0 |
X/Y values |
1 |
User curve (SP) |
2 |
X0 |
3 |
Setpoint Tab XYValue 0 |
4 |
5.1f |
5 |
X1 |
6 |
X2 |
7 |
X3 |
8 |
X4 |
9 |
X5 |
10 |
X6 |
11 |
X7 |
12 |
X8 |
13 |
X9 |
14 |
X10 |
15 |
X11 |
16 |
X12 |
17 |
X13 |
18 |
X14 |
19 |
X15 |
20 |
X16 |
21 |
X17 |
22 |
X18 |
23 |
X19 |
24 |
X20 |
25 |
X21 |
26 |
Y0 |
27 |
Y1 |
28 |
Y2 |
29 |
Y3 |
30 |
Y4 |
31 |
Y5 |
32 |
Y6 |
33 |
Y7 |
34 |
Y8 |
35 |
Y9 |
36 |
Y10 |
37 |
Y11 |
38 |
Y12 |
39 |
Y13 |
40 |
Y14 |
41 |
Y15 |
42 |
Y16 |
43 |
Y17 |
44 |
Y18 |
45 |
Y19 |
46 |
Y20 |
47 |
Y21 |
48 |
Load curve from device |
49 |
Save curve to device |
50 |
Create a new curve and save it to device |
51 |
|
52 |
Online |
53 |
Home |
54 |
Prozess Variable |
55 |
Allgemein |
56 |
Applikation |
57 |
Geräteeinstellungen |
58 |
Easy setup |
59 |
|
60 |
Prozesswert |
61 |
% |
62 |
User configurable characteristic curve |
63 |
Identifizierung |
64 |
Detailliertes Setup |
65 |
Input |
66 |
Setpoint |
67 |
Digital input DI |
68 |
Feedback |
69 |
Analog feedback signal |
70 |
Digital limit value |
71 |
Alarm current |
72 |
Binary output |
73 |
Readback characteristic |
74 |
Map alarm to option card (relais module) |
75 |
Control parameter |
76 |
ADC noise |
77 |
Deadband |
78 |
Operation mode |
79 |
Additional parameter |
80 |
Maintenance counter |
81 |
Movement counter |
82 |
Travel counter |
83 |
Min movement |
84 |
Valve parameter |
85 |
Device set-up |
86 |
Basic Settings |
87 |
Max. Working Range |
88 |
Working Range |
89 |
Special Functions |
90 |
Resets |
91 |
Diagnose |
92 |
Bedienen |
93 |
Übersicht |
94 |
Measurement variables |
95 |
Manual setpoint |
96 |
Current output |
97 |
mA |
98 |
PV digital value |
99 |
Control deviation |
100 |
Einzelsicht |
101 |
Setpoint |
102 |
Select Display mA |
103 |
Analog |
104 |
BarGraph |
105 |
None |
106 |
Select Display % |
107 |
Position |
108 |
Control deviation |
109 |
Trend |
110 |
Others |
111 |
Temperature |
112 |
Bild des Gerätes |
113 |
www.abb.com |
114 |
OK |
115 |
No active alarms |
116 |
Ausfall |
117 |
Aufgrund einer Funktionsstörung im Feldgerät oder an seiner Peripherie ist das Ausgangssignal ungültig. |
118 |
Funktionskontrolle |
119 |
Am Feldgerät wird gearbeitet, das Ausgangssignal ist daher vorübergehend ungültig (z.B. eingefroren). |
120 |
Außerhalb der Spezifikation |
121 |
Vom Gerät durch Selbstüberwachung ermittelte Abweichungen von den zulässigen Umgebungs- oder Prozessbedingungen oder Störungen im Gerät selbst weisen darauf hin, dass die Messunsicherheit bei Sensoren oder Sollwertabweichung bei Aktoren wahrscheinlich größer ist als unter Betriebsbedingungen zu erwarten. |
122 |
Wartungsbedarf |
123 |
Das Ausgangssignal ist zwar noch gültig, aber der Abnutzungsvorrat wird demnächst erschöpft oder aufgrund von Einsatzbedingungen eine Funktion in Kürze eingeschränkt sein, z. B. Alterung der pHElektrode. |
124 |
Click to see the details of active alarms |
125 |
Ok |
126 |
Fehler |
127 |
Gerätefehlfunktion |
128 |
Mögliche Ursache: Das Gerät hat einen ernsthaften Hardware Fehler. |
129 |
Vorgeschlagene Aktion: Bitte Gerätediagnose Details überprüfen und/oder Geräte Hardware austauschen, falls erforderlich. |
130 |
Leakage Detected |
131 |
Possible Cause : leakage in actuator, pipes, air connections or positioner |
132 |
Suggested Action : Start leakage test |
133 |
Setpoint out of range |
134 |
Possible Cause : Faulty DCS-card |
135 |
Suggested Action : Replace DCS-card |
136 |
Position out of range |
137 |
Possible Cause : Bended mounting bracket |
138 |
Suggested Action : Check mounting situation |
139 |
Not following current |
