
TotQv_Obj_Status_Label |
| 822 |
TotQv_Classification_Label |
| 823 |
TotQn_Obj_Unit_Label |
| 824 |
Totalizer Standard Volume |
| 825 |
TotQn_Obj_DQ_Label |
| 826 |
TotQn_Obj_LS_Label |
| 827 |
TotQn_Obj_Status_Label |
| 828 |
TotQn_Classification_Label |
| 829 |
TotQm_Obj_Unit_Label |
| 830 |
Totalizer Mass flow |
| 831 |
TotQm_Obj_DQ_Label |
| 832 |
TotQm_Obj_LS_Label |
| 833 |
TotQm_Obj_Status_Label |
| 834 |
TotQm_Classification_Label |
| 835 |
TotEnergy_Obj_Unit_Label |
| 836 |
TotEnergy_Obj_DQ_Label |
| 837 |
TotEnergy_Obj_LS_Label |
| 838 |
TotEnergy_Obj_Status_Label |
| 839 |
TotEnergy_Classification_Label |
| 840 |
TotQvP_Obj_Unit_Label |
| 841 |
Totalizer Net Act. Volume flow |
| 842 |
TotQvP_Obj_DQ_Label |
| 843 |
TotQvP_Obj_LS_Label |
| 844 |
TotQvP_Obj_Status_Label |
| 845 |
TotQvP_Classification_Label |
| 846 |
TotQnP_Obj_Unit_Label |
| 847 |
Totalizer Net Std. Volume flow |
| 848 |
TotQnP_Obj_DQ_Label |
| 849 |
TotQnP_Obj_LS_Label |
| 850 |
TotQnP_Obj_Status_Label |
| 851 |
TotQnP_Classification_Label |
| 852 |
TExt_Obj_Unit_Label |
| 853 |
Temperature External |
| 854 |
TExt_Obj_DQ_Label |
| 855 |
TExt_Obj_LS_Label |
| 856 |
TExt_Obj_Status_Label |
| 857 |
TExt_Classification_Label |
| 858 |
Press_Obj_Unit_Label |
| 859 |
Press_Obj_DQ_Label |
| 860 |
Press_Obj_LS_Label |
| 861 |
Press_Obj_Status_Label |
| 862 |
Press_Classification_Label |
| 863 |
Denst_Obj_Unit_Label |
| 864 |
Denst_Obj_DQ_Label |
| 865 |
Denst_Obj_LS_Label |
| 866 |
Denst_Obj_Status_Label |
| 867 |
Denst_Classification_Label |
| 868 |
Cont_Obj_DQ_Label |
| 869 |
Cont_Obj_LS_Label |
| 870 |
Cont_Obj_Status_Label |
| 871 |
Cont_Classification_Label |
| 872 |
Dummy_UpperRange_Obj_Label |
| 873 |
Dummy_Obj_Unit_Label |
| 874 |
Device setup |
| 875 |
Identify |
| 876 |
Additional Device Revision |
| 877 |
Measurement Point |
| 878 |
Contact |
| 879 |
Order Details |
| 880 |
Parameterize |
| 881 |
Device Info |
| 882 |
Sensor |
| 883 |
Sensor Calibration |
| 884 |
Transmitter |
| 885 |
Transmitter Version |
| 886 |
Transmitter Calibration |
| 887 |
Device Setup |
| 888 |
Low Flow Cut Off |
| 889 |
Operating Mode |
| 890 |
Compensation Setting |
| 891 |
Empty menu |
| 892 |
Compressibility Factor |
| 893 |
Field Optimization |
| 894 |
Input / Output |
| 895 |
Digital Output |
| 896 |
Setup Pulse Output |
| 897 |
Setup Frequency Output |
| 898 |
Setup Logic Output |
| 899 |
Alarm Config |
| 900 |
Current Output |
| 901 |
Field Input |
| 902 |
Ranges |
| 903 |
HART Output |
| 904 |
Diagnostics |
| 905 |
Diagnosis Control |
| 906 |
Diagnosis Values |
| 907 |
Alarm Limits |
| 908 |
Output Readings |
| 909 |
Totalizer |
| 910 |
All Totalizers |
| 911 |
Display |
| 912 |
Display Settings |
| 913 |
Operator Page 1 |
| 914 |
Operator Page 2 |
| 915 |
Operator Page 3 |
| 916 |
Operator Page 4 |
| 917 |
Calibration |
| 918 |
Sensor Data |
| 919 |
GAS Data |
| 920 |
Liquid Data |
| 921 |
Frequency Set |
| 922 |
K Factor Set |
| 923 |
Simulation |
| 924 |
Operate |
| 925 |
Observe Values |
| 926 |
Trend Values |
| 927 |
Device Status |
| 928 |
Diagnosis |
| 929 |
Monitoring |
| 930 |
Hardware Electronics Status |
| 931 |
Hardware Sensor Status |
| 932 |
Configuration State |
| 933 |
Operating Conditions |
| 934 |
Masking |
| 935 |
Group Masking |
| 936 |
Individual Masking |
| 937 |
FSx400 Image |
| 938 |
Extra |
| 939 |
Feature Settings |
| 940 |
Transmitter Details |
| 941 |
Sensor Details |
| 942 |
Force Replacement |
| 943 |
Contact Details |
| 944 |
System Zero |
| 945 |
Offline |
| 946 |
Start Auto Adjust |
| 947 |
Start Manual Adjust |
| 948 |
Start Sensor Self-Check |
| 949 |
Reset |
| 950 |
Start |
| 951 |
Stop |
| 952 |
Preset |
| 953 |
Qv_limits |
| 954 |
Qn_limits |
| 955 |
Qm_limits |
| 956 |
Qp_limits |
| 957 |
Simulate Values |
