| 0 |
MVD Series 3000 |
| 1 |
.1f |
| 2 |
A000: Undefined |
| 3 |
A001: EEPROM Error (CP) |
| 4 |
A002: RAM Error (CP) |
| 5 |
A003: No Sensor Response |
| 6 |
A004: Temperature Overrange |
| 7 |
A005: Mass Flow Rate Overrange |
| 8 |
A006: Characterization Required |
| 9 |
A007: Real-Time Interrupt Failure |
| 10 |
A008: Density Overrange |
| 11 |
A009: Transmitter Initializing/Warming Up |
| 12 |
A010: Calibration Failure |
| 13 |
A011: Zero Calibration Failed: Low |
| 14 |
A012: Zero Calibration Failed: High |
| 15 |
A013: Zero Calibration Failed: Unstable |
| 16 |
A014: Transmitter Failure |
| 17 |
A015: MA Readback Error |
| 18 |
A016: Sensor RTD Failure |
| 19 |
A017: T-Series RTD Failure |
| 20 |
A018: EEPROM Error (Xmtr) |
| 21 |
A019: RAM Error (Xmtr) |
| 22 |
A020: No Flow Cal Value |
| 23 |
A021: No K1 Value |
| 24 |
A022: Config DB Corrupt (CP) |
| 25 |
A023: Internal Totals Corrupt (CP) |
| 26 |
A024: Program Corrupt (CP) |
| 27 |
A025: Boot Sector Fault (CP) |
| 28 |
A026: Sensor/Xmtr Comm Failure |
| 29 |
A027: Security Breach |
| 30 |
A028: CP Write Failure |
| 31 |
A029: PIC/Daughterboard Comm Failure |
| 32 |
A030: Incorrect Board Type |
| 33 |
A031: Low Power |
| 34 |
A032: MV: Outputs to Fault |
| 35 |
A033: No LPO/RPO Signal |
| 36 |
A034: Meter Verification Failed |
| 37 |
A035: Meter Verification Aborted |
| 38 |
A036: Undefined |
| 39 |
A037: Undefined |
| 40 |
A038: Undefined |
| 41 |
A039: Undefined |
| 42 |
A100: MAO1 Saturated |
| 43 |
A101: MAO1 Fixed |
| 44 |
A102: Drive Overrange |
| 45 |
A103: Data Loss Possible |
| 46 |
A104: Calibration-In-Progress |
| 47 |
A105: Slug Flow |
| 48 |
A106: Burst Mode Enabled |
| 49 |
A107: Power Reset Occurred |
| 50 |
A108: Single-SP Event 1 ON |
| 51 |
A109: Single-SP Event 2 ON |
| 52 |
A110: FO Saturated |
| 53 |
A111: FO Fixed |
| 54 |
A112: Upgrade Transmitter Software |
| 55 |
A113: MAO2 Saturated |
| 56 |
A114: MAO2 Fixed |
| 57 |
A115: No External Data |
| 58 |
A116: API: Temperature Overrange |
| 59 |
A117: API: Density Overrange |
| 60 |
A118: DO1 Fixed |
| 61 |
A119: DO2 Fixed |
| 62 |
A120: ED: Curve Fit Failure |
| 63 |
A121: ED: Extrapolation Alert |
| 64 |
A122: DO3 Fixed |
| 65 |
A123: DO4 Fixed |
| 66 |
A124: FI Saturated |
| 67 |
A125: Batch Timeout |
| 68 |
A126: Batch Overrun |
| 69 |
A127: Batch No Reset |
| 70 |
A128: Batch/Fill No Start |
| 71 |
A129: PPI Display Error |
| 72 |
A130: Printer Out of Paper |
| 73 |
A131: MV: Outputs to LMV |
| 74 |
A132: Sensor Simulation Active |
| 75 |
A133: PIC UI EEPROM Error |
| 76 |
A134: PPI Memory Error |
| 77 |
A135: PPI Communication Error |
| 78 |
A136: Undefined |
| 79 |
A137: Undefined |
| 80 |
A138: Undefined |
| 81 |
A139: Undefined |
| 82 |
D1 Calibration In Progress |
| 83 |
D2 Calibration In Progress |
| 84 |
D3 Calibration In Progress |
| 85 |
D4 Calibration In Progress |
| 86 |
FD Calibration In Progress |
| 87 |
Zero Calibration In Progress |
| 88 |
Temperature Slope Calibration In Progress |
| 89 |
Temperature Offset Calibration In Progress |
| 90 |
Discrete Event 1 Active |
| 91 |
Discrete Event 2 Active |
| 92 |
Discrete Event 3 Active |
| 93 |
Discrete Event 4 Active |
| 94 |
Discrete Event 5 Active |
| 95 |
Discrete Output 1 Active |
| 96 |
Discrete Output 2 Active |
| 97 |
Discrete Output 3 Active |
| 98 |
Discrete Input 1 Active |
| 99 |
Discrete Input 2 Active |
| 100 |
Flow Rate Switch Active |
| 101 |
Undefined |
| 102 |
Field Device Variable- Digital measurement that changes with respect to time without user intervention. |
| 103 |
No specific error |
| 104 |
Invalid selection |
| 105 |
Too few data bytes received |
| 106 |
Field device specific error |
| 107 |
Update fail |
| 108 |
Access restricted |
| 109 |
In write protect mode |
| 110 |
Invalid flange type |
| 111 |
Invalid liner material code |
| 112 |
Invalid sensor material code |
| 113 |
Invalid base mass time unit |
| 114 |
Invalid base flow unit |
| 115 |
Flow Switch Hysteresis Out of Range |
| 116 |
Invalid base volume time unit |
| 117 |
Invalid base volume flow unit |
| 118 |
Value was too high |
| 119 |
Value was too low |
| 120 |
Frequency Output Disabled |
| 121 |
Discrete Input index out-of-range |
| 122 |
Discrete Input assignment out-of-range |
| 123 |
Discrete Input polarity out-of-range |
| 124 |
Discrete Input Disabled |
| 125 |
Discrete Input action invalid |
| 126 |
Frequency Factor out of range |
| 127 |
Incorrect format |
| 128 |
Discrete Output index out-of-range |
| 129 |
Discrete Output polarity out-of-range |
| 130 |
Discrete Output state out-of-range |
| 131 |
Discrete Output Disabled |
| 132 |
Invalid unit |
| 133 |
Temperature correction factor out of range |
| 134 |
Zero Pressure Correction Point too low |
| 135 |
Invalid Correction for Temperature on Liquid Volume Table Type |
| 136 |
Enhanced Density Curve out-of-range |
| 137 |
Enable Concentration Measurement Code Out of Range |
| 138 |
Enable Curve Lock Code Out of Range |
| 139 |
Invalid Concentration Units Code |
| 140 |
Invalid Temperature Units Code |
| 141 |
Invalid Density Units Code |
| 142 |
Transmitter-Specific Command Error (Invalid CM curve) |
| 143 |
Reference Temperature Out of Range |
| 144 |
Water Reference Temperature Out of Range |
| 145 |
Water Reference Density Out of Range |
| 146 |
Slope Trim Out of Range |
| 147 |
Slope Offset Out of Range |
| 148 |
Extrapolation Alarm Limit Out of Range |
| 149 |
Max Fit Order Out of Range |
| 150 |
Invalid Concentration Measurement Mode Code |
| 151 |
Invalid Curve Index |
| 152 |
Invalid Data Index |
| 153 |
Drive Gain |
| 154 |
Density |
| 155 |
Primary Variable |
| 156 |
3rd Variable |
| 157 |
4th Variable |
| 158 |
Process Var Charts |
| 159 |
Process Charts |
| 160 |
Secondary Variable |
| 161 |
Tertiary Variable |
| 162 |
Quarternary Variable |
| 163 |
Gas Standard Volume Flow |
| 164 |
Density at Reference Temperature |
| 165 |
Volume Flow at Ref Temperature |
| 166 |
Average Observed Density |
| 167 |
Average Observed Temperature |
| 168 |
CTL |
| 169 |
Standard Volume Flow Rate |
| 170 |
Net Mass Flow Rate |
| 171 |
Standard Net Volume Flow Rate |
| 172 |
Density at Reference |
| 173 |
Density (Fixed SG Units) |
| 174 |
Tube Frequency |
| 175 |
Core Processor Input Voltage |
| 176 |
Current (mA Output 1) |
| 177 |
Current (mA Output 2) |
| 178 |
Frequency Output |
| 179 |
Time in Seconds |
| 180 |
Left and Right Pickoff Stiffness |
| 181 |
Fluid Density at Reference Temperature and Specified Concentration |
| 182 |
Concentration |
| 183 |
Ref Temperature |
| 184 |
Concentration 1 |
| 185 |
Density 1 at Ref |
| 186 |
Concentration 2 |
| 187 |
Density 2 at Ref |
| 188 |
Concentration 3 |
| 189 |
Density 3 at Ref |
| 190 |
Concentration 4 |
| 191 |
Density 4 at Ref |
| 192 |
Concentration 5 |
| 193 |
Density 5 at Ref |
| 194 |
Concentration 6 |
| 195 |
Density 6 at Ref |
| 196 |
Fluid Density at Specified Temperature and Concentration |
| 197 |
Density 1 |
| 198 |
Density 2 |
| 199 |
Density 3 |
| 200 |
Density 4 |
| 201 |
Density 5 |
| 202 |
Left Pickoff Stiffness Percent |
| 203 |
% |
| 204 |
Right Pickoff Stiffness Percent |
| 205 |
Concentration Measurement |
| 206 |
Frequency input Flow Rate |
| 207 |
% Maximum Aeration Limit |
| 208 |
Read Modbus Data |
| 209 |
Write Modbus Data |
| 210 |
When set,indicates that Discrete Output 1 has been triggered. |
| 211 |
Sensor |
| 212 |
Petroleum Measurement Set Up |
| 213 |
Perform Auto Zero |
| 214 |
First Point |
| 215 |
Second Point |
| 216 |
Third Point |
| 217 |
Fourth Point |
| 218 |
Flowing Density |
| 219 |
Discrete Output 3 Test |
| 220 |
Fix mA output- Allows the User to manually manipulate a selected mA output to a selected constant output value. |
| 221 |
Digital to Analog Trim- Allows the calibration of a selected mA output with an external reference at the operating endpoints of the mA output. |
| 222 |
Reset All |
| 223 |
Leaving fixed current mode |
| 224 |
Leaving Fixed Current Mode- Takes the selected mA output out of a mode where the output was a constant value, and returns the output to a mode where the output then tracks the input. |
| 225 |
Real Time Clock |
| 226 |
mA Outputs |
| 227 |
Discrete Outputs |
| 228 |
Discrete Inputs |
| 229 |
Special Units |
| 230 |
External Pressure/Temperature |
| 231 |
Resets internal totalizers for Enhanced Density Reference (Corrected) Volume Total. |
| 232 |
Resets internal totalizers Enhanced Density Net Mass Total. |
| 233 |
Resets internal totalizers for Enhanced Density Net Volume Total. |
| 234 |
Set Frequency Input Scaling |
| 235 |
Start |
| 236 |
MV Upload Results |
| 237 |
Setup |
| 238 |
Show Last 20 Results |
| 239 |
Turn Off Schedule |
| 240 |
Enable/Disable Write Protect |
| 241 |
Enter Matrix |
| 242 |
Reset Matrix Data |
| 243 |
Setup Presets |
| 244 |
LD Optimization |
| 245 |
No Additional Information for Above |
| 246 |
Additional Information for Above |
| 247 |
A004: Temperature Overrange |
| 248 |
A006: Characterization Required |
| 249 |
A008: Density Overrange |
| 250 |
A009: Transmitter Initializing/Warming Up |
| 251 |
A011: Zero Calibration Failed: Low |
| 252 |
A012: Zero Calibration Failed: High |
| 253 |
A013: Zero Calibration Failed: Unstable |
| 254 |
A020: No Flow Calibration Value |
| 255 |
A029: PIC/Daughterboard Communication Failure |
| 256 |
A100: mA Output Saturated |
| 257 |
A101: mA Output Fixed |
| 258 |
The core processor was unable to successfully store the totalizers and inventories on the last power down and must rely on the previously saved values. These values may be up to two hours old. The transmitter is still functional. |
| 259 |
A114: mA Output 2 Fixed |
| 260 |
A116: Temperature Overrange (Petroleum Measurement) |
| 261 |
A117: Density Overrange (Petroleum Measurement) |
| 262 |
A121: Extrapolation Alert (Concentration Measurement) |
| 263 |
A134: Memory Error (Display) |
| 264 |
A135: Transmitter/Display Communications Error |
| 265 |
Primary Variable Out of Limits |
| 266 |
Non-Primary Variable Out of Limits |
| 267 |
Primary Variable mA Output Saturated |
| 268 |
Primary Variable mA Output Fixed |
| 269 |
Configure Matrix |
| 270 |
Trim Concentration Measurement Process Variables |
| 271 |
Device Reset |
| 272 |
Restore Factory Configuration |
| 273 |
Disable Simulation |
| 274 |
License Note |
| 275 |
Hot key |
| 276 |
Online |
| 277 |
Overview |
| 278 |
Configure |
| 279 |
Service Tools |
| 280 |
Meter Verification |
| 281 |
Manual Verification |
| 282 |
Most Recent Test Results |