140 |
Possible Cause : High friction. |
141 |
Suggested Action : Valve maintenance |
142 |
Positioning Timeout |
143 |
Movement counter limit exceeded |
144 |
Possible Cause : Many control cycles |
145 |
Travel counter limit exceeded |
146 |
Possible Cause : Many control cycles or oscillating valve |
147 |
Stromschleife fixiert |
148 |
Mögliche Ursache: Der analoge und digitale Ausgang für die primäre Variable ist auf einen Wert eingestellt. Das Gerät ist im eingestellten, fest fixierten Strom Mode. |
149 |
Vorgeschlagene Aktion: Nutze einen HART Konfigurator (PC Tool / Hand held) um das Gerät in den normalen Arbeitsmodus zurückzusetzen. |
150 |
Switchpoint 1 exceeded |
151 |
Possible Cause : Valve has passed Switchpoint 1 position |
152 |
Suggested Action : Depends on application |
153 |
Switchpoint 2 exceeded |
154 |
Possible Cause : Valve has passed Switchpoint 2 position |
155 |
Digital IN is active |
156 |
Possible Cause : Digital input activated by user |
157 |
Suggested Action : Deactivate digital input |
158 |
Simulation active |
159 |
Possible Cause: Digital valve position / behaviour |
160 |
Suggestion Action: to be described by application |
161 |
Schleifenstrom gesättigtPossible cause: The analog output for the Primary Variable is beyond its scaling limit and no longer represents the true applied process. For transmitters, the output is saturated. For actuators, the input is over or under range.Mögliche Ursache: Der analog Ausgang für die primäre Variable ist ausserhalb der Skalierungsgrenze und repräsentiert nicht länger den wirklichen Prozess. Für Meßumformer, der Ausgang ist gesättigt. Für Antriebe, der Eingang ist überhalb oder unterhalb des Arbeitsbereichs |
162 |
Vorgeschlagene Aktion: Anassung des Arbeitsbereichs. |
163 |
Nicht Primäre Variable ausserhalb der Grenzen |
164 |
Mögliche Ursache: Der Prozess erfasst durch Nicht Primäre Variable ist ausserhalb des Arbeitsbereichs des Gerätes. |
165 |
Vorgeschlagene Aktion: Änderung der Arbeitsbedingungen oder Austausch des Gerätes durch passenden Gerätetypen. |
166 |
Primäre Variable ausserhalb der Grenzen. |
167 |
Mögliche Ursache: Der Prozess erfasst durch die primäre Variable ist ausserhalb der Sensor Grenzen des Gerätes oder die Genauigkeit der Sensorumwandlung passt nicht. |
168 |
Konfiguration geändert |
169 |
Mögliche Ursache: Ein Schreibzugriff auf das Gerät hat die Konfiguration geändert. |
170 |
Vorgeschlagene Aktion: Bitte die geänderte Konfiguration hoch oder runterladen und die Datensätze zu synchronisieren die Konfiguration geändert Meldung zurüczusetzen. |
171 |
Configuration failure |
172 |
Possible Cause : Interchanged outputs pipes |
173 |
Suggested Action : Execute autoadjust |
174 |
Kaltstart |
175 |
Mögliche Ursache: Die Versorgungsspannung wurde unterbrochen und hat zu einer Reinitialisierung des Gerätes geführt. |
176 |
Vorgeschlagene Aktion: Falls das Problem wieder auftritt, bitte die Spannungsversorgungsleitungen überprüfen. |
177 |
Diagnose status |
178 |
OK |
179 |
Gesundheitszustand erhalten |
180 |
Reset configuration change |
181 |
Reset the configuration change encountered in the device |
182 |
Device status |
183 |
Configure Diagnosis messages |
184 |
Configure positioning timeout |
185 |
Leakage sensivity |
186 |
Simulation |
187 |
Status Group 0 |
188 |
Status Group 1 |
189 |
Offline |
190 |
Parameterization |
191 |
s21 |
192 |
swp4 |
193 |
confTomA |
194 |
confToPercent |
195 |
showSetpointPercent |
196 |
showSetpointPercent help |
197 |
Device Reset |
198 |
Configuration Flag Reset |
199 |