| 958 |
Click to view the Values |
| 959 |
Displays the 3x3 Matrix |
| 960 |
Configure Compressibility Factor |
| 961 |
Change Hart In value |
| 962 |
Configure Qmax DN |
| 963 |
Enable Internal RTD |
| 964 |
Enable Analog Input |
| 965 |
Enable Energy Flow |
| 966 |
Change Transmitter Details |
| 967 |
Change Sensor Details |
| 968 |
Write Calibration Status |
| 969 |
Execute Force Replace |
| 970 |
Update Contact Details |
| 971 |
Device type |
| 972 |
FSV400 / FSS400 (0x1AA3) |
| 973 |
Device serial no |
| 974 |
Device revision |
| 975 |
Possible Cause: Vortex signal loop from piezoelectric sensor to DSP is failed in self check
Suggested Actions:
i. Check the connection between the piezo sensor and front end board and establish the connection if necessary
ii. Check that the three sensor leads are insulated from each other and from ground
If above two solutions are failed, replace the front end board or contact ABB service |
| 976 |
Possible Cause:The circuitry for the sampling of the temperature has failed
Suggested Actions:
i. Check the connection between the PT100/PT1000 sensor and front end board and establish the connection if necessary
ii. Check resistance of PT100/PT1000 s (PT100: 100 Ohm at 0°C, PT1000: 1000 Ohm at 0°C). If resistance is not in the range, contact ABB service to replace the senso
If above two solutions are failed, replace the front end board or contact ABB service |
| 977 |
Possible Cause: Vibration signal loop from piezoelectric sensor to DSP is failed in self check
Suggested Actions:
i. Check the connection between the piezo sensor and front end board and establish the connection if necessary
ii. Check that the three sensor leads are insulated from each other and from ground (dc resistance > 50 MegOhm). The capacitance between the yellow or red leads to the blue lead should be between 3.5 – 4.5 nF (for high-temperature sensors approx. 500 pF). If resistance or capacitance are not in the range, contact ABB service to replace the sensor
If above two solutions are failed, replace the front end board or contact ABB service |
| 978 |
Possible Cause: The analog input current is beyond its Low scaling limit (3.8mA) or High scaling limit (20.5mA) and no longer represents the true applied process
Suggested Action: Check analog input current |
| 979 |
Max Alarm Flowrate |
| 980 |
Possible Cause: The current flowrate in the pipeline is greater than the max alarm configured
Suggested Action: Reduce the flowrate or increase the value for the max alarm |
| 981 |
Possible Cause: The limit value for the maximum medium temperature permitted is overshot
Suggested Action: Check process, adjust alarm limits if required |
| 982 |
Possible Cause: External cutoff is triggered
Suggested Actions:
i. Check analogue input current
ii. Adjust external cutoff trigger value if required |
| 983 |
Max Alarm Pressure |
| 984 |
Possible Cause: The limit value for the maximum pressure permitted is overshot
Suggested Action: Check process, adjust alarm limits if required |
| 985 |
Reserved |
| 986 |
Min Alarm Flowrate |
| 987 |
Possible Cause: The current flowrate in the pipeline is greater than the min alarm configured
Suggested Action: Increase the flowrate or decrease the value for the min alarm |
| 988 |
Possible Cause: The limit value for the minimum medium temperature permitted is undershot
Suggested Action: Check process, adjust alarm limits if required |
| 989 |
Possible Cause: The analog output for the Primary Variable is beyond its Low scaling limit (3.8mA) or High scaling limit (20.5mA) and no longer represents the true applied process
Suggested Action: Adjust the Saturation Limit or the working range if Possible |
| 990 |
Min Alarm Pressure |
| 991 |
Possible Cause: The Pressure value is below the Min Alarm configured