| 283 |
Automatic Verification |
| 284 |
Calibration |
| 285 |
Security and Simulation |
| 286 |
Totalizers |
| 287 |
Variables |
| 288 |
Security |
| 289 |
Display |
| 290 |
Inputs/Outputs Fault Actions |
| 291 |
Additional |
| 292 |
Alert Severity |
| 293 |
Discrete Events |
| 294 |
Concentration Measurement Alerts |
| 295 |
Identification |
| 296 |
Revisions |
| 297 |
All Totalizers |
| 298 |
Volume |
| 299 |
Outputs |
| 300 |
Inputs |
| 301 |
mA Output 1 (mAO1) |
| 302 |
mA Output 2 (mAO2) |
| 303 |
Discrete Input 1 |
| 304 |
Discrete Input 2 |
| 305 |
Marine Bunkering Variables |
| 306 |
Sensor Tag Parameters |
| 307 |
Density Parameters |
| 308 |
Mass Special Units |
| 309 |
Volume Special Units |
| 310 |
Gas Standard Volume |
| 311 |
Concentration Measurement Configuration |
| 312 |
Matrix Configuration |
| 313 |
At Specific Temp and Conc |
| 314 |
At Reference Temp and Conc |
| 315 |
Density at Reference |
| 316 |
Temperature Isotherm |
| 317 |
Isotherm 1 |
| 318 |
Isotherm 2 |
| 319 |
Isotherm 3 |
| 320 |
Isotherm 4 |
| 321 |
Isotherm 5 |
| 322 |
Isotherm 6 |
| 323 |
Preset 1 |
| 324 |
Preset 3 |
| 325 |
Preset 4 |
| 326 |
Preset 5 |
| 327 |
Preset 6 |
| 328 |
Preset 2 |
| 329 |
Display Variables (16 - 20) |
| 330 |
Process Variables |
| 331 |
Primary Variables |
| 332 |
Petroleum Measurement |
| 333 |
Concentration Measurement |
| 334 |
mAO1 Fault Settings |
| 335 |
mAO2 Fault Settings |
| 336 |
Discrete Output |
| 337 |
Discrete Input |
| 338 |
Set Up Bell 202 Port |
| 339 |
HART Burst Mode |
| 340 |
Settings |
| 341 |
Discrete Event 1 |
| 342 |
Discrete Event 2 |
| 343 |
Discrete Event 3 |
| 344 |
Discrete Event 4 |
| 345 |
Discrete Event 5 |
| 346 |
mA Output Setup |
| 347 |
mA Output 1 Fault Setup |
| 348 |
mA Output 2 Fault Setup |
| 349 |
Frequency Output Fault Setup |
| 350 |
F: EEPROM Error (CP) |
| 351 |
F: RAM Error (CP) |
| 352 |
F: No Sensor Response |
| 353 |
F: Temperature Overrange |
| 354 |
Additional Information |
| 355 |
F: Mass Flow Rate Overrange |
| 356 |
View Diagnostic Variables |
| 357 |
Electronics |
| 358 |
Zero |
| 359 |
F: Characterization Required |
| 360 |
F: Density Overrange |
| 361 |
View Density Characterization |
| 362 |
F: Transmitter Initializing/Warming Up |
| 363 |
F: Calibration Failure |
| 364 |
F: Zero Calibration Failed: Low |
| 365 |
F: Zero Calibration Failed: High |
| 366 |
F: Zero Calibration Failed: Unstable |
| 367 |
F: Transmitter Failure |
| 368 |
F: Sensor RTD Failure |
| 369 |
F: T-Series RTD Failure |
| 370 |
F: EEPROM Error (Transmitter) |
| 371 |
F: RAM Error (Transmitter) |
| 372 |
F: No Flow Calibration Value |
| 373 |
F: No K1 Value |
| 374 |
F: Configuration Database Corrupt (Core Processor) |
| 375 |
F: Internal Totals Corrupt (Core Processor) |
| 376 |
F: Program Corrupt (Core Processor) |
| 377 |
F: Boot Sector Fault (Core Processor) |
| 378 |
F: Sensor/Transmitter Communications Failure |
| 379 |
F: Security Breach |
| 380 |
F: Core Processor Write Failure |
| 381 |
F: PIC/Daughterboard Communication Failure |
| 382 |
F: Meter Verification in Progress: Outputs to Fault |
| 383 |
F: Outputs Fixed During Meter Verification |
| 384 |
F: No Right/Left Pickoff Signal |
| 385 |
View Slug Flow Condition |
| 386 |
F: Meter Verification Failed |
| 387 |
F: Meter Verification Aborted |
| 388 |
A: mA Output Saturated |
| 389 |
A: mA Output Fixed |
| 390 |
M: Drive Overrange |
| 391 |
M: Data Loss Possible (Totals and Inventories) |
| 392 |
A: Calibration In Progress |
| 393 |
M: Slug Flow |
| 394 |
A: Burst Mode Enabled |
| 395 |
M: Power Reset Occurred |
| 396 |
M: Single-Setpoint Event 1 ON |
| 397 |
M: Single-Setpoint Event 2 ON |
| 398 |
A: Frequency Output Saturated |
| 399 |
A: Frequency Output Fixed |
| 400 |
A: mA Output 2 Saturated |
| 401 |
A: mA Output 2 Fixed |
| 402 |
M: No External Input or Polled Data |
| 403 |
M: Temperature Overrange (Petroleum Measurement) |
| 404 |
M: Density Overrange (Petroleum Measurement) |
| 405 |
A: Discrete Output 1 Fixed |
| 406 |
A: Discrete Output 2 Fixed |
| 407 |
A: Curve Fit Failure (Concentration Measurement) |
| 408 |
M: Extrapolation Alert (Concentration Measurement) |
| 409 |
View Concentration Measurement Variables |
| 410 |
M: Frequency Input Saturated |
| 411 |
M: Batch Timeout |
| 412 |
M: Batch Overrun |
| 413 |
M: Batch No Reset |
| 414 |
M: Batch/Fill No Start |
| 415 |
M: Meter Verification in Progress |
| 416 |
M: Meter Verification in Progress: Outputs to Last Measured Value |
| 417 |
A: Sensor Simulation Active |
| 418 |
M: EEPROM Error (Display) |
| 419 |
M: Memory Error (Display) |
| 420 |
M: Transmitter/Display Communications Error |
| 421 |
A: Discrete Event 1 Active |
| 422 |
A: Discrete Event 2 Active |
| 423 |
A: Discrete Event 3 Active |
| 424 |
A: Discrete Event 4 Active |
| 425 |
A: Discrete Event 5 Active |
| 426 |
A: Discrete Input Active |
| 427 |
M: Primary Variable Out of Limits |
| 428 |
M: Non-Primary Variable Out of Limits |
| 429 |
M: Primary Variable mA Output Saturated |
| 430 |
A: Primary Variable mA Output Fixed |
| 431 |
M: Cold Start |
| 432 |
M: Field Device Malfunction |
| 433 |
Reset/Restore |
| 434 |
Sensor Serial Number- Uniquely identifies the sensor from which the Digital Value representation or Field Device variable is primarily derived. |
| 435 |
8d |
| 436 |
Forward |
| 437 |
Reverse |
| 438 |
Bi directional |
| 439 |
None |
| 440 |
2500 Config I/O |
| 441 |
Start |
| 442 |
Stop |
| 443 |
Reset |
| 444 |
Petroleum Measurement |
| 445 |
Net Oil Computer |
| 446 |
Smart Meter Verification Professional |
| 447 |
Marine Bunkering |
| 448 |
Active Matrix |
| 449 |
Curve 1 |
| 450 |
Curve 2 |
| 451 |
Curve 3 |
| 452 |
Curve 4 |
| 453 |
Curve 5 |
| 454 |
Curve 6 |
| 455 |
.2f |
| 456 |
.3f |
| 457 |
.4f |
| 458 |
.5f |
| 459 |
The mass flow rate below which the frequency/pulse output indicates zero flow,and below which totalizers stop counting. Cutoffs can also be configured for the mA output(s) (the mA output cutoffs). An mA output cutoff is active only if the process variable assigned to the output is mass flow or volume flow. |
| 460 |
4.2f |
| 461 |
mA Output Upper Limit |
| 462 |
mA output Lower Endpoint Value- Defines the lower endpoint, of the respective mA output, for normal operating conditions. |
| 463 |
mA Output Lower Limit |
| 464 |
mA output Added Damping Value- Damping time constant applied the mA output. The units of this variable are always in seconds. |
| 465 |
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. |
| 466 |
Primary Variable Percent Range |
| 467 |
Secondary Variable Percent Range |
| 468 |
mA Output Alarm Type |
| 469 |
High |
| 470 |
Low |
| 471 |
Special |
| 472 |
Transfer Function |
| 473 |
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. |
| 474 |
Frequency Input Flow Upper Range Value |
| 475 |
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. |
| 476 |
Mass Flow Lower Range Value |
| 477 |
Frequency Input Flow Lower Range Value |
| 478 |
Damping Value- Damping time constant applied to both the Digital Value representation and Analog Value of the respective mA output. The units of this variable are always in seconds. |
| 479 |
Upper Sensor Limit Value- Defines the maximum usable value for the Upper Range Value. |
| 480 |
Mass Flow Upper Sensor Limit |
| 481 |
8.2f |
| 482 |
Frequency Input Flow Upper Sensor Limit |
| 483 |
Lower Sensor Limit Value- Defines the minimum usable value for the Lower Range Value. |
| 484 |
Mass Flow Lower Sensor Limit |
| 485 |
Frequency Input Flow Lower Sensor Limit |
| 486 |
Minimum Span Value- Defines the smallest allowable difference between the Upper Range Value and the Lower Range Value. |
| 487 |
Mass Flow Minimum Span |
| 488 |
Frequency Input Flow Minimum Span |
| 489 |
8.3f |
| 490 |
8.6f |
| 491 |
Damping |
| 492 |
Sensor Unit |
| 493 |
Upper Sensor Limit |
| 494 |
Lower Sensor Limit |
| 495 |
mA Output 1 |
| 496 |
mA Output 1 Cutoff |
| 497 |
mA Output 2 Cutoff |
| 498 |
mA Output 2 |
| 499 |
Mass Total Unit |
| 500 |
.6f |
| 501 |
The volume flow rate below which the frequency/pulse output indicates zero flow,and below which totalizers stop counting. Cutoffs can also be configured for the mA output(s) (the mA output cutoffs). An mA output cutoff is active only if the process variable assigned to the output is mass flow or volume flow. |
| 502 |
Volume Flow Lower Range Value |
| 503 |
Volume Flow Upper Sensor Limit |
| 504 |
10.4f |
| 505 |
Volume Flow Lower Sensor Limit |
| 506 |
Volume Flow Minimum Span |
| 507 |
Volume Flow Total Unit |
| 508 |
Volume Total |
| 509 |
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. |
| 510 |
External Pressure |
| 511 |
mA Output |
| 512 |
6.2f |
| 513 |
Density Cutoff |
| 514 |
Density Damping |
| 515 |
Density Upper Range Limit |
| 516 |
Density Lower Range Limit |
| 517 |
Density Minimum Span |
| 518 |
Flow Damping |
| 519 |
5.4f |
| 520 |
External Temperature |
| 521 |
Enhanced Density Standard Volume Flow |
| 522 |
Enhanced Density Standard Volume Total |
| 523 |
Enhanced Density Standard Volume Inventory |
| 524 |
Flow Rate |
| 525 |
Enhanced Density Net Volume Flow |
| 526 |
Total |
| 527 |
Enhanced Density Net Volume Total |
| 528 |
Inventory |
| 529 |
Enhanced Density Net Volume Inventory |
| 530 |
Flow Rate |
| 531 |
Enhanced Density Net Mass Flow |
| 532 |
Total |
| 533 |
Enhanced Density Net Mass Total |
| 534 |
Inventory |
| 535 |
Enhanced Density Net Mass Inventory |
| 536 |
Enhanced Density at Reference |
| 537 |
Enhanced Density (SGU) |
| 538 |
Enhanced Density (Baume) |
| 539 |
Enhanced Density Concentration |
| 540 |
6.1f |
| 541 |
Frequency Input Unit |
| 542 |
Frequency Input total unit |
| 543 |
Frequency Input Total |
| 544 |
Frequency Input Inventory |
| 545 |
Density at Reference Temperature |
| 546 |
Average Observed Temperature |
| 547 |
Frequency Input frequency |
| 548 |
Net Volume Flow Rate |
| 549 |
PV |
| 550 |
SV |
| 551 |
TV |
| 552 |
QV |
| 553 |
Sanitary Clamp Fitting |
| 554 |
Union |
| 555 |
Unknown |
| 556 |
Tube Lining |
| 557 |
Tube Wetted Material |
| 558 |
5.2f |
| 559 |
FlowCal |
| 560 |
Base Unit |
| 561 |
Base Time |
| 562 |
Present Freq Output |
| 563 |
5.3f |
| 564 |
Frequency Input |
| 565 |
5d |
| 566 |
Frequency Input Scaling Method |
| 567 |
µsec |
| 568 |
5.5f |
| 569 |
1d |
| 570 |
6.5f |
| 571 |
Fault Timeout |
| 572 |
2d |
| 573 |
Digital Communication Fault Setup |
| 574 |