Write protect off |
200 |
Config disable with NV save |
201 |
Config disable |
202 |
Stop auto adjust |
203 |
Start auto adjust |
204 |
Application setup |
205 |
Change setpoint configuration |
206 |
Change digital input configuration |
207 |
This method is intended to change the setting of Digital Input and Digital SP (When, Digital Input = Hold user configurable setpoint) |
208 |
GetTzidcMapper_outputRangeU16toFlt_0 |
209 |
GetTzidcMapper_outputRangeU16toFlt_1 |
210 |
PutTzidcMapper_outputRangeU16toFlt_0 |
211 |
PutTzidcMapper_outputRangeU16toFlt_1 |
212 |
Change feedback signal |
213 |
Change parameter |
214 |
Change binary output |
215 |
Change readback characteristic |
216 |
Change alarm option to DO |
217 |
GetTzidcMapper_pidParKPupU16toFlt |
218 |
GetTzidcMapper_pidParKPdownU16toFlt |
219 |
GetTzidcMapper_pidParTVupU16toFlt |
220 |
GetTzidcMapper_pidParTVdownU16toFlt |
221 |
GetTzidcMapper_pidParToleranceBandU16toFlt |
222 |
GetTzidcMapper_deadbandU16toFlt |
223 |
PutTzidcMapper_pidParKPupU16toFlt |
224 |
PutTzidcMapper_pidParKPdownU16toFlt |
225 |
PutTzidcMapper_pidParTVupU16toFlt |
226 |
PutTzidcMapper_pidParTVdownU16toFlt |
227 |
PutTzidcMapper_pidParToleranceBandU16toFlt |
228 |
PutTzidcMapper_deadbandU16toFlt |
229 |
DEBUGDISPLAY |
230 |
Change control parameters |
231 |
Change deadband parameter |
232 |
Change operating mode |
233 |
Change additional parameter |
234 |
GetValveDiagnosis_valveCycleCounterLimit |
235 |
GetValveDiagnosis_valveTravelCounterLimit |
236 |
PutValveDiagnosis_valveCycleCounterLimit |
237 |
PutValveDiagnosis_valveTravelCounterLimit |
238 |
GetTzidcMapper_highCutOffI16toFlt |
239 |
GetTzidcMapper_lowCutOffI16toFlt |
240 |
PutTzidcMapper_highCutOffI16toFlt |
241 |
PutTzidcMapper_lowCutOffI16toFlt |
242 |
Change valve parameter |
243 |
GetTzidcMapper_operatingRangePercentI16toFlt_0 |
244 |
TzidcMapper_operatingRangePercentI16toFlt_1 |
245 |
GetTzidcMapper_outputScalingUInt16Flt_0 |
246 |
GetTzidcMapper_outputScalingUInt16Flt_1 |
247 |
PutTzidcMapper_operatingRangePercentI16toFlt_0 |
248 |
PutTzidcMapper_operatingRangePercentI16toFlt_1 |
249 |
PutTzidcMapper_outputScalingUInt16Flt_0 |
250 |
PutTzidcMapper_outputScalingUInt16Flt_1 |
251 |
Change basic settings |
252 |
Change max working range |
253 |
Change working range |
254 |
Reset travel counter |
255 |
Reset the travel counter to 0 |
256 |
Reset movement counter |
257 |
Reset the movement counter to 0 |
258 |
Factory setting |
259 |
This method will restore value of all parameters with factory default |
260 |
Device Lock |
261 |
Commands reset the configuration flag. |
262 |
Change diagnosis configuration |
263 |
Change leakage sensivity |
264 |
Simulation ON |
265 |
Simulation OFF |
266 |
Simulate |
267 |
Start manual setpoint |
268 |
Stop manual setpoint |
269 |
outputPercent |
270 |
.2f |
271 |
8.2f |
272 |
outputCurrent |
273 |
Feedback Characteristics |
274 |
Direct (Position 100% = 20mA |
275 |
Reverse (Position 0% = 4mA |
276 |
Feedback Alarm Current |
277 |
Output i > 20 mA |
278 |
Output i < 4 mA |
279 |
pwmHiAlarm |
280 |
pwmLoAlarm |
281 |
pwm4mA |
282 |
pwm20mA |
283 |
simTimerReloadValue |
284 |
Alarm function enabled |
285 |
Off |
286 |
On |
287 |
Signal clipping range |
288 |
Normal |
289 |
Extended |
290 |
outputCurrentUnit |
291 |
outputPercentUnit |
292 |
No Function |
293 |
Move to 0% |
294 |
Move to 100% |
295 |
Hold current position |
296 |
Config locked |
297 |
Operation locked |
298 |
Configuration and operation locked |
299 |
in Working range |
300 |
Display |
301 |
SW1 Active low |
302 |
SW2 Active low |
303 |