Suggested Action: Increase Process Pressure or decrease value of Min Alarm |
| 992 |
Possible Cause:The SNR on piezo sensor is outside the configured limit values
Suggested Actions:
i. Bad SNR
ii. Increase the Flow
iii. Check Limits Setting
or contact ABB service |
| 993 |
Possible Cause: EEPROM on front end board is defective
Suggested Actions:
Replace Communication Board.
Contact local ABB service |
| 994 |
Sensor not Calibrated |
| 995 |
Possible Cause: Sensor is uncalibrated or calibration status is not set to 'calibrated'
Suggested Action: Contact ABB Service |
| 996 |
Possible Cause: Synchronous signal on front end board is lost
Suggested Action:
Sync. Signal Error
Contact ABB Service |
| 997 |
Possible Cause: Communication error between front end board and communication board
Suggested Action: Check the connection between front end board and communication board
or contact ABB service |
| 998 |
Possible Cause: EEPROM on communication board is defective
Suggested Action: Replace the Communication Board.
orContact local ABB service |
| 999 |
Possible Cause: Communication error between IO board and communication board
Suggested Action:
Check the connection between IO board and communication board or contact ABB service |
| 1000 |
Possible Cause: Incorrect configuration
Suggested Action: Reduce the 'Pulses per unit' value |
| 1001 |
Possible Cause: The Reynolds number is lower than predefined value. The accuracy is reduced if the Reynolds number is < 20 000
Suggested Action: Increase the flow.Check the Min Re Alarm setting in 'Process Alarm->Alarm Limits' |
| 1002 |
Possible Cause: The steam type is no longer as configured in 'Device Setup->Plant /Customized->Compensation Setting->Steam Type”
Suggested Action: Check Steam Type Setting in 'Device Setup->Plant/Customized-> Compensation Setting->Steam Type” |
| 1003 |
Possible Cause: The maintenance cycle for transmitter or sensor is reached
Suggested Action: Adjust the maintenance cycle if required or contact ABB service to recalibrate the device |
| 1004 |
Possible Cause: The device power supply is close to the highest acceptable limit or lowest acceptable limit
Suggested Action: Check the voltage at the terminal block and if it is not within the valid range, check the external power supply |
| 1005 |
Min Alarm Housing Temp |
| 1006 |
Possible Cause: The limit value for the minimum ambient temperature permitted is undershot
Suggested Action: Check whether the device has been correctly insulated Increase the ambient temperature |
| 1007 |
Max Alarm Housing Temp |
| 1008 |
Possible Cause: The limit value for the maximum ambient temperature permitted is overshot
Suggested Action: Check whether the device has been correctly insulated Reduce the ambient temperature |
| 1009 |
Possible Cause: The flowrate in the system is below the flowrate cut off value
Suggested Action: Increase the flow or adjust low flow cut off setting in the 'Easy Set-up -> Low Flow Cut off” menu |
| 1010 |
Possible Cause: The flowrate in the system exceeds the configured flow range end value by more than 3 %
Suggested Action:
Increase the flow range end value |
| 1011 |
Possible Cause:Simulation mode is activated
Suggested Action: In the 'Simulation' menu, deactivate simulation mode |
| 1012 |
Possible Cause: Alarm simulation is activated
Suggested Action: In the 'Diagnostics' menu, deactivate alarm simulation |
| 1013 |
Possible Cause: The current output is simulated and is currently set to a specific value, or is in fixed current mode by command 40
Suggested Action: Deactivate simulation mode in the 'Diagnostics/Simulation' menu, or exit fixed current mode by command 40 |
| 1014 |
Possible Cause: Current output is not properly Calibrated/Trimmed or the device is not properly configured