Downscale: mA outputs that indicate flow go to the configured limit,the frequency output equals 0 Hz. Upscale: Milliamp and frequency outputs go to the configured limit. Internal zero: Flow outputs indicate zero flow. |
| 575 |
Fault Action |
| 576 |
Fault Action |
| 577 |
Fault Action |
| 578 |
Upscale (15000 Hz) |
| 579 |
Fault Action |
| 580 |
Fault Level |
| 581 |
Fault Level |
| 582 |
Fault Level |
| 583 |
The mass or volume flow rate below which is a mA output representing flow indicates zero flow. |
| 584 |
mA Output Flow Rate Cutoff |
| 585 |
mA Output 1 Cutoff |
| 586 |
mA Output 2 Cutoff |
| 587 |
Cutoff Type |
| 588 |
Reference temperature |
| 589 |
7.2f |
| 590 |
Temperature Unit |
| 591 |
Meter Temperature: T-Series |
| 592 |
Variable Code |
| 593 |
Type Code |
| 594 |
Variable |
| 595 |
Event Type |
| 596 |
Position 16 |
| 597 |
Position 17 |
| 598 |
Position 18 |
| 599 |
Position 19 |
| 600 |
Position 20 |
| 601 |
4.1f |
| 602 |
Generic |
| 603 |
Number of Tickets |
| 604 |
Characters/Second |
| 605 |
Poll as primary host |
| 606 |
Poll as secondary host |
| 607 |
Polled Variable 1 |
| 608 |
Polled Variable 2 |
| 609 |
9.8f |
| 610 |
10.7f |
| 611 |
Pressure Compensation |
| 612 |
Disable |
| 613 |
Enable |
| 614 |
Compensation Pressure |
| 615 |
6.4f |
| 616 |
External Temperature |
| 617 |
Correction Temperature |
| 618 |
Meter Verify Failed |
| 619 |
RS485 Dual Function |
| 620 |
Discrete Output 1 State |
| 621 |
Polarity |
| 622 |
Discrete Output 2 State |
| 623 |
Polarity |
| 624 |
Fault Action |
| 625 |
Assignment |
| 626 |
Discrete Output 3 State |
| 627 |
Polarity |
| 628 |
Fault Action |
| 629 |
Discrete Output 1 Setup |
| 630 |
Discrete Output 1 is |
| 631 |
Discrete Output is |
| 632 |
Discrete Output 1 Polarity |
| 633 |
Discrete Output 1 Fault Indication |
| 634 |
Discrete Output 2 Setup |
| 635 |
Discrete Output 2 Fault Indication |
| 636 |
Discrete Output 3 Setup |
| 637 |
Discrete Output 3 Fault Indication |
| 638 |
Discrete Input 1 State |
| 639 |
DI 1 Polarity |
| 640 |
Discrete Input 2 State |
| 641 |
DI 2 Polarity |
| 642 |
Discrete Input 1 Setup |
| 643 |
Discrete Input is |
| 644 |
Discrete Input 1 Polarity |
| 645 |
Discrete Input 2 Setup |
| 646 |
Discrete Input 2 Polarity |
| 647 |
Reset Petroleum Reference Volume |
| 648 |
Reset All Totals |
| 649 |
Reset Concentration Reference Volume |
| 650 |
Reset Concentration Net Mass |
| 651 |
Reset Concentration Net Volume |
| 652 |
Increment Concentration Curve |
| 653 |
Alarm Number |
| 654 |
3d |
| 655 |
Alarm severity |
| 656 |
Source |
| 657 |
Corrected Temperature Volume Flow |
| 658 |
Enhanced Density Standard Volume Flow |
| 659 |
No |
| 660 |
Yes |
| 661 |
2.2f |
| 662 |
3.2f |
| 663 |
Concentration Measurement Curve |
| 664 |
Preset 1 Inventory |
| 665 |
Batch Preset Number |
| 666 |
Variable Code 0 |
| 667 |
Variable Code 1 |
| 668 |
Variable Code 2 |
| 669 |
Variable Code 3 |
| 670 |
Variable Code 4 |
| 671 |
Variable Code 5 |
| 672 |
Variable Code 6 |
| 673 |
Variable Code 7 |
| 674 |
Variable Code 8 |
| 675 |
Variable Code 9 |
| 676 |
Variable Code 10 |
| 677 |
Variable Code 11 |
| 678 |
Variable Code 12 |
| 679 |
Variable Code 13 |
| 680 |
Variable Code 14 |
| 681 |
Variable Code 15 |
| 682 |
Variable Code 16 |
| 683 |
Variable Code 17 |
| 684 |
Variable Code 18 |
| 685 |
Variable Code 19 |
| 686 |
Variable Code 20 |
| 687 |
Variable Code 21 |
| 688 |
Variable Code 22 |
| 689 |
Variable Code 23 |
| 690 |
Variable Code 24 |
| 691 |
Variable Code 25 |
| 692 |
Variable Code 26 |
| 693 |
Variable Code 27 |
| 694 |
Variable Code 28 |
| 695 |
Variable Code 29 |
| 696 |
Variable Code 30 |
| 697 |
Variable Code 31 |
| 698 |
Variable Code 32 |
| 699 |
Variable Code 33 |
| 700 |
Variable Code 34 |
| 701 |
Variable Code 35 |
| 702 |
Variable Code 36 |
| 703 |
Variable Code 37 |
| 704 |
Variable Code 38 |
| 705 |
Coil |
| 706 |
Coil Value: |
| 707 |
Disabled |
| 708 |
Enabled |
| 709 |
Time is measured in terms of time elapsed since trasmitter has been switched on first time. |
| 710 |
A113: mA Output 2 Saturated |
| 711 |
A131: MV in Progress |
| 712 |
Gas Reference Density |
| 713 |
NLPD |
| 714 |
NLPH |
| 715 |
NLPM |
| 716 |
NLPS |
| 717 |
Nm3/day |
| 718 |
Nm3/hr |
| 719 |
Nm3/min |
| 720 |
Nm3/sec |
| 721 |
SCFD |
| 722 |
SCFH |
| 723 |
SCFM |
| 724 |
SCFS |
| 725 |
SLPD |
| 726 |
SLPH |
| 727 |
SLPM |
| 728 |
SLPS |
| 729 |
Sm3/day |
| 730 |
Sm3/hr |
| 731 |
Sm3/min |
| 732 |
Sm3/sec |
| 733 |
SL |
| 734 |
Sm3 |
| 735 |
Base Volume Unit |
| 736 |
Simulate Primary Purpose Variables |
| 737 |
Control |
| 738 |
Fixed Value |
| 739 |
Ramp Low Point |
| 740 |
Ramp High Point |
| 741 |
Ramp Period |
| 742 |
Abort |
| 743 |
Uncertainty Limit |
| 744 |
Watchdog Timeout |
| 745 |
Left Pickoff stiffness out of limits |
| 746 |
Indicates whether Left Pickoff stiffness out of limits. |
| 747 |
Right Pickoff stiffness out of limits |
| 748 |
Indicates whether Right PickOff stiffness out of limits. |
| 749 |
Temperature corrected Volume |
| 750 |
RTD Cable Resistance |
| 751 |
T-Series RTD Resistance |
| 752 |
Line RTD Resistance |
| 753 |
Power On Time |
| 754 |
Engineer to Order Number |
| 755 |
Refresh Rate (100-10,000) |
| 756 |
English |
| 757 |
German |
| 758 |
French |
| 759 |
Not reset-able from display or digital communications |
| 760 |
Reset-able from display only |
| 761 |
Reset-able from digital communications only |
| 762 |
Reset-able from display and digital communications |
| 763 |
Core Processor Software |
| 764 |
Device Identification (CP) |
| 765 |
Factory Calibration of Air Means |
| 766 |
Factory Calibration of Water Means |
| 767 |
Meter Verification dataset Left PickOff stiffness. |
| 768 |
Dataset Left Pickoff Stiffness |
| 769 |
Meter Verification dataset Right PickOff stiffness. |
| 770 |
Dataset Right Pickoff Stiffness |
| 771 |
Meter Verification dataset Left PickOff mass. |
| 772 |
Dataset Left Pickoff Mass |
| 773 |
Meter Verification dataset Right PickOff mass. |
| 774 |
Dataset Right Pickoff Mass |
| 775 |
Weights and Measures Software Version |
| 776 |
Temperature |
| 777 |
4.4f |
| 778 |
Hours until Next Run |
| 779 |
Hours between Recurring Runs (0=Schedule is not repeating) |
| 780 |
Hours Remaining until Next Run |
| 781 |
Reason for Abort |
| 782 |
Manual Abort |
| 783 |
Watchdog Timeout |
| 784 |
High Peak Drive Voltage |
| 785 |
High Drive Current Standard Deviation |
| 786 |
High Drive Current Mean Value |
| 787 |
Drive Loop Reported Error |
| 788 |
High Delta T Standard Deviation |
| 789 |
High Delta T Value |
| 790 |
State Running |
| 791 |
Verification Complete |
| 792 |
Wrong Verification Enable |
| 793 |
No Factory Air Verification |
| 794 |
No Factory Water Verification |
| 795 |
Parameter Registers not Set |
| 796 |
Transmitter Running Seconds at Test |
| 797 |
Time |
| 798 |
Normalized Left Pickoff |
| 799 |
Normalized Right PickOff |
| 800 |
Set Point |
| 801 |
Reference Temperature |
| 802 |
Water Reference Temperature |
| 803 |
Slope |
| 804 |
Offset |
| 805 |
Limit |
| 806 |
Curve Fit Maximum Order |
| 807 |
2 |
| 808 |
3 |
| 809 |
4 |
| 810 |
5 |
| 811 |
Concentration Measurement |
| 812 |
Concentration Matrices |
| 813 |
Unlock |
| 814 |
Lock |
| 815 |
Temperature High |
| 816 |
Density Low |
| 817 |
Density High |
| 818 |
Temperature Low |
| 819 |
Water Reference Density |
| 820 |
Accuracy |
| 821 |
Curve Fit Results |
| 822 |
Good |
| 823 |
Poor |
| 824 |
Failed |
| 825 |
Empty |
| 826 |
Temperature Units |
| 827 |
Density Units |
| 828 |
Concentration Units |
| 829 |
Matrix Name |
| 830 |
Concentration Unit String |
| 831 |
Matrix Being Configured |
| 832 |
Derived Variable |
| 833 |
Standard |
| 834 |
Specific Gravity (SG) |
| 835 |
Mass Concentration (Density) |
| 836 |
Mass Concentration (SG) |
| 837 |
Volume Concentration (Density) |
| 838 |
Volume Concentration (SG) |
| 839 |
Concentration (Density) |
| 840 |
Concentration (SG) |
| 841 |
Density 6 |
| 842 |
Temperature Iso 1 |
| 843 |
Temperature Iso 2 |
| 844 |
Temperature Iso 3 |
| 845 |
Temperature Iso 4 |
| 846 |
Temperature Iso 5 |
| 847 |
Temperature Iso 6 |
| 848 |
Action |
| 849 |
Fixed |
| 850 |
Live |
| 851 |
Keep Existing Assignment |
| 852 |
|
| 853 |
Advisory |
| 854 |
Analog Output Information |
| 855 |
Sensor Model |
| 856 |
Diagnostics |
| 857 |
2nd Variable Information |
| 858 |
All Variables |
| 859 |
Input/Output |
| 860 |
Slug Flow |
| 861 |
Pressure |
| 862 |
T-Series Config |
| 863 |
Display Precision |
| 864 |
Burst Setup |
| 865 |
Set the year, month, day, hours, minutes and seconds for the real time clock. |
| 866 |
Configure map variables, primary and secondary output, discrete outputs, pulse output, discrete inputs, pulse input settings and RS-485 port. |
| 867 |
Set the batch flow source and control options. |
| 868 |
Set fixed value for the mA, frequency and discrete outputs. |
| 869 |
Perform digital to analog trim of the mA outputs. |
| 870 |
Loop Tests |
| 871 |
Set a fixed output value for the first milliamp output. |
| 872 |
Set a fixed output value for the second milliamp output. |
| 873 |
Set a fixed output value for the third discrete output. |
| 874 |
mA Output Trim |
| 875 |
Perform digital to analog trim of the first milliamp output. |
| 876 |
Perform digital to analog trim of the second milliamp output. |
| 877 |
Configure the Process Monitor Screens by selecting the desired process variables for each screen. |
| 878 |
Configure the number of decimal places for each process variable. |
| 879 |
Assign variables to the first and second milliamp outputs, define upper and lower range values, cutoffs and dampings. |
| 880 |
Assign a variable to the frequency output, set maximum pulse width, polarity and scaling. |
| 881 |
Assign variables to the first, second and third discrete outputs, set flow switch. |
| 882 |
Assign polarity to the first and second discrete inputs. |
| 883 |
Assign units to the frequency input and scaling. |
| 884 |
Set up Bell-202 port (HART only) and RS-485 port (Modbus, HART or printer). |
| 885 |
Assign variables to primary (PV), secondary (SV), third (TV) and fourth (QV) variables. |
| 886 |
Concentration Variables |
| 887 |
Read modbus register values. |
| 888 |
Write modbus register values. |
| 889 |
Status |
| 890 |
Status |
| 891 |
This screen will not automatically refresh after changing the 'Type' field. Select Guided Setup and then return to this screen to see the current configuration. |
| 892 |
The DensCal Factor field on the old style sensor tag contains the K1, K2 and TC values.
