| 0 |
Density Gas Viscosity Meter |
| 1 |
Model |
| 2 |
Action |
| 3 |
Fixed |
| 4 |
Live |
| 5 |
Mode |
| 6 |
Write Protection |
| 7 |
Disabled |
| 8 |
Enabled |
| 9 |
Trigger Mode |
| 10 |
The type of process change that will initiate the trigger. |
| 11 |
Event Notification Control: |
| 12 |
Primary Variable Out of Limits |
| 13 |
Non-Primary Variable Out of Limits |
| 14 |
Primary Variable mA Output Saturated |
| 15 |
Primary Variable mA Output Fixed |
| 16 |
g/mol |
| 17 |
µs |
| 18 |
MJ/Kg |
| 19 |
MJ/Nm3 |
| 20 |
BTU/lb |
| 21 |
BTU/scf |
| 22 |
MJ/min |
| 23 |
MJ/day |
| 24 |
BTU/min |
| 25 |
BTU/day |
| 26 |
Long Tag |
| 27 |
Date |
| 28 |
Description |
| 29 |
Transmitter Software |
| 30 |
.1f |
| 31 |
Hardware |
| 32 |
Serial Number |
| 33 |
Universal |
| 34 |
Field Device |
| 35 |
A000: Undefined |
| 36 |
A001: EEPROM Error |
| 37 |
A002: RAM Error |
| 38 |
A003: No Sensor Response |
| 39 |
A004: Temperature Overrange |
| 40 |
A005: Velocity Overrange |
| 41 |
A006: Characterization Required |
| 42 |
A007: Reserved |
| 43 |
A008: Density Overrange |
| 44 |
A009: Transmitter Initializing/Warming Up |
| 45 |
A010: Calibration Failure |
| 46 |
A011: Zero Calibration Failed: Low |
| 47 |
A012: Zero Calibration Failed: High |
| 48 |
A013: Zero Calibration Failed: Unstable |
| 49 |
A014: Transmitter Failure |
| 50 |
A015: Reserved |
| 51 |
A016: Sensor RTD Failure |
| 52 |
A017: Sensor RTD Failure |
| 53 |
A018: Reserved |
| 54 |
A019: Reserved |
| 55 |
A020: Calibration Factors Missing |
| 56 |
A021: Transmitter/Sensor/Software Mismatch |
| 57 |
A022: Reserved |
| 58 |
A023: Reserved |
| 59 |
A024: Reserved |
| 60 |
A025: Reserved |
| 61 |
A026: Reserved |
| 62 |
A027: Security Breach |
| 63 |
A028: Reserved |
| 64 |
A029: PIC/Daughterboard Communications Failure |
| 65 |
A030: Incorrect Board Type |
| 66 |
A031: Low Power |
| 67 |
A032: Reserved |
| 68 |
A033: Insufficient Pickoff Signal |
| 69 |
A034: Reserved |
| 70 |
A035: Reserved |
| 71 |
A036: Viscosity Overrange |
| 72 |
A037: Sensor Check Failed |
| 73 |
A038: Time Period Overrange |
| 74 |
A039: Undefined |
| 75 |
A100: mA Output 1 Saturated |
| 76 |
A101: mA Output 1 Fixed |
| 77 |
A102: Drive Overrange |
| 78 |
A103: Reserved |
| 79 |
A104: Calibration in Progress |
| 80 |
A105: Two-Phase Flow |
| 81 |
A106: Burst Mode Enabled |
| 82 |
A107: Power Reset Occurred |
| 83 |
A108: Reserved |
| 84 |
A109: Reserved |
| 85 |
A110: Reserved |
| 86 |
A111: Reserved |
| 87 |
A112: Reserved |
| 88 |
A113: mA Output 2 Saturated |
| 89 |
A114: mA Output 2 Fixed |
| 90 |
A115: No External Input or Polled Data |
| 91 |
A116: Temperature Overrange (API) |
| 92 |
A117: Density Overrange (API) |
| 93 |
A118: Discrete Output Fixed |
| 94 |
A119: Reserved |
| 95 |
A120: Curve Fit Failure (Concentration) |
| 96 |
A121: Extrapolation Alert (Concentration) |
| 97 |
A122: Pressure Overrange (API) |
| 98 |
A123: Reserved |
| 99 |
A124: Reserved |
| 100 |
A125: Reserved |
| 101 |
A126: Reserved |
| 102 |
A127: Reserved |
| 103 |
A128: Reserved |
| 104 |
A129: Reserved |
| 105 |
A130: Reserved |
| 106 |
A131: Reserved |
| 107 |
A132: Simulation Active |
| 108 |
A133: EEPROM Error (Display) |
| 109 |
A134: Tube-Case Temperature Difference Overrange |
| 110 |
A135: Time Period Trap Active |
| 111 |
A136: Incorrect Display Type |
| 112 |
A137: Sensor Check Questionable |
| 113 |
A138: Reserved |
| 114 |
A139: Undefined |
| 115 |
Sensor Check in Progress |
| 116 |
SG/RD/MW Calibration in Progress |
| 117 |
Density Offset Calibration in Progress |
| 118 |
Viscosity Scaling Calibration in Progress |
| 119 |
Calibration Check |
| 120 |
Zero Calibration In Progress |
| 121 |
Temperature Slope Calibration In Progress |
| 122 |
Temperature Offset Calibration In Progress |
| 123 |
Enhanced Event 1 Active |
| 124 |
Enhanced Event 2 Active |
| 125 |
Enhanced Event 3 Active |
| 126 |
Enhanced Event 4 Active |
| 127 |
Enhanced Event 5 Active |
| 128 |
Discrete Output 1 Active |
| 129 |
Reserved |
| 130 |
Velocity Switch Active |
| 131 |
Undefined |
| 132 |
Dynamic Variables Returned for Device Variables |
| 133 |
Command Response Truncated |
| 134 |
PV |
| 135 |
SV |
| 136 |
TV |
| 137 |
QV |
| 138 |
% Range |
| 139 |
MAO1 |
| 140 |
Primary Variable Percent Range |
| 141 |
Primary Variable Upper Range Value |
| 142 |
Primary Variable Lower Range Value |
| 143 |
4.2f |
| 144 |
Update Rate |
| 145 |
Default Update Rate |
| 146 |
Trigger Level |
| 147 |
The value of the process variable that will initiate the trigger. Applicable only if Trigger Mode = Rising or Falling. |
| 148 |
Burst Variable 1 |
| 149 |
Trigger Interval |
| 150 |
The amount of time that the meter will wait, after an alert is active, before initiating event notification. |
| 151 |
Retry Rate |
| 152 |
Event notification will continue until acknowledged by a host or until this interval expires, whichever comes first. |
| 153 |
A105: Slug Flow |
| 154 |
Option |
| 155 |
Device Variables with Status |
| 156 |
Read Additional Device Status |
| 157 |
Invalid selection. |
| 158 |
Velocity switch setpoint value out of range |
| 159 |
Transmitter-Specific Command Error (Invalid CM curve) |
| 160 |
Invalid Concentration Units Code |
| 161 |
Invalid Temperature Units Code |
| 162 |
Invalid Density Units Code |
| 163 |
Reference Temperature Out of Range |
| 164 |
Water Reference Temperature Out of Range |
| 165 |
Water Reference Density Out of Range |
| 166 |
Slope Trim Out of Range |
| 167 |
Slope Offset Out of Range |
| 168 |
Extrapolation Alarm Limit Out of Range |
| 169 |
Max Fit Order Out of Range |
| 170 |
Coil or starting register out of range. |
| 171 |
Value out of range. |
| 172 |
Temperature calibration slope out of range. |
| 173 |
Temperature calibration offset out of range. |
| 174 |
Analog fault level out of range. |
| 175 |
Thermal Expansion Coefficient out of range. |
| 176 |
Alternate pressure out of range. |
| 177 |
Error in enable API calculation. |
| 178 |
Enable Concentration Measurement Code Out of Range |
| 179 |
Error in enabling density low extrapolation limit. |
| 180 |
Error in enabling density high extrapolation limit. |
| 181 |
Error in enabling temperature low extrapolation limit. |
| 182 |
Error in enabling temperature high extrapolation limit. |
| 183 |
Invalid Curve Index |
| 184 |
Invalid Data Index |
| 185 |
Invalid Viscosity Range Select Index |
| 186 |
Invalid Referred Viscosity Calculation Method |
| 187 |
Invalid Referred Viscosity Maximum Fit Order |
| 188 |
Invalid legacy index 1. |
| 189 |
Invalid legacy index 2. |
| 190 |
Invalid Concentration Measurement Mode Code |
| 191 |
Density special base unit out of range. |
| 192 |
Dynamic viscosity special base unit out of range. |
| 193 |
Kinematic viscosity special base unit out of range. |
| 194 |
Invalid Compressibility Method |
| 195 |
SGERG value Out of Range |
| 196 |
User density of water out of range. |
| 197 |
Invalid user-defined calculation output base density source. |
| 198 |
Invalid elevation. |
| 199 |
Invalid Gas Type |
| 200 |
Invalid concentration equation type. |
| 201 |
Applied process is too high. |
| 202 |
Applied process is too low. |
| 203 |
Enable External Volume Flow Error |
| 204 |
Enable External Mass Flow Error |
| 205 |
Enable is rejected as calculated density is enabled. |
| 206 |
Enable is rejected as input density is enabled. |
| 207 |
Density at Reference (API) |
| 208 |
Concentration |
| 209 |
Density at Reference (CM) |
| 210 |
Tube-Case Temp Difference |
| 211 |
Velocity |
| 212 |
User-Defined Calculation Output |
| 213 |
Molecular Weight |
| 214 |
Relative Density |
| 215 |
Specific Gravity (Gas) |
| 216 |
Base Density (Gas) |
| 217 |
Net Mass Flow Rate |
| 218 |
Net Volume Flow Rate |
| 219 |
Specific Gravity (CM) |
| 220 |
Dynamic Viscosity |
| 221 |
Kinematic Viscosity |
| 222 |
Referred Viscosity |
| 223 |
Referred Viscosity (Secondary) |
| 224 |
Compressibility |
| 225 |
Current (mA Output 1) |
| 226 |
Current (mA Output 2) |
| 227 |
Pickoff Amplitude |
| 228 |
Sensor Time Period (A) |
| 229 |
Sensor Time Period |
| 230 |
Quality Factor |
| 231 |
Case Temperature |
| 232 |
Fluid Density at Specified Temperature and Concentration |
| 233 |
Concentration |
| 234 |
Concentration 1 |
| 235 |
Density 1 |
| 236 |
Concentration 2 |
| 237 |
Density 2 |
| 238 |
Concentration 3 |
| 239 |
Density 3 |
| 240 |
Concentration 4 |
| 241 |
Density 4 |
| 242 |
Concentration 5 |
| 243 |
Density 5 |
| 244 |
Fluid Density at Reference Temperature and Specified Concentration |
| 245 |
Ref Temperature |
| 246 |
Density 1 at Ref |
| 247 |
Density 2 at Ref |
| 248 |
Density 3 at Ref |
| 249 |
Density 4 at Ref |
| 250 |
Density 5 at Ref |
| 251 |
Concentration 6 |
| 252 |
Density 6 at Ref |
| 253 |
Subtest |
| 254 |
Verification Time Period Difference |
| 255 |
Verification Time Period Stability (Test) |
| 256 |
Fluid Temperature Stability (Test) |
| 257 |
Case Temperature Stability (Test) |
| 258 |
Drive Gain (Test) |
| 259 |
Result |
| 260 |
Fluids and Samples |
| 261 |
Fluid 1 and Sample 1 |
| 262 |
Fluid 1 and Sample 2 |
| 263 |
Fluid 2 and Sample 1 |
| 264 |
Fluid 2 and Sample 2 |
| 265 |
Fluid 3 and Sample 1 |
| 266 |
Fluid 3 and Sample 2 |
| 267 |
Fluid 4 and Sample 1 |
| 268 |
Fluid 4 and Sample 2 |
| 269 |
Fluid 5 and Sample 1 |
| 270 |
Fluid 5 and Sample 2 |
| 271 |
Fluid 6 and Sample 1 |
| 272 |
Fluid 6 and Sample 2 |
| 273 |
Fluid 7 and Sample 1 |
| 274 |
Fluid 7 and Sample 2 |
| 275 |
Fluid 8 and Sample 1 |
| 276 |
Fluid 8 and Sample 2 |
| 277 |
Viscosity |
| 278 |
Fluid 1 |
| 279 |
Sample 1 |
| 280 |
Sample 2 |
| 281 |
Fluid 2 |
| 282 |
Fluid 3 |
| 283 |
Fluid 4 |
| 284 |
Fluid 5 |
| 285 |
Fluid 6 |
| 286 |
Fluid 7 |
| 287 |
Fluid 8 |
| 288 |
Referred Viscosity at Specified Temperature |
| 289 |
Limits |
| 290 |
Calibration Gas Low |
| 291 |
Calibration Gas Medium |
| 292 |
Calibration Gas High |
| 293 |
Specific Gravity |
| 294 |
Sensor Time Period (µs) |
| 295 |
Molecular Weight (g/mol) |
| 296 |
Input Density |
| 297 |
Calculated Density |
| 298 |
Specific Gravity 1 (Gas) |
| 299 |
Specific Gravity 2 (Gas) |
| 300 |
Specific Gravity 3 (Gas) |
| 301 |
Specific Gravity 4 (Gas) |
| 302 |
Molecular Weight 1 |
| 303 |
Molecular Weight 2 |
| 304 |
Molecular Weight 3 |
| 305 |
Molecular Weight 4 |
| 306 |
Concentration 1 |
| 307 |
Concentration 2 |
| 308 |
Concentration 3 |
| 309 |
Concentration 4 |
| 310 |
Advanced HART Configuration |
| 311 |
Reset Matrix Data |
| 312 |
Deletes all data in the concentration matrices. |
| 313 |
External Device Polling |
| 314 |
Lock/Unlock Device |
| 315 |
API Referral Setup |
| 316 |
Enter Matrix Data |
| 317 |
Define or modify the matrix being configured. |
| 318 |
mA Outputs |
| 319 |
Restore Factory Configuration |
| 320 |
Locate Device |
| 321 |
Read Modbus Data |
| 322 |
Write Modbus Data |
| 323 |
Discrete Output Loop Test |
| 324 |
External Inputs |
| 325 |
Configure parameters required for pressure, external temperature, and other external variables. |
| 326 |
Special Units |
| 327 |
Configure the parameters required to convert an existing measurement unit to a different unit. |
| 328 |
Change Alert Severity |
| 329 |
Enable/Disable Applications |
| 330 |
Enable or disable optional applications. |
| 331 |
Calibration Factors |
| 332 |
Known Density Verification |
| 333 |
User-Defined Calculations |
| 334 |
Create a new process variable from current process data and user-defined constants. |
| 335 |
Density Offset Calibration |
| 336 |
Device Reset |
| 337 |
A005: Velocity Overrange |
| 338 |
Start Calibration |
| 339 |
Viscosity Scaling Factor Calibration |
| 340 |
Gas Meter Calibration |
| 341 |
Perform gas meter calibration. |
| 342 |
Base Density |
| 343 |
Configure the parameters and inputs required for base density measurement. |
| 344 |
Enable/Disable Compressibility Calculations |
| 345 |
|
| 346 |
Results |
| 347 |
Select Device Measurement |
| 348 |
Inline Calibration Check |
| 349 |
Simulate Dynamic Viscosity |
| 350 |
Overview |
| 351 |
Burst Mode |
| 352 |
Burst Message 1 |
| 353 |
Message Contents |
| 354 |
Configure Update Rate |
| 355 |
Burst Message 2 |
| 356 |
Burst Message 3 |
| 357 |
Event Notification |
| 358 |
Alert Bit Selection |
| 359 |
Applications |
| 360 |
Identification |
| 361 |
Revisions |
| 362 |
MID Information |
| 363 |
Security |
| 364 |
Configure |
| 365 |
CDM 100 Format |
| 366 |
7835/45 Format |
| 367 |
Displays the calibration factors in legacy format. |
| 368 |
Density (Uncompensated) Range 1 |
| 369 |
Density (Uncompensated) Range 2 |
| 370 |
Temperature Compensation |
| 371 |
Pressure Compensation Range 1 |
| 372 |
Pressure Compensation Range 2 |
| 373 |
Pressure Compensation Range 3 |
| 374 |
Pressure Compensation Range 4 |
| 375 |
Density (Calculated) |
| 376 |
Density (Uncompensated) |
| 377 |
Ultra Low Range (0.50 – 10.46 cP) |
| 378 |
Low Range (10.46 – 108.16 cP) |
| 379 |
Medium Range (108.16 – 1087.43 cP) |
| 380 |
High Range (1087.43 – 13345.64 cP) |
| 381 |
Viscosity Compensation for Density (Low) |
| 382 |
Viscosity Compensation for Density (High) |
| 383 |
Temperature Calibration Set |
| 384 |
Temperature Calibration Factors Set 1 |
| 385 |
Temperature Calibration Factors Set 2 |
| 386 |
Velocity of Sound Compensation |
| 387 |
Calibration Coefficients Set 1 |
| 388 |
Calibration Coefficients Set 2 |
| 389 |
Calibration Coefficients Set 3 |
| 390 |
Calibration Coefficients Set 4 |
| 391 |
Calibration Information |
| 392 |
Time Period Data Set 1 |
| 393 |
Time Period Data Set 2 |
| 394 |
Time Period Data Set 3 |
| 395 |
Time Period Data Set 4 |