Suggested Actions:
i. Perform an Output Trimming and if the error persists the communication board must be replaced
ii. Check the device configuration for current output |
| 1015 |
Output Read back High Failure |
| 1016 |
Possible Cause: The output circuit could be broken or not correctly calibrated
Suggeseted Action: A DAC (digital to analogue output converter) trimming should be performed and if the error persists the communication board must be replaced |
| 1017 |
Output Read back Low Failure |
| 1018 |
Case1:
Possible Cause: The comn board or FEB has been changed but the replacement oper has not been executed
Suggested Actions: The replacement oper must be executed
1. Move SW 1.2 at enable replace mode
2. Select the SW 1.3 at right dirn
3. After HMI is powered on, move SW1.2 at disable replace mode
Case2:
Possible Cause: The comn board or the FEB has been changed and replacement oprn for new sens has to be executed
Suggested Actions: The foll replacement opn must be executed, Only data of the elec can be copied into sens
1. Move SW 1.2 at enable replace mode
2. Select SW 1.3 at dirn from CB to FE
3. After HMI is powered on, move SW1.2 at disable replace mode
Case3:
Possible Cause: The CB or the FB has been changed. Replacement has been enabled but with a wrong dir (SW 1.3)
Suggested Actions: Change replacement dir
1. Move SW 1.2 at enable replace mode
2. Select SW 1.3 at dir from CB to FE
3. After HMI is powered on, move SW1.2 at disable replace mode |
| 1019 |
Possible Cause: Front end board memory corrupted
Suggested Action: Replace the Front end Board |
| 1020 |
Possible Cause:
Totalizer is stopped
Suggested Action:
Start totalizer in 'Totalizer” menu |
| 1021 |
Possible Cause:
Totalizer is reset
Suggested Action:
Start totalizer in 'Totalizer” menu |
| 1022 |
Possible Cause:
No HART data (pressure/density/temperature/ gas content) burst input in redefined period
Suggested Actions:
i. Check HART connection
ii. Check the No HART Input Alarm setting in 'Diagnostics->Alarm Limits” if required |
| 1023 |
Undefined |
| 1024 |
Vortex Sensor Error |
| 1025 |
Possible Cause: Vortex sensor Error
Suggested Action:
Vortex signal path circuit error
Vortex signal sensor open
Vortex signal sensor short errorerror Vortex signal sensor drift error
Contact local ABB service |
| 1026 |
Temperature Sensor failure |
| 1027 |
Possible Cause: Temperature sensor failure
Suggested Action:
RTD Sensor Broken
RTD Sample circuit broken.
Contact local ABB service |
| 1028 |
Vibration Sensor Error |
| 1029 |
Possible Cause: Vibration sensor Errorr
Suggested Action:
Vibration signal circuit error
Vibration sensor open
Vibration sensor short
Vibration sensor drift
Contact local ABB service |
| 1030 |
Possible Cause: The flowrate exceeds the Max-Alarm setting
Suggested Action: Reduce flowrate or set higher Max Alarm |
| 1031 |
Max Alarm Process Temperature |
| 1032 |
Possible Cause: The Process Temperature exceeds the Max-Alarm setting
Suggested Action: Reduce Process Temperature or set higher Max Alarm |
| 1033 |
Possible Cause: The Pressure exceeds the Max-Alarm setting
Suggested Action: Reduce Process Pressure or set higher Max Alarm |
| 1034 |
Possible Cause: The flowrate is below the Min Alarm setting
Suggested Action: Increase flowrate or set lower Min Alarm |
| 1035 |
Min Alarm Process Temperature |
| 1036 |
Possible Cause: The Process Temperature is below the Min Alarm setting
Suggested Action: Increase Process Temperature or set lower Min Alarm |
| 1037 |
Possible Cause: The Pressure is below the Min Alarm setting
Suggested Action: Increase Process Pressure or set lower Min Alarm |
| 1038 |
Signal Quality Error |
| 1039 |
Possible Cause:
Strong interference.
Sensor degradation.
Suggested Action:
Clear Sensor or Change Sensor.