The first 5 characters are K1, the second 5 characters are K2 and the remaining characters are TC. |
| 893 |
Optional Setup |
| 894 |
Frequency Output |
| 895 |
Digital Communications |
| 896 |
Frequency Input |
| 897 |
Note:If Smart Meter Verification Professional license is not present, then device will have default Basic Smart Meter Verification in it. |
| 898 |
Simulation Status |
| 899 |
Security Switch Status |
| 900 |
Simulation Configuration |
| 901 |
Mass Flow Rate Simulation Settings |
| 902 |
Density Simulation Settings |
| 903 |
Temperature Simulation Settings |
| 904 |
Revision Numbers |
| 905 |
World Area Information |
| 906 |
Enter an Alert number and change the Alert's severity to Fault, Information or Ignore. |
| 907 |
Enter an Alert number and view the current severity of the alert. |
| 908 |
Extrapolation Limit |
| 909 |
Set Up Real Time Clock |
| 910 |
Specify the display precision for each process variable. |
| 911 |
Specify the display precision for each totalizer and inventory. |
| 912 |
Specify the display precision for each diagnostic variable. |
| 913 |
Totalizer Variables |
| 914 |
Diagnostic Variables |
| 915 |
Sensor |
| 916 |
Zero |
| 917 |
Note: For frequency output fault action as upscale, set frequency output fault level value. |
| 918 |
The 'First Milliamp Output' uses the 'Primary Variable' as its source. |
| 919 |
The 'Second Milliamp Output' uses the 'Secondary Variable' as its source. |
| 920 |
The 'Frequency Output' uses the 'Third Variable' as its source. |
| 921 |
The 'Fourth Variable' is only used in HART communications. |
| 922 |
Simulation Settings |
| 923 |
Set Up Discrete Batch |
| 924 |
Batch Flow |
| 925 |
Set Up Discrete Inputs |
| 926 |
Note: To assign action to discrete inputs go to alert setup > discrete events > assign discrete action. |
| 927 |
Set Up Frequency Input |
| 928 |
Smart Meter Verification |
| 929 |
Continuity failure of drive circuit, LPO, or RPO, or LPO-RPO mismatch when driving. |
| 930 |
Recommended Actions:
1. Check for Slug flow.
2. View the diagnostic variables to verify whether tubes are vibrating. Left and Right pickoffs should be above 10mV.
3. Check the sensor circuitry.
4. Check sensor tubes for plugging.
5. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
6. If the problem persists, contact Micro Motion. |
| 931 |
Recommended Actions:
1. Check for slug flow.
2. View the diagnostic variables to verify whether tubes are vibrating. Left and Right pickoffs should be above 10mV.
3. Check the sensor circuitry.
4. Check sensor tubes for plugging.
5. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
6. If the problem persists, contact Micro Motion. |
| 932 |
Recommended Actions:
1. Verify that a sensor is connected to the transmitter.
2. Check the sensor RTD circuitry.
3. Verify that process temperature is within range of sensor and transmitter.
4. If the problem persists, contact Micro Motion. |
| 933 |
Recommended Actions:
1. If other alerts are present (typically, A003, A006, A008, A102, or A105), resolve those alerts first. If the A005 alert persists, continue with the suggestions below.
2. View the diagnostic variables to verify whether tubes are vibrating. Left and Right pickoffs should be above 10mV.
3. Check the sensor circuitry.
4. Check the sensor tubes for erosion by verifying density.
5. If the problem persists, contact Micro Motion. |
| 934 |
Recommended Actions:
1. Check the characterization. Specifically, verify the 'FlowCal' and 'K1' values on the sensor tag.
2.If the problem persists, contact Micro Motion. |
| 935 |
Recommended Actions:
1. Check the characterization. Specifically, verify the Flow FCF and K1 values on the sensor tag.
2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
3. If the problem persists, contact Micro Motion. |
| 936 |
The measured 'Density' has exceeded 0-10 g/cm3 |
| 937 |
Recommended Actions:
1. If other alerts are present (typically, A003, A006, A033, A102, or A105), resolve those alerts first. If the A008 alert persists, continue with the suggestions below.
2. Verify process. Check for air in the flow tubes, tubes not filled, foreign material in tubes, or coating in tubes.
3. Check the sensor circuitry.
4. Verify 'Density' characterization and verify configuration matches sensor tag.
5 View diagnostic variables to verify raw tube frequency is in the proper range for the sensor type.
6. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
7. If the problem persists, contact Micro Motion. |
| 938 |
Density Characterization |
| 939 |
Recommended Actions:
1. Allow the flowmeter to warm up (approximately 30 seconds). The error should disappear once the flowmeter is ready for normal operation.
2. Check the input voltage to ensure its between 12 and 15 V.
3. If alert does not clear, make sure that the sensor is completely full or completely empty.
4. Check the sensor circuitry.
5. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 940 |
Recommended Actions:
1. If 'A026' also appears, resolve the 'A026' first.
2. Allow the flowmeter to warm up (approximately 30 seconds). The error should disappear once the flowmeter is ready for normal operation.
3. Check the input voltage to ensure its between 12 and 15 V.
4. Check for proper voltage into the transmitter.
5. If alert does not clear, make sure that the sensor is completely full or completely empty.
6. Check the sensor circuitry.
7. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 941 |
Mechanical Zero: The resulting zero was greater than 3 microseconds.
Temperature or Density Calibrations: Many possible causes. |
| 942 |
Recommended Actions:
1. If alert appears during a transmitter zero, ensure that there is no flow through the sensor, then retry.
2. Cycle power to the flowmeter to clear the alert.
3. If appropriate, restore the factory zero to return the flowmeter to operation.
4. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
5. If alert appears during a density calibration, contact Micro Motion. |
| 943 |
Mechanical Zero: Calibration procedure failed due to reverse flow through the sensor. |
| 944 |
Mechanical Zero: Calibration procedure failed due to reverse flow through the sensor.
The resulting zero was greater than 3 microseconds. |
| 945 |
Mechanical Zero: The resulting zero was greater than 3 microseconds. |
| 946 |
Internal memory or program fault has been detected. |
| 947 |
Recommended Actions:
1. Resolve other active alerts first.
2. Cycle power to the flowmeter.
3. If alert persists, the transmitter might need service. Contact Micro Motion. |
| 948 |
Recommended Actions:
1. Check the sensor RTD circuitry.
2. Verify that process temperature is within range of sensor and transmitter.
3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
4. If the problem persists, contact Micro Motion. |
| 949 |
Recommended Actions:
1.Cycle power to the transmitter.
2.If problem persists, contact Micro Motion. |
| 950 |
Recommended Actions:
1. Check the characterization against the sensor tag. Specifically, verify the 'FlowCal', 'K1' and 'K2' values.
2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
3. If the problem persists, contact Micro Motion. |
| 951 |
Recommended Actions:
1. Check the characterization against the sensor tag. Specifically, verify the 'Flow FCF', 'K1' and 'K2' values.
2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
3. If the problem persists, contact Micro Motion. |
| 952 |
Recommended Actions:
1. If 'A017' is active, resolve it first.
2. Check the characterization against the sensor tag. Specifically, verify the 'Flow FCF', 'K1' and 'K2' values.
3. Check the sensor RTD circuitry.
4. If the problem persists, contact Micro Motion. |
| 953 |
Recommended Actions:
1. Verify the wiring between the Transmitter and Core Processor.
2. Verify the power to both the transmitter and Core Processor.
3. Cycle power to the transmitter.
4. If problem persists, contact Micro Motion. |
| 954 |
Recommended Actions:
1. Alarm can be cleared by user by putting the transmitter back in secure mode, but authorized procedure is required to seal transmitter. |
| 955 |
Recommended Actions:
1. Check for Two-Phase Flow.
2. View the diagnostic variables to verify whether tubes are vibrating. Left and Right pickoffs should be above 10mV.
3. Check the sensor circuitry.
4. Check sensor tubes for plugging.
5. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
6. If the problem persists, contact Micro Motion. |
| 956 |
Two-Phase Flow Condition |
| 957 |
Meter verification failed. The stiffness values not within acceptable limits. |
| 958 |
Recommended Actions:
1. Immediately re-run the meter verification test with outputs held at fault or last measured value. If the meter passes the second test, the fail result can be ignored. If the meter fails the second test, the flow tubes may be damaged.
2. Use the knowledge of your process to consider the type of damage and determine the appropriate action. These actions might include removing the meter from service and physically inspecting the tubes. At a minimum, perform a flow validation and a density calibration.
3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 959 |
Meter verification aborted. |
| 960 |
Reason:
User Initiated Abort
Recommend Actions:
1. Wait for 15 seconds before starting meter verification again.
2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 961 |
Reason:
Frequency Drift
Recommend Actions:
1. Ensure 'Temperature', 'Flow' and 'Density' are stable and run meter verification again.
2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 962 |
Reason:
High Drive Gain
Recommend Actions:
1. Ensure flow is steady and minimize entrained gas and run meter verification again.
2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 963 |
Reason:
Unstable Flow
Recommend Actions:
1. Reduce flow rate and run meter verification again.
2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 964 |
Reason:
No Air Reference
Recommend Actions:
1. Perform factory calibration on air.
2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 965 |
Reason:
No Water Reference
Recommend Actions:
1. Perform factory calibration on water.
2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 966 |
Reason:
Missing Configuration
Recommend Actions:
1. Load verification parameter registers with proper values.
2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 967 |
Reason:
Other
Recommend Actions:
1. Run meter verification again.
2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
3. If abort persists, contact Micro Motion. |
| 968 |
Recommended Actions:
1. Check the sensor circuitry.
2. If this is the only active alarm, it can be ignored. If desired, reconfigure the alarm severity to Ignore.
3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 969 |
Recommended Actions:
1. Verify the transmitter and core processor have proper input voltage.
2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
3. If the problem persists, contact Micro Motion. |
| 970 |
Slug Flow. |
| 971 |
The 'Density' has exceeded the user-defined Slug Flow (density) limits. |
| 972 |
Recommended Actions:
1. Check that sensor is completely full.
2. Check that two phase limits are set to appropriate values.
3. Verify density cutoff is at least 0.2 g/cc.
4. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 973 |
Recommended Actions:
1. No action required.
2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 974 |
Recommended Actions:
1. No action required.
2. If desired, reconfigure the alert severity to Ignore by going to the Configure-> Alert Setup-> Alert Severity screen. |
| 975 |
Recommended Actions:
1. HART polling connection to external device has failed. Ensure that external device is available:
2. Verify external device is not in fault.
3. Verify HART segment power, wiring and loop resistance.
4. Verify polling configuration in the transmitter and external device.
5. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 976 |
Recommended Actions:
1. Verify process.
2. Verify configuration for Petroleum Measurement reference table and 'Temperature'.
3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 977 |
The process 'Density' is outside Petroleum Measurement defined extrapolation limits. |
| 978 |
Recommended Actions:
1. If other alerts are present, resolve those alerts first.
2. Verify process.
3. Verify configuration for Petroleum Measurement reference table and 'Density'.
4. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 979 |
The process 'Temperature' or 'Density' is outside the user-defined extrapolation limits. |
| 980 |
Recommended Actions:
1. Verify the process 'Temperature' and 'Density'.
2. Verify Concentration Measurement (CM) extrapolation alert limit.
3. Verify process. If tubes are empty or there is gas in the process, wait for condition to clear itself.
4. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 981 |
Frequency input from external device is too high. |
| 982 |
Recommended Actions:
1. Verify that frequency input parameters are set to appropriate values. |
| 983 |
No flow was detected for the number of seconds configured for Time Out. |
| 984 |
Recommended Actions:
1. Check valves, piping, and pumps for proper operation.
2. Increase number of seconds for Time Out.
3. If ignore source alarms is set to YES, increase number of minutes for Alarm Timeout.
4. After cause has been diagnosed, press END to end batch or RESUME to resume batch. |
| 985 |
Batch total has exceeded target:
•Batch has not ended.