| 396 |
Gas Data Set 1 |
| 397 |
Gas Data Set 2 |
| 398 |
Gas Data Set 3 |
| 399 |
Gas Data Set 4 |
| 400 |
Optional Setup |
| 401 |
Velocity/Volume |
| 402 |
Mass (Calculated) |
| 403 |
API Referral |
| 404 |
Concentration Measurement Configuration |
| 405 |
Configure Matrix |
| 406 |
Reference Conditions |
| 407 |
At Specific Temp and Conc |
| 408 |
At Reference Temp and Conc |
| 409 |
Temperature Isotherm |
| 410 |
Isotherm 1 |
| 411 |
Isotherm 2 |
| 412 |
Isotherm 3 |
| 413 |
Isotherm 4 |
| 414 |
Isotherm 5 |
| 415 |
Isotherm 6 |
| 416 |
Trim Concentration Measurement Process Variables |
| 417 |
Density at Reference |
| 418 |
Calculation Constants |
| 419 |
Configure External Inputs |
| 420 |
Gas Measurement |
| 421 |
Setup Compressibility |
| 422 |
Energy Content Measurement |
| 423 |
Volume |
| 424 |
Gas Composition |
| 425 |
Energy |
| 426 |
Gas Calibration |
| 427 |
Mass |
| 428 |
Display Behavior |
| 429 |
Display Menus |
| 430 |
Process Variables |
| 431 |
Velocity Switch |
| 432 |
External Device Polling |
| 433 |
External Polling 1 |
| 434 |
External Polling 2 |
| 435 |
External Polling 3 |
| 436 |
External Polling 4 |
| 437 |
Mapped Variable Units |
| 438 |
Inputs/Outputs Fault Actions |
| 439 |
Alert Severity |
| 440 |
Enhanced Events |
| 441 |
Enhanced Event 1 |
| 442 |
Enhanced Event 2 |
| 443 |
Enhanced Event 3 |
| 444 |
Enhanced Event 4 |
| 445 |
Enhanced Event 5 |
| 446 |
Concentration Measurement Alerts |
| 447 |
Service Tools |
| 448 |
Variables |
| 449 |
Calculated Variables |
| 450 |
API Variable |
| 451 |
Ignition Index |
| 452 |
mA Output 1 |
| 453 |
mA Output 2 |
| 454 |
Transmitter |
| 455 |
Process |
| 456 |
Calibration |
| 457 |
Verification |
| 458 |
Reset/Restore |
| 459 |
Simulate Values |
| 460 |
F: EEPROM Error |
| 461 |
F: RAM Error |
| 462 |
F: No Sensor Response |
| 463 |
View Diagnostic Variables |
| 464 |
F: Temperature Overrange |
| 465 |
Alert Diagnostic Variables |
| 466 |
F: Velocity Overrange |
| 467 |
F: Characterization Required |
| 468 |
View Calibration Factors |
| 469 |
F: Density Overrange |
| 470 |
F: Transmitter Initializing/Warming Up |
| 471 |
F: Calibration Failure |
| 472 |
F: Zero Calibration Failed: Low |
| 473 |
F: Zero Calibration Failed: High |
| 474 |
F: Zero Calibration Failed: Unstable |
| 475 |
F: Transmitter Failure |
| 476 |
F: Sensor RTD Failure |
| 477 |
M: Sensor RTD Failure |
| 478 |
F: Calibration Factors Missing |
| 479 |
F: Transmitter/Sensor/Software Mismatch |
| 480 |
F: Security Breach |
| 481 |
F: PIC/Daughterboard Communication Failure |
| 482 |
F: Incorrect Board Type |
| 483 |
F: Insufficient Pickoff Signal |
| 484 |
A: Viscosity Overrange |
| 485 |
F: Sensor Check Failed |
| 486 |
F: Time Period Overrange |
| 487 |
A: mA Output 1 Saturated |
| 488 |
A: mA Output 1 Fixed |
| 489 |
M: Drive Overrange |
| 490 |
A: Calibration in Progress |
| 491 |
M: Two-Phase Flow |
| 492 |
A: Burst Mode Enabled |
| 493 |
M: Power Reset Occurred |
| 494 |
A: mA Output 2 Saturated |
| 495 |
A: mA Output 2 Fixed |
| 496 |
M: No External Input or Polled Data |
| 497 |
M: Temperature Overrange (API) |
| 498 |
M: Density Overrange (API) |
| 499 |
A: Discrete Output Fixed |
| 500 |
A: Curve Fit Failure (Concentration) |
| 501 |
M: Extrapolation Alert (Concentration) |
| 502 |
View Concentration Measurement Configuration |
| 503 |
M: Pressure Overrange (API) |
| 504 |
A: Simulation Active |
| 505 |
M: EEPROM Error (Display) |
| 506 |
M: Tube-Case Temperature Difference Overrange |
| 507 |
M: Incorrect Display Type |
| 508 |
A: Enhanced Event 1 Active |
| 509 |
A: Enhanced Event 2 Active |
| 510 |
A: Enhanced Event 3 Active |
| 511 |
A: Enhanced Event 4 Active |
| 512 |
A: Enhanced Event 5 Active |
| 513 |
A: Velocity Switch Active |
| 514 |
M: Primary Variable mA Output Saturated |
| 515 |
A: Primary Variable mA Output Fixed |
| 516 |
User-Defined 1 |
| 517 |
Programmable Constants |
| 518 |
Calculation Variables |
| 519 |
Calculation Variable (a) |
| 520 |
Calculation Variable (b) |
| 521 |
Calculation Variable (c) |
| 522 |
Calculation Variable (d) |
| 523 |
Calculation Variable (e) |
| 524 |
Calculation Variable (f) |
| 525 |
User-Defined 2 |
| 526 |
User-Defined 3 |
| 527 |
Diagnostic Variables |
| 528 |
External Variables |
| 529 |
Setup Calibration Gas Data |
| 530 |
Matrix Referral |
| 531 |
Viscosity at Specific Temp |
| 532 |
ASTM D341 Single |
| 533 |
Multi-curve ASTM |
| 534 |
Verify Results |
| 535 |
Energy Flow |
| 536 |
8.2f |
| 537 |
8d |
| 538 |
Update Period |
| 539 |
Temperature Classification |
| 540 |
Temperature Family |
| 541 |
Status |
| 542 |
Temperature LS |
| 543 |
Temperature Family Status |
| 544 |
Temperature Update Period |
| 545 |
.2f |
| 546 |
.3f |
| 547 |
.4f |
| 548 |
.5f |
| 549 |
.6f |
| 550 |
High Density Cutoff |
| 551 |
Damping |
| 552 |
Density Classification |
| 553 |
Density Family |
| 554 |
Density LS |
| 555 |
Density Family Status |
| 556 |
Density Update Period |
| 557 |
Referred Density Unit |
| 558 |
The referred density value after the density offset has been applied. |
| 559 |
Referred Density Upper Sensor Limit |
| 560 |
Referred Density Lower Sensor Limit |
| 561 |
API Density Classification |
| 562 |
API Density Family |
| 563 |
API Density LS |
| 564 |
API Density Family Status |
| 565 |
API Density Update Period |
| 566 |
Density at Reference (CM) |
| 567 |
ED Density Reference Classification |
| 568 |
ED Density Reference Family |
| 569 |
ED Density Reference LS |
| 570 |
ED Density Reference Family Status |
| 571 |
ED Density Reference Update Period |
| 572 |
Specific Gravity (CM) |
| 573 |
Specific Gravity (CM) Upper Sensor Limit |
| 574 |
Specific Gravity (CM) Lower Sensor Limit |
| 575 |
Specific Gravity (CM) Minimum Span |
| 576 |
ED Density SGU Classification |
| 577 |
ED Density SGU Family |
| 578 |
ED Density SGU PDQ |
| 579 |
ED Density SGU LS |
| 580 |
ED Density SGU Family Status |
| 581 |
ED Density SGU Update Period |
| 582 |
Mass Flow Rate Unit |
| 583 |
ED Net Mass Flow Classification |
| 584 |
ED Net Mass Flow Family |
| 585 |
ED Net Mass Flow PDQ |
| 586 |
ED Net Mass Flow LS |
| 587 |
ED Net Mass Flow Family Status |
| 588 |
ED Net Mass Flow Update Period |
| 589 |
Volume Flow Unit |
| 590 |
10.4f |
| 591 |
ED Net Volume Flow Classification |
| 592 |
ED Net Volume Flow Family |
| 593 |
ED Net Volume Flow PDQ |
| 594 |
ED Net Volume Flow LS |
| 595 |
ED Net Volume Flow Family Status |
| 596 |
ED Net Volume Flow Update Period |
| 597 |
The concentration value after the density offset has been applied. |
| 598 |
5.4f |
| 599 |
ED Concentration Classification |
| 600 |
ED Concentration Family |
| 601 |
ED Concentration LS |
| 602 |
ED Concentration Family Status |
| 603 |
ED Concentration Update Period |
| 604 |
Drive Gain Unit |
| 605 |
Drive Gain is the amount of current required to drive the vibrating element, expressed as a percentage of the maximum allowable drive gain. |
| 606 |
6.2f |
| 607 |
Drive Classification |
| 608 |
Drive Family |
| 609 |
Drive LS |
| 610 |
Drive Family Status |
| 611 |
Drive Update Period |
| 612 |
Case Temperature Classification |
| 613 |
Case Temperature Family |
| 614 |
Case Temperature PDQ |
| 615 |
Case Temperature LS |
| 616 |
Case Temperature Family Status |
| 617 |
Case Temperature Update Period |
| 618 |
Pickoff Amplitude represents the distance that the vibrating element is traveling from its resting state. |
| 619 |
8.3f |
| 620 |
Tube Classification |
| 621 |
Tube Family |
| 622 |
Tube PDQ |
| 623 |
Tube LS |
| 624 |
Tube Family Status |
| 625 |
Tube Update Period |
| 626 |
Board Temperature is the temperature of the device's electronic board stack. |
| 627 |
Board Temperature Classification |
| 628 |
Board Temperature Family |
| 629 |
Board Temperature PDQ |
| 630 |
Board Temperature LS |
| 631 |
Board Temperature Family Status |
| 632 |
Board Temperature Update Period |
| 633 |
Input Voltage is the current power input. |
| 634 |
Input Voltage Classification |
| 635 |
Input Voltage Family |
| 636 |
Input Voltage PDQ |
| 637 |
Input Voltage LS |
| 638 |
Input Voltage Family Status |
| 639 |
Input Voltage Update Period |
| 640 |
External Pressure |
| 641 |
Current pressure value from an external device. |
| 642 |
Pressure Classification |
| 643 |
Pressure Family |
| 644 |
Pressure PDQ |
| 645 |
Pressure LS |
| 646 |
Pressure Family Status |
| 647 |
Pressure Update Period |
| 648 |
Current temperature value from an external device. |
| 649 |
External Temperature Classification |
| 650 |
External Temperature Family |
| 651 |
External Temperature PDQ |
| 652 |
External Temperature LS |
| 653 |
External Temperature Family Status |
| 654 |
External Temperature Update Period |
| 655 |
User-Defined Calculation Output Unit |
| 656 |
The result of the user-defined calculation. |
| 657 |
User-Defined Calculation Output Upper Sensor Limit |
| 658 |
User-Defined Calculation Output Lower Sensor Limit |
| 659 |
User-Defined Calculation Output Minimum Span |
| 660 |
User-Defined Calculation Output Classification |
| 661 |
User-Defined Calculation Output Family |
| 662 |
User-Defined Calculation Output PDQ |
| 663 |
User-Defined Calculation Output LS |
| 664 |
User-Defined Calculation Output Family Status |
| 665 |
User-Defined Calculation Output Update Period |
| 666 |
Sensor Time Period Unit |
| 667 |
Sensor Time Period (A) Classification |
| 668 |
Sensor Time Period (A) Family |
| 669 |
Sensor Time Period (A) PDQ |
| 670 |
Sensor Time Period (A) LS |
| 671 |
Sensor Time Period (A) Family Status |
| 672 |
Sensor Time Period Update Period |
| 673 |
The difference between the temperature of the sensor case and the temperature of the sensor tubes. |
| 674 |
Tube-Case Temp Difference Classification |
| 675 |
Tube-Case Temp Difference Family |
| 676 |
Tube-Case Temp Difference LS |
| 677 |
Tube-Case Temp Difference Family Status |
| 678 |
Tube-Case Temp Difference Update Period |
| 679 |
Dynamic Viscosity Unit |
| 680 |
Pascals/sec |
| 681 |
Dynamic Viscosity Upper Sensor Limit |
| 682 |
Dynamic Viscosity Lower Sensor Limit |
| 683 |
Dynamic Viscosity Minimum Span |
| 684 |
Dynamic Viscosity Classification |
| 685 |
Dynamic Viscosity Family |
| 686 |
Dynamic Viscosity LS |
| 687 |
Dynamic Viscosity Family Status |
| 688 |
Dynamic Viscosity Update Period |
| 689 |
Kinematic Viscosity Unit |
| 690 |
Kinematic Viscosity Upper Sensor Limit |
| 691 |
Kinematic Viscosity Lower Sensor Limit |
| 692 |
Kinematic Viscosity Minimum Span |
| 693 |
Kinematic Viscosity Classification |
| 694 |
Kinematic Viscosity Family |
| 695 |
Kinematic Viscosity LS |
| 696 |
Kinematic Viscosity Family Status |
| 697 |
Kinematic Viscosity Update Period |
| 698 |
Referred Viscosity Unit |
| 699 |
Referred Viscosity Upper Sensor Limit |
| 700 |
Referred Viscosity Lower Sensor Limit |
| 701 |
Referred Viscosity Minimum Span |
| 702 |
Referred Viscosity Classification |
| 703 |
Referred Viscosity Family |
| 704 |
Referred Viscosity PDQ |
| 705 |
Referred Viscosity LS |
| 706 |
Referred Viscosity Family Status |
| 707 |
Referred Viscosity Update Period |
| 708 |
Secondary Referred Viscosity Upper Sensor Limit |
| 709 |
Secondary Referred Viscosity Lower Sensor Limit |
| 710 |
Secondary Referred Viscosity Minimum Span |
| 711 |
Secondary Referred Viscosity Classification |
| 712 |
Secondary Referred Viscosity Family |
| 713 |
Secondary Referred Viscosity PDQ |
| 714 |
Secondary Referred Viscosity LS |
| 715 |
Secondary Referred Viscosity Family Status |
| 716 |
Secondary Referred Viscosity Update Period |
| 717 |
Calculated Carbon Aromaticity Index |
| 718 |
CCAI Upper Sensor Limit |
| 719 |
CCAI Lower Sensor Limit |
| 720 |
CCAI Minimum Span |
| 721 |
CCAI Classification |
| 722 |
CCAI Family |
| 723 |
CCAI PDQ |
| 724 |
CCAI LS |
| 725 |
CCAI Family Status |
| 726 |
CCAI Update Period |
| 727 |
Calculated Ignition Index |
| 728 |
CII Upper Sensor Limit |
| 729 |
CII Lower Sensor Limit |
| 730 |
CII Minimum Span |
| 731 |
CII Classification |
| 732 |
CII Family |
| 733 |
CII PDQ |
| 734 |
CII LS |
| 735 |
CII Family Status |
| 736 |
CII Update Period |
| 737 |
Quality Factor Upper Sensor Limit |
| 738 |
Quality Factor Lower Sensor Limit |
| 739 |
Quality Factor Minimum Span |
| 740 |
Quality Factor Classification |
| 741 |
Quality Factor Family |
| 742 |
Quality Factor PDQ |
| 743 |
Quality Factor LS |
| 744 |
Quality Factor Family Status |
| 745 |
Quality Factor Update Period |
| 746 |
Gas Specific Gravity Upper Sensor Limit |
| 747 |
Gas Specific Gravity Lower Sensor Limit |
| 748 |
Gas Specific Gravity Minimum Span |
| 749 |
Gas Specific Gravity |
| 750 |
Gas Specific Gravity Classification |
| 751 |
Gas Specific Gravity Family |
| 752 |
Gas Specific Gravity LS |
| 753 |
Gas Specific Gravity Family Status |
| 754 |
Gas Specific Gravity Update Period |
| 755 |
Relative Density Upper Sensor Limit |
| 756 |
Relative Density Minimum Span |
| 757 |
Relative Density Classification |
| 758 |
Relative Density Family |
| 759 |
Relative Density LS |
| 760 |
Relative Density Family Status |
| 761 |
Relative Density Update Period |
| 762 |
Molecular Weight Unit |
| 763 |
Molecular Weight Upper Sensor Limit |
| 764 |
Molecular Weight Lower Sensor Limit |
| 765 |
Molecular Weight Minimum Span |
| 766 |
Molecular Weight Classification |
| 767 |
Molecular Weight Family |
| 768 |
Molecular Weight LS |
| 769 |
Molecular Weight Family Status |
| 770 |
Molecular Weight Update Period |
| 771 |
Compressibility Classification |
| 772 |
Compressibility Family |
| 773 |
Compressibility PDQ |
| 774 |
Compressibility LS |
| 775 |