Contact local ABB service |
| 1040 |
Nv Memory Error in FrontEnd |
| 1041 |
Possible Cause:
Data In NV Memory broken.
Connection Wire Broken.
Suggested Action:
Replace Communication Board.
Contact local ABB service |
| 1042 |
Sensor Calibaraion Status |
| 1043 |
Possible Cause: Calibaraion Need.
Suggested Action: Do Calibrate |
| 1044 |
FE Sync Missing |
| 1045 |
Possible Cause: Multiplex Circuit Broken or Data sequency distanbance
Suggested Action: Contact local ABB service |
| 1046 |
Communication Error |
| 1047 |
Possible Cause: Transmitter could not establish digital communication to the FE sensor board
Suggested Action:
Check for correct wiring
Check wiring for cable brake or short circuit.
Contact local ABB service |
| 1048 |
NV Memory Error in Transmitter |
| 1049 |
Possible Cause:
NV mermory broken.
MCU communication with NV Broken.
Suggested Action: Replace Communication Board.
Contact local ABB service |
| 1050 |
AI SPI Communication Error |
| 1051 |
Possible Cause: AI SPI communication error
Suggested Action:
AI board Miss
AI Interconnection Broken.
Contact local ABB service |
| 1052 |
DO Output is Cut OFF |
| 1053 |
Possible Cause: Pulse output is cut off.
Suggested Action: Check pulse out configuration |
| 1054 |
RE out of linear range |
| 1055 |
Possible Cause: RE out of linear range.
Suggested Action: Check flowrate |
| 1056 |
Sensor Maintainance Required |
| 1057 |
Possible Cause: Reach Sensor Maintainance Cycle time
Suggested Action: Recalibrate the Sensor
Contact local ABB service |
| 1058 |
CB Insufficient Voltage |
| 1059 |
Possible Cause: The Supplier voltage is insufficient
Suggested Action: Inrease the supplier voltage |
| 1060 |
Min Alarm Ambient Temperature |
| 1061 |
Possible Cause: The Pressure is below the Min Alarm setting
Suggested Action: Increase Process Temperature or set lower Min Alarm |
| 1062 |
Max Alarm Ambient Temperature |
| 1063 |
Possible Cause: The ambient Temperature exceeds the Max-Alarm setting
Suggested Action: Reduce Process Temperature or set higher Max Alarm |
| 1064 |
Low cutoff Alarm Flowrate |
| 1065 |
Possible Cause: The flowrate is below the Min Alarm setting
Suggested Action: Increase flowrate or set lower Min Alarm |
| 1066 |
Possible Cause:
Flowrate exceeds the max. flowrange that is set.
This alarm occurs if flowrate is higher than 103% of the flowrange setting. (NAMUR requirement)
Suggested Action:
Reduce flowrate or set higher flowrange or mask this alarm.
This means that this flowrate alarm will not occur any more. |
| 1067 |
Possible Cause:
The Transmitter runs in a simulation mode currently.
All Outputs correspond to the simulated value that has been set.
Suggested Action: To eliminate the alarm, switch Simulation Mode to OFF. |
| 1068 |
Diagnosis Simulation |
| 1069 |
Possible Cause: The Transmitter runs in a simulation mode currently. The ouput diagnosis infomaiton is simulation
Suggested Action: To eliminate the alarm, switch Diagnosis Simulation Mode to OFF |
| 1070 |
Simulated/Fixed Current Output |
| 1071 |
Possible Cause:
The Transmitter runs in a simulation mode currently. In simulation mode, the Current Output does not correspond to the flowrate.
This feature gives the opportunity to check the current output (20mA Output) at the connection terminals 31 / 32 with a digital voltmeter.
This alarm will also be set if HART adress is different to 0, means HART Multidrop Mode (current output fixed to 4mA)
Suggested Action:
To eliminate the alarm, switch simulation mode to OFF.
Check for the HART adress. Set HART address to 0. |
| 1072 |
Current Output failure |
| 1073 |
Possible Cause: Current Output failure
Suggested Action:
Current Output Loop Broken
MCU AD Broken.