•Flow is still being measured. |
| 986 |
Recommended Actions:
1. Check wiring for discrete output indicating overrun.
2. Check device connected to discrete output indicating overrun.
3. Enable batch Automatic Overshoot Compensation (AOC).
4. After cause has been diagnosed, press RESET or START to start new batch. |
| 987 |
Operator attempted to start batch without pressing RESET. |
| 988 |
Recommended Actions:
1. Press RESET, then press START.
2. Set reset on start option to YES. |
| 989 |
Many possible causes:
•Enable batch control option is set to NO.
•Batch flow source is not configured.
•Control functions have not been assigned to discrete outputs.
•An alert is active.
•Discrete input is configured to inhibit batch.
•Target value is zero. |
| 990 |
Recommended Actions:
1. Set enable batch control option to YES.
2. Configure batch flow source.
3. Assign control functions such as primary valve, secondary valve, or pump to discrete outputs.
4. Clear all alerts.
5. Shut off discrete input.
6. Change target value. |
| 991 |
Recommended Actions:
1. Allow the procedure to complete.
2. If desired, abort the procedure and restart with outputs set to fault.
3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 992 |
Recommended Actions:
1. Allow the procedure to complete. You may abort the procedure if desired.
2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 993 |
Memory or checksum error in transmitter display. |
| 994 |
Recommended Actions:
1. Cycle power to the flow meter.
2. The flow meter might need service. Contact Micro Motion. |
| 995 |
Internal communication error with transmitter display. |
| 996 |
Recommended Actions:
1. Verify process and check for slug flow.
2. Check the diagnostic variables.
3. Check the sensor circuitry.
4. Check the sensor tubes for erosion.
5. If the problem persists, contact Micro Motion. |
| 997 |
Recommended Actions:
1.Check the 'HART Address'. If non-zero, set mA output Action parameter to enable Live mA Output.
2. If mA output trim is being performed, exit mA output trim.
3. If mA output loop test is being performed, exit mA output loop test.
4. Check to see if the output has been fixed via digital communications or the local display. |
| 998 |
Recommended Actions:
1. This is a summary alert and is generated when one of the fault severity alerts is active. Resolve the other active alerts first. |
| 999 |
Recommended Actions:
1. Verify that mA output range values are set to appropriate values.
2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 1000 |
Non-zero 'HART address' configured,or user has set the mA output to a fixed value. |
| 1001 |
Recommended Actions:
1. Check the 'HART address'. If non-zero, set 'mA Output Action' parameter to enable 'Live mA Output' or if multi-drop mode is desired change the alert severity to ignore by going to the Configure-> Alert Setup-> Alert Severity screen.
2. If mA output trim is being performed, exit mA output trim.
3. If mA output loop test is being performed, exit mA output loop test.
4. Check to see if the output has been fixed via digital communications or the local display. |
| 1002 |
Recommended Actions:
1. Allow the flowmeter to complete calibration.
2. For zero calibration procedures, you may abort the calibration, set the zero time parameter to a lower value, and restart the calibration.
3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 1003 |
Process variable assigned to 'Frequency Output' is outside configured scale limits. |
| 1004 |
Recommended Actions:
1. Change 'Frequency Output' scaling factors to more appropriate settings.
2. If the 'Third Variable' is set to 'Volume Flow', low 'Density' or empty tubes can cause the Frequency Output to saturate.
3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 1005 |
Recommended Actions:
1. Exit 'Frequency Output' test.
2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 1006 |
Recommended Actions:
1. Exit 'Discrete Output' test.
2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 1007 |
A119: Discrete Output 2 Fixed |
| 1008 |
A120: Curve Fit Failure (Concentration Measurement) |
| 1009 |
The configured 'Density'/'Temperature'/'Concentration' values do not result in a proper Concentration Measurement (CM) curve. |
| 1010 |
Recommended Actions:
1. Verify Concentration Measurement (CM) matrix configuration by going to Configure-> Manual Setup-> Measurements-> Concentration Measurement-> Enter Matrix. |
| 1011 |
Recommended Actions:
1. Disable output simulation.
2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 1012 |
Discrete Input 1 is active. |
| 1013 |
Matrix Selection |
| 1014 |
Extrapolation Alert |
| 1015 |
Reference Condition |
| 1016 |
Electronic Conditions |
| 1017 |
Sensor Conditions |
| 1018 |
Recommended Actions:
1. Check for slug flow if connected to core 700.
2. View the diagnostic variables to verify whether tubes are vibrating. Left and Right pickoffs should be above 10mV if connected to core 700.
3. Check the sensor circuitry.
4. Check sensor tubes for plugging if connected to core 700.
5. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
6. If the problem persists, contact Micro Motion. |
| 1019 |
Process Conditions |
| 1020 |
Recommended Actions:
1. If other alerts are present (typically, A003, A006, A008, A102, or A105), resolve those alerts first. If the A005 alert persists, continue with the suggestions below.
2. Verify process and check for slug flow.
3. Check the test points.
4. Check the sensor circuitry.
5. Check the sensor tubes for erosion.
6. If the problem persists, contact Micro Motion. |
| 1021 |
Configuration Conditions |
| 1022 |
Recommended Actions:
1. Check the characterization. Specifically, verify the FCF and K1 values.
2. If the problem persists, contact Micro Motion |
| 1023 |
Recommended Actions:
1. If other alerts are present (typically, A003, A006, A102, or A105), resolve those alerts first. If the A008 alert persists, continue with the suggestions below.
2. Verify process. Check for air in the flow tubes, tubes not filled, foreign material in tubes, or coating in tubes.
3. Check for slug flow.
4. Check the sensor circuitry.
5. Verify calibration factors in transmitter configuration.
6. Check the test points.
7. If the problem persists, contact Micro Motion. |
| 1024 |
Recommended Actions:
1. Allow the flowmeter to warm up (approximately 30 seconds). The error should disappear once the flowmeter is ready for normal operation.
2. If alert does not clear, make sure that the sensor is completely full or completely empty.
3. Check the sensor circuitry. |
| 1025 |
Recommended Actions:
1. If alert appears during a transmitter zero, ensure that there is no flow through the sensor, then retry.
2. Cycle power to the flowmeter, then retry.
3. If appropriate, restore the factory zero to return the flowmeter to operation. |
| 1026 |
Recommended Actions:
1. Ensure that there is no flow through the sensor, then retry.
2. Cycle power to the flowmeter, then retry.
3. If appropriate, restore the factory zero to return the flowmeter to operation. |
| 1027 |
Recommended Actions:
1. Remove or reduce sources of electromechanical noise, then retry. Sources of noise include mechanical pumps, pipe stress at sensor, electrical interference, or vibration effects from nearby machinery.
2. Cycle power to the flowmeter, then retry.
3. If appropriate, restore the factory zero to return the flowmeter to operation. |
| 1028 |
Recommended Actions:
1.Cycle power to the transmitter.
2.If problem persists, call Micro Motion. |
| 1029 |
Recommended Actions:
1. Check the characterization. Specifically, verify the FCF and K1 values.
2. Check the sensor RTD circuitry.
3. If the problem persists, contact Micro Motion. |
| 1030 |
Recommended Actions:
1.Cycle power to the flowmeter.
2.The transmitter might need service. Contact Micro Motion. |
| 1031 |
Recommended Actions:
1. Verify the wiring between the Transmitter and Core Processor.
2. Cycle power to the transmitter.
3. If problem persists, call Micro Motion. |
| 1032 |
Recommended Actions:
1. Alarm can be cleared by user, but authorized procedure is required to reestablish security. |
| 1033 |
Recommended Actions:
1. Cycle power to the flowmeter.
2. The transmitter might need service or upgrading. Contact Micro Motion. |
| 1034 |
Recommended Actions:
1. Cycle power to the flowmeter.
2. If the problem persists, contact Micro Motion. |
| 1035 |
Recommended Actions:
1. Allow the procedure to complete.
2. If desired, abort the procedure and restart with outputs set to last measured value. |
| 1036 |
Recommended Actions:
1. Verify process. Check for air in the flow tubes, tubes not filled, foreign material in tubes, or coating in tubes. |
| 1037 |
Recommended Actions:
1. Meter verification aborted. |
| 1038 |
Recommended Actions:
1. Check the sensor circuitry.
2. If this is the only active alarm, it can be ignored. If desired, reconfigure the alarm severity to Ignore. |
| 1039 |
Recommended Actions:
1. No action required. |
| 1040 |
Recommended Actions:
1. No action required.
2. If desired, reconfigure the alarm severity to Ignore. |
| 1041 |
Recommended Actions:
1. Set enable batch control option to YES.
2. Configure batch flow source.
3. Assign control functions such as primary valve, secondary valve, or pump to discrete outputs.
4. Clear all alerts.
5.5. Shut off discrete input.
6. Change target value. |
| 1042 |
Recommended Actions:
1. Verify process and check for slug flow.
2. Check the test points.
3. Check the sensor circuitry.
4. Check the sensor tubes for erosion.
5. If the problem persists, contact Micro Motion. |
| 1043 |
Recommended Actions:
1. The first command to recognize this condition will automatically reset this flag.
2. This flag may also be set following a Master Reset or a Self Test. |
| 1044 |
Recommended Actions:
1. Check the test points.
2. Check the sensor circuitry.
3. If the problem persists, contact Micro Motion. |
| 1045 |
Recommended Actions:
1. Allow the flowmeter to complete calibration.
2. For zero calibration procedures, you may abort the calibration, set the zero time parameter to a lower value, and restart the calibration. |
| 1046 |
Classic View |
| 1047 |
Performs a zero calibration. |
| 1048 |
Performs a density calibration. |
| 1049 |
Performs a temperature calibration. |
| 1050 |
Power-cycle the device without affecting device configuration. |
| 1051 |
Overwrite the existing device configuration with the configuration set at the factory. |
| 1052 |
Manually reset the configuration changed flag if the host is not able to reset the flag automatically. |
| 1053 |
Enable or Disable write protect mode |
| 1054 |
FMU860 |
| 1055 |
DT |
| 1056 |
DVC |
| 1057 |
FCX |
| 1058 |
AS800 |
| 1059 |
340T |
| 1060 |
340C |
| 1061 |
344 |
| 1062 |
Siemens Micro K |
| 1063 |
SITRANS L |
| 1064 |
SIPAN PH |
| 1065 |
SITRANS P |
| 1066 |
75SMT |
| 1067 |
UNIDELTA |
| 1068 |
8320 |
| 1069 |
SX5100 |
| 1070 |
TSV175 |
| 1071 |
DMU |
| 1072 |
3780 |
| 1073 |
BM70 |
| 1074 |
8u |
| 1075 |
low |
| 1076 |
high |
| 1077 |
tmp_av |
| 1078 |
The device is currently in write protect mode. |
| 1079 |
Offset Calibration
Enter Temperature in %{0} |
| 1080 |
Slope Calibration
Enter Temperature in %{0} |
| 1081 |
Selection for data type: |
| 1082 |
'Enter Coil Number': |
| 1083 |
number |
| 1084 |
'Enter Register Number': |
| 1085 |
Coil Value is %0 and Exception Code is %1. |
| 1086 |
Unsigned 16 Value is %0 and Exception Code is %1. |
| 1087 |
Unsigned 32 Value is %0 and Exception Code is %1. |
| 1088 |
Floating Point Value is %[f]{0} and Exception Code is %1. |
| 1089 |
Register is read-only. |
| 1090 |
off;on |
| 1091 |
Enter Unsigned 16 Value: |
| 1092 |
uValue |
| 1093 |
Enter Unsigned 32 Value: |
| 1094 |
Enter Floating Point Value: |
| 1095 |
fValue |
| 1096 |
Reset Alarm Log;Acknowledge All Alarms;Reset Power On Time;Restore Factory Configuration;Reset All ED Curve Information;Enable Write Protect;Disable Write Protect;Restore Factory Zero;Exit |
| 1097 |
alarmNum |
| 1098 |
Proceed;Change |
| 1099 |
Set scale- Low output value |
| 1100 |
Set scale- High output value |
| 1101 |
Connect 'reference meter'. |
| 1102 |
Setting field device output to 4mA |
| 1103 |
Enter 'Meter Value': |
| 1104 |
Setting field device output to 20mA |
| 1105 |
Discrete Event 1 Triggered: Yes |
| 1106 |
Discrete Event 1 Triggered: No |
| 1107 |
Discrete Event 2 Triggered: Yes |
| 1108 |
Discrete Event 2 Triggered: No |
| 1109 |
Discrete Event 3 Triggered: Yes |
| 1110 |
Discrete Event 3 Triggered: No |
| 1111 |
Discrete Event 4 Triggered: Yes |
| 1112 |
Discrete Event 4 Triggered: No |
| 1113 |
Discrete Event 5 Triggered: Yes |
| 1114 |
Discrete Event 5 Triggered: No |
| 1115 |
Discrete Output 1 Triggered: Yes |
| 1116 |
Discrete Output 1 Triggered: No |
| 1117 |
Current sensor type selection is Other (Curved Tube).