SW1 Active when falling below |
304 |
SW2 Active when falling below |
305 |
Switch point 1 |
306 |
Switch point 2 |
307 |
switchHysteresis |
308 |
optionIsPluged |
309 |
Map Alarm to option DO |
310 |
Disable |
311 |
Enable |
312 |
setpointBkOut |
313 |
controlDeviation |
314 |
positionUnit |
315 |
configEnable |
316 |
Access rights management hart requests access |
317 |
ENABLE_HMI |
318 |
ENABLE_HART |
319 |
LOCKED |
320 |
LOCKED_BY_HMI |
321 |
Operating Mode |
322 |
Adaptive |
323 |
Fixed |
324 |
Manual Mode |
325 |
Manual Adjustment |
326 |
actualMode |
327 |
oosMode |
328 |
hartSetpointMode |
329 |
hartManualMode |
330 |
serviceMode |
331 |
SERVICE_MODE_OFF |
332 |
SERVICE_MODE_SERICHRT |
333 |
SERVICE_MODE_DIRECT_SET_DIAMETER |
334 |
SERVICE_MODE_CONTROL_TEST |
335 |
directSetDiameter |
336 |
startAutoAdjustment |
337 |
START_AUTO_ADJUSTMENT |
338 |
STOP_AUTO_ADJUSTMENT |
339 |
Auto adjust progress |
340 |
Adjust passive |
341 |
Adjust exhaust |
342 |
Adjust ventilate |
343 |
Adjust pos. time prepare |
344 |
Adjust pos. time down |
345 |
Adjust pos. time up |
346 |
Adjust IP converter prepare1 |
347 |
Adjust IP converter prepare2 |
348 |
Adjust IP converter 5% |
349 |
Adjust IP converter 10% |
350 |
Adjust IP converter 15% |
351 |
Adjust IP converter 20% |
352 |
Adjust IP converter 25% |
353 |
Adjust IP converter 30% |
354 |
Adjust IP converter 35% |
355 |
Adjust IP converter 40% |
356 |
Adjust IP converter 45% |
357 |
Adjust IP converter 50% |
358 |
Adjust controller 55% |
359 |
Adjust controller 60% |
360 |
Adjust controller 65% |
361 |
Adjust controller 70% |
362 |
Adjust controller 75% |
363 |
Adjust controller 80% |
364 |
Adjust controller 85% |
365 |
Adjust controller 90% |
366 |
Adjust controller 92% |
367 |
Adjust controller 95% |
368 |
Adjust finished |
369 |
autoAdjustState |
370 |
NOT LOCKED |
371 |
deadbandAdjustBalance |
372 |
Actuator springaction |
373 |
Clockwise |
374 |
Conterclockwise |
375 |
Zero Position |
376 |
Operating direction |
377 |
Stop reached turning clockwise |
378 |
Stop reached turning conterclockwise |
379 |
testProfile |
380 |
CTRL_TEST_PROF_SERI |
381 |
CTRL_TEST_PROF_OMCT |
382 |
CTRL_TEST_PROF_ADJ |
383 |
CTRL_TEST_PROF_IEC61514 |
384 |
CTRL_TEST_PROF_POTI |
385 |
testEndless |
386 |
resetToDefaults |
387 |
factoryPassword |
388 |
timeValue |
389 |
Calculate deadband |
390 |
Inactive |
391 |
Active |
392 |
parS0 |
393 |
parKplus |
394 |
parKminus |
395 |
parCplus |
396 |
parCminus |
397 |
parQplus |
398 |
parQminus |
399 |
Deadband approach |
400 |
Fast |
401 |
Medium |
402 |
Slow |
403 |
pidParToleranceBand |
404 |
deadband |
405 |
parQbalance |
406 |
parKandCbalance |
407 |
adaptionLearningRate |
408 |
adaptionIdleTime |
409 |
adaptionCyclesStartPhase |
410 |
adaptionOperatingRangePlus |
411 |
adaptionOperatingRangeMinus |
412 |
adaptionParameterRangeMin |
413 |
adaptionParameterRangeMax |
414 |
minYout |
415 |
deadbandActivationCnt |
416 |
Close up range |
417 |
calibrated4mA |
418 |
calibrated20mA |
419 |
unit |
420 |
Percent |
421 |
scalingmA |
422 |
value |
423 |
Range min |
424 |
Range max |
425 |
current |
426 |
Setpoint direction |
427 |
Direct |
428 |
Reverse |
429 |
currentUnit |
430 |
novState |
431 |
adjustState |
432 |
notUsed |
433 |
controllerState |
434 |
testState |
435 |
alarmCode |
436 |
operatingModeByte1 |
437 |
operatingModeByte2 |
438 |
analogOutputSatured |
439 |
analogOutputFixed |
440 |
errorCode |
441 |
intConfig |
442 |
infoFlags |
443 |
Diagnosis settings |
444 |
Possible Cause : help text |
445 |
Possible Cause :help text |
446 |