Compressibility Family Status |
| 776 |
Compressibility Update Period |
| 777 |
Wobbe Index Unit |
| 778 |
Wobbe Index |
| 779 |
The ratio of the calorific value of a gas to its specific gravity. Typically measured in BTU/SCF or MJ/SCM. |
| 780 |
Wobbe Index Upper Sensor Limit |
| 781 |
Wobbe Index Lower Sensor Limit |
| 782 |
Wobbe Index Minimum Span |
| 783 |
Wobbe Index Classification |
| 784 |
Wobbe Index Family |
| 785 |
Wobbe Index PDQ |
| 786 |
Wobbe Index LS |
| 787 |
Wobbe Index Family Status |
| 788 |
Wobbe Index Update Period |
| 789 |
Calorific Value Unit |
| 790 |
Calorific Value |
| 791 |
The amount of heat released during the combustion of a specified amount of gas. Measured in units of energy per units of the gas. |
| 792 |
Calorific Value Upper Sensor Limit |
| 793 |
Calorific Value Lower Sensor Limit |
| 794 |
Calorific Value Minimum Span |
| 795 |
Calorific Value Classification |
| 796 |
Calorific Value Family |
| 797 |
Calorific Value PDQ |
| 798 |
Calorific Value LS |
| 799 |
Calorific Value Family Status |
| 800 |
Calorific Value Update Period |
| 801 |
Percent CO2 Unit |
| 802 |
Percent CO2 |
| 803 |
Percent CO2 Upper Sensor Limit |
| 804 |
Percent CO2 Lower Sensor Limit |
| 805 |
Percent CO2 Minimum Span |
| 806 |
Percent CO2 Classification |
| 807 |
Percent CO2 Family |
| 808 |
Percent CO2 PDQ |
| 809 |
Percent CO2 LS |
| 810 |
Percent CO2 Family Status |
| 811 |
Percent CO2 Update Period |
| 812 |
External Volume Flow Rate |
| 813 |
Current volume flow rate from an external device. |
| 814 |
Volume from Mag/Vortex Meter |
| 815 |
Volume Flow Classification |
| 816 |
Volume Flow Family |
| 817 |
Volume Flow LS |
| 818 |
Volume Flow Family Status |
| 819 |
Volume Flow Update Period |
| 820 |
Gas Base Density |
| 821 |
Gas Base Density Classification |
| 822 |
Gas Base Density Family |
| 823 |
Gas Base Density PDQ |
| 824 |
Gas Base Density LS |
| 825 |
Gas Base Density Family Status |
| 826 |
Gas Base Density Update Period |
| 827 |
Mass Flow Rate (Calculated) |
| 828 |
Current mass flow rate as calculated from external volume flow rate. |
| 829 |
Calculated Mass Flow from Mag Meter Input |
| 830 |
Mass Flow Classification |
| 831 |
Mass Flow Family |
| 832 |
Mass Flow LS |
| 833 |
Mass Flow Family Status |
| 834 |
Mass Flow Update Period |
| 835 |
Percent N2 Unit |
| 836 |
Percent N2 |
| 837 |
Percent N2 Upper Sensor Limit |
| 838 |
Percent N2 Lower Sensor Limit |
| 839 |
Percent N2 Minimum Span |
| 840 |
Percent N2 Classification |
| 841 |
Percent N2 Family |
| 842 |
Percent N2 PDQ |
| 843 |
Percent N2 LS |
| 844 |
Percent N2 Family Status |
| 845 |
Percent N2 Update Period |
| 846 |
Percent H2 Unit |
| 847 |
Percent H2 |
| 848 |
Percent H2 Upper Sensor Limit |
| 849 |
Percent H2 Lower Sensor Limit |
| 850 |
Percent H2 Minimum Span |
| 851 |
Percent H2 Classification |
| 852 |
Percent H2 Family |
| 853 |
Percent H2 PDQ |
| 854 |
Percent H2 LS |
| 855 |
Percent H2 Family Status |
| 856 |
Percent H2 Update Period |
| 857 |
Percent CO Unit |
| 858 |
Percent CO |
| 859 |
Percent CO Upper Sensor Limit |
| 860 |
Percent CO Lower Sensor Limit |
| 861 |
Percent CO Minimum Span |
| 862 |
Percent CO Classification |
| 863 |
Percent CO Family |
| 864 |
Percent CO PDQ |
| 865 |
Percent CO LS |
| 866 |
Percent CO Family Status |
| 867 |
Percent CO Update Period |
| 868 |
Volume Flow at Reference Temperature Classification |
| 869 |
Volume Flow at Reference Temperature Family |
| 870 |
Volume Flow at Reference Temperature PDQ |
| 871 |
Volume Flow at Reference Temperature LS |
| 872 |
Volume Flow at Reference Temperature Family Status |
| 873 |
Volume Flow at Reference Temperature Update Period |
| 874 |
External Mass Flow Rate |
| 875 |
Current mass flow rate from an external device. |
| 876 |
Energy Flow Rate Unit |
| 877 |
MJ/hr |
| 878 |
BTU/hr |
| 879 |
The energy of the process gas flowing through the meter per unit of time. Measured in units of energy per units of time. |
| 880 |
Energy Flow Upper Sensor Limit |
| 881 |
Energy Flow Lower Sensor Limit |
| 882 |
Energy Flow Minimum Span |
| 883 |
Energy Flow Classification |
| 884 |
Energy Flow Family |
| 885 |
Energy Flow PDQ |
| 886 |
Energy Flow LS |
| 887 |
Energy Flow Family Status |
| 888 |
Energy Flow Update Period |
| 889 |
Velocity Unit |
| 890 |
The velocity value below which the transmitter will report zero velocity. |
| 891 |
Velocity Cutoff |
| 892 |
Velocity Upper Sensor Limit |
| 893 |
Flow Damping |
| 894 |
Viscosity Damping |
| 895 |
Velocity Lower Sensor Limit |
| 896 |
Velocity Minimum Span |
| 897 |
Velocity Classification |
| 898 |
Velocity Family |
| 899 |
Velocity LS |
| 900 |
Velocity Family Status |
| 901 |
Velocity Update Period |
| 902 |
The time required for the vibrating element to complete one vibration cycle. |
| 903 |
Sensor Time Period Upper Sensor Limit |
| 904 |
Sensor Time Period Lower Sensor Limit |
| 905 |
Sensor Time Period Minimum Span |
| 906 |
Sensor Time Period Classification |
| 907 |
Sensor Time Period Family |
| 908 |
Sensor Time Period LS |
| 909 |
Sensor Time Period Family Status |
| 910 |
Not Used |
| 911 |
Density at Reference (API) |
| 912 |
Volume Flow at Reference Temperature |
| 913 |
Mass from Coriolis Meter |
| 914 |
Secondary Variable Percent Range |
| 915 |
Secondary Variable Upper Range Value |
| 916 |
Secondary Variable Lower Range Value |
| 917 |
MAO2 |
| 918 |
Meter Flange |
| 919 |
ANSI 300 |
| 920 |
ANSI 600 |
| 921 |
PN40 |
| 922 |
ANSI 900 |
| 923 |
PN100 |
| 924 |
ANSI 150 |
| 925 |
Sanitary Clamp Fitting |
| 926 |
PN16 |
| 927 |
ANSI 1500 |
| 928 |
Cone Seat Compression Fitting |
| 929 |
Unknown |
| 930 |
Wetted Material |
| 931 |
Hastelloy C |
| 932 |
Titanium |
| 933 |
316L SST |
| 934 |
The Product Code of the device as ordered from the factory. |
| 935 |
Product Code |
| 936 |
1d |
| 937 |
Controls the effect of forward and reverse flow on transmitter outputs and digital communications. See the transmitter configuration manual for more information. |
| 938 |
Flow Direction |
| 939 |
Forward |
| 940 |
Reverse |
| 941 |
Bi directional |
| 942 |
Two-Phase Flow High Limit |
| 943 |
Two-Phase Flow Low Limit |
| 944 |
Board Type |
| 945 |
Gas Densitometer |
| 946 |
Fork Densitometer/Viscometer |
| 947 |
Tube Densitometer |
| 948 |
Two-Phase Flow Timeout |
| 949 |
5.2f |
| 950 |
Velocity Switch Setpoint |
| 951 |
Hysteresis (0.001-0.1) |
| 952 |
4.3f |
| 953 |
Var Code 22 |
| 954 |
Var Code 23 |
| 955 |
Var Code 24 |
| 956 |
Var Code 25 |
| 957 |
Var Code 26 |
| 958 |
Var Code 27 |
| 959 |
Var Code 28 |
| 960 |
Var Code 29 |
| 961 |
Var Code 30 |
| 962 |
Var Code 31 |
| 963 |
Var Code 32 |
| 964 |
Var Code 33 |
| 965 |
Var Code 34 |
| 966 |
Var Code 35 |
| 967 |
Var Code 36 |
| 968 |
Var Code 37 |
| 969 |
Var Code 38 |
| 970 |
Number of decimal points to be displayed for the value. |
| 971 |
Sensor Time Period (A) |
| 972 |
Matrix Being Configured |
| 973 |
Select the matrix to be configured or modified. |
| 974 |
Curve 1 |
| 975 |
Curve 2 |
| 976 |
Curve 3 |
| 977 |
Curve 4 |
| 978 |
Curve 5 |
| 979 |
Curve 6 |
| 980 |
Reference Temperature |
| 981 |
Water Reference Temperature |
| 982 |
Temperature Units |
| 983 |
Water Reference Density |
| 984 |
Density Units |
| 985 |
Slope |
| 986 |
Offset |
| 987 |
Limit |
| 988 |
Curve Fit Maximum Order |
| 989 |
Concentration Units |
| 990 |
Concentration Unit String |
| 991 |
Matrix Name |
| 992 |
Curve Fit Results |
| 993 |
Accuracy |
| 994 |
Concentration Equation Type |
| 995 |
The multiplier (meter factor) to be used to adjust the concentration process variable. |
| 996 |
The value to be added to the concentration process variable. |
| 997 |
2 |
| 998 |
3 |
| 999 |
4 |
| 1000 |
5 |
| 1001 |
The label to be used for the concentration measurement unit. |
| 1002 |
Label |
| 1003 |
A user-defined label to be used for the concentration measurement unit. |
| 1004 |
Displays the name of the matrix. |
| 1005 |
Poor |
| 1006 |
Empty |
| 1007 |
0 |
| 1008 |
1 |
| 1009 |
5d |
| 1010 |
Source |
| 1011 |
Velocity Rate Switch |
| 1012 |
Calibration is in progress |
| 1013 |
Polarity |
| 1014 |
The state to which the discrete output will be set if the transmitter detects a fault with Alert Severity = Fault. If None is selected, the behavior of the discrete output will be controlled by Discrete Output Source. |
| 1015 |
Slope |
| 1016 |
Offset |
| 1017 |
3d |
| 1018 |
Current Zero Value |
| 1019 |
5.5f |
| 1020 |
6.5f |
| 1021 |
Fault Action |
| 1022 |
Upscale (21.0-21.5 mA) |
| 1023 |
Downscale (3.2-3.6 mA) |
| 1024 |
Fault Action |
| 1025 |
Fault Action |
| 1026 |
This parameter allows you to select the lower or upper mA output level that will indicate a fault condition. The range is 3.2 to 3.6 mA for downscale or 21.0 to 21.5 for upscale. |
| 1027 |
Fault Level |
| 1028 |
Fault Level |
| 1029 |
2d |
| 1030 |
Poll Control 1 |
| 1031 |
Poll as primary host |
| 1032 |
Poll as secondary host |
| 1033 |
Poll Control 3 |
| 1034 |
Poll Control 4 |
| 1035 |
Polled Variable 1 |
| 1036 |
Mass Flow from Coriolis Meter |
| 1037 |
Polled Variable 2 |
| 1038 |
Polled Variable 3 |
| 1039 |
Polled Variable 4 |
| 1040 |
External Device Tag 3 |
| 1041 |
External Device Tag 4 |
| 1042 |
Pressure Input |
| 1043 |
Disable |
| 1044 |
Enable |
| 1045 |
Fixed or Polled Pressure |
| 1046 |
RTD Cable Resistance |
| 1047 |
Meter RTD Resistance |
| 1048 |
Line RTD Resistance |
| 1049 |
Power On Time |
| 1050 |
Power On Time is the number of seconds since the last power cycle. |
| 1051 |
Table 23E |
| 1052 |
Table 24E |
| 1053 |
/degC |
| 1054 |
4.1f |
| 1055 |
disabled |
| 1056 |
enabled |
| 1057 |
The pressure to which referred density data will be corrected. |
| 1058 |
Reference Pressure |
| 1059 |
API K0 |
| 1060 |
API K1 |
| 1061 |
External Temperature |
| 1062 |
Fixed or Polled Temperature |
| 1063 |
Enabled: Process measurement will be adjusted for the effect of temperature on the vibrating element.
Disabled: Process measurement will not be adjusted for the effect of temperature. |
| 1064 |
External Temperature Modulus |
| 1065 |
External Temperature for Viscosity |
| 1066 |
Enabled: The external (polled) temperature value will be used in gas measurement.
Disabled: The onboard (RTD) temperature data will be used in gas measurement. |
| 1067 |
External Temperature for Gas |
| 1068 |
Menu Passcode |
| 1069 |
Passcode (4 Digits) |
| 1070 |
4d |
| 1071 |
Variable 1 |
| 1072 |
Diagnostic Input Density |
| 1073 |
Diagnostic Calculated Density |
| 1074 |
Variable 2 |
| 1075 |
Variable 3 |
| 1076 |
Variable 4 |
| 1077 |
Variable 5 |
| 1078 |
Variable 6 |
| 1079 |
Variable 7 |
| 1080 |
Variable 8 |
| 1081 |
Variable 9 |
| 1082 |
Variable 10 |
| 1083 |
Variable 11 |
| 1084 |
Variable 12 |
| 1085 |
Variable 13 |
| 1086 |
Variable 14 |
| 1087 |
Variable 15 |
| 1088 |
Refresh Rate (100-10,000) |
| 1089 |
English |
| 1090 |
German |
| 1091 |
French |
| 1092 |
Spanish |
| 1093 |
Modbus ASCII Support |
| 1094 |
MID |
| 1095 |
Engineer to Order Number |
| 1096 |
Transmitter Firmware Checksum |
| 1097 |
The result of the integrity check calculated for the meter. |
| 1098 |
MID Software Version |
| 1099 |
The version of the software component that implements MID security. |
| 1100 |
Active Matrix |
| 1101 |
Concentration Measurement |
| 1102 |
Displays the status of the concentration measurement application. |
| 1103 |
Temperature High |
| 1104 |
Enable or disable the extrapolation alerts as desired. Note: If you are using matrix switching, you must enable the extrapolation alerts that will trigger matrix switching. |
| 1105 |
Density Low |
| 1106 |
Density High |
| 1107 |
Temperature Low |
| 1108 |
Variable |
| 1109 |
Event Type |
| 1110 |
Density 6 |
| 1111 |
Temperature Iso 1 |
| 1112 |
Temperature Iso 2 |
| 1113 |
Temperature Iso 3 |
| 1114 |
Temperature Iso 4 |
| 1115 |
Temperature Iso 5 |
| 1116 |
Temperature Iso 6 |
| 1117 |
Derived Variable |
| 1118 |
Density at Reference |
| 1119 |
Specific Gravity |
| 1120 |
Mass Concentration(Dens) |
| 1121 |
Mass Concentration(SG) |
| 1122 |
Volume Concentration(Dens) |
| 1123 |
Volume Concentration(SG) |
| 1124 |
Concentration(Dens) |
| 1125 |
Concentration(SG) |
| 1126 |
Velocity High Limit |
| 1127 |
Velocity Low Limit |
| 1128 |
The calibration factors calculated for this meter, in an updated format. |
| 1129 |
A1 |
| 1130 |
A2 |
| 1131 |
A3 |
| 1132 |
A4 |
| 1133 |
A5 |
| 1134 |
A6 |
| 1135 |
A7 |
| 1136 |
A8 |
| 1137 |
A9 |
| 1138 |
The adjustment to be applied to the pressure value. This value is added to the external pressure value. |
| 1139 |
Pressure Offset |
| 1140 |
The adjustment to be applied to the density process variable. This value is added to the measured density. |
| 1141 |
Density Offset |
| 1142 |
The adjustment to be applied to the density process variable. The measured density is multiplied by this value. |
| 1143 |
Meter Factor (0.8-1.2) |
| 1144 |
Correction |
| 1145 |
Pressure Measurement Type |
| 1146 |
Gauge |
| 1147 |
Absolute |
| 1148 |
The adjustment to be applied to the volume flow process variable. The measured volume flow is multiplied by this value. |
| 1149 |
Volume Factor (0.8-1.2) |
| 1150 |
Polled |
| 1151 |
Digital Communications |
| 1152 |
The unit from which the special unit will be calculated. |
| 1153 |
Base Unit |
| 1154 |
The value by which the base unit will be divided, to report data in the special unit. |
| 1155 |
Conversion Factor |
| 1156 |
The name to be used for the special unit. |
| 1157 |
Label |
| 1158 |
Enabled: The meter will calculate and report process variables based on the values specified here.