Select 'Sensor Type': |
| 1118 |
Current sensor type selection is T-Series (Straight Tube).
Select Sensor Type: |
| 1119 |
select |
| 1120 |
Parameters are being updated, please wait... |
| 1121 |
Changing configuration can affect transmitter operation. Ensure that the control loop is set for manual operation before continuing. |
| 1122 |
Warning- Take the device out of process control loop. |
| 1123 |
Device is in process control loop.;Device is out of process control loop. |
| 1124 |
Choose 'Petroleum Measurement Table Number': |
| 1125 |
Choose 'Petroleum Measurement Table Letter': |
| 1126 |
Enter Thermal Expansion Coefficient: |
| 1127 |
Enter Reference Temperature: |
| 1128 |
Enter 'Zero Time': |
| 1129 |
Zero calibration is starting... |
| 1130 |
'Enter Density': |
| 1131 |
Choose a 'Discrete Event': |
| 1132 |
%0 is assigned to %1. |
| 1133 |
Choose 'Discrete Output 1': |
| 1134 |
'Discrete output' 1 is off. |
| 1135 |
'Discrete output' 1 is on. |
| 1136 |
Choose 'Discrete Output 2': |
| 1137 |
'Discrete output 2' level is off. |
| 1138 |
'Discrete output 2' is on. |
| 1139 |
Choose 'Discrete Output 3 ': |
| 1140 |
'Discrete output 3' is off |
| 1141 |
'Discrete output 3' is on |
| 1142 |
Choose 'Frequency Output': |
| 1143 |
Output: |
| 1144 |
Aborting due to field device error. |
| 1145 |
Select 'Analog Output 1' level: |
| 1146 |
'Analog output 1' is fixed at %0 mA. |
| 1147 |
'mA Output 1'about to set to %0 mA. |
| 1148 |
Yes;No |
| 1149 |
Select 'Analog Output 2' level: |
| 1150 |
'Analog output 2' is fixed at %0 mA. |
| 1151 |
'mA output 2' about to set to %0 mA. |
| 1152 |
All totalizers have been started. |
| 1153 |
All totalizers have been stopped. |
| 1154 |
Click Next to reset all totalizers. |
| 1155 |
All totalizers have been reset. |
| 1156 |
Click Next to reset Mass Total. |
| 1157 |
'Mass Total' has been reset. |
| 1158 |
Click Next to reset Volume Total. |
| 1159 |
'Volume Total' has been reset. |
| 1160 |
Select 'Alert Number': |
| 1161 |
Current severity is %0. |
| 1162 |
Select 'Alert Severity': |
| 1163 |
A%{alarmNum} is %{0} |
| 1164 |
Select the 'simulation mode': |
| 1165 |
Simulation Mode is on. |
| 1166 |
Starting meter verification, please wait. |
| 1167 |
Meter verification completed: %{0}% |
| 1168 |
Meter verification PASS. |
| 1169 |
Meter verification FAILED. |
| 1170 |
Meter verification error. |
| 1171 |
Meter verification error.
%{0} |
| 1172 |
Current Primary Variable selection is %0
Select 'Primary Variable': |
| 1173 |
Current Secondary Variable selection is %0
Select 'Secondary Variable': |
| 1174 |
Frequency Factor (Hz): |
| 1175 |
floatFreqVal |
| 1176 |
Rate Factor: |
| 1177 |
floatRateVal |
| 1178 |
Pulses/Unit: |
| 1179 |
floatPulsesPerUnit |
| 1180 |
Units/Pulse: |
| 1181 |
floatUnitsPerPulse |
| 1182 |
Select Frequency Input Scaling Method: |
| 1183 |
Frequency=Flow;Pulses/Unit;Units/Pulse |
| 1184 |
Enter 'Pressure Unit' |
| 1185 |
access restricted |
| 1186 |
View Alert Severity of: |
| 1187 |
Click Next to reset GSV Total. |
| 1188 |
'GSV Total' has been reset. |
| 1189 |
'CM Volume Total' has been reset. |
| 1190 |
'Temperature Corrected Volume Total' has been reset. |
| 1191 |
'CM Net Mass Total' has been reset. |
| 1192 |
'CM Net Volume Total' has been reset. |
| 1193 |
Current totalizer reset option selected is %0. |
| 1194 |
Select Totalizer Reset Option: |
| 1195 |
Not reset-able from display or digital communications.;Reset-able from display only.;Reset-able from digital communications only.;Reset-able from display and digital communications. |
| 1196 |
Factory zero has been restored. |
| 1197 |
Parameters are being updated. Please wait. |
| 1198 |
All alerts are acknowledged. |
| 1199 |
Select 'Output Behavior': |
| 1200 |
Continue Measuring;Outputs Held at Fault |
| 1201 |
Continue Measuring;Outputs Held at Last Value;Outputs Held at Fault |
| 1202 |
Meter Verification will hold outputs at last value for about 2 minutes.
Press Next to Start or Cancel to End. |
| 1203 |
Meter Verification will hold outputs at fault value for about 2 minutes.
Press Next to Start or Cancel to End. |
| 1204 |
Aborting due to field device error |
| 1205 |
Starting meter verification, please wait. |
| 1206 |
Smart Meter Verification Progress: %{intSMVprogress}% complete |
| 1207 |
Meter Verification PASSED.
Meter meets factory specifications. |
| 1208 |
Meter Verification FAILED.
Meter may not meet factory specifications.
Recommended Action: Run Meter Verification with outputs held at last measured value or fault. |
| 1209 |
Meter Verification FAILED.
Meter may not meet factory specifications.
Press Help for more Information. |
| 1210 |
Meter verification error. |
| 1211 |
Meter Verification ABORTED.
Reason: %{0}
Recommended Action: Wait for 15 seconds before starting Meter Verification again. |
| 1212 |
Uploading results data from device.
This will take a few minutes. |
| 1213 |
For Hours Between Recurring Runs, valid range is 1 to 1000 hours or 0 for no recurring schedule. Please enter again. |
| 1214 |
Next |
| 1215 |
select1 |
| 1216 |
Frequency Input Flow Rate:
Value %0 %1
Frequency Input:
Value %2 %3 |
| 1217 |
Temperature:
Value %0 %1
Mass Total:
Value %2 %3
%Max Aeration Limit:
Value %4 % |
| 1218 |
Drive Gain:
Value %0 %1
Density at Reference Temperature:
Value %2 %3
Average Observed Density:
Value %4 %5 |
| 1219 |
Volume Flow At Reference Temperature:
Value %0 %1
Average Observed Temperature:
Value %2 %3
Correction for Temperature on volume of Liquids:
Value %4 |
| 1220 |
Temperature:
Value %0 %1
Standard Volume Flow Rate:
Value %2 %3
Standard Net Volume Flow Rate:
Value %4 %5 |
| 1221 |
Net Mass Flow Rate:
Value %0 %1
Density at Reference:
Value %2 %3
Concentration:
Value %4 %5 |
| 1222 |
Test Result #%{Datalog_Index}
Run Number: %0
Result: %1
Abort Code: %2
Time in Seconds: %3 |
| 1223 |
Write Protect is Enabled. |
| 1224 |
Write Protect is Disabled. |
| 1225 |
Select Write Protect Action: |
| 1226 |
Enable;Disable |
| 1227 |
The concentration matrix is locked, please unlock the matrix to configure. |
| 1228 |
Press Next to reset the data for all six matrices or press Cancel to not reset the data. |
| 1229 |
All matrix data has been set to 0. |
| 1230 |
Concentration Measurement screen needs to be refreshed. |
| 1231 |
Press OK to reset the data for all six matrices or press ABORT to not reset the data. |
| 1232 |
Start Sensor Zero;Reset Mass Total;Reset Volume Total;Reset Petroleum Reference Volume;Reset All Totals;Reset Concentration Reference Volume;Reset Concentration Net Mass;Reset Concentration Net Volume;Start/Stop Totals;End Batch;Inhibit Batch;Inhibit Batch Total;Reset Batch;Resume Batch;Start Batch;Stop Batch;Increment Preset;Increment Concentration Curve;Print Screen;Print custody transfer screen;Reset Gas Standard Volume Total;Inhibit Batch Flow;Start Meter Verification |
| 1233 |
None;Discrete Event 1;Discrete Event 2;Discrete Event 3;Discrete Event 4;Discrete Event 5;Discrete Input 1;Discrete Input 2;Batch Timeout;Batching;Batch End Warn;Batch Overrun;Batch Pump;Batch Primary Valve;Batch Secondary Valve |
| 1234 |
LD Optimization is %0. |
| 1235 |
LD Optimization: |
| 1236 |
Disable;Enable |
| 1237 |
Priority: Failed - Fix Now
An uncorrectable checksum mismatch has been detected.
Recommended Actions:
1. Cycle power to the flow meter.
2. The flow meter might need service. Contact Micro Motion. |
| 1238 |
No Additional Information Available |
| 1239 |
Priority: Failed - Fix Now
ROM checksum error or a RAM location cannot be written to.
Recommended Actions:
1. Cycle power to the flowmeter.
2. The flow meter might need service. Contact Micro Motion. |
| 1240 |
Priority: Failed - Fix Now
Continuity failure of drive circuit, LPO or RPO, or LPO-RPO mismatch when driving.
Recommended Actions:
1. Check for 'Slug flow'.
2. Check the test points.
3. Check the sensor circuitry.
4. Check sensor tubes for plugging.
5. If the problem persists, contact Micro Motion. |
| 1241 |
Drive Gain:
Value %0 |
| 1242 |
Priority: Failed - Fix Now
The value computed for the resistance of the line RTD or the Meter/Case RTD is outside limits.
Recommended Actions:
1. Verify that a sensor is connected to the transmitter.
2. Check the sensor RTD circuitry.
3. Verify that process temperature is within range of sensor and transmitter.
4. If the problem persists, contact Micro Motion. |
| 1243 |
Temperature:
Value %0 |
| 1244 |
Priority: Failed - Fix Now
The measured flow has exceeded the maximum flow rate of the sensor.
Recommended Actions:
1. If other alerts are present (typically, A003, A006, A008, A102, or A105), resolve those alerts first. If the A005 alert persists, continue with the suggestions below.
2. View the diagnostic variables to verify whether tubes are vibrating. Left and Right pickoffs should be above 10mV.
3. Check the sensor circuitry.
4. Check the sensor tubes for erosion by verifying density.
5. If the problem persists, contact Micro Motion. |
| 1245 |
Priority: Failed - Fix Now
One or more required characterization parameters have not been entered.
Recommended Actions:
1. Check the characterization. Specifically, verify the 'FlowCal' and 'K1' values with the values on the sensor tag.
2. If the problem persists, contact Micro Motion |
| 1246 |
Flow Cal:
Value %0
K1:
Value %1 uSec
K2:
Value %2 uSec |
| 1247 |
Flow FCF:
Value %0
K1:
Value %1 uSec
K2:
Value %2 uSec |
| 1248 |
Priority: Failed - Fix Now
The measured density has exceeded 0-10 g/cm3.
Recommended Actions:
1. If other alerts are present (typically, A003, A006, A102, or A105), resolve those alerts first. If the A008 alert persists, continue with the suggestions below.
2. Verify process. Check for air in the flow tubes, tubes not filled, foreign material in tubes, or coating in tubes.
3. Check for slug flow.
4. Check the sensor circuitry.
5. Verify calibration factors in transmitter configuration.
6. Check the test points.
7. If the problem persists, contact Micro Motion |
| 1249 |
Priority: Failed - Fix Now
Transmitter in power-up mode.