Positioning time out |
447 |
help text |
448 |
Movementcounter exceed |
449 |
Travelcounter exceed |
450 |
Device error |
451 |
actualError |
452 |
diagnosisCounter |
453 |
eventBufferAction |
454 |
Software revision |
455 |
softwareDateStr |
456 |
hardwareRevision |
457 |
productionCode |
458 |
productionRev |
459 |
endTestNum |
460 |
justageNum |
461 |
finalAssemblyNum |
462 |
electronicTemperature |
463 |
electronicTemperatureUnit |
464 |
powerDownCounter |
465 |
minCurrentIn |
466 |
deviceSerialNumber |
467 |
resetConfigFlag |
468 |
StartSelfTest |
469 |
dummy_0 |
470 |
dummy_254 |
471 |
dummyU8 |
472 |
dummyU16 |
473 |
dummyFloat |
474 |
fskDisabled |
475 |
numberRquestPream |
476 |
numberRespPream |
477 |
univCmdRev |
478 |
HART_REVISION_5 |
479 |
HART_REVISION_7 |
480 |
deviceRevisionLevel |
481 |
expandedDeviceType |
482 |
manufacturerIdCode |
483 |
privateLabelDistributorCode |
484 |
maxNoOfDevVariables |
485 |
flags |
486 |
pollAddr |
487 |
bursttotalNumberOfMsg |
488 |
burstMsg0ConfData |
489 |
tag |
490 |
deviceMessage |
491 |
finalAssyNumber |
492 |
writeProtection |
493 |
WRITEPROTECTION_ON |
494 |
WRITEPROTECTION_OFF |
495 |
WRITEPROTECTION_NONE |
496 |
descriptor |
497 |
deviceIdNumber |
498 |
deviceInstallDate |
499 |
Slot0 |
500 |
Slot1 |
501 |
Slot2 |
502 |
Slot3 |
503 |
Slot4 |
504 |
Slot5 |
505 |
Slot6 |
506 |
Slot7 |
507 |
subsystemIndex |
508 |
objectIndex |
509 |
objectDataLength |
510 |
attributeIndex |
511 |
objectData |
512 |
HART_BOARD |
513 |
HART_ADDRESS |
514 |
PV_Transfer_FunctionCode |
515 |
PV_TRANSF_FC_LINEAR |
516 |
PV_TRANSF_FC_SQUAREROOT |
517 |
PV_TRANSF_FC_SQUAREROOT_THIRDPOW |
518 |
PV_TRANSF_FC_SQUAREROOT_FIFTHPOW |
519 |
PV_TRANSF_FC_SPECIALCURVE |
520 |
PV_TRANSF_FC_SQUARE |
521 |
PV_TRANSF_FC_NOT_USED |
522 |
PV_TRANSF_FC_NONE |
523 |
PV_TRANSF_FC_UNKOWN |
524 |
PV_TRANSF_FC_SPECIAL |
525 |
eepromErrorCounter |
526 |
communicationErrorCounter |
527 |
gapErrorCounter |
528 |
pvt_Label_Dist_Code |
529 |
eepromControl |
530 |
EEP_CTRL_SAVE_DATA |
531 |
EEP_CTRL_LOAD_DATA |
532 |
EEP_CTRL_PASSIVE |
533 |
resetDevice |
534 |
devVariableClassification |
535 |
devVariableTransducerSerialNo |
536 |
devVariableFamilyCode |
537 |
devVariableUnitsCode |
538 |
devVariableUpperTransducerLimit |
539 |
devVariableLowerTransducerLimit |
540 |
devVariableMinimumSpan |
541 |
devVariableDampingValue |
542 |
devVariableAcquisitionPeriod |
543 |
devVariableProperties |
544 |
dataTimeStamp |
545 |
loopCurrentMode |
546 |
LOOP_CURRENT_MODE_DISABLED |
547 |
LOOP_CURRENT_MODE_ENABLED |
548 |
longTag |
549 |
confChangeCounterValue |
550 |
pvAnalogChannelFlags |
551 |
nonValidDeviceVariableValue |
552 |
deviceVariableCodePV |
553 |
deviceVariableCodeSV |
554 |
deviceVariableCodeTV |
555 |
deviceVariableCodeQV |
556 |
extendedDeviceStatus |
557 |
DEFAULT_EXTENDED_DEVICE_STATUS |
558 |
MAINTENANCE_REQUIRED |
559 |
DEVICE_VARIABLE_ALERT |
560 |
CRITICAL_POWER_FAILURE |
561 |
deviceProfile |
562 |
squawk |
563 |
lockDeviceSelection |
564 |
LOCK_DEVICE_UNLOCKED |
565 |
LOCK_DEVICE_TEMPORARY |
566 |
LOCK_DEVICE_PERMANENT |
567 |
LOCK_DEVICE_ALL |
568 |
lockDeviceStatus |
569 |
deviceVariableStatus |
570 |
localKeyVector |
571 |
Pneumatic type |
572 |
Fail-Safe, Single acting |
573 |
Fail-Freeze, Single acting |
574 |
Fail-Safe, Double acting |
575 |
Fail-Freeze, Double acting |
576 |
lowPowerCurrent |
577 |
pwm750uA |
578 |
trashCycles |
579 |
measureCycles |
580 |
haltLevel |
581 |
maxLoopCount |
582 |
offsetResolution |
583 |
minOffsetStartValue |
584 |
maxOffsetStartValue |
585 |
speedTargetValue |
586 |