Contact local ABB service |
| 1074 |
ROM Error in Transmitter |
| 1075 |
Possible Cause: ROM error in Transmitter
Suggested Action: Replace Cartridge. Contact local ABB service |
| 1076 |
RAM Error in Transmitter |
| 1077 |
Possible Cause: RAM error in Transmitter
Suggested Action: Replace Cartridge. Contact local ABB service |
| 1078 |
RAM Error in FrontEnd |
| 1079 |
Possible Cause: RAM error in Transmitter
Suggested Action:
Replace Cartridge.
Contact local ABB service |
| 1080 |
Possible Cause:
The function assigned to this activated Input is Totalizer Stop
Due to this reason the totalizer is forced to stop counting (external totalizer stop). |
| 1081 |
Totalizer Reset |
| 1082 |
Possible Cause:
The function assigned to this activated Input is Totalizer Reset
Due to this reason the totalizer is re-set to zero. |
| 1083 |
Diag. Simulation Status - Enable |
| 1084 |
8.4f |
| 1085 |
PV Assignment |
| 1086 |
SV Assignment |
| 1087 |
TV Assignment |
| 1088 |
QV Assignment |
| 1089 |
Current Output Calibration |
| 1090 |
upload to device |
| 1091 |
download from device |
| 1092 |
PV Analog Channel Saturated |
| 1093 |
PV Analog Channel Fixed |
| 1094 |
Wireless |
| 1095 |
WirelessHART Device |
| 1096 |
IEEE 802.15.4 2.4GHz DSSS with O-QPSK Modulation |
| 1097 |
Primary |
| 1098 |
Primary Analog Channel |
| 1099 |
Secondary |
| 1100 |
Secondary Analog Channel |
| 1101 |
Tertiary |
| 1102 |
Tertiary Analog Channel |
| 1103 |
Quaternary |
| 1104 |
Quaternary Analog Channel |
| 1105 |
Quinary |
| 1106 |
Quinary Analog Channel |
| 1107 |
Critical Power Failure |
| 1108 |
Lock all |
| 1109 |
Trim not supported |
| 1110 |
Configuration cannot be changed |
| 1111 |
Locked by gateway |
| 1112 |
Analog Input Channel |
| 1113 |
Analog Output Channel |
| 1114 |
Secondary Analog Channel Saturated |
| 1115 |
Tertiary Analog Channel Saturated |
| 1116 |
Quaternary Analog Channel Saturated |
| 1117 |
Quinary Analog Channel Saturated |
| 1118 |
Secondary Analog Channel Fixed |
| 1119 |
Tertiary Analog Channel Fixed |
| 1120 |
Quaternary Analog Channel Fixed |
| 1121 |
Quinary Analog Channel Fixed |
| 1122 |
Simulation active |
| 1123 |
The device is in simulation mode and the level output is not representative of the process. |
| 1124 |
Non-Volatile memory failure |
| 1125 |
The Non-Volatile memory check is invalid or maybe corrupt, or the battery of a battery-backed memory has failed. |
| 1126 |
Volatile memory error |
| 1127 |
The RAM memory check is invalid or maybe corrupt |
| 1128 |
Watchdog reset executed |
| 1129 |
A watchdog reset has been performed |
| 1130 |
Voltage conditions out of range |
| 1131 |
A voltage condition is outside its allowable range |
| 1132 |
Environmental conditions out of range |
| 1133 |
An internal or environmental condition is beyond acceptable limits. |
| 1134 |
Electronic failure |
| 1135 |
A hardware problem not related to the sensor has been detected. |
| 1136 |
Subdevice list changed |
| 1137 |
Duplicate master detected |
| 1138 |
Capacity Denied |
| 1139 |
The device was unable to acquire the communication bandwidth required to support the Burst Messaging specified |
| 1140 |
Bandwidth allocation pending |
| 1141 |
Block transfer pending |
| 1142 |
Battery life |
| 1143 |
Percent range |
| 1144 |
Loop current |
| 1145 |
Primary variable |
| 1146 |
Secondary variable |
| 1147 |
Tertiary variable |