Disabled: The meter will calculate and report process variables based on live data. |
| 1159 |
When Sensor Simulation is enabled, Velocity will be fixed at this value. |
| 1160 |
The amount of time required for one vibration cycle. |
| 1161 |
The temperature of the process gas or fluid. |
| 1162 |
A |
| 1163 |
The value to be used for this constant in the equation. |
| 1164 |
B |
| 1165 |
X |
| 1166 |
C |
| 1167 |
Y |
| 1168 |
E |
| 1169 |
F |
| 1170 |
Constant |
| 1171 |
The constant value to be used for this variable in the equation. |
| 1172 |
User-Defined Calculation Output Type |
| 1173 |
Base Density Source |
| 1174 |
Calculated Base Density |
| 1175 |
User Base Density |
| 1176 |
The process variable to be used for this variable in the equation. |
| 1177 |
t |
| 1178 |
a |
| 1179 |
b |
| 1180 |
c |
| 1181 |
d |
| 1182 |
e |
| 1183 |
f |
| 1184 |
ρw (Density of Water) |
| 1185 |
Density of water at reference temperature and reference pressure. |
| 1186 |
The label to be used for the result of the user-defined calculation. |
| 1187 |
Calculation Output Label |
| 1188 |
Laboratory Density |
| 1189 |
The density of your process fluid at line temperature, as measured in a laboratory or by a very accurate device. |
| 1190 |
Start Density Offset Calibration |
| 1191 |
Select Fluid |
| 1192 |
Water |
| 1193 |
Known User Fluid |
| 1194 |
User Sensor Check |
| 1195 |
Base Density Sensor Check |
| 1196 |
Time Period (Vacuum) at 20 degC |
| 1197 |
Time Period (Air) at 20 degC |
| 1198 |
Health Check Result |
| 1199 |
Questionable |
| 1200 |
Not Run |
| 1201 |
In Progress |
| 1202 |
No Factory Calibration |
| 1203 |
Sensor Time Period (A) Average |
| 1204 |
Sensor Time Period (A) Stability |
| 1205 |
Temperature Check Average |
| 1206 |
Temperature Check Stability |
| 1207 |
Pickoff Check Average |
| 1208 |
Quality Average |
| 1209 |
Temperature Difference Average |
| 1210 |
Temperature Difference Stability |
| 1211 |
Meter Altitude |
| 1212 |
The altitude or elevation of this meter. 0 = sea level. |
| 1213 |
0 feet |
| 1214 |
1000 feet |
| 1215 |
2000 feet |
| 1216 |
3000 feet |
| 1217 |
4000 feet |
| 1218 |
5000 feet |
| 1219 |
6000 feet and up |
| 1220 |
500 meters |
| 1221 |
1000 meters |
| 1222 |
2000 meters and up |
| 1223 |
Health Check Failure |
| 1224 |
Sensor Time Period Average Fail |
| 1225 |
Sensor Time Period Maximum Deviation Fail |
| 1226 |
Temperature Maximum Deviation Fail |
| 1227 |
DG Average Fail |
| 1228 |
Case Temperature Maximum Deviation Fail |
| 1229 |
Start Sensor Check |
| 1230 |
Measurement Type |
| 1231 |
Fork Type |
| 1232 |
Viscomaster |
| 1233 |
Viscomaster Dynamic |
| 1234 |
Aquametro Basic |
| 1235 |
Interface Type |
| 1236 |
TPS |
| 1237 |
Analog |
| 1238 |
Remote Access |
| 1239 |
Tine Type |
| 1240 |
Short |
| 1241 |
Long |
| 1242 |
CM SG |
| 1243 |
CM Baume |
| 1244 |
CM Twaddle |
| 1245 |
CM Plato |
| 1246 |
CM Brix |
| 1247 |
Matrix Switching |
| 1248 |
Channel A |
| 1249 |
Milliamp Output 1 |
| 1250 |
Channel B |
| 1251 |
Milliamp Output 2 |
| 1252 |
Density Legacy Index 1 |
| 1253 |
Set 1 |
| 1254 |
Set 2 |
| 1255 |
K0 |
| 1256 |
K1 |
| 1257 |
K2 |
| 1258 |
The calibration factors calculated for this meter, in legacy format. |
| 1259 |
9.6f |
| 1260 |
Density Legacy Index 2 |
| 1261 |
Set 3 |
| 1262 |
Set 4 |
| 1263 |
K20A |
| 1264 |
K20B |
| 1265 |
K21A |
| 1266 |
K21B |
| 1267 |
K18 |
| 1268 |
K19 |
| 1269 |
K22 |
| 1270 |
K23 |
| 1271 |
Drive Gain Average |
| 1272 |
Drive Gain Stability |
| 1273 |
Case Temperature Average |
| 1274 |
Case Temperature Stability |
| 1275 |
Select the option you would like to configure: |
| 1276 |
Finish to Exit |
| 1277 |
Select ‘Yes’ to save the burst configuration settings. |
| 1278 |
Save Configuration: |
| 1279 |
Version of the current Device Description. |
| 1280 |
A020: Calibration Factors Unentered |
| 1281 |
A021: Unrecognized/Unentered Sensor Type |
| 1282 |
A029: Internal Communication failure |
| 1283 |
A030: Hardware/software incompatible |
| 1284 |
A033: Tube / Fork not Vibrating |
| 1285 |
A038: Time Period Out of Range |
| 1286 |
A100: MAO1 Saturated |
| 1287 |
A114: mA Output 2 Fixed |
| 1288 |
A122: API:Pressure Outside Standard Range |
| 1289 |
A133: UI EEPROM Error |
| 1290 |
A134: Case Meter Temperature Differential Out of Limit |
| 1291 |
A136: Incorrect Display Type |
| 1292 |
PASS |
| 1293 |
FAIL |
| 1294 |
KDV Calibration Index |
| 1295 |
Sensor Time Period Stability |
| 1296 |
Factory Average Drive Gain |
| 1297 |
Sensor Time Period obtained during factory test. |
| 1298 |
User Average Time Period |
| 1299 |
A113: Secondary mAO Saturated |
| 1300 |
A114: Secondary mAO Fixed |
| 1301 |
A118: Discrete Output Fixed |
| 1302 |
A036: Viscosity Out-of-limit |
| 1303 |
KV Index |
| 1304 |
KV4 |
| 1305 |
KV5 |
| 1306 |
KV6 |
| 1307 |
Density calibration factors. |
| 1308 |
K0 |
| 1309 |
K1 |
| 1310 |
K2 |
| 1311 |
Temperature calibration factors. |
| 1312 |
K18 |
| 1313 |
K19 |
| 1314 |
Velocity of Sound of Calibration Fluid |
| 1315 |
Velocity of Sound of Measured Fluid |
| 1316 |
Active Calibration Set |
| 1317 |
Density calibration factors, used to establish the relationship between density and sensor response. |
| 1318 |
6.6f |
| 1319 |
Temperature compensation factors, used to adjust measurement for the effects of temperature on the device. |
| 1320 |
Velocity of sound compensation factors, used to adjust measurement for the effects of pressure waves in the process gas. |
| 1321 |
K3 |
| 1322 |
K4 |
| 1323 |
The molecular weight of air. The default value (28.96469 g/mol) is appropriate for most applications. |
| 1324 |
Molecular Weight of Air |
| 1325 |
Calibration Gas Constant |
| 1326 |
Measurement Gas Constant |
| 1327 |
Calibration Temperature Constant |
| 1328 |
Measurement Temperature Constant |
| 1329 |
Viscosity Value Range |
| 1330 |
Ultra Low (0.50 – 10.46 cP) |
| 1331 |
Low (10.46 – 108.16 cP) |
| 1332 |
Medium (108.16 – 1087.43 cP) |
| 1333 |
High (1087.43 – 13345.64 cP) |
| 1334 |
V0 |
| 1335 |
V1 |
| 1336 |
V2 |
| 1337 |
Range Scale at selected range |
| 1338 |
Viscosity range switch setpoint index |
| 1339 |
Ultra Low to Low |
| 1340 |
Low to Medium |
| 1341 |
Medium to High |
| 1342 |
Dynamic Viscosity Scaling Factor |
| 1343 |
Viscosity Hysteresis |
| 1344 |
Compression Filter parameter |
| 1345 |
Viscosity Offset |
| 1346 |
The density of the process gas at base temperature and base pressure. |
| 1347 |
Density ASTM Coeff A |
| 1348 |
Density ASTM Coeff B |
| 1349 |
Start Viscosity Scaling Factor Calibration |
| 1350 |
cP |
| 1351 |
Laboratory Dynamic Viscosity |
| 1352 |
Referred Viscosity Calculation Method |
| 1353 |
Referred Viscosity Maximum Fit Order for 6x6 matrix |
| 1354 |
Referred Temperature 1 |
| 1355 |
Referred Temperature 2 |
| 1356 |
Fit Accuracy |
| 1357 |
Fit Result |
| 1358 |
Good |
| 1359 |
Failed |
| 1360 |
Matrix Data Unit |
| 1361 |
Number of ASTM Reference Curves |
| 1362 |
Compressibility Method |
| 1363 |
The measurement standard to be used to measure compressibility. |
| 1364 |
SGERG88 |
| 1365 |
AGA NX19 |
| 1366 |
AGA NX19 MOD |
| 1367 |
AGA NX19 MOD3H |
| 1368 |
Base Pressure |
| 1369 |
The compressibility of the process gas at base temperature and base pressure. |
| 1370 |
Base Compressibility |
| 1371 |
6.4f |
| 1372 |
The temperature to which density data will be corrected (the reference temperature). |
| 1373 |
Base Temperature |
| 1374 |
The density of air at base temperature and base pressure. |
| 1375 |
Base Density of Air |
| 1376 |
The percentage of carbon dioxide in the process gas. |
| 1377 |
The percentage of nitrogen in the process gas. |
| 1378 |
The percentage of hydrogen in the process gas. |
| 1379 |
The percentage of carbon monooxide in the process gas. |
| 1380 |
SGERG Method |
| 1381 |
SGERG_ALL |
| 1382 |
SGERG_NOT_N2 |
| 1383 |
SGERG_NOT_CO2 |
| 1384 |
SGERG_NOT_CV |
| 1385 |
SGERG_NOT_RD |
| 1386 |
Compressibility Calculations |
| 1387 |
Calibration Number |
| 1388 |
Low Range Time Period Gas K0 |
| 1389 |
Mid Range Time Period Gas K1 |
| 1390 |
High Range Time Period Gas K2 |
| 1391 |
Low Range SG Gas K0 |
| 1392 |
Mid Range SG Gas K1 |
| 1393 |
High Range SG Gas K2 |
| 1394 |
Gas |
| 1395 |
The sensor time period used to calculate the K0 calibration point. |
| 1396 |
Sensor Time Period (Low) |
| 1397 |
The sensor time period used to calculate the K1 calibration point. |
| 1398 |
Sensor Time Period (Medium) |
| 1399 |
The sensor time period used to calculate the K2 calibration point. |
| 1400 |
Sensor Time Period (High) |
| 1401 |
The specific gravity used to calculate the K0 calibration point. |
| 1402 |
The relative density used to calculate the K0 calibration point. |
| 1403 |
The molecular weight used to calculate the K0 calibration point. |
| 1404 |
Specific Gravity (Low) |
| 1405 |
Relative Density (Low) |
| 1406 |
Molecular Weight Low (g/mol) |
| 1407 |
5.6f |
| 1408 |
The specific gravity used to calculate the K1 calibration point. |
| 1409 |
The relative density used to calculate the K1 calibration point. |
| 1410 |
The molecular weight used to calculate the K1 calibration point. |
| 1411 |
Specific Gravity (Medium) |
| 1412 |
Relative Density (Medium) |
| 1413 |
Molecular Weight Medium (g/mol) |
| 1414 |
The specific gravity used to calculate the K2 calibration point. |
| 1415 |
The relative density used to calculate the K2 calibration point. |
| 1416 |
The molecular weight used to calculate the K2 calibration point. |
| 1417 |
Specific Gravity (High) |
| 1418 |
Relative Density (High) |
| 1419 |
Molecular Weight High (g/mol) |
| 1420 |
The name of the gas to be used to determine the K0 calibration point. |
| 1421 |
Hydrogen |
| 1422 |
Helium |
| 1423 |
CO2 |
| 1424 |
Nitrogen |
| 1425 |
CO |
| 1426 |
Oxygen |
| 1427 |
Argon |
| 1428 |
Air |
| 1429 |
Hydrogen Sulphide |
| 1430 |
Methane |
| 1431 |
Ethane |
| 1432 |
Propane |
| 1433 |
Butane |
| 1434 |
Custom Gas 1 |
| 1435 |
Custom Gas 2 |
| 1436 |
Custom Gas 3 |
| 1437 |
Custom Gas 4 |
| 1438 |
Other |
| 1439 |
The name of the gas to be used to determine the K1 calibration point. |
| 1440 |
The name of the gas to be used to determine the K2 calibration point. |
| 1441 |
Start/Abort Gas Calibration |
| 1442 |
Abort |
| 1443 |
Start |
| 1444 |
Save Gas Calibration 1 |
| 1445 |
Save Gas Calibration 2 |
| 1446 |
Save Gas Calibration 3 |
| 1447 |
Start Gas Calibration |
| 1448 |
Active Calibration |
| 1449 |
The calibration factors to be used for measurement. |
| 1450 |
Calibration Format |
| 1451 |
Displays whether this calibration is based on two calibration gases or three calibration gases. |
| 1452 |
2-Point Calibration |
| 1453 |
3-Point Calibration |
| 1454 |
Indicates whether or not the data for this calibration is acceptable. |
| 1455 |
Calibration Point |
| 1456 |
A measure of the variability of the Sensor Time Period value, used to indicate the stage or the quality of the calibration process. |
| 1457 |
ns |
| 1458 |
Stability |
| 1459 |
Volume Flow Source |
| 1460 |
Enabled: Volume flow data will be obtained from an external device. Requires polling setup.
Disabled: No volume flow data will be obtained. |
| 1461 |
The current volume flow rate from the external device. |
| 1462 |
External Flow |
| 1463 |
Mass Flow Source |
| 1464 |
Enabled: Mass flow data will be obtained from an external device. Requires polling setup.
Disabled: No mass flow data will be obtained. |
| 1465 |
The current mass flow rate from the external device. |
| 1466 |
Referred Viscosity Curve Isotherm Index |
| 1467 |
Referred Viscosity Temperature Isotherm Value |
| 1468 |
Referred Viscosity ISO at temperature 0 |
| 1469 |
Referred Viscosity ISO at temperature 1 |
| 1470 |
Referred Viscosity ISO at temperature 2 |
| 1471 |
Referred Viscosity ISO at temperature 3 |
| 1472 |
Referred Viscosity ISO at temperature 4 |
| 1473 |
Referred Viscosity ISO at temperature 5 |
| 1474 |
Centistokes |
| 1475 |
Viscosity 1 |
| 1476 |
Viscosity 2 |
| 1477 |
Viscosity 3 |
| 1478 |
Viscosity 4 |
| 1479 |
Viscosity 5 |
| 1480 |
Viscosity 6 |
| 1481 |
Referred Viscosity ASTM Curve Index |
| 1482 |
Temperature 1 |
| 1483 |
Temperature 2 |
| 1484 |
The compressibility of the process gas. Typically measured using a gas chromatograph. |
| 1485 |
Line Compressibility |
| 1486 |
Input Density Classification |
| 1487 |
Input Density Family |
| 1488 |
Input Density LS |
| 1489 |
Input Density Family Status |
| 1490 |
Input Density Update Period |
| 1491 |
Calculated Density Classification |
| 1492 |
Calculated Density Family |
| 1493 |
Calculated Density LS |
| 1494 |
Calculated Density Family Status |
| 1495 |
Calculated Density Update Period |
| 1496 |
Gas Specific Gravity 2 Upper Sensor Limit |
| 1497 |
Gas Specific Gravity 2 Lower Sensor Limit |
| 1498 |
Gas Specific Gravity 2 Minimum Span |
| 1499 |
Gas Specific Gravity 2 |
| 1500 |
Gas Specific Gravity 2 Classification |
| 1501 |
Gas Specific Gravity 2 Family |
| 1502 |
Gas Specific Gravity 2 LS |
| 1503 |
Gas Specific Gravity 2 Family Status |
| 1504 |
Gas Specific Gravity 2 Update Period |
| 1505 |
Gas Specific Gravity 3 Upper Sensor Limit |
| 1506 |
Gas Specific Gravity 3 Lower Sensor Limit |
| 1507 |
Gas Specific Gravity 3 Minimum Span |
| 1508 |
Gas Specific Gravity 3 |
| 1509 |
Gas Specific Gravity 3 Classification |
| 1510 |
Gas Specific Gravity 3 Family |
| 1511 |
Gas Specific Gravity 3 LS |
| 1512 |
Gas Specific Gravity 3 Family Status |
| 1513 |
Gas Specific Gravity 3 Update Period |
| 1514 |
Gas Specific Gravity 4 Upper Sensor Limit |
| 1515 |
Gas Specific Gravity 4 Lower Sensor Limit |
| 1516 |
Gas Specific Gravity 4 Minimum Span |
| 1517 |
Gas Specific Gravity 4 |
| 1518 |
Gas Specific Gravity 4 Classification |
| 1519 |
Gas Specific Gravity 4 Family |
| 1520 |
Gas Specific Gravity 4 LS |
| 1521 |
Gas Specific Gravity 4 Family Status |
| 1522 |
Gas Specific Gravity 4 Update Period |
| 1523 |
Molecular Weight 2 Upper Sensor Limit |
| 1524 |
Molecular Weight 2 Lower Sensor Limit |
| 1525 |
Molecular Weight 2 Minimum Span |
| 1526 |
Molecular Weight 2 Classification |
| 1527 |
Molecular Weight 2 Family |
| 1528 |
Molecular Weight 2 LS |
| 1529 |
Molecular Weight 2 Family Status |
| 1530 |
Molecular Weight 2 Update Period |
| 1531 |
Molecular Weight 3 Upper Sensor Limit |
| 1532 |
Molecular Weight 3 Minimum Span |
| 1533 |
Molecular Weight 3 Classification |
| 1534 |
Molecular Weight 3 Family |
| 1535 |
Molecular Weight 3 LS |
| 1536 |
Molecular Weight 3 Family Status |
| 1537 |
Molecular Weight 3 Update Period |
| 1538 |
Molecular Weight 4 Upper Sensor Limit |
| 1539 |
Molecular Weight 4 Lower Sensor Limit |
| 1540 |
Molecular Weight 4 Minimum Span |
| 1541 |
Molecular Weight 4 Classification |
| 1542 |
Molecular Weight 4 Family |
| 1543 |
Molecular Weight 4 LS |
| 1544 |
Molecular Weight 4 Family Status |
| 1545 |
Molecular Weight 4 Update Period |
| 1546 |
ED Concentration 2 Classification |
| 1547 |
ED Concentration 2 Family |
| 1548 |
ED Concentration 2 LS |
| 1549 |
ED Concentration 2 Family Status |
| 1550 |
ED Concentration 2 Update Period |
| 1551 |
ED Concentration 3 Classification |
| 1552 |
ED Concentration 3 Family |
| 1553 |
ED Concentration 3 LS |
| 1554 |
ED Concentration 3 Family Status |
| 1555 |
ED Concentration 3 Update Period |
| 1556 |
ED Concentration 4 Classification |
| 1557 |
ED Concentration 4 Family |
| 1558 |
ED Concentration 4 LS |
| 1559 |
ED Concentration 4 Family Status |
| 1560 |
ED Concentration 4 Update Period |
| 1561 |
Sensor Simulation Mode |
| 1562 |
Simulation Mode Type |
| 1563 |
Fixed Value |
| 1564 |
Ramp Low Point |
| 1565 |
Ramp High Point |
| 1566 |
Ramp Period |
| 1567 |
The type of Dynamic Viscosity Simulation. |
| 1568 |
Dynamic Viscosity Fixed Value |
| 1569 |
Dynamic Viscosity Minimum Amplitude of waveform |
| 1570 |
Dynamic Viscosity Maximum Amplitude of waveform |
| 1571 |
Dynamic Viscosity period of waveform |
| 1572 |
Select measurement type: |
| 1573 |
SG/MW/RD of Pure Gas |
| 1574 |
7.5f |
| 1575 |
SG/MW/RD of Second Gas |
| 1576 |
Calibration Name |
| 1577 |
Water Density |
| 1578 |
Reference Temperature (Water) |
| 1579 |
Reference Pressure (Water) |
| 1580 |
Calculated Water Density |
| 1581 |
Difference in Density |
| 1582 |
Start Inline Calibration |
| 1583 |
Note: Gauges will be displayed based on active calibration selection. |
| 1584 |
Tag, model code, revision, security, and related data. |
| 1585 |
Revision Numbers |
| 1586 |
Current values of process variables and outputs. |
| 1587 |
Primary Variable |
| 1588 |
Secondary Variable |
| 1589 |
External Variable |
| 1590 |
Trend charts for common process and diagnostic variables. |
| 1591 |
Displays a trend chart for net mass flow rate. |
| 1592 |
Displays a trend chart for net volume flow rate. |
| 1593 |
Displays a trend chart for specific gravity (CM). |
| 1594 |
Displays a trend chart for density. |
| 1595 |
Displays a trend chart for temperature. |
| 1596 |
Displays a trend chart for velocity. |
| 1597 |
Displays a trend chart for volume flow rate. |
| 1598 |
Displays a trend chart for concentration. |
| 1599 |
Displays a trend chart for density at reference (CM). |
| 1600 |
Displays a trend chart for density at reference (API). |
| 1601 |
Displays a trend chart for specific gravity (Gas). |
| 1602 |
Displays a trend chart for molecular weight. |
| 1603 |
Displays a trend chart for relative density. |
| 1604 |
Displays a trend chart for base density (Gas). |
| 1605 |
Displays a trend chart for dynamic viscosity. |
| 1606 |
Displays a trend chart for kinematic viscosity. |
| 1607 |
Displays a trend chart for referred viscosity. |
| 1608 |
Displays a trend chart for referred viscosity (Secondary). |
| 1609 |
Displays a trend chart for sensor time period (A). |
| 1610 |
Displays a trend chart for sensor time period. |
| 1611 |
Displays a trend chart for case temperature. |
| 1612 |
Displays a trend chart for tube-case temp difference. |
| 1613 |
Displays a trend chart for input voltage. |
| 1614 |
Displays a trend chart for board temperature. |
| 1615 |
Displays a trend chart for left pickoff amplitude. |
| 1616 |
Displays a trend chart for right pickoff amplitude. |
| 1617 |
Displays a trend chart for pickoff amplitude. |
| 1618 |
Displays a trend chart for drive gain. |
| 1619 |
Displays a trend chart for quality factor. |
| 1620 |
Displays a trend chart for input density. |
| 1621 |
Initial Setup |
| 1622 |
Configures the Calibration Factors. |
| 1623 |
Configure channels, outputs and mapped variables. |
| 1624 |
Perform the Known Density Verification procedure to verify that the meter's current operation matches the factory baseline. |
| 1625 |
Configure outputs and mapped variables. |
| 1626 |
Determine calibration factors for a set of gases by measuring the time period while running each gas through the meter. |
| 1627 |
View calibration data. |
| 1628 |
Configure the parameters required to measure the energy content of the gas. |
| 1629 |
Note: Gas Composition values can be read in from an external device if External Polling has been configured. |
| 1630 |
Configure the parameters required for external pressure, temperature, gas composition, and other process variables. |
| 1631 |
The meter supports a maximum of four polling connections. |
| 1632 |
‘Pressure Offset’ and ‘Pressure Measurement Type’ will be read-only if ‘Pressure Input’ is set to Fixed. |
| 1633 |
Configure the parameters required for fundamental gas measurement. |
| 1634 |
Configure the parameters required to measure gas compressibility. |
| 1635 |
Calculation Methods |
| 1636 |
Note: The SGERG-88 and AGA NX19 MOD3H compressibility methods require Calorific Value. You must set up energy content measurement for these methods. |
| 1637 |
Note: Gas Composition values can be read in from an external device if External Polling has been configured. Percent H2 value can be entered only if Compressibility Method is set to SGERG-88. |
| 1638 |
Select the process variables to be shown on the display. |
| 1639 |
Specify the display precision for each process variable. |
| 1640 |
View the output channel types. |
| 1641 |
Configure mA Output 1 and mA Output 2 (if available). |
| 1642 |
Configure polling for external process data. |
| 1643 |
Map variables to the 'Primary Variable (PV)', 'Secondary Variable (SV)', 'Third Variable (TV)' and 'Fourth Variable (QV)'. |
| 1644 |
Set the channel type for Channel B. |
| 1645 |
Configure Discrete Output. |
| 1646 |
View the channel types. |
| 1647 |
Meter Information |
| 1648 |
Configure burst messages and event notification. |
| 1649 |
Configure HART communications. |
| 1650 |
Configure Burst Variables |
| 1651 |
Configure the contents of Burst Message 1. |
| 1652 |
Device Variables |
| 1653 |
PV, SV, TV, QV |
| 1654 |
When the device is locked, only the currently connected HART master can configure or calibrate the device. When the device is unlocked, all HART masters can configure or calibrate the device. No other connection types are affected. |
| 1655 |
Changes the Alert Severity to Fault, Information or Ignore. |
| 1656 |
Displays the current severity of the alert. |
| 1657 |
Extrapolation Type |
| 1658 |
Acknowledge all alerts simultaneously. |
| 1659 |
The transmitter has detected a problem communicating with the sensor. |
| 1660 |
Recommended Actions:
1. Cycle power to the meter.
2. Contact Micro Motion. |
| 1661 |
The transmitter is not receiving one or more basic electrical signals from the sensor. |
| 1662 |
Recommended Actions:
1. Check the drive gain and the pickoff voltage.
2. Check for electrical shorts.
3. Check the integrity of the sensor tubes. |
| 1663 |
The RTD resistance is out of range for the sensor. |
| 1664 |
Recommended Actions:
1. Check for electrical shorts.
2. Verify temperature characterization or calibration parameters.
3. Check your process conditions against the values reported by the device.
4. Contact Micro Motion. |
| 1665 |
The measured velocity is greater than the maximum velocity limit of the sensor. |
| 1666 |
Recommended Actions:
1. If other alerts are present, resolve those alert conditions first. If the current alert persists, continue with the recommended actions.
2. Check your process conditions against the values reported by the device.
3. Check for two-phase flow. |
| 1667 |
Calibration factors have not been entered, or the sensor type is incorrect, or the calibration factors are incorrect for the sensor type. |
| 1668 |
Recommended Actions:
1. Verify all of the characterization or calibration parameters. See the sensor tag or the calibration sheet for your meter.
2. Check for electrical shorts.
3. Contact Micro Motion. |
| 1669 |
The line density is greater than 3 g/cm3. |
| 1670 |
Recommended Actions:
1. If other alerts are present, resolve those alerts conditions first. If the current alert persists, continue with the recommended actions.
2. Check for air in the flow tubes, tubes not filled, foreign material in the tubes, coating in the tubes, or other process problems.
3. Check for two-phase flow.
4. If accompanied by an A003 alert, check for electrical shorts.
5 Verify all of the characterization or calibration parameters. See the sensor tag or the calibration sheet for your meter.
6. Check the drive gain and the pickoff voltage.
7. Contact Micro Motion. |
| 1671 |
Transmitter is in power-up mode. |
| 1672 |
Recommended Actions:
1. Allow the meter to complete its power-up sequence. The alert should clear automatically.
2. Verify that the tubes are full of process fluid.
3. Verify that the transmitter is receiving sufficient power.
4. If it is not, correct the problem and cycle power to the meter.
5. If it is, this suggests that the transmitter has an internal power issue. Replace the transmitter. |
| 1673 |
Many possible causes, such as too much flow through the sensor during a calibration procedure, or a zero result that is out of range. This alert will not clear until you cycle power to the meter. |
| 1674 |
Recommended Actions:
1. If this alert appears during zeroing (CDM meters only), verify that there is no flow through the sensor, cycle power to the meter, then retry the procedure. |
| 1675 |
Many possible causes, such as too much flow, especially reverse flow, through the sensor during a calibration procedure, or a zero result that is too low. This alert is accompanied by A010. This alert will not clear until you cycle power to the meter. |
| 1676 |
Recommended Action:
1. Verify that there is no flow through the sensor, cycle power to the meter, then retry the procedure. |
| 1677 |
Many possible causes, such as too much flow, especially forward flow, through the sensor during a calibration procedure, or a zero result that is too high. This alert is accompanied by A010. This alert will not clear until you cycle power to the meter. |
| 1678 |
There was too much process instability during the calibration procedure. This alert will not clear until you cycle power to the meter. |
| 1679 |
Recommended Action:
1. Remove or reduce sources of electromechanical noise (e.g., pumps, vibration, pipe stress), cycle power to the meter, then retry the procedure. |
| 1680 |
Recommended Actions:
1. Ensure that all wiring compartment covers are installed correctly.
2. Ensure that all transmitter wiring meets specifications and that all cable shields are properly terminated.
3. Check the grounding of all components.
4. Evaluate the environment for sources of high electromagnetic interference (EMI) and relocate the transmitter or wiring as necessary.
5. Contact Micro Motion. |
| 1681 |
Recommended Actions:
1. Check your process conditions against the values reported by the device.
2. Check for electrical shorts.
3. Contact Micro Motion. |
| 1682 |
The value computed for the resistance of the meter and case RTDs are outside limits. |
| 1683 |
Recommended Actions:
1.Check your process conditions against the values reported by the device. Temperature should be between – 200 °F and +400 °F.
2. Check for electrical shorts.
3. Contact Micro Motion. |
| 1684 |
Some calibration factors have not been entered or are incorrect. |
| 1685 |
Recommended Action:
1. Verify all of the characterization or calibration parameters. See the sensor tag or the calibration sheet for your meter. |
| 1686 |
The configured board type does not match the physical board, or the configured sensor type does not match the physical sensor. |
| 1687 |
Recommended Actions:
1. Verify all of the characterization or calibration parameters. See the sensor tag or the calibration sheet for your meter.
2. Ensure that the correct board is installed. |
| 1688 |
The transmitter has been switched from secure mode to unsecure mode. In unsecured mode, the transmitter configuration can be changed. |
| 1689 |
Recommended Actions:
1. Check the HART device ID. For MID applications, it must be non-zero. If it is set to 0, contact the factory.
2. Set the transmitter to secure to clear the alert. Note that additional procedures may be required to return the device to secured mode. |
| 1690 |
Internal electronics failure. This can indicate a loss of communication between the transmitter and the display module. |
| 1691 |
Recommended Actions:
1. Cycle power to the meter.
2. Replace the display module.
3. Contact Micro Motion. |
| 1692 |
The loaded software is not compatible with the programmed board type. |
| 1693 |
The signal from the sensor pick-off(s) is insufficient. This suggests that the sensor tubes or vibrating elements are not vibrating. |
| 1694 |
Recommended Actions:
1. Check for air in the flow tubes, tubes not filled, foreign material in the tubes, coating in the tubes, or other process problems.
2. Check for fluid separation by monitoring the density value and comparing the results against expected density values.
3. Ensure that the sensor orientation is appropriate for your application. Settling from a two-phase or three-phase fluid can cause this alert even if the flow tubes are full. |
| 1695 |
The measured viscosity is outside the calibrated range. |
| 1696 |
Recommended Actions:
1. Check your process conditions against the values reported by the device.
2. Contact Micro Motion. |
| 1697 |
Known Density Verification failed. |
| 1698 |
Recommended Actions:
1. Check the subtest results and perform the recommended actions.
2. Retry the test.
3. Contact Micro Motion. |
| 1699 |
The time period signal is outside the limits for the sensor type. |
| 1700 |
Recommended Action:
1. Check your process conditions against the values reported by the device. |
| 1701 |
The calculated mA output value is outside the configured range. |
| 1702 |
Recommended Actions:
1. Check the settings of ‘Upper Range Value’ and ‘Lower Range Value.’
2. Check process conditions. Actual conditions may be outside the normal conditions for which the output is configured.
3. Check for air in the flow tubes, tubes not filled, foreign material in the tubes, coating in the tubes, or other process problems.
4. Verify that the measurement units are configured correctly for your application.
5. Purge the flow tubes. |
| 1703 |
The HART address is set to a non-zero value, or the mA output is configured to send a constant value. |
| 1704 |
Recommended Actions:
1. Check whether the output is in loop test mode. If it is, unfix the output.
2. Exit mA output trim, if applicable.
3. Check the HART address. If the HART address is non-zero, you may need to enable the mA Output Action (Loop Current Mode) parameter.
4. Check whether the output has been set to a constant value via digital communication. |
| 1705 |
Recommended Actions:
1. Check the drive gain and the pickoff voltage.
2. Check for electrical shorts.
3. Check for air in the flow tubes, tubes not filled, foreign material in the tubes, coating in the tubes, or other process problems.
4. Check for fluid separation by monitoring the density value and comparing the results against expected density values.
5. Ensure that the sensor orientation is appropriate for your application. Settling from a two-phase or three-phase fluid can cause this alert even if the flow tubes are full. |
| 1706 |
Recommended Actions:
1. Allow the procedure to complete.
2. For zero calibration (CDM meters only), you may abort the calibration, set the zero time parameter to a lower value, and restart the calibration. |
| 1707 |
The density has exceeded the user-defined two-phase (density) limits. |
| 1708 |
Recommended Actions:
1. Check that meter 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. |
| 1709 |
HART burst mode is enabled. |
| 1710 |
Recommended Actions:
1. No action required.
2. If desired, you can reconfigure the alert severity level to Ignore. |
| 1711 |
The mA output is configured to send a constant value. |
| 1712 |
Recommended Actions:
1. Check whether the output is in loop test mode. If it is, unfix the output.
2. Exit mA output trim, if applicable.
3. Check whether the output has been set to a constant value via digital communication. |
| 1713 |
The connection to an external measurement device has failed. No external data is available. |
| 1714 |
Recommended Actions:
1. Verify that the external device is operating correctly.
2. Verify the wiring between the transmitter and the external device.
3. Verify the HART polling configuration. |
| 1715 |
The measured temperature is outside the range of the API table. |
| 1716 |
Recommended Actions:
1. Check your process conditions against the values reported by the device.
2. Verify the configuration of the API referral application and related parameters. |
| 1717 |
The measured density is outside the range of the API table. |
| 1718 |
Recommended Actions:
1. Check your process conditions against the values reported by the device.
2. Verify the configuration of the API referral application and related parameters. |
| 1719 |
The discrete output has been configured to send a constant value. |
| 1720 |
Recommended Action:
1. Check whether the output is in loop test mode. If it is, unfix the output. |
| 1721 |
The transmitter was unable to calculate a valid concentration matrix from the current data. |
| 1722 |
Recommended Action:
1. Verify the configuration of the concentration measurement application. |
| 1723 |
The line density or line temperature is outside the range of the concentration matrix plus the configured extrapolation limit. |
| 1724 |
Recommended Actions:
1. Check your process conditions against the values reported by the device.
2. Verify the configuration of the concentration measurement application. |
| 1725 |
The line pressure is outside the range of the API table plus the extrapolation limit. |
| 1726 |
Recommended Actions:
1. Check your process conditions against the values reported by the device.
2. Verify the configuration of the API Referral application and related parameters. |
| 1727 |
There is a memory error in the display module. |
| 1728 |
Recommended Actions:
1. Cycle power to the meter.
2. Replace the display module.
3. Contact Micro Motion. |
| 1729 |
Sensor simulation mode/simulation mode is enabled. |
| 1730 |
Recommended Action:
1. Disable sensor simulation mode/simulation mode. |
| 1731 |
The difference between the case temperature and the fluid temperature is greater than 10 °C. |
| 1732 |
Recommended Actions:
1. Check for process upsets. Changes to line temperature may not be immediately reflected in case temperature.
2. Check for electrical shorts.
3. Install a heat jacket.
4. Contact Micro Motion. |
| 1733 |
An incorrect display module has been installed on the device. This may cause a safety violation in hazardous areas. |
| 1734 |
Recommended Action:
1. Replace the installed display module with an appropriate display module. |
| 1735 |
Recommended Action:
1. Verify that mA output range values are set to appropriate values. |
| 1736 |
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. |
| 1737 |
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. |
| 1738 |
Enhanced Event 1 has been triggered. |
| 1739 |
Recommended Action:
1. No action required. |
| 1740 |
Enhanced Event 2 has been triggered. |
| 1741 |
Enhanced Event 3 has been triggered. |
| 1742 |
Enhanced Event 4 has been triggered. |
| 1743 |
Enhanced Event 5 has been triggered. |
| 1744 |
Velocity switch has been triggered. |
| 1745 |
No Active Alerts |
| 1746 |
Calibrate the mA output to match a reference meter. |
| 1747 |
If the device is equipped with a display, show a pattern on the display to make the device easily identifiable. |
| 1748 |
This pattern will be shown on the display for 60 seconds. |
| 1749 |
Click Next to start. |
| 1750 |
This pattern is currently being shown on the device display. |
| 1751 |
The display will return to normal operation after 60 seconds.
To return to normal operation before 60 seconds have expired, press any button on the display. |
| 1752 |
Perform a density offset calibration to verify or adjust the value of ‘Density Offset’. |
| 1753 |
Perform a temperature calibration to adjust the value of ‘Temperature’. |
| 1754 |
Perform a viscosity scaling factor calibration to adjust 'Dynamic Viscosity'. |
| 1755 |
Perform the Inline Calibration Check procedure to verify that the meter’s measurement is unchanged since the last calibration or applied Density Offset. |
| 1756 |
Read Modbus data from device memory. |
| 1757 |
Write Modbus data to device memory. |
| 1758 |
Power-cycle the device without affecting device configuration. |
| 1759 |
Overwrite the existing device configuration with the configuration set at the factory. |
| 1760 |
Manually reset the Configuration Changed Flag if the host is not able to reset the flag automatically. |
| 1761 |
Verify mA Output 1 wiring and current level. |
| 1762 |
Verify mA Output 2 wiring and current level. |
| 1763 |
Verify Discrete Output wiring and polarity. |
| 1764 |
Simulation Values |
| 1765 |
Simulation Configuration |
| 1766 |
Density Simulation Settings |
| 1767 |
Temperature Simulation Settings |
| 1768 |
Dynamic Viscosity Simulation Settings |
| 1769 |
Simulation Settings |
| 1770 |
Configure Burst Message 1 |
| 1771 |
Burst Message 1 needs to be enabled before continuing.
This message will burst at a continuous rate of transmission.
Please choose the burst option below: |
| 1772 |
Configure Burst Message 2 |
| 1773 |
Please choose burst option below: |
| 1774 |
Configure Burst Message 3 |
| 1775 |
Burst Message 1 Configuration is shown below. Would you like to save settings? |
| 1776 |
Burst Rate Configuration |
| 1777 |
Burst Message 2 Configuration is shown below. Would you like to save settings? |
| 1778 |
Burst Message 3 Configuration is shown below. Would you like to save settings? |
| 1779 |
The host system must be able to accept burst messages and event notifications. Confirm before proceeding with configuration. |
| 1780 |
Event Notification helps to identify abnormal device conditions by sending a burst message. |
| 1781 |
Select the alerts on the screen whose status change will trigger an event notification. |
| 1782 |
Adjust values for Trigger Interval and Retry Rate if required.
Trigger Interval is the time that the alert(s) have to be active to trigger an event notification.
Retry Rate is the time that event notification will continue to appear until acknowledged through host. |
| 1783 |
Advance HART Configuration completed successfully. |
| 1784 |
Message 2 |
| 1785 |
Extended Device Status |
| 1786 |
Message 3 |
| 1787 |
Warning |
| 1788 |
Triggered Update Rate has been adjusted. |
| 1789 |
Error |
| 1790 |
Invalid burst trigger mode selected. |
| 1791 |
Burst condition conflict |
| 1792 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. |
| 1793 |
Matrix Data |
| 1794 |
mA Output 1 |
| 1795 |
mA Output 2 |
| 1796 |
Type |
| 1797 |
Ensure that ‘Temperature Unit’ is set to the unit used by the external temperature device. |
| 1798 |
Gas Inputs |
| 1799 |
Percent Carbon Dioxide |
| 1800 |
Percent Nitrogen |
| 1801 |
Percent Carbon Monoxide |
| 1802 |
Percent Hydrogen |
| 1803 |
The ‘Primary Variable’ is automatically assigned to mA Output 1. |
| 1804 |
The ‘Secondary Variable’ is automatically assigned to mA Output 2 (if available). |
| 1805 |
The ‘Third Variable’ is used only in HART communications. |
| 1806 |
The ‘Fourth Variable’ is used only in HART communications. |
| 1807 |
Mapped Variables Units |
| 1808 |
Primary Variable Units |
| 1809 |
Secondary Variable Units |
| 1810 |
Third Variable Units |
| 1811 |
Fourth Variable Units |
| 1812 |
Known Density Verification Results |
| 1813 |
Known Density Verification FAILED. |
| 1814 |
Known Density Verification PASSED. |
| 1815 |
Verification Time Period Signal Average is outside acceptable range.