speedTimeOut |
587 |
speedSwitchLevel |
588 |
tStartTargetValue |
589 |
tStartTimeOut |
590 |
tStartSwitchLevel |
591 |
maxDiameterLimit |
592 |
speedLevelForMovement |
593 |
zeroSpeed |
594 |
minSpeedDif |
595 |
filterConst |
596 |
limitCycCntStart |
597 |
serialNumber |
598 |
calibrationMode |
599 |
MEASURE_CHAR |
600 |
FAST_SEARCH |
601 |
pwmCalibCurrent |
602 |
testVentilateAmplitude |
603 |
testExhaustAmplitude |
604 |
IP compensation |
605 |
sensorSerialNumber |
606 |
sensorType |
607 |
sensorRange |
608 |
operatingRangePercent |
609 |
Valve type |
610 |
Rotary |
611 |
Linear |
612 |
operatingRangePercentMinSpan |
613 |
Bolt position |
614 |
Bolt to lever |
615 |
Bolt to system |
616 |
Setpoint characteristic curve |
617 |
Equal percentage 1:25 |
618 |
Equal percentage 1:50 |
619 |
Equal percentage 25:1 |
620 |
Equal percentage 50:1 |
621 |
User configurable |
622 |
outputScaling |
623 |
tabEntry |
624 |
tabXYValue |
625 |
Dead angle close 0% |
626 |
Dead angle open 100% |
627 |
hysteresis |
628 |
Position Feedback |
629 |
Recalculated |
630 |
Min movement value |
631 |
Time out |
632 |
3d |
633 |
transientWaitingTime |
634 |
sealedRecognitionTime |
635 |
transientRecognitionLevel |
636 |
numMovForLeakageDetection |
637 |
ipvmReference |
638 |
ipvmReferenceAction |
639 |
ipvmUpKpLimits |
640 |
VDIAG_IPVMDNKPLIMITS |
641 |
ipvmUpTvLimits |
642 |
ipvmDnTvLimits |
643 |
ipvmUpOffsetLimits |
644 |
VDIAG_IPVMDNOFFSETLIMITS |
645 |
ipvmDiagnosis |
646 |
action |
647 |
ACTION_IDLE |
648 |
ACTION_START_SAMPLING |
649 |
ACTION_STOP_SAMPLING |
650 |
ACTION_STOP_WHEN_BUFFER_FULL |
651 |
ACTION_CLEAR_BUFFER |
652 |
bufferState |
653 |
bufferFillingLevel |
654 |
resolution |
655 |
nextShot |
656 |
timeOfFirstShot |
657 |
readOutStartTime |
658 |
SetCalculateTable |
659 |
minSwitchingTime |
660 |
positionI16toFlt |
661 |
positionAngleI16toFlt |
662 |
setpointBkOutI16toFlt |
663 |
Set point ramp, up |
664 |
Set point ramp, dn |
665 |
inputScalingI16toFlt |
666 |
scaling |
667 |
Y offset, up |
668 |
Y offset, down |
669 |
electronicTemperatureU16toFlt |
670 |
Auto adjust state |
671 |
Init false |
672 |
Init only controller finished |
673 |
Init only valverange finished |
674 |
Init ok |
675 |
not active |
676 |
Start extern |
677 |
Adjust in progress |
678 |
Adjust error |
679 |
Simulation mode |
680 |
Installed option modules |
681 |
Analog feedback |
682 |
Digital feedback |
683 |
HART |
684 |
Go pulse up |
685 |
ms |
686 |
Go pulse down |
687 |
Auto adjust mode |
688 |
Full autoadjust |
689 |
Only control parameters |
690 |
Only mechanical stops |
691 |
Only zero point |
692 |
Autoadjust locked |
693 |
positioningTimeUpU8toFlt |
694 |
positioningTimeDnU8toFlt |
695 |
counterReset |
696 |
RESET_WDOG_COUNTER |
697 |
RESET_POWERDN_COUNTER |
698 |
RESET_EEPROM_ERR_COUNTER |
699 |
RESET_COMM_ERR_COUNTER |
700 |
RESET_COMM_TIMEOUT_COUNTER |
701 |
RESET_CYCLIC_COUNTER |
702 |
RESET_TRAVEL_COUNTER |
703 |
Damping |
704 |
Setpoint |
705 |
Device variable clssification |
706 |
Positioner dev famly |
707 |
.3f |
708 |
Sensorbereichsende |
709 |
Sensorbereichsbeginn |
710 |
Minimale Spanne |
711 |
Dämpfung |
712 |
8.3f |
713 |
PV class |
714 |
Seriennummer |
715 |
7d |
716 |
Setpoint status |
717 |
SP LS |
718 |
SP Fmly stat |
719 |
Electronic temperature |
720 |
Active when exceeding |
721 |
Active when falling below |
722 |
Active when fallingw below |
723 |
Alarm Output Behaviour |
724 |
Active high |
725 |
Active low |
726 |
Logic level SW 1 |
727 |
Logic level SW 2 |
728 |
rest3 |
729 |
TzidcMapper_operatingRangePercentI16toFlt_0_HrtCmd |