| 1148 |
Quaternary variable |
| 1149 |
Read receive time |
| 1150 |
Write date and time |
| 1151 |
Non-Volatile Clock |
| 1152 |
When set the device contains a battery-backed clock. In this case, the clock does not need to be reset if there is a power failure. |
| 1153 |
Clock Uninitialized |
| 1154 |
The real-time clock has never been set with the date and time. For example, the clock is volatile and power was removed from and restored to the device. |
| 1155 |
No restrictions |
| 1156 |
SI Only |
| 1157 |
Restricted to SI Unit codes only |
| 1158 |
Process automation device |
| 1159 |
Discrete device |
| 1160 |
Hybrid:Process automation+discrete |
| 1161 |
I/O System |
| 1162 |
WirelessHART Process automation device |
| 1163 |
WirelessHART Discrete device |
| 1164 |
WirelessHART Process automation+discrete |
| 1165 |
WirelessHART Gateway |
| 1166 |
WirelessHART Access point |
| 1167 |
WirelessHART Process adapter |
| 1168 |
WirelessHART Discrete adapter |
| 1169 |
WirelessHART enabled handheld/portable maintenance tool |
| 1170 |
Device Profile |
| 1171 |
US |
| 1172 |
United States of America |
| 1173 |
JP |
| 1174 |
Japan |
| 1175 |
DE |
| 1176 |
Germany |
| 1177 |
FR |
| 1178 |
France |
| 1179 |
ES |
| 1180 |
Spain |
| 1181 |
RU |
| 1182 |
Russian Federation |
| 1183 |
CN |
| 1184 |
People's Republic of China |
| 1185 |
Secondary Master |
| 1186 |
Primary Master |
| 1187 |
Device Diagnostic Status 0 |
| 1188 |
Device Diagnostic Status 1 |
| 1189 |
I/O and Subdevice Status |
| 1190 |
WirelessHART Status |
| 1191 |
Time Set Option |
| 1192 |
Real Time Clock Flags |
| 1193 |
Country |
| 1194 |
Country of intended device installation |
| 1195 |
SI Unit Control |
| 1196 |
Indicates if device should only display SI unit codes |
| 1197 |
Wired HART Enabled |
| 1198 |
Enabled on Wired HART device connection only |
| 1199 |
Wireless HART Enabled |
| 1200 |
Enabled on WirelessHART device connection only |
| 1201 |
Both Wired and WirelessHart Enabled |
| 1202 |
Enabled on both Wired and WirelessHART connections |
| 1203 |
Burst Trigger Class |
| 1204 |
Burst Msg Trigger Mode |
| 1205 |
Burst Trigger Units |
| 1206 |
Continuous |
| 1207 |
The Burst Message is published continuously at (worst case) the Minimum Update Period. |
| 1208 |
Window |
| 1209 |
The Burst Message is triggered when the source value deviates more than the specified trigger value |
| 1210 |
Rising |
| 1211 |
The Burst Message is triggered when source value Rises Above the specified trigger value. |
| 1212 |
Falling |
| 1213 |
The Burst Message is triggered when the source value Falls Below the specified trigger value. |
| 1214 |
On-change |
| 1215 |
The Burst Message is triggered when any value in the message changes. |
| 1216 |
Enable on token-passing data link layer only |
| 1217 |
Enable on TDMA data link layer only |
| 1218 |
Enable on both TDMA and token-passing data link layer |
| 1219 |
Time Stamp |
| 1220 |
Relative time value on network |
| 1221 |
8u |
| 1222 |
Dynamic Variables Returned for Device Variables |
| 1223 |
Command Response Truncated |
| 1224 |
Configuration Change Counter Mismatch |
| 1225 |
Status bytes mismatch |
| 1226 |
8.3f |
| 1227 |
Device Variable |
| 1228 |
Variable to trim |
| 1229 |
System Zero Adjust is Ongoing |
| 1230 |
System Zero Adjust Completed Without Errors |
| 1231 |
System Zero Adjust failed.