Recommend Actions: Ensure that the meter is clean and dry. Then retry the Known Density Verification procedure. |
| 1816 |
Verification Time Period Signal Maximum Deviation is outside acceptable range.
Recommend Actions: Ensure that the meter is clean and dry. Then retry the Known Density Verification procedure. |
| 1817 |
Line Temperature Maximum Deviation > 1 degC
Recommend Actions: Verify that the ambient temperature of the meter is stable, and that the meter
temperature has stabilized in the test location. Then retry the Known Density Verification procedure. |
| 1818 |
Drive Gain Average is outside acceptable range.
Recommend Actions: Ensure that the meter is clean and dry. Then retry the Known Density Verification procedure. |
| 1819 |
Case Temperature Maximum Deviation > 1 degC
Recommend Actions: Verify that the ambient temperature of the meter is stable, and that the meter
temperature has stabilized in the test location. Then retry the Known Density Verification procedure. |
| 1820 |
User-Defined Calculation 1 |
| 1821 |
For each calculation variable, either assign a process variable or select constant to enter constant value. |
| 1822 |
Note: The meter performs this calculation using internal measurement units. If a constant represents a process variable, you must enter its value in the internal measurement unit. If a constant will be used to modify a process variable, you must use the internal measurement units to derive the constant. |
| 1823 |
User-Defined Calculation 2 |
| 1824 |
For the variable t, either assign a process variable or select constant to enter constant value. |
| 1825 |
User-Defined Calculation 3 |
| 1826 |
Select the value that most closely matches the Meter Altitude above sea level. |
| 1827 |
Configure the parameters required for concentration measurement. |
| 1828 |
Configure Concentration Measurement |
| 1829 |
Select the concentration matrix to be used for measurement. |
| 1830 |
Define or modify a concentration matrix. |
| 1831 |
Matrix Configuration |
| 1832 |
Equation Selection Type |
| 1833 |
Adjust concentration measurement by applying an offset or a slope. |
| 1834 |
Important: These trim values are applied only to the concentration matrix currently selected for configuration. |
| 1835 |
Matrix Selection |
| 1836 |
Extrapolation Alert |
| 1837 |
Electronic Conditions |
| 1838 |
Sensor Conditions |
| 1839 |
Process Conditions |
| 1840 |
Configuration Conditions |
| 1841 |
Referred Matrices |
| 1842 |
ASTM Referral Matrices |
| 1843 |
Select the calibration gas and enter the Specific Gravity: |
| 1844 |
Select the calibration gas and enter the Relative Density: |
| 1845 |
Select the calibration gas and enter the Molecular Weight: |
| 1846 |
Calibration is in progress. Allow the sensor to stabilize for a minimum of 15 minutes, then observe the Sensor Time Period and Stability values. When the Calibration Point is Good, click Next to accept the calibration. |
| 1847 |
Calculated Coefficients |
| 1848 |
Note: ‘Difference in Density’ measurement is for diagnostic purposes only. Use ‘Known Density Verification’ for further diagnostic analysis, or ‘Density Offset Calibration’ to apply an offset. |
| 1849 |
Burst Variable 2 |
| 1850 |
Burst Variable 3 |
| 1851 |
Burst Variable 4 |
| 1852 |
Burst Variable 5 |
| 1853 |
Burst Variable 6 |
| 1854 |
Burst Variable 7 |
| 1855 |
Burst Variable 8 |
| 1856 |
Classification |
| 1857 |
Trigger Units |
| 1858 |
Burst Messages |
| 1859 |
Events |
| 1860 |
PV Analog Channel Saturated |
| 1861 |
PV Analog Channel Fixed |
| 1862 |
Wireless |
| 1863 |
WirelessHART Device |
| 1864 |
IEEE 802.15.4 2.4GHz DSSS with O-QPSK Modulation |
| 1865 |
Primary |
| 1866 |
Primary Analog Channel |
| 1867 |
Secondary |
| 1868 |
Secondary Analog Channel |
| 1869 |
Tertiary |
| 1870 |
Tertiary Analog Channel |
| 1871 |
Quaternary |
| 1872 |
Quaternary Analog Channel |
| 1873 |
Quinary |
| 1874 |
Quinary Analog Channel |
| 1875 |
Critical Power Failure |
| 1876 |
Lock all |
| 1877 |
Trim not supported |
| 1878 |
Configuration cannot be changed |
| 1879 |
Locked by gateway |
| 1880 |
Analog Input Channel |
| 1881 |
Analog Output Channel |
| 1882 |
Secondary Analog Channel Saturated |
| 1883 |
Tertiary Analog Channel Saturated |
| 1884 |
Quaternary Analog Channel Saturated |
| 1885 |
Quinary Analog Channel Saturated |
| 1886 |
Secondary Analog Channel Fixed |
| 1887 |
Tertiary Analog Channel Fixed |
| 1888 |
Quaternary Analog Channel Fixed |
| 1889 |
Quinary Analog Channel Fixed |
| 1890 |
Simulation active |
| 1891 |
The device is in simulation mode and the level output is not representative of the process. |
| 1892 |
Non-Volatile memory failure |
| 1893 |
The Non-Volatile memory check is invalid or maybe corrupt, or the battery of a battery-backed memory has failed. |
| 1894 |
Volatile memory error |
| 1895 |
The RAM memory check is invalid or maybe corrupt |
| 1896 |
Watchdog reset executed |
| 1897 |
A watchdog reset has been performed |
| 1898 |
Voltage conditions out of range |
| 1899 |
A voltage condition is outside its allowable range |
| 1900 |
Environmental conditions out of range |
| 1901 |
An internal or environmental condition is beyond acceptable limits. |
| 1902 |
Electronic failure |
| 1903 |
A hardware problem not related to the sensor has been detected. |
| 1904 |
Subdevice list changed |
| 1905 |
Duplicate master detected |
| 1906 |
Capacity Denied |
| 1907 |
The device was unable to acquire the communication bandwidth required to support the Burst Messaging specified |
| 1908 |
Bandwidth allocation pending |
| 1909 |
Block transfer pending |
| 1910 |
Battery life |
| 1911 |
Percent range |
| 1912 |
Loop current |
| 1913 |
Primary variable |
| 1914 |
Secondary variable |
| 1915 |
Tertiary variable |
| 1916 |
Quaternary variable |
| 1917 |
Read receive time |
| 1918 |
Write date and time |
| 1919 |
Non-Volatile Clock |
| 1920 |
When set the device contains a battery-backed clock. In this case, the clock does not need to be reset if there is a power failure. |
| 1921 |
Clock Uninitialized |
| 1922 |
The real-time clock has never been set with the date and time. For example, the clock is volatile and power was removed from and restored to the device. |
| 1923 |
None |
| 1924 |
No restrictions |
| 1925 |
SI Only |
| 1926 |
Restricted to SI Unit codes only |
| 1927 |
Process automation device |
| 1928 |
Discrete device |
| 1929 |
Hybrid:Process automation+discrete |
| 1930 |
I/O System |
| 1931 |
WirelessHART Process automation device |
| 1932 |
WirelessHART Discrete device |
| 1933 |
WirelessHART Process automation+discrete |
| 1934 |
WirelessHART Gateway |
| 1935 |
WirelessHART Access point |
| 1936 |
WirelessHART Process adapter |
| 1937 |
WirelessHART Discrete adapter |
| 1938 |
WirelessHART enabled handheld/portable maintenance tool |
| 1939 |
Device Profile |
| 1940 |
US |
| 1941 |
United States of America |
| 1942 |
JP |
| 1943 |
Japan |
| 1944 |
DE |
| 1945 |
Germany |
| 1946 |
FR |
| 1947 |
France |
| 1948 |
ES |
| 1949 |
Spain |
| 1950 |
RU |
| 1951 |
Russian Federation |
| 1952 |
CN |
| 1953 |
People's Republic of China |
| 1954 |
Secondary Master |
| 1955 |
Primary Master |
| 1956 |
Device Diagnostic Status 0 |
| 1957 |
Device Diagnostic Status 1 |
| 1958 |
I/O and Subdevice Status |
| 1959 |
WirelessHART Status |
| 1960 |
Time Set Option |
| 1961 |
Real Time Clock Flags |
| 1962 |
Country |
| 1963 |
Country of intended device installation |
| 1964 |
SI Unit Control |
| 1965 |
Indicates if device should only display SI unit codes |
| 1966 |
Burst Trigger Units |
| 1967 |
Enable on token-passing data link layer only |
| 1968 |
Enable on TDMA data link layer only |
| 1969 |
Enable on both TDMA and token-passing data link layer |
| 1970 |
Burst Trigger Class |
| 1971 |
Continuous |
| 1972 |
The Burst Message is published continuously at (worst case) the Minimum Update Period. |
| 1973 |
Window |
| 1974 |
The Burst Message is triggered when the source value deviates more than the specified trigger value |
| 1975 |
Rising |
| 1976 |
The Burst Message is triggered when source value Rises Above the specified trigger value. |
| 1977 |
Falling |
| 1978 |
The Burst Message is triggered when the source value Falls Below the specified trigger value. |
| 1979 |
On-change |
| 1980 |
The Burst Message is triggered when any value in the message changes. |
| 1981 |
Off |
| 1982 |
Enable event notification on token-passing data link layer |
| 1983 |
Enable event notification on TDMA data link layer |
| 1984 |
Enable event notification on TDMA and token-passing data link layer |
| 1985 |
Configuration changed event pending |
| 1986 |
Device status event pending |
| 1987 |
More status available event pending |
| 1988 |
Wired HART Enabled |
| 1989 |
Enabled on Wired HART device connection only |
| 1990 |
Wireless HART Enabled |
| 1991 |
Enabled on WirelessHART device connection only |
| 1992 |
Both Wired and WirelessHart Enabled |
| 1993 |
Enabled on both Wired and WirelessHART connections |
| 1994 |
Burst Msg Trigger Mode |
| 1995 |
Event Status |
| 1996 |
Event Notification Control |
| 1997 |
Device Status Mask |
| 1998 |
Ext dev status Mask |
| 1999 |
Device Diagnostic Status 0 Mask |
| 2000 |
Device Diagnostic Status 1 Mask |
| 2001 |
Device Diagnostic Status 2 Mask |
| 2002 |
Device Diagnostic Status 3 Mask |
| 2003 |
AO saturated Mask |
| 2004 |
AO fixed Mask |
| 2005 |
Latched Device Status |
| 2006 |
Operate mode Mask |
| 2007 |
Not Defined |
| 2008 |
Latched Ext dev status |
| 2009 |
Latched Device Diagnostic Status 0 |
| 2010 |
Latched Device Diagnostic Status 1 |
| 2011 |
Latched Device Diagnostic Status 2 |
| 2012 |
Latched Device Diagnostic Status 3 |
| 2013 |
Latched AO saturated |
| 2014 |
Latched AO fixed |
| 2015 |
Latched Operate Mode |
| 2016 |
Flow Coriolis Mass |
| 2017 |
Time Stamp |
| 2018 |
Relative time value on network |
| 2019 |
8u |
| 2020 |
Configuration Change Counter Mismatch |
| 2021 |
Status bytes mismatch |
| 2022 |
Device Variable |
| 2023 |
Analog Channel Number |
| 2024 |
Analog Channel Number- Index into an array of Analog Channels. |
| 2025 |
STX Count |
| 2026 |
Count of STX messages received by this device |
| 2027 |
ACK Count |
| 2028 |
Count of ACK messages received by this device |
| 2029 |
BACK Count |
| 2030 |
Count of BACK messages received by this device |
| 2031 |
Burst Command |
| 2032 |
Cmd 48: Read Additional Device Status |
| 2033 |
Read Additional Device - This command reads additional device status information |
| 2034 |
Update Period |
| 2035 |
Update period for burst message |
| 2036 |
5.3f |
| 2037 |
Max Update Period |
| 2038 |
Maxium update period for burst message |
| 2039 |
Burst Variable Code |
| 2040 |
Burst Variable Slot - Device variable code assigned to the slot to be read in burst mode. |
| 2041 |
Burst Trigger Level |
| 2042 |
Time First Unack Event Triggered |
| 2043 |
The time when the first unacknowledged event was triggered |
| 2044 |
Event Notification Retry Time |
| 2045 |
Max Update Time |
| 2046 |
Burst Message Number |
| 2047 |
Total Burst Msgs |
| 2048 |
Total number of burst messages supported by this device |
| 2049 |
Event Number |
| 2050 |
Event Debounce Interval |
| 2051 |
Device Specific Status 0 Mask |
| 2052 |
Device Specific Status 1 Mask |
| 2053 |
Device Specific Status 2 Mask |
| 2054 |
Device Specific Status 3 Mask |
| 2055 |
Device Specific Status 4 Mask |
| 2056 |
Device Specific Status 5 Mask |
| 2057 |
Device Specific Status 14 Mask |
| 2058 |
Device Specific Status 15 Mask |
| 2059 |
Device Specific Status 16 Mask |
| 2060 |
Device Specific Status 17 Mask |
| 2061 |
Device Specific Status 18 Mask |
| 2062 |
Device Specific Status 19 Mask |
| 2063 |
Device Specific Status 20 Mask |
| 2064 |
Latched Device Specific Status 0 |
| 2065 |
Latched Device Specific Status 1 |
| 2066 |
Latched Device Specific Status 2 |
| 2067 |
Latched Device Specific Status 3 |
| 2068 |
Latched Device Specific Status 4 |
| 2069 |
Latched Device Specific Status 5 |
| 2070 |
Latched Device Specific Status 14 |
| 2071 |
Latched Device Specific Status 15 |
| 2072 |
Latched Device Specific Status 16 |
| 2073 |
Latched Device Specific Status 17 |
| 2074 |
Latched Device Specific Status 18 |
| 2075 |
Latched Device Specific Status 19 |
| 2076 |
Latched Device Specific Status 20 |
| 2077 |
Latched Cfg chng count |
| 2078 |
Number of Events Supported |
| 2079 |
Burst Variable Codes |
| 2080 |
Update time adjusted |
| 2081 |
Invalid burst message |
| 2082 |
Invalid device variable classification |
| 2083 |
Invalid burst trigger mode selection code |
| 2084 |
Burst condition conflict |
| 2085 |
Update period increased |
| 2086 |
Insufficient bandwidth |
| 2087 |
Update period or debounce interval adjusted |
| 2088 |
Update times adjusted |
| 2089 |
Update rate uncertain |
| 2090 |
Not all events cleared |
| 2091 |
NOTE-Send TV assignment before modifying range values. |
| 2092 |
It is now safe to return the control loop to automatic control. |
| 2093 |
Changing configuration can affect transmitter operation. Ensure that the control loop is set for manual operation before continuing. |
| 2094 |
select |
| 2095 |
Aborting due to field device error. |
| 2096 |
warning |
| 2097 |
select1 |
| 2098 |
select2 |
| 2099 |
select3 |
| 2100 |
Finish |
| 2101 |
Enter Zero Time: |
| 2102 |
Prepare the meter:
1. Allow the meter to warm up for at least 20 minutes after applying power.
2. Run the process fluid through the meter until the sensor temperature reaches the normal process operating temperature.
3. Stop flow through the meter by shutting the downstream valve, and then the upstream valve if available.
4. Verify that the meter is blocked in, that flow has stopped, and that the meter is completely full of process fluid.
5. Observe the drive gain, temperature, and density readings. If they are stable, check the Live Zero value. If the average value is close to 0, you should not need to zero the meter.
Click Next when meter preparation is complete. |
| 2103 |
Zero calibration is in progress... |
| 2104 |
Press Next to reset the data for all six matrices.
Warning: All matrix data will be deleted from the device. |
| 2105 |
All matrix data has been deleted from the device. |
| 2106 |
Press Next to refresh the Concentration Measurement screen. |
| 2107 |
Select Lock Option: |
| 2108 |
Permanent;Temporary;Lock All |
| 2109 |
Cannot unlock device.
Device is locked by other host. |
| 2110 |
All alerts are acknowledged. |
| 2111 |
Choose API Table Number: |
| 2112 |
Choose API Table Letter: |
| 2113 |
A;B;D |
| 2114 |
A;B;D;E |
| 2115 |
C;E |
| 2116 |
Enter Thermal Expansion Coefficient: |
| 2117 |
Enter Reference Temperature: |
| 2118 |
Enter Reference Pressure: |
| 2119 |
Select the mA output to configure: |
| 2120 |
mA Output 1;mA Output 2;Exit |
| 2121 |
Keep Existing Assignment;Temperature;Density;Density at Reference (API);Density at Reference (CM);Specific Gravity (CM);Concentration;Drive Gain;Case Temperature;External Pressure;External Temperature;User-Defined Calculation Output;Tube-Case Temperature Difference;Velocity;Sensor Time Period; |
| 2122 |
Keep Existing Assignment;Temperature;Drive Gain;Case Temperature;External Pressure;External Temperature;User-Defined Calculation Output;Tube-Case Temperature Difference;Velocity;Sensor Time Period; |
| 2123 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Temperature.
Select Primary Variable: |
| 2124 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Density.
Select Primary Variable: |
| 2125 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Density at Reference (API).
Select Primary Variable: |
| 2126 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Density at Reference (CM).
Select Primary Variable: |
| 2127 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Specific Gravity (CM).
Select Primary Variable: |
| 2128 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Concentration (CM).
Select Primary Variable: |
| 2129 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Drive Gain.
Select Primary Variable: |
| 2130 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Case Temperature.
Select Primary Variable: |
| 2131 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to External Pressure.
Select Primary Variable: |
| 2132 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to External Temperature.
Select Primary Variable: |
| 2133 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to User-Defined Calculation Output.
Select Primary Variable: |
| 2134 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Tube-Case Temperature Difference.
Select Primary Variable: |
| 2135 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Velocity.