730 |
Limits min |
731 |
5.2f |
732 |
TzidcMapper_operatingRangePercentI16toFlt_1_HrtCmd |
733 |
Limits max |
734 |
travelrange_min_label |
735 |
travelrange_max_label |
736 |
rb_zero_label |
737 |
Current min |
738 |
rb_span_label |
739 |
Current max |
740 |
shutclose_label |
741 |
Shut-off value 0% |
742 |
shutopen_label |
743 |
Shut-off value 100% |
744 |
kp_up_label |
745 |
KP value, up |
746 |
kp_dn_label |
747 |
KP value, down |
748 |
TV value, down |
749 |
TV value, up |
750 |
5d |
751 |
TzidcMapper_pidParToleranceBandU16toFlt_HrtCmd |
752 |
Tolerance band |
753 |
TzidcMapper_deadbandU16toFlt_HrtCmd |
754 |
Simulated position |
755 |
Data simulation |
756 |
Alarm via Analog Feedback |
757 |
Alarm via Alarm output |
758 |
Switch Point 1 |
759 |
Switch Point 2 |
760 |
Movement counter limit |
761 |
Travel counter limit |
762 |
Gerät |
763 |
Name des Gerätetyps |
764 |
TZIDC |
765 |
Schreibschutz |
766 |
Für Instanz-Datensatz oder Gerätedaten |
767 |
Hersteller |
768 |
Name des verantwortlichen Geräteherstellers |
769 |
Seriennummer bezogen auf das Protokoll |
770 |
Kennzeichen |
771 |
Eindeutige Bezeichnung des Gerätes in der Anlage |
772 |
Langkennz. (Long tag) |
773 |
Langkennzeichen: Eindeutige Bezeichnung des Gerätes in der Anlage |
774 |
Beschreibung |
775 |
Beschreibung des Gerätetyps |
776 |
Endmontagenummer |
777 |
Eingabefeld zur freien Verfügung |
778 |
Adresse |
779 |
Geräteadresse in der Applikation |
780 |
Zusatzinformation |
781 |
HART-revision |
782 |
Hauptprotokollrevision implementiert im Gerät |
783 |
Geräte-Revision |
784 |
TXT_EEPROM_STATUS |
785 |
no Error |
786 |
Movementcounter cycle exceed |
787 |
SW1 active |
788 |
Possible Cause : Faulty position sensor
Suggestion Action : Replace position sensor |
789 |
SW2 active |
790 |
Possible Cause : Too high friction
Suggested Action : Valve needs repair |
791 |
Possible Cause : High friction
Suggested Action : Valve maintenance |
792 |
Possible Cause : Pneumatic leakage
Suggested Actions : Run leakage test |
793 |
Hart config not active |
794 |
Possible Cause : Bended mounting bracket
Suggested Action : Check mounting situation |
795 |
Possible Cause : Damaged valve seat
Suggested Action : Valve maintenance |
796 |
Possible Cause : Friction high
Suggested Action : Valve maintenance |
797 |
Safe position active |
798 |
Alarm |
799 |
PV % range |
800 |
Messbereichsende |
801 |
Messbereichsbeginn |
802 |
PV Analog Channel Saturated |
803 |
PV Analog Channel Fixed |
804 |
Wireless |
805 |
WirelessHART Device |
806 |
IEEE 802.15.4 2.4GHz DSSS with O-QPSK Modulation |
807 |
Primary |
808 |
Primary Analog Channel |
809 |
Secondary |
810 |
Secondary Analog Channel |
811 |
Tertiary |
812 |
Tertiary Analog Channel |
813 |
Quaternary |
814 |
Quaternary Analog Channel |
815 |
Quinary |
816 |
Quinary Analog Channel |
817 |
Critical Power Failure |
818 |
Lock all |
819 |
Trim not supported |
820 |
Configuration cannot be changed |
821 |
Locked by gateway |
822 |
Analog Input Channel |
823 |
Analog Output Channel |
824 |
Secondary Analog Channel Saturated |
825 |
Tertiary Analog Channel Saturated |
826 |
Quaternary Analog Channel Saturated |
827 |
Quinary Analog Channel Saturated |
828 |
Secondary Analog Channel Fixed |
829 |
Tertiary Analog Channel Fixed |
830 |
Quaternary Analog Channel Fixed |
831 |
Quinary Analog Channel Fixed |
832 |
The device is in simulation mode and the level output is not representative of the process. |
833 |
Non-Volatile memory failure |
834 |
The Non-Volatile memory check is invalid or maybe corrupt, or the battery of a battery-backed memory has failed. |