Calculated Value is Out of Range |
| 1232 |
Set Value |
| 1233 |
Sensor will Perform Self Check |
| 1234 |
Performing Self Check |
| 1235 |
Sensor Self Check completed, Check Diagnosis Conditions. |
| 1236 |
Totalizer will be RESET |
| 1237 |
Enter Preset Value for Actual Volume Totalizer |
| 1238 |
Enter Preset Value for Standard Volume Totalizer |
| 1239 |
Enter Preset Value for Mass Totalizer |
| 1240 |
Enter Preset Value for Energy Totalizer |
| 1241 |
Enter Preset Value for Net Actual Totalizer |
| 1242 |
Enter Preset Value for Net Standard Totalizer |
| 1243 |
Enter the Preset Value |
| 1244 |
Limits for Qv Max are:
Min: %{min} %{Qv_UnitCode}
Max: %{max} %{Qv_UnitCode} |
| 1245 |
Limits for Qn Max are:
Min: %{min} %{Qn_UnitCode}
Max: %{max} %{Qn_UnitCode} |
| 1246 |
Limits for Qm Max are:
Min: %{min} %{Qm_UnitCode}
Max: %{max} %{Qm_UnitCode} |
| 1247 |
Limits for Qp Max are:
Min: %{min} %{Qp_UnitCode}
Max: %{max} %{Qp_UnitCode} |
| 1248 |
Select to Simulate : |
| 1249 |
Enter Value to Simulate : |
| 1250 |
Simulating Process |
| 1251 |
Simulated Value: %{QvSimObj_value_0}%{Qv_UnitCode}
Feedback Value: %{Qv_Obj_Value}%{Qv_UnitCode} |
| 1252 |
Simulated Value: %{QvPerSim} %
Feedback Value: %{Qv_Percentage} % |
| 1253 |
Simulated Value: %{QmSimObj_value_0}%{Qm_UnitCode}
Feedback Value: %{Qm_Obj_Value}%{Qm_UnitCode} |
| 1254 |
Simulated Value: %{QmPerSim} Percent
Feedback Value: %{Qm_Percentage} Percent |
| 1255 |
Simulated Value: %{temperatureSim_Obj_value_0}%{T_UnitCode}
Feedback Value: %{T_Obj_Value}%{T_UnitCode} |
| 1256 |
Simulated Value: %{elettronicTemperature_Simu_Obj_value_0}%{elettronicTemperature_Obj_unit}
Feedback Value: %{elettronicTemperature_Obj_value_0}%{elettronicTemperature_Obj_unit} |
| 1257 |
Simulated Value: %{simuFrequency} Hz |
| 1258 |
Simulated Value: %{lgcSimCmd} |
| 1259 |
Simulated Value: %{simuPulsesNum} |
| 1260 |
Simulated Value: %{aiSimulationData} mA |
| 1261 |
Simulated Value: %{hartInSim} |
| 1262 |
Simulated Value: %{frequency_SimObj_value_0} Hz |
| 1263 |
Terminating Simulation |
| 1264 |
Compressibility Factor
T1 T2 T3
%{TA_1} %{TA_2} %{TA_3} %{T_UnitCode}
P1: %{PA_1} %{CF_1} %{CF_2} %{CF_3}
P2: %{PA_2} %{CF_4} %{CF_5} %{CF_6}
P3: %{PA_3} %{CF_7} %{CF_8} %{CF_9}
%{P_UnitCode} |
| 1265 |
Compressibility Factor
T1 T2 T3
%{TA_1} %{TA_2} %{TA_3} %{T_UnitCode}
P1: %{PA_1} %{CF_1} %{CF_2} %{CF_3}
P2: %{PA_2} %{CF_4} %{CF_5} %{CF_6}
P3: %{PA_3} %{CF_7} %{CF_8} %{CF_9}
P4: %{PA_4} %{CF_10} %{CF_11} %{CF_12}
%{P_UnitCode} |
| 1266 |
Matrix Size used is 9x7, use DTM to view the Compressibility Factor Values |
| 1267 |
WARNING: Current Configuration for Gas calculation is done using 9x7 Matrix
Use DTM to view the Compressibility Factor Values
Changes made can't be reverted using DD |
| 1268 |
Abort;Continue |
| 1269 |
Aborting method due to last error |
| 1270 |
Select Matrix Size to be used: |
| 1271 |
3x3;4x3 |
| 1272 |
P1 = |
| 1273 |
P2 = |
| 1274 |
P3 = |
| 1275 |
P4 = |
| 1276 |
T1 = |
| 1277 |
T2 = |
| 1278 |
T3 = |
| 1279 |
Z11 = |
| 1280 |
Z12 = |
| 1281 |
Z13 = |
| 1282 |
Z21 = |
| 1283 |
Z22 = |
| 1284 |
Z23 = |
| 1285 |
Z31 = |
| 1286 |
Z32 = |
| 1287 |
Z33 = |
| 1288 |
Z41 = |
| 1289 |
Z42 = |
| 1290 |
Z43 = |
| 1291 |
Incorrect Password |