Select Primary Variable: |
| 2136 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Sensor Time Period.
Select Primary Variable: |
| 2137 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Temperature.
Select Secondary Variable: |
| 2138 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Density.
Select Secondary Variable: |
| 2139 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Density at Reference (API).
Select Secondary Variable: |
| 2140 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Density at Reference (CM).
Select Secondary Variable: |
| 2141 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Specific Gravity (CM).
Select Secondary Variable: |
| 2142 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Concentration (CM).
Select Secondary Variable: |
| 2143 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Drive Gain.
Select Secondary Variable: |
| 2144 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Case Temperature.
Select Secondary Variable: |
| 2145 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to External Pressure.
Select Secondary Variable: |
| 2146 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to External Temperature.
Select Secondary Variable: |
| 2147 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to User-Defined Calculation Output.
Select Secondary Variable: |
| 2148 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Tube-Case Temperature Difference.
Select Secondary Variable: |
| 2149 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Velocity.
Select Secondary Variable: |
| 2150 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Sensor Time Period.
Select Secondary Variable: |
| 2151 |
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. Would you like to proceed? |
| 2152 |
Factory values are restored successfully. |
| 2153 |
Connect the reference meter. |
| 2154 |
Click Next to set mA Output 1 to %0 mA. |
| 2155 |
Enter reading from the reference meter: |
| 2156 |
Does the device output match the reference meter? |
| 2157 |
Click Next to set mA Output 2 to %0 mA. |
| 2158 |
Device is locked, could not configure parameters. |
| 2159 |
Returning mA Output 1 to normal function. |
| 2160 |
Returning mA Output 2 to normal function. |
| 2161 |
Modbus data type: |
| 2162 |
Coil;Unsigned 16(U16);Unsigned 32(U32);Floating-Point;Exit |
| 2163 |
Coil address to read: |
| 2164 |
number |
| 2165 |
Register address to read: |
| 2166 |
Coil value is %0 and Exception Code is %1. |
| 2167 |
U16 value is %0 and Exception Code is %1. |
| 2168 |
U32 value is %0 and Exception Code is %1. |
| 2169 |
Floating-point value is %0 and Exception Code is %1. |
| 2170 |
Coil address to write: |
| 2171 |
Register address to write: |
| 2172 |
Coil value to write: |
| 2173 |
0;1 |
| 2174 |
U16 value to write: |
| 2175 |
uValue |
| 2176 |
U32 value to write: |
| 2177 |
Floating-point value to write: |
| 2178 |
fValue |
| 2179 |
Select mA Output 1 Level: |
| 2180 |
Output Value: |
| 2181 |
mA Output 1 is fixed at %0 mA. |
| 2182 |
Select mA Output 2 Level: |
| 2183 |
mA Output 2 is fixed at %0 mA. |
| 2184 |
Select Discrete Output State: |
| 2185 |
Off;On;End |
| 2186 |
Discrete Output State is OFF. |
| 2187 |
Discrete Output State is ON. |
| 2188 |
Returning Discrete Output to normal function. |
| 2189 |
Select Pressure Unit used by the external pressure device: |
| 2190 |
Select Pressure Input: |
| 2191 |
Polled;Digital Communication;Fixed |
| 2192 |
Select Alert Number: |
| 2193 |
Current severity is %0. |
| 2194 |
Select Alert Severity: |
| 2195 |
View Alert Severity of: |
| 2196 |
%{1} is set to %{0}. |
| 2197 |
A001: EEPROM Error (CP) is set to %0. |
| 2198 |
A002: RAM Error (CP) is set to %0. |
| 2199 |
A003: No Sensor Response is set to %0. |
| 2200 |
A004: Temperature Overrange is set to %0. |
| 2201 |
A005: Mass Flow Rate Overrange is set to %0. |
| 2202 |
A006: Characterization Required is set to %0. |
| 2203 |
A008: Density Overrange is set to %0. |
| 2204 |
A009: Transmitter Initializing/Warming Up is set to %0. |
| 2205 |
A010: Calibration Failure is set to %0. |
| 2206 |
A011: Zero Calibration Failed: Low is set to %0. |
| 2207 |
A012: Zero Calibration Failed: High is set to %0. |
| 2208 |
A013: Zero Calibration Failed: Unstable is set to %0. |
| 2209 |
A014: Transmitter Failure is set to %0. |
| 2210 |
A016: Sensor RTD Failure is set to %0. |
| 2211 |
A017: T-Series RTD Failure is set to %0. |
| 2212 |
A020: Calibration Factors Unentered is set to %0. |
| 2213 |
A021: No K1 Value is set to %0. |
| 2214 |
A027: Security Breach is set to %0. |
| 2215 |
A029: Internal Communication failure is set to %0. |
| 2216 |
A030: Hardware/software incompatible is set to %0. |
| 2217 |
A033: Tube / Fork not Vibrating is set to %0. |
| 2218 |
A037: Sensor Check Fail is set to %0. |
| 2219 |
A038: Time Period Out of Range is set to %0. |
| 2220 |
A100: MAO1 Saturated is set to %0. |
| 2221 |
A101: mA Output 1 Fixed is set to %0. |
| 2222 |
A102: Drive Overrange is set to %0. |
| 2223 |
A104: Calibration in Progress is set to %0. |
| 2224 |
A106: Burst Mode Enabled is set to %0. |
| 2225 |
A107: Power Reset Occurred is set to %0. |
| 2226 |
A113: mA Output 2 Saturated is set to %0. |
| 2227 |
A114: mA Output 2 Fixed is set to %0. |
| 2228 |
A115: No External Input or Polled Data is set to %0. |
| 2229 |
A116: API: Temperature Overrange is set to %0. |
| 2230 |
A117: API: Density Overrange is set to %0. |
| 2231 |
A118: Discrete Output Fixed is set to %0. |
| 2232 |
A120: ED: Curve Fit Failure is set to %0. |
| 2233 |
A121: Extrapolation Alert (Concentration) is set to %0. |
| 2234 |
A122: API:Pressure outside standard range is set to %0. |
| 2235 |
A132: Simulation Active is set to %0. |
| 2236 |
A133: UI EEPROM Error is set to %0. |
| 2237 |
A134: Case Meter Temperature Differential out of limits is set to %0. |
| 2238 |
A136: Incorrect Display Type is set to %0. |
| 2239 |
Select the application option: |
| 2240 |
API Referral;Concentration Measurement;None |
| 2241 |
API Referral;None |
| 2242 |
Concentration Measurement;None |
| 2243 |
Note: MID is enabled and cannot be changed.
Select the application option: |
| 2244 |
Note: MID is disabled and cannot be changed.
Select the application option: |
| 2245 |
The application is disabled. Do you want to enable it? |
| 2246 |
The application is enabled. Do you want to disable it? |
| 2247 |
API Referral is %0. |
| 2248 |
Concentration Measurement is %0. |
| 2249 |
API application is disabled. |
| 2250 |
Concentration Measurement is disabled. |
| 2251 |
All applications are disabled. |
| 2252 |
Current viscosity value range is Ultra Low Range (0.50 – 10.46 cP).
Select the viscosity value range: |
| 2253 |
Ultra Low Range (0.50 – 10.46 cP);Low Range (10.46 – 108.16 cP);Medium Range (108.16 – 1087.43 cP);High Range (1087.43 – 13345.64 cP) |
| 2254 |
Current viscosity value range is Low (10.46 – 108.16 cP).
Select the viscosity value range: |
| 2255 |
Current viscosity value range is Medium (108.16 – 1087.43 cP).
Select the viscosity value range: |
| 2256 |
Current viscosity value range is High (1087.43 – 13345.64 cP).
Select the viscosity value range: |
| 2257 |
Known Density Verification has been aborted. |
| 2258 |
Prepare the meter:
1. Remove the meter from the process and place it in a protected stable environment.
2. Minimize variation in ambient temperature.
3. Eliminate vibration.
4. Ensure that a suitably rated vacuum pump is used that is able to draw a vacuum on the meter. Pull a vacuum inside the meter to a maximum pressure of 0.2 Torr.
5. Apply power to the meter.
Click Next when meter preparation is complete. |
| 2259 |
Prepare the meter:
1. Remove the meter from the process and place it in a protected stable environment.
2. Minimize variation in ambient temperature.
3. Eliminate vibration.
4. Ensure that the meter is clean. Check for deposition on the vibrating element or the inner walls of the device.
5. Apply power to the meter.
Click Next when meter preparation is complete. |
| 2260 |
Known Density Verification requires 20 samples, and will take about 20 seconds to complete.
Click Next to continue. |
| 2261 |
Known Density Verification is in progress... |
| 2262 |
No factory calibration present. Known Density Verification cannot be run. |
| 2263 |
This will help identify the device by showing identifiable pattern on the display.
Click OK to start. |
| 2264 |
The device is now displaying the pattern, making it identifiable.
The display will return to normal operations after 60 seconds but can be interrupted by pressing any button on the device display. |
| 2265 |
Active Calculation: User-Defined Calculation 1 |
| 2266 |
None;User-Defined Calculation 1;User-Defined Calculation 2;User-Defined Calculation 3 |
| 2267 |
Active Calculation: User-Defined Calculation 2 |
| 2268 |
Active Calculation: User-Defined Calculation 3 |
| 2269 |
Active Calculation: None |
| 2270 |
None;User-Defined Calculation 1;User-Defined Calculation 2 |
| 2271 |
You have chosen not to use a user-defined calculation.
Click Next to proceed. |
| 2272 |
User-Defined Calculation Output value is %0 %1. |
| 2273 |
Density:
Value %0 %1
Temperature:
Value %2 %3
Velocity:
Value %4 %5 |
| 2274 |
User-Defined Calculation Output:
Value %0 |
| 2275 |
Concentration:
Value %0 %1
Density at Reference (CM):
Value %2 %3
Temperature:
Value %4 %5 |
| 2276 |
User-Defined Calculation Output:
Value %0
Velocity:
Value %1 %2
Specific Gravity:
Value %3 |
| 2277 |
Density at Reference (API):
Value %0 %1
Temperature:
Value %2 %3
User-Defined Calculation Output:
Value %4 |
| 2278 |
Velocity:
Value %0 %1 |
| 2279 |
Temperature:
Value %0 %1
Velocity:
Value %2 %3
User-Defined Calculation Output:
Value %4 |
| 2280 |
Click Next to begin density offset calibration. |
| 2281 |
Calibration is in progress... |
| 2282 |
Access Restricted |
| 2283 |
Resetting device, please wait. |
| 2284 |
Device reset completed successfully. |
| 2285 |
Press OK to reset the data for all six matrices or press ABORT to not reset the data. |
| 2286 |
Press OK to refresh the Concentration Measurement screen. |
| 2287 |
Priority: Failed - Fix Now
The transmitter has detected a problem communicating with the sensor.
Recommended Actions:
1. Cycle power to the meter.
2. Contact Micro Motion. |
| 2288 |
Priority: Failed - Fix Now
The transmitter is not receiving one or more basic electrical signals from the sensor.
Recommended Actions:
1. Check the drive gain and the pickoff voltage.
2. Check for electrical shorts.
3. Check the integrity of the sensor tubes. |
| 2289 |
Priority: Failed - Fix Now
The RTD resistance is out of range for the sensor.
Recommended Actions:
1. Check for electrical shorts.
2. Verify temperature characterization or calibration parameters.
3. Check your process conditions against the values reported by the device.
4. Contact Micro Motion. |
| 2290 |
Priority: Failed - Fix Now
The measured velocity is greater than the maximum velocity limit of the sensor.
Recommended Actions:
1. If other alerts are present, resolve those alert conditions first. If the current alert persists, continue with the recommended actions.
2. Check your process conditions against the values reported by the device.
3. Check for two-phase flow. |
| 2291 |
Priority: Failed - Fix Now
Calibration factors have not been entered, or the sensor type is incorrect, or the calibration factors are incorrect for the sensor type.
Recommended Actions:
1. Verify all of the characterization or calibration parameters. See the sensor tag or the calibration sheet for your meter.
2. Check for electrical shorts.
3. Contact Micro Motion. |
| 2292 |
Priority: Failed - Fix Now
The line density is greater than 3 g/cm3.
Recommended Actions:
1. If other alerts are present, resolve those alerts conditions first. If the current alert persists, continue with the recommended actions.
2. Check for air in the flow tubes, tubes not filled, foreign material in the tubes, coating in the tubes, or other process problems.
3. Check for two-phase flow.
4. If accompanied by an A003 alert, check for electrical shorts.
5 Verify all of the characterization or calibration parameters. See the sensor tag or the calibration sheet for your meter.
6. Check the drive gain and the pickoff voltage.
7. Contact Micro Motion. |
| 2293 |
Priority: Failed - Fix Now
Transmitter is in power-up mode.
Recommended Actions:
1. Allow the meter to complete its power-up sequence. The alert should clear automatically.
2. Verify that the tubes are full of process fluid.
3. Verify that the transmitter is receiving sufficient power.
4. If it is not, correct the problem and cycle power to the meter.
5. If it is, this suggests that the transmitter has an internal power issue. Replace the transmitter. |
| 2294 |
Priority: Failed - Fix Now
Many possible causes, such as too much flow through the sensor during a calibration procedure, or a zero result that is out of range. This alert will not clear until you cycle power to the meter.
Recommended Actions:
1. If this alert appears during zeroing (CDM meters only), verify that there is no flow through the sensor, cycle power to the meter, then retry the procedure. |
| 2295 |
Priority: Failed - Fix Now
Many possible causes, such as too much flow, especially reverse flow, through the sensor during a calibration procedure, or a zero result that is too low. This alert is accompanied by A010. This alert will not clear until you cycle power to the meter.
Recommended Actions:
1. Verify that there is no flow through the sensor, cycle power to the meter, then retry the procedure. |
| 2296 |
Priority: Failed - Fix Now
Many possible causes, such as too much flow, especially forward flow, through the sensor during a calibration procedure, or a zero result that is too high. This alert is accompanied by A010. This alert will not clear until you cycle power to the meter.
Recommended Actions:
1. Verify that there is no flow through the sensor, cycle power to the meter, then retry the procedure. |
| 2297 |
Priority: Failed - Fix Now
There was too much process instability during the calibration procedure. This alert will not clear until you cycle power to the meter.
Recommended Actions:
1. Remove or reduce sources of electromechanical noise (e.g., pumps, vibration, pipe stress), cycle power to the meter, then retry the procedure. |
| 2298 |
Priority: Failed - Fix Now
Many possible causes.
Recommended Actions:
1. Ensure that all wiring compartment covers are installed correctly.
2. Ensure that all transmitter wiring meets specifications and that all cable shields are properly terminated.
3. Check the grounding of all components.
4. Evaluate the environment for sources of high electromagnetic interference (EMI) and relocate the transmitter or wiring as necessary.
5. Contact Micro Motion. |
| 2299 |
Priority: Failed - Fix Now
The value computed for the resistance of the Line RTD is outside limits.
Recommended Actions:
1. Check your process conditions against the values reported by the device.
2. Check for electrical shorts.
3. Contact Micro Motion. |
| 2300 |
Priority: Maintenance - Fix Soon
The value computed for the resistance of the meter and case RTDs are outside limits.
Recommended Actions:
1.Check your process conditions against the values reported by the device. Temperature should be between – 200 °F and +400 °F.
2. Check for electrical shorts.
3. Contact Micro Motion. |
| 2301 |
Priority: Failed - Fix Now
Some calibration factors have not been entered or are incorrect.
Recommended Actions:
1. Verify all of the characterization or calibration parameters. See the sensor tag or the calibration sheet for your meter. |
| 2302 |
Priority: Failed - Fix Now
The configured board type does not match the physical board, or the configured sensor type does not match the physical sensor.
Recommended Actions:
1. Verify all of the characterization or calibration parameters. See the sensor tag or the calibration sheet for your meter.
2. Ensure that the correct board is installed. |
| 2303 |
Priority: Failed - Fix Now
The transmitter has been switched from secure mode to unsecure mode. In unsecured mode, the transmitter configuration can be changed.
Recommended Actions:
1. Check the HART device ID. For MID applications, it must be non-zero. If it is set to 0, contact the factory.
2. Set the transmitter to secure to clear the alert. Note that additional procedures may be required to return the device to secured mode. |
| 2304 |
Priority: Failed - Fix Now
Internal electronics failure. This can indicate a loss of communication between the transmitter and the display module.
Recommended Actions:
1. Cycle power to the meter.
2. Replace the display module.
3. Contact Micro Motion. |
| 2305 |
Priority: Failed - Fix Now
The loaded software is not compatible with the programmed board type.
Recommended Actions:
1. Cycle power to the meter.
2. Contact Micro Motion. |
| 2306 |
Priority: Failed - Fix Now
The signal from the sensor pick-off(s) is insufficient. This suggests that the sensor tubes or vibrating elements are not vibrating.
Recommended Actions:
1. Check for air in the flow tubes, tubes not filled, foreign material in the tubes, coating in the tubes, or other process problems.
2. Check for fluid separation by monitoring the density value and comparing the results against expected density values.
3. Ensure that the sensor orientation is appropriate for your application. Settling from a two-phase or three-phase fluid can cause this alert even if the flow tubes are full. |
| 2307 |
Priority: Advisory
The measured viscosity is outside the calibrated range.
Recommended Actions:
1. Check your process conditions against the values reported by the device.
2. Contact Micro Motion. |
| 2308 |
Priority: Failed - Fix Now
Known Density Verification failed.
Recommended Actions:
1. Check the subtest results and perform the recommended actions.
2. Retry the test.
3. Contact Micro Motion. |
| 2309 |
Priority: Failed - Fix Now
The time period signal is outside the limits for the sensor type.
Recommended Actions:
1. Check your process conditions against the values reported by the device. |
| 2310 |
Priority: Advisory
The calculated mA output value is outside the configured range.
Recommended Actions:
1. Check the settings of ‘Upper Range Value’ and ‘Lower Range Value.’
2. Check process conditions. Actual conditions may be outside the normal conditions for which the output is configured.
3. Check for air in the flow tubes, tubes not filled, foreign material in the tubes, coating in the tubes, or other process problems.
4. Verify that the measurement units are configured correctly for your application.
5. Purge the flow tubes. |
| 2311 |
Priority: Advisory
The HART address is set to a non-zero value, or the mA output is configured to send a constant value.
Recommended Actions:
1. Check whether the output is in loop test mode. If it is, unfix the output.
2. Exit mA output trim, if applicable.
3. Check the HART address. If the HART address is non-zero, you may need to enable the mA Output Action (Loop Current Mode) parameter.