Recommended Actions:
1.If 'A026' also appears,resolve the 'A026' first.
2. Allow the flowmeter to warm up (approximately 30 seconds). The error should disappear once the flowmeter is ready for normal operation.
3. Check the input voltage to ensure its between 12 and 15 V.
4. If alert does not clear, make sure that the sensor is completely full or completely empty.
5. Check the sensor circuitry.
6. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 1250 |
Priority: Failed - Fix Now
Transmitter in power-up mode.
Recommended Actions:
1. If A26 also appears, resolve the A26 first.
2. Allow the flowmeter to warm up (approximately 30 seconds). The error should disappear once the flowmeter is ready for normal operation.
3. Check the input voltage to ensure its between 12 and 15 V.
4. Check for proper voltage into the transmitter.
5. If alert does not clear, make sure that the sensor is completely full or completely empty.
6. Check the sensor circuitry.
7. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 1251 |
Priority: Failed - Fix Now
Mechanical zero: The resulting zero was greater than 3 microseconds
Temperature or Density Calibrations: many possible causes
Recommended Actions:
1. If alert appears during a transmitter zero, ensure that there is no flow through the sensor, then retry.
2. Cycle power to the flowmeter, to clear the alert.
3. If appropriate, restore the factory zero to return the flowmeter to operation.
4. If alert appears during a density calibration contact Micro Motion. |
| 1252 |
Priority: Failed - Fix Now
Mechanical zero: Calibration procedure failed due to reverse flow through the sensor.
Recommended Actions:
1. If alert appears during a transmitter zero, ensure that there is no flow through the sensor, then retry.
2. Cycle power to the flowmeter to clear the alert.
3. If appropriate, restore the factory zero to return the flowmeter to operation.
4. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
5. If alert appears during a density calibration, contact Micro Motion. |
| 1253 |
Priority: Failed - Fix Now
Mechanical zero: Calibration procedure failed due to flow through the sensor.The resulting zero was greater than 3 microseconds.
Recommended Actions:
1. If alert appears during a transmitter zero, ensure that there is no flow through the sensor, then retry.
2. Cycle power to the flowmeter to clear the alert.
3. If appropriate, restore the factory zero to return the flowmeter to operation.
4. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
5. If alert appears during a density calibration, contact Micro Motion. |
| 1254 |
Priority: Failed - Fix Now
Mechanical zero: The resulting zero was greater than 3 microseconds.
Recommended Actions:
1. If alert appears during a transmitter zero, ensure that there is no flow through the sensor, then retry.
2. Cycle power to the flowmeter to clear the alert.
3. If appropriate, restore the factory zero to return the flowmeter to operation.
4. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
5. If alert appears during a density calibration, contact Micro Motion. |
| 1255 |
Priority: Failed - Fix Now
Internal memory or program fault has been detected.
Recommended Actions:
1. Resolve other active alerts first.
2. Cycle power to the flowmeter.
3. If alert persists, the transmitter might need service. Contact Micro Motion. |
| 1256 |
Priority: Failed - Fix Now
The value computed for the resistance of the Line RTD is outside limits.
Recommended Actions:
1. Check the sensor RTD circuitry.
2. Verify that process temperature is within range of sensor and transmitter.
3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
4. If the problem persists, contact Micro Motion. |
| 1257 |
Priority: Failed - Fix Now
The value computed for the resistance of the Meter/Case RTD is outside limits.
Recommended Actions:
1. Check the sensor RTD circuitry.
2. Verify that process temperature is within range of sensor and transmitter.
3.If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
4. If the problem persists, contact Micro Motion. |
| 1258 |
Priority: Failed - Fix Now
The transmitter has experienced an EEPROM checksum failure.
Recommended Actions:
1.Cycle power to the transmitter.
2.If problem persists, call Micro Motion. |
| 1259 |
Priority: Failed - Fix Now
A RAM location in the transmitter cannot be written to.
Recommended Actions:
1.Cycle power to the transmitter.
2.If problem persists, call Micro Motion. |
| 1260 |
Priority: Failed - Fix Now
The flow calibration factor and/or K1 has not been entered since the last master reset
Recommended Actions:
1. Check the characterization against the sensor tag. Specifically, verify the 'FlowCal', 'K1' and 'K2' values.
2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
3. If the problem persists, contact Micro Motion. |
| 1261 |
Priority: Failed - Fix Now
The sensor is recognized as a straight tube but the K1 value indicates a curved tube, or vice versa.
Recommended Actions:
1. If 'A017' is active, resolve it first.
2. Check the characterization against the sensor tag. Specifically, verify the 'Flow FCF', 'K1' and 'K2' values.
3. Check the sensor RTD circuitry.
4. If the problem persists, contact Micro Motion. |
| 1262 |
Flow FCF:
Value %0
K1:
Value %1 uSec
K2:
Value %2 uSec |
| 1263 |
Priority: Failed - Fix Now
Uncorrectable checksum mismatch.
Recommended Actions:
1. Cycle power to the flowmeter.
2. The transmitter might need service. Contact Micro Motion. |
| 1264 |
Priority: Failed - Fix Now
Communication errors between transmitter and core processor.
Recommended Actions:
1. Verify the wiring between the Transmitter and Core Processor.
2. Cycle power to the transmitter.
3. If problem persists, call Micro Motion. |
| 1265 |
Priority: Failed - Fix Now
Weights and Measures security seal has been broken.
Recommended Actions:
1. Alarm can larm can be cleared by user by putting the transmitter back in secure mode, but authorized procedure is required to seal transmitter. |
| 1266 |
Priority: Failed - Fix Now
An attempt to write data to the core processor has failed.
Recommended Actions:
1. Cycle power to the flowmeter.
2. The transmitter might need service or upgrading. Contact Micro Motion. |
| 1267 |
Priority: Failed - Fix Now
Transmitter electronics failure has occurred.
Recommended Actions:
1. Cycle power to the flowmeter.
2. Contact Micro Motion. |
| 1268 |
Priority: Failed - Fix Now
Meter verification is in progress, with outputs set to fault.
Recommended Actions:
1. Allow the procedure to complete.
2. If desired, abort the procedure and restart with outputs set to last measured value. |
| 1269 |
Priority: Failed - Fix Now
Meter verification is in progress, with outputs set to fault or last measured value.
Recommended Actions:
1. Allow the procedure to complete.
2. If desired, abort the procedure and restart with outputs set to continue measuring. |
| 1270 |
Priority: Failed - Fix Now
No signal from Left Pickoff or Right Pickoff, suggesting that sensor tubes are not vibrating.
Recommended Actions:
1. Verify process. Check for air in the flow tubes, tubes not filled, foreign material in tubes, or coating in tubes. |
| 1271 |
Priority: Failed - Fix Now
Meter Verification Failed.
Recommended Actions:
1. The test result is not within acceptable limits. Micro Motion recommends that you immediately re-run the meter verification test with outputs held at fault or last measured value. If the meter passes the second test, the fail result can be ignored. If the meter fails the second test, the flow tubes may be damaged. Use the knowledge of your process to consider the type of damage and determine the appropriate action.� These actions might include removing the meter from service and physically inspecting the tubes. At a minimum, perform a flow validation and a density calibration. |
| 1272 |
Meter Verification Run Counter: %0
Transmitter Running Hours at Test: %1
Left Pickoff Stiffness: %2 |
| 1273 |
Right Pickoff Stiffness: %0 |
| 1274 |
Priority: Failed - Fix Now
Meter Verification Aborted.
Reason:
User Initiated Abort
Recommended Actions:
Wait for 15 seconds before starting meter verification again. |
| 1275 |
Priority: Failed - Fix Now
Meter Verification Aborted.
Reason:
Frequency Drift
Recommended Actions:
Ensure temperature, flow and density are stable and run meter verification again. |
| 1276 |
Priority: Failed - Fix Now
Meter Verification Aborted.
Reason:
High Drive Gain
Recommended Actions:
Ensure flow is steady and minimize entrained gas and run meter verification again. |
| 1277 |
Priority: Failed - Fix Now
Meter Verification Aborted.
Reason:
Unstable Flow
Recommended Actions:
Reduce flow rate and run meter verification again. |
| 1278 |
Priority: Failed - Fix Now
Meter Verification Aborted.
Reason:
No Air Reference
Recommended Actions:
Perform factory calibration on air. |
| 1279 |
Priority: Failed - Fix Now
Meter Verification Aborted.
Reason:
No Water Reference
Recommended Actions:
Perform factory calibration on water. |
| 1280 |
Priority: Failed - Fix Now
Meter Verification Aborted.
Reason:
Missing Configuration
Recommended Actions:
Load verification parameter registers with proper values. |
| 1281 |
Priority: Failed - Fix Now
Meter Verification Aborted.
Reason:
Other
Recommended Actions:
Run meter verification again. If abort persists, contact Micro Motion. |
| 1282 |
Meter Verification Run Counter: %0
Transmitter Running Hours at Test: %1
Abort Code: %2 |
| 1283 |
Left Pickoff Stiffness: %0
Right Pickoff Stiffness: %1 |
| 1284 |
Priority: Advisory
The calculated amount of current output is outside of the linear range.
Recommended Actions:
1. Verify that mA output range values are set to appropriate values. |
| 1285 |
Primary Variable:
%0
%0:
Value %1 %2 |
| 1286 |
PV Lower Range Value:
Value %0 %1
PV Upper Range Value:
Value %2 %3 |
| 1287 |
Priority: Advisory
Non-zero HART address configured, or user has set the mA output to a fixed value.
Recommended Actions:
1. Check the HART address. If non-zero, set mA output Action parameter to enable Live mA output.
2. Exit mA output trim.
3. Exit mA output loop test.
4. Check to see if the output has been fixed via digital communications. |
| 1288 |
HART Address:
%0
mA Output Fault Action:
%1 |
| 1289 |
Priority: Maintenance - Fix Soon
The drive power (current/voltage) is at its maximum.
Recommended Actions:
1. Check the sensor circuitry.
2. If this is the only active alarm, it can be ignored. If desired, reconfigure the alarm severity to Ignore.
3.If you want change the alert severity go to the Configure> Alert Setup> Alert Severity Screen. |
| 1290 |
Priority: Maintenance - Fix Soon
The core processor was unable to successfully store the totalizers and inventories on the last power down and must rely on the previously saved values. These values may be up to two hours old.The Transmitter is still functional.
Recommended Actions:
1. Verify the transmitter and core processor have proper input voltage.
2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
3. If the problem persists, contact Micro Motion. |
| 1291 |
Priority: Advisory
A calibration procedure is in progress.
Recommended Actions:
1. Allow the flowmeter to complete calibration.
2. For zero calibration procedures, you may abort the calibration, set the zero time parameter to a lower value, and restart the calibration.
3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 1292 |
Priority: Maintenance - Fix Soon
The 'Density' has exceeded the user-defined two-phase flow (density) limits.
Recommended Actions:
1. Check that sensor is completely full.
2. Check that two-phase limits are set to appropriate values.
3. Verify density cutoff is at least 0.2 g/cc.
4. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 1293 |
Slug High Limit:
Value %0 g/Cucm
Slug Low Limit:
Value %1 g/Cucm
Slug Duration:
Value %2 sec
Density:
Value %3 %4
Left Pickoff Amplitude:
Value %5 Volts
Right Pickoff Amplitude:
Value %6 Volts
Drive Gain:
Value %7 % |
| 1294 |
Priority: Advisory
Device is in HART burst mode.
Recommended Actions:
1. No action required.
2. If desired, reconfigure the alarm severity to Ignore. |
| 1295 |
Priority: Maintenance - Fix Soon
Transmitter has been restarted.
Recommended Actions:
1. No action required.
2. If you want to change the alert severity, go to the Configureà Alert Setupà Alert Severity screen. |
| 1296 |
Priority: Maintenance - Fix Soon
Event 1 has been triggered.
Recommended Actions:
1. No action required.
2. If desired, reconfigure the alarm severity to Ignore. |
| 1297 |
Priority: Maintenance - Fix Soon
Event 2 has been triggered.
Recommended Actions:
1. No action required.
2. If desired, reconfigure the alarm severity to Ignore. |
| 1298 |
Priority: Advisory
Process variable assigned to frequency output is outside configured scale limits.
Recommended Actions:
Change frequency output scaling factors to more appropriate settings. |
| 1299 |
Third Variable:
%0
%0:
Value %1 %2 |
| 1300 |
Rate Factor:
Value %0 Hz
Pulses/Unit:
Value %1
Units/Pulse:
Value %2 |
| 1301 |
Priority: Advisory
User has set the frequency output to a fixed value.
Recommended Actions:
1. Exit frequency output loop test. |
| 1302 |
Tube Frequency:
Value %0 Hz |
| 1303 |
Priority: Advisory
User has set the mA output to a fixed value.