4. Check whether the output has been set to a constant value via digital communication. |
| 2312 |
Priority: Maintenance - Fix Soon
The drive power (current/voltage) is at its maximum.
Recommended Actions:
1. Check the drive gain and the pickoff voltage.
2. Check for electrical shorts.
3. Check for air in the flow tubes, tubes not filled, foreign material in the tubes, coating in the tubes, or other process problems.
4. Check for fluid separation by monitoring the density value and comparing the results against expected density values.
5. Ensure that the sensor orientation is appropriate for your application. Settling from a two-phase or three-phase fluid can cause this alert even if the flow tubes are full. |
| 2313 |
Priority: Advisory
A calibration procedure is in progress.
Recommended Actions:
1. Allow the procedure to complete.
2. For zero calibration (CDM meters only), you may abort the calibration, set the zero time parameter to a lower value, and restart the calibration. |
| 2314 |
Priority: Maintenance - Fix Soon
The density has exceeded the user-defined two-phase (density) limits.
Recommended Actions:
1. Check that meter 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. |
| 2315 |
Priority: Advisory
HART burst mode is enabled.
Recommended Actions:
1. No action required.
2. If desired, you can reconfigure the alert severity level to Ignore. |
| 2316 |
Priority: Maintenance - Fix Soon
The transmitter has been restarted.
Recommended Actions:
1. No action required.
2. If desired, you can reconfigure the alert severity level to Ignore. |
| 2317 |
Priority: Advisory
The mA output is configured to send a constant value.
Recommended Actions:
1. Check whether the output is in loop test mode. If it is, unfix the output.
2. Exit mA output trim, if applicable.
3. Check whether the output has been set to a constant value via digital communication. |
| 2318 |
Priority: Maintenance - Fix Soon
The connection to an external measurement device has failed. No external data is available.
Recommended Actions:
1. Verify that the external device is operating correctly.
2. Verify the wiring between the transmitter and the external device.
3. Verify the HART polling configuration. |
| 2319 |
Priority: Maintenance - Fix Soon
The measured temperature is outside the range of the API table.
Recommended Actions:
1. Check your process conditions against the values reported by the device.
2. Verify the configuration of the API referral application and related parameters. |
| 2320 |
Priority: Maintenance - Fix Soon
The measured density is outside the range of the API table.
Recommended Actions:
1. Check your process conditions against the values reported by the device.
2. Verify the configuration of the API referral application and related parameters. |
| 2321 |
Priority: Advisory
The discrete output has been configured to send a constant value.
Recommended Actions:
1. Check whether the output is in loop test mode. If it is, unfix the output. |
| 2322 |
Priority: Advisory
The transmitter was unable to calculate a valid concentration matrix from the current data.
Recommended Actions:
1. Verify the configuration of the concentration measurement application. |
| 2323 |
Priority: Maintenance - Fix Soon
The line density or line temperature is outside the range of the concentration matrix plus the configured extrapolation limit.
Recommended Actions:
1. Check your process conditions against the values reported by the device.
2. Verify the configuration of the concentration measurement application. |
| 2324 |
Priority: Maintenance - Fix Soon
The line pressure is outside the range of the API table plus the extrapolation limit.
Recommended Actions:
1. Check your process conditions against the values reported by the device.
2. Verify the configuration of the API Referral application and related parameters. |
| 2325 |
Priority: Advisory
Sensor simulation mode/simulation mode is enabled.
Recommended Actions:
1. Disable sensor simulation mode/simulation mode. |
| 2326 |
Priority: Maintenance - Fix Soon
There is a memory error in the display module.
Recommended Actions:
1. Cycle power to the meter.
2. Replace the display module.
3. Contact Micro Motion. |
| 2327 |
Priority: Maintenance - Fix Soon
The difference between the case temperature and the fluid temperature is greater than 10 °C.
Recommended Actions:
1. Check for process upsets. Changes to line temperature may not be immediately reflected in case temperature.
2. Check for electrical shorts.
3. Install a heat jacket.
4. Contact Micro Motion. |
| 2328 |
Priority: Maintenance - Fix Soon
An incorrect display module has been installed on the device. This may cause a safety violation in hazardous areas.
Recommended Actions:
1. Replace the installed display module with an appropriate display module. |
| 2329 |
Priority: Advisory
Enhanced Event 1 has been triggered.
Recommended Actions:
1. No action required. |
| 2330 |
Priority: Advisory
Enhanced Event 2 has been triggered.
Recommended Actions:
1. No action required. |
| 2331 |
Priority: Advisory
Enhanced Event 3 has been triggered.
Recommended Actions:
1. No action required. |
| 2332 |
Priority: Advisory
Enhanced Event 4 has been triggered.
Recommended Actions:
1. No action required. |
| 2333 |
Priority: Advisory
Enhanced Event 5 has been triggered.
Recommended Actions:
1. No action required. |
| 2334 |
Priority: Advisory
Velocity switch has been triggered.
Recommended Actions:
1. No action required. |
| 2335 |
Priority: Maintenance - Fix Soon
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. 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. |
| 2336 |
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. |
| 2337 |
Prepare the meter:
1. Remove the meter from the process and place it in a protected stable environment.
2. Minimize variation in ambient temperature.
3. Eliminate vibration.
4. Ensure that a suitably rated vacuum pump is used that is able to draw a vacuum on the meter. Pull a vacuum inside the meter to a maximum pressure of 0.2 Torr.
Click OK when meter preparation is complete. |
| 2338 |
Prepare the meter:
1. Remove the meter from the process and place it in a protected stable environment.
2. Minimize variation in ambient temperature.
3. Eliminate vibration.
4. Ensure that the meter is clean. Check for deposition on the vibrating element or the inner walls of the device.
Click OK when meter preparation is complete. |
| 2339 |
Known Density Verification requires 20 samples, and will take about 20 seconds to complete.
Click OK to continue. |
| 2340 |
Known Density Verification is in progress... |
| 2341 |
Know Density Verification: %0
Time Period Diff: %1
Time Period Stability: %2
Fluid Temp: %3
Drive Gain: %4
Case Temp Stability: %5 |
| 2342 |
Know Density Verification: %0
Time Period Diff: %1
Time Period Stability: %2
Fluid Temp: %3
Drive Gain: %4 |
| 2343 |
Click OK to begin density offset calibration. |
| 2344 |
Keep Existing Assignment;Temperature;Density;Density at Reference (API);Density at Reference (CM);Specific Gravity (CM);Net Mass Flow Rate (CM);Net Volume Flow Rate (CM);Concentration (CM);Drive Gain;Case Temperature;External Pressure;External Temperature;User-Defined Calculation Output;Volume from Mag/Vortex Meter;Calculated Mass Flow from Mag Meter Input;Sensor Time Period; |
| 2345 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Net Mass Flow Rate (CM).
Select Primary Variable: |
| 2346 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Net Volume Flow Rate (CM).
Select Primary Variable: |
| 2347 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Volume from Mag/Vortex Meter.
Select Primary Variable: |
| 2348 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Calculated Mass Flow from Mag Meter Input.
Select Primary Variable: |
| 2349 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Net Mass Flow Rate (CM).
Select Secondary Variable: |
| 2350 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Net Volume Flow Rate (CM).
Select Secondary Variable: |
| 2351 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Volume from Mag/Vortex Meter.
Select Secondary Variable: |
| 2352 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Calculated Mass Flow from Mag Meter Input.
Select Secondary Variable: |
| 2353 |
Keep Existing Assignment;Temperature;Density;Density at Reference (API);Density at Reference (CM);Specific Gravity (CM);Net Mass Flow Rate (CM);Net Volume Flow Rate (CM);Concentration (CM);Drive Gain;External Pressure;External Temperature;User-Defined Calculation Output;Dynamic Viscosity;Kinematic Viscosity;Referred Viscosity;Referred Viscosity (Secondary);Volume from Mag/Vortex Meter;Calculated Mass Flow from Mag Meter Input; |
| 2354 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Dynamic Viscosity. |
| 2355 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Kinematic Viscosity. |
| 2356 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Referred Viscosity. |
| 2357 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Referred Viscosity (Secondary). |
| 2358 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Dynamic Viscosity. |
| 2359 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Kinematic Viscosity. |
| 2360 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Referred Viscosity. |
| 2361 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Referred Viscosity (Secondary). |
| 2362 |
Keep Existing Assignment;Temperature;Density;Drive Gain;External Pressure;External Temperature;User-Defined Calculation Output;Specific Gravity (Gas);Relative Density;Molecular Weight;Volume from Mag/Vortex Meter;Base Density (Gas);Calculated Mass Flow from Mag Meter Input;Volume Flow at Reference Temperature;Mass from Coriolis Meter;Sensor Time Period; |
| 2363 |
Keep Existing Assignment;Temperature;Drive Gain;External Pressure;External Temperature;User-Defined Calculation Output;Specific Gravity (Gas);Relative Density;Molecular Weight;Volume from Mag/Vortex Meter;Base Density (Gas);Calculated Mass Flow from Mag Meter Input;Volume Flow at Reference Temperature;Mass from Coriolis Meter;Sensor Time Period; |
| 2364 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Specific Gravity (Gas). |
| 2365 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Relative Density. |
| 2366 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Molecular Weight. |
| 2367 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Base Density (Gas). |
| 2368 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Volume Flow at Reference Temperature. |
| 2369 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Mass from Coriolis Meter. |
| 2370 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Specific Gravity (Gas). |
| 2371 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Relative Density. |
| 2372 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Molecular Weight. |
| 2373 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Base Density (Gas). |
| 2374 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Volume Flow at Reference Temperature. |
| 2375 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Mass from Coriolis Meter. |
| 2376 |
Keep Existing Assignment;Temperature;Density;Density at Reference (API);Drive Gain;External Temperature;User-Defined Calculation Output;Dynamic Viscosity;Kinematic Viscosity;Referred Viscosity;Referred Viscosity (Secondary);CCAI;CII; |
| 2377 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to CCAI. |
| 2378 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to CII. |
| 2379 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to CCAI. |
| 2380 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to CII. |
| 2381 |
A036: Viscosity Out of Limit is set to %0. |
| 2382 |
Keep Existing Assignment;Temperature;Density;Net Mass Flow Rate (CM);Net Volume Flow Rate (CM);Concentration (CM);Drive Gain;External Pressure;External Temperature;User-Defined Calculation Output;Specific Gravity (Gas);Molecular Weight;Wobbe Index;Calorific Value;Percent CO2;Volume from Mag/Vortex Meter;Base Density (Gas);Calculated Mass Flow from Mag Meter Input;Percent N2;Percent H2;Percent CO;Volume Flow at Reference Temperature;Mass from Coriolis Meter;Energy Flow;Sensor Time Period; |
| 2383 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Wobbe Index. |
| 2384 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Calorific Value. |
| 2385 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Percent CO2. |
| 2386 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Percent N2. |
| 2387 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Percent H2. |
| 2388 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Percent CO. |
| 2389 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Primary Variable is set to Energy Flow. |
| 2390 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Wobbe Index. |
| 2391 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Calorific Value. |
| 2392 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Percent CO2. |
| 2393 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Percent N2. |
| 2394 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Percent H2. |
| 2395 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Percent CO. |
| 2396 |
Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
Secondary Variable is set to Energy Flow. |
| 2397 |
Keep Existing Assignment;Temperature;Density;Net Mass Flow Rate (CM);Net Volume Flow Rate (CM);Concentration (CM);Drive Gain;External Pressure;External Temperature;User-Defined Calculation Output;Relative Density;Percent CO2;Volume from Mag/Vortex Meter;Base Density (Gas);Calculated Mass Flow from Mag Meter Input;Percent N2;Percent H2;Percent CO;Volume Flow at Reference Temperature;Mass from Coriolis Meter;Sensor Time Period; |
| 2398 |
Dynamic Viscosity:
Value %0 %1
Kinematic Viscosity:
Value %2 %3
Referred Viscosity:
Value %4 %5 |
| 2399 |
Referred Viscosity (Secondary):
Value %0 %1
Density:
Value %2 %3
Temperature:
Value %4 %5 |
| 2400 |
Dynamic Viscosity:
Value %0 %1
Kinematic Viscosity:
Value %2 %3
Density:
Value %4 %5 |
| 2401 |
Temperature:
Value %0 %1 |
| 2402 |
Kinematic Viscosity:
Value %0 %1
Temperature:
Value %2 %3 |
| 2403 |
Keep Existing Assignment;Temperature;Density;Dynamic Viscosity;Kinematic Viscosity; |
| 2404 |
Keep Existing Assignment;Temperature; |
| 2405 |
Keep Existing Assignment;Kinematic Viscosity; |
| 2406 |
Density:
Value %0 %1
Temperature:
Value %2 %3 |
| 2407 |
Specific Gravity (Gas):
Value %0
Molecular Weight:
Value %1 %2
Density:
Value %3 %4 |
| 2408 |
Specific Gravity (Gas):
Value %0
Molecular Weight:
Value %1 %2
Base Density (Gas):
Value %3 %4 |
| 2409 |
Relative Density:
Value %0
Base Density (Gas):
Value %1 %2
Density:
Value %3 %4 |
| 2410 |
Current referred viscosity method is ASTM D341 Single.
Select referred viscosity method: |
| 2411 |
ASTM D341 Single;Multi-curve ASTM;Matrix Referral |
| 2412 |
Current referred viscosity method is Multi-curve ASTM.
Select referred viscosity method: |
| 2413 |
Current referred viscosity method is Matrix Referral.
Select referred viscosity method: |
| 2414 |
Select the fluid: |
| 2415 |
Fluid 1;Fluid 2;Fluid 3;Fluid 4;Fluid 5;Fluid 6;Fluid 7;Fluid 8;End; |
| 2416 |
The ASTM Referral Matrix data was successfully written to the device. |
| 2417 |
Matrix Referral Results:
Fit Accuracy: %0
Fit Result: %1 |
| 2418 |
Click Next to begin viscosity scaling factor calibration. |
| 2419 |
Calibration is in progress. Allow the sensor to stabilize for some time. |
| 2420 |
Before beginning calibration, the reference chamber must be purged. See the configuration manual for more information. |
| 2421 |
Select device measurement: |
| 2422 |
Specific Gravity;Molecular Weight;Relative Density; |
| 2423 |
Select calibration format (applies to all calibrations):
|
| 2424 |
2-Point Calibration;3-Point Calibration; |
| 2425 |
Select calibration number: |
| 2426 |
1;2;3;4; |
| 2427 |
Select the calibration option: |
| 2428 |
Calibration Gas Low;Calibration Gas High;Calculate Calibration Coefficients; |
| 2429 |
Flow Calibration Gas Low through the meter, and click Next to start the calibration. |
| 2430 |
Starting calibration... |
| 2431 |
Low Gas Calibration is complete. Click Next to save it. |
| 2432 |
The calibration is complete. Ensure that all required calibrations have been performed before beginning measurement:
• 2-point calibrations: Calibration Gas Low (K0) and Calibration Gas High (K2). |
| 2433 |
Calibration is not started. Please try again. |
| 2434 |
Flow Calibration Gas High through the meter and click Next to start the calibration. |
| 2435 |
High Gas Calibration is complete. Click Next to save it. |
| 2436 |
Calibration Gas Low;Calibration Gas Medium;Calibration Gas High;Calculate Calibration Coefficients; |
| 2437 |
The calibration is complete. Ensure that all required calibrations have been performed before beginning measurement:
• 3-point calibrations: Calibration Gas Low (K0), Calibration Gas Medium (K1), and Calibration Gas High (K2). |
| 2438 |
Flow Calibration Gas Medium through the meter and click Next to start the calibration. |
| 2439 |
Medium Gas Calibration is complete. Click Next to save it. |
| 2440 |
Calibration Gas Low;Calibration Gas High; |
| 2441 |
Flow Calibration Gas Low has been saved.
Both the high and low calibrations need to be done before calculating the calibration factors. |
| 2442 |
Continue Calibration;Calculate Calibration Coefficients |
| 2443 |
Flow Calibration Gas High has been saved.
Both the high and low calibrations need to be done before calculating the calibration factors. |
| 2444 |
Calibration Gas Low;Calibration Gas Medium;Calibration Gas High; |
| 2445 |
Flow Calibration Gas Low has been saved.
All three high, medium and low calibrations need to be done before calculating the calibration factors. |
| 2446 |
Flow Calibration Gas Medium has been saved.
All three high, medium and low calibrations need to be done before calculating the calibration factors. |
| 2447 |
Flow Calibration Gas High has been saved.
All three high, medium and low calibrations need to be done before calculating the calibration factors. |
| 2448 |
The calibration has been aborted. Ensure that all required calibrations have been performed before beginning measurement:
• 2-point calibrations: Calibration Gas Low (K0) and Calibration Gas High (K2). |
| 2449 |
The calibration has been aborted. Ensure that all required calibrations have been performed before beginning measurement:
• 3-point calibrations: Calibration Gas Low (K0), Calibration Gas Medium (K1), and Calibration Gas High (K2). |
| 2450 |
Enter specific gravity of pure gas: |
| 2451 |
Enter specific gravity of second gas: |
| 2452 |
Enter molecular weight of pure gas: |
| 2453 |
Enter molecular weight of second gas: |
| 2454 |
Enter relative density of pure gas: |
| 2455 |
Enter relative density of second gas: |
| 2456 |
Resetting Configuration Changed Flag, please wait. |
| 2457 |
Configuration Changed Flag has been reset. |
| 2458 |
The compressibility calculations is disabled. Do you want to enable it? |
| 2459 |
The compressibility calculations is enabled. |
| 2460 |
The compressibility calculations is enabled. Do you want to disable it? |
| 2461 |
The compressibility calculations is disabled. |
| 2462 |
Fit Accuracy:
%0
Fit Result:
%1 |
| 2463 |
Select Device Measurement: |
| 2464 |
Gas Specific Gravity;Relative Density;Molecular Weight |
| 2465 |
Select the Simulation Mode Type: |
| 2466 |
Simulation Mode is %0. |
| 2467 |
Select option: |
| 2468 |
Known User Fluid;Water |
| 2469 |
Click Next to begin Inline Calibration Check. |
| 2470 |
Inline Calibration Check completed. |
| 2471 |
Enter Dynamic Viscosity Fixed Value |
| 2472 |
Enter Dynamic Viscosity Minimum Amplitude of waveform |
| 2473 |
Enter Dynamic Viscosity Maximum Amplitude of waveform |
| 2474 |
Enter Dynamic Viscosity period of waveform in second. |