Recommended Actions:
1. Exit mA output trim.
2. Exit mA output loop test.
3. Check to see if the output has been fixed via digital communications. |
| 1304 |
Priority: Maintenance - Fix Soon
No response received from polled device.
Recommended Actions:
1. HART polling connection to external device has failed. Ensure that external device is available:
2. Verify device operation.
3. Verify wiring.
4. Verify polling configuration. |
| 1305 |
Poll Control:
%0
Ext Device Tag 1:
%1
Polled Variable 1:
%2 |
| 1306 |
Ext Device Tag 2:
%0
Polled Variable 2:
%1 |
| 1307 |
Priority: Maintenance - Fix Soon
The process temperature is outside Petroleum Measurement defined extrapolation limits.
Recommended Actions:
1. Verify process.
2. Verify configuration for Petroleum Measurement reference table and temperature.
3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 1308 |
Priority: Maintenance - Fix Soon
The process density is outside Petroleum Measurement defined extrapolation limits.
Recommended Actions:
1. Verify process.
2. Verify configuration for Petroleum Measurement reference table and density. |
| 1309 |
Priority: Advisory
The user has set the discrete output to a fixed state.
Recommended Actions:
1. No action required.
2. If desired, reconfigure the alarm severity to Ignore. |
| 1310 |
Priority: Advisory
The configured density/temperature/concentration values do not result in a proper Concentration Measurement (CM) curve.
Recommended Actions:
1. Verify Concentration Measurement (CM) matrix configuration by going to Configure-> Manual Setup-> Measurements-> Concentration Measurement-> Enter Matrix. |
| 1311 |
Priority: Maintenance - Fix Soon
The process 'Temperature' or 'Density' is outside the user-defined extrapolation limits.
Recommended Actions:
1. Verify the process 'Temperature' and 'Density'.
2. Verify Concentration Measurement (CM) extrapolation alert limit.
3. Verify process. If tubes are empty or there is gas in the process, wait for condition to clear itself.
4. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 1312 |
Priority: Maintenance - Fix Soon
Frequency input from external device is too high.
Recommended Actions:
1. Verify that frequency input parameters are set to appropriate values. |
| 1313 |
Frequency Input Unit:
%0
Frequency Input Scaling Method:
%1
Frequency Factor:
%2 Hz |
| 1314 |
Rate Factor:
%0 %1
Pulses/Unit:
%2
Units/Pulse:
%3 |
| 1315 |
Priority: Maintenance - Fix Soon
No flow was detected for the number of seconds configured for Time Out.
Recommended Actions:
1. Check valves, piping, and pumps for proper operation.
2. Increase number of seconds for Time Out.
3. If ignore source alarms is set to YES, increase number of minutes for Alarm Timeout.
4. After cause has been diagnosed, press END to end batch or RESUME to resume batch. |
| 1316 |
Batch Timeout:
%0 sec
Ignore Alarms:
%1
Alarm Timeout:
%2 min |
| 1317 |
Priority: Maintenance - Fix Soon
1. Batch has not ended
2. Flow is still being measured
Recommended Actions:
1. Batch has not ended
2. Flow is still being measured
Recommended Actions:
1. Check wiring for discrete output indicating overrun.
2. Check device connected to discrete output indicating overrun.
3. Enable batch Automatic Overshoot Compensation (AOC).
4. After cause has been diagnosed, press RESET or START to start new batch. |
| 1318 |
Priority: Maintenance - Fix Soon
Operator attempted to start batch without pressing RESET.
Recommended Actions:
1. Press RESET, then press START.
2. Set reset on start option to YES. |
| 1319 |
Reset On Start:
%0 |
| 1320 |
Priority: Maintenance - Fix Soon
Many possible causes:
1. Enable batch control option is set to NO
2. Batch flow source is not configured
3. Control functions have not been assigned to discrete outputs
4. An alert is active
5. Discrete input is configured to inhibit batch
6. Target value is zero
Recommended Actions:
1. Set enable batch control option to YES.
2. Configure batch flow source.
3. Assign control functions such as primary valve, secondary valve, or pump to discrete outputs.
4. Clear all alerts.
5. Shut off discrete input.
6. Change target value. |
| 1321 |
Priority: Maintenance - Fix Soon
Meter verification in progress, with outputs set to last measured value.
Recommended Actions:
1. Allow the procedure to complete.
2. If desired, abort the procedure and restart with outputs set to fault. |
| 1322 |
Priority: Maintenance - Fix Soon
Meter verification in progress.
Recommended Actions:
1. Allow the procedure to complete. You may abort the procedure if desired. |
| 1323 |
Priority: Advisory
Simulation mode is enabled.
Recommended Actions:
1. Disable output simulation.
2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. |
| 1324 |
Priority: Maintenance - Fix Soon
An uncorrectable checksum mismatch has been detected.
Recommended Actions:
1. Cycle power to the flow meter.
2. The flow meter might need service. Contact Micro Motion. |
| 1325 |
Priority: Maintenance - Fix Soon
Memory or checksum error in transmitter display.
Recommended Actions:
1. Cycle power to the flow meter.
2. The flow meter might need service. Contact Micro Motion. |
| 1326 |
Priority: Maintenance - Fix Soon
Internal communication error with transmitter display.
Recommended Actions:
1. Cycle power to the flow meter.
2. The flow meter might need service. Contact Micro Motion. |
| 1327 |
Priority: Advisory
Discrete Event 1 has been triggered.
Recommended Actions:
1. No action required. |
| 1328 |
Discrete Event Var:
%0
Discrete Event Type:
%1 |
| 1329 |
Setpoint A:
Value %0
Setpoint B:
Value %1 |
| 1330 |
Priority: Advisory
Discrete Event 2 has been triggered.
Recommended Actions:
1. No action required. |
| 1331 |
Priority: Advisory
Discrete Event 3 has been triggered.
Recommended Actions:
1. No action required. |
| 1332 |
Priority: Advisory
Discrete Event 4 has been triggered.
Recommended Actions:
1. No action required. |
| 1333 |
Priority: Advisory
Discrete Event 5 has been triggered.
Recommended Actions:
1. No action required. |
| 1334 |
Priority: Advisory
Discrete Input is active.
Recommended Actions:
1. No action required. |
| 1335 |
Priority: Maintenance - Fix Soon
Primary variable has exceeded sensor limits.
Recommended Actions:
1. Verify process and check for slug flow.
2. Check the test points.
3. Check the sensor circuitry
4. Check the sensor tubes for erosion.
5. If the problem persists, contact Micro Motion. |
| 1336 |
Priority: Maintenance - Fix Soon
Non-primary variable has exceeded sensor limits.
Recommended Actions:
1. Verify process and check for two-phase flow.
2. Check the test points.
3. Check the sensor circuitry
4. Check the sensor tubes for erosion.
5. If the problem persists, contact Micro Motion. |
| 1337 |
Priority: Maintenance - Fix Soon
The calculated amount of current output is outside of the linear range.
Recommended Actions:
1. Verify that mA output range values are set to appropriate values. |
| 1338 |
Priority: Maintenance - Fix Soon
Power has been removed and reapplied resulting in the reinstallations of the setup information.
Recommended Actions:
1. The first command to recognize this condition will automatically reset this flag.
2. This flag may also be set following a Master Reset or a Self Test. |
| 1339 |
Priority: Maintenance - Fix Soon
A write or set command has been executed.
Recommended Actions:
1. No action required. |
| 1340 |
Priority: Maintenance - Fix Soon
A hardware error or failure has been detected by the device.
Recommended Actions:
1. This is a summary alert and is generated when one of the fault severity alerts is active. Resolve the other active alerts first. |
| 1341 |
View 'Alert Severity' of |
| 1342 |
%{1} is set to '%{0}'. |
| 1343 |
A001: EEPROM Error (CP) is set to %0. |
| 1344 |
A002: RAM Error (CP) is set to %0. |
| 1345 |
A003: No Sensor Response is set to %0. |
| 1346 |
A004: Temperature Overrange is set to %0. |
| 1347 |
A005: Mass Flow Rate Overrange is set to %0. |
| 1348 |
A006: Characterization Required is set to %0. |
| 1349 |
A008: Density Overrange is set to %0. |
| 1350 |
A009: Transmitter Initializing Warming Up is set to %0. |
| 1351 |
A010: Calibration Failure is set to %0. |
| 1352 |
A011: Zero Calibration Failed: Low is set to %0. |
| 1353 |
A012: Zero Calibration Failed: High is set to %0. |
| 1354 |
A013: Zero Calibration Failed: Unstable is set to %0. |
| 1355 |
A014: Transmitter Failure is set to %0. |
| 1356 |
A016: Sensor RTD Failure is set to %0. |
| 1357 |
A017: T-Series RTD Failure is set to %0. |
| 1358 |
A018: EEPROM Error (Xmtr) is set to %0. |
| 1359 |
A019: RAM Error (Xmtr) is set to %0. |
| 1360 |
A020: No Flow Cal Value is set to %0. |
| 1361 |
A021: No K1 Value is set to %0. |
| 1362 |
A022: Config DB Corrupt (CP) is set to %0. |
| 1363 |
A023: Internal Totals Corrupt (CP) is set to %0. |
| 1364 |
A024: Program Corrupt (CP) is set to %0. |
| 1365 |
A025: Boot Sector Fault (CP) is set to %0. |
| 1366 |
A026: Sensor Xmtr Comm Failure is set to %0. |
| 1367 |
A027: Security Breach is set to %0. |
| 1368 |
A028: CP Write Failure is set to %0. |
| 1369 |
A031: Low Power is set to %0. |
| 1370 |
A032: MV: Outputs to Fault is set to %0. |
| 1371 |
A033: No LPO RPO Signal is set to %0. |
| 1372 |
A034: Meter Verification Failed is set to %0. |
| 1373 |
A035: Meter Verification Aborted is set to %0. |
| 1374 |
A100: MAO1 Saturated is set to %0. |
| 1375 |
A101: MAO1 Fixed is set to %0. |
| 1376 |
A102: Drive Overrange is set to %0. |
| 1377 |
A103: Data Loss Possible is set to %0. |
| 1378 |
A104: Calibration-In-Progress is set to %0. |
| 1379 |
A105: Slug Flow is set to %0. |
| 1380 |
A106: Burst Mode Enabled is set to %0. |
| 1381 |
A107: Power Reset Occurred is set to %0. |
| 1382 |
A110: FO Saturated is set to %0. |
| 1383 |
A111: FO Fixed is set to %0. |
| 1384 |
A113: MAO2 Saturated is set to %0. |
| 1385 |
A114: MAO2 Fixed is set to %0. |
| 1386 |
A115: No External Data is set to %0. |
| 1387 |
A116: API: Temperature Overrange is set to %0. |
| 1388 |
A117: API: Density Overrange is set to %0. |
| 1389 |
A118: DO1 Fixed is set to %0. |
| 1390 |
A119: DO2 Fixed is set to %0. |
| 1391 |
A120: ED: Curve Fit Failure is set to %0. |
| 1392 |
A121: ED: Extrapolation Alarm is set to %0. |
| 1393 |
A122: DO3 Fixed is set to %0. |
| 1394 |
A123: DO4 Fixed is set to %0. |
| 1395 |
A124: FI Saturated is set to %0. |
| 1396 |
A125: Batch Timeout is set to %0. |
| 1397 |
A126: Batch Overrun is set to %0. |
| 1398 |
A127: Batch No Reset is set to %0. |
| 1399 |
A128: Batch/Fill No Start is set to %0. |
| 1400 |
A129: PPI Display Error is set to %0. |
| 1401 |
A130: Printer Out of Paper is set to %0. |
| 1402 |
A131: MV in progress is set to %0. |
| 1403 |
A132: Sensor Simulation Active is set to %0. |
| 1404 |
A134: PPI Memory Error is set to %0. |
| 1405 |
A135: PPI Communication Error is set to %0. |
| 1406 |
'Configuration Changed Flag' is being reset,please wait. |
| 1407 |
'Configuration Changed Flag' has been reset. |
| 1408 |
Select the matrix being configured: |
| 1409 |
Curve 1;Curve 2;Curve 3;Curve 4;Curve 5;Curve 6 |
| 1410 |
Access Restricted |
| 1411 |
Resetting device. Please wait. |
| 1412 |
Device reset completed successfully. |
| 1413 |
You are about to overwrite the device configuration with factory values. Before continuing, set the control loop for manual operation and ensure that existing configuration values are documented or saved to a file. If the device connection is lost, reconnect using the defaults. Proceed? |
| 1414 |
Factory values are restored successfully. |
| 1415 |
Simulation is being disabled, please wait... |
| 1416 |
Simulation has been disabled. |
| 1417 |
Note: If Smart Meter Verification Professional license is not present, then device will have default Basic Meter Verification in it. |