835 |
Volatile memory error |
836 |
The RAM memory check is invalid or maybe corrupt |
837 |
Watchdog reset executed |
838 |
A watchdog reset has been performed |
839 |
Voltage conditions out of range |
840 |
A voltage condition is outside its allowable range |
841 |
Environmental conditions out of range |
842 |
An internal or environmental condition is beyond acceptable limits. |
843 |
Electronic failure |
844 |
A hardware problem not related to the sensor has been detected. |
845 |
Subdevice list changed |
846 |
Duplicate master detected |
847 |
Capacity Denied |
848 |
The device was unable to acquire the communication bandwidth required to support the Burst Messaging specified |
849 |
Bandwidth allocation pending |
850 |
Block transfer pending |
851 |
Battery life |
852 |
Percent range |
853 |
Loop current |
854 |
Primary variable |
855 |
Secondary variable |
856 |
Tertiary variable |
857 |
Quaternary variable |
858 |
Read receive time |
859 |
Write date and time |
860 |
Non-Volatile Clock |
861 |
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. |
862 |
Clock Uninitialized |
863 |
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. |
864 |
No restrictions |
865 |
SI Only |
866 |
Restricted to SI Unit codes only |
867 |
Process automation device |
868 |
Discrete device |
869 |
Hybrid:Process automation+discrete |
870 |
I/O System |
871 |
WirelessHART Process automation device |
872 |
WirelessHART Discrete device |
873 |
WirelessHART Process automation+discrete |
874 |
WirelessHART Gateway |
875 |
WirelessHART Access point |
876 |
WirelessHART Process adapter |
877 |
WirelessHART Discrete adapter |
878 |
WirelessHART enabled handheld/portable maintenance tool |
879 |
Device Profile |
880 |
US |
881 |
United States of America |
882 |
JP |
883 |
Japan |
884 |
DE |
885 |
Germany |
886 |
FR |
887 |
France |
888 |
ES |
889 |
Spain |
890 |
RU |
891 |
Russian Federation |
892 |
CN |
893 |
People's Republic of China |
894 |
Secondary Master |
895 |
Primary Master |
896 |
Device Diagnostic Status 0 |
897 |
Device Diagnostic Status 1 |
898 |
I/O and Subdevice Status |
899 |
WirelessHART Status |
900 |
Time Set Option |
901 |
Real Time Clock Flags |
902 |
Country |
903 |
Country of intended device installation |
904 |
SI Unit Control |
905 |
Indicates if device should only display SI unit codes |
906 |
Time Stamp |
907 |
Relative time value on network |
908 |
8u |
909 |
Dynamic Variables Returned for Device Variables |
910 |
Command Response Truncated |
911 |
Configuration Change Counter Mismatch |
912 |
Status bytes mismatch |
913 |
Please wait, upload in progress ... |
914 |
All X-Y values read from device |
915 |
We are about to create a new linearisation curve. Please take care of following points to save a new curve successfully in the device
1) X/Y value pair must be monotonously incremented
2) First value of X/Y pair must be 0/0
3) Last value of X/Y pair must be 100/100
Continue ? |
916 |
Yes;No |
917 |
Select no of points (X/Y pairs) to be entered |
918 |
2;3;4;5;6;7;8;9;10;11;12;13;14;15;16;17;18;19;20;21;22 |
919 |
X0 Value |
920 |
x0 |
921 |
Y0 Value |
922 |
y0 |
923 |
X1 Value |
924 |
x1 |
925 |
Y1 Value |
926 |
y1 |
927 |
X2 Value |
928 |
x2 |
929 |
Y2 Value |
930 |
y2 |
931 |
X3 Value |
932 |
x3 |
933 |
Y3 Value |
934 |
y3 |
935 |
X4 Value |
936 |
x4 |
937 |
Y4 Value |
938 |
y4 |
939 |
X5 Value |
940 |
x5 |
941 |
Y5 Value |
942 |
y5 |
943 |
X6 Value |
944 |
x6 |
945 |
Y6 Value |
946 |
y6 |
947 |
X7 Value |
948 |
x7 |
949 |
Y7 Value |
950 |
y7 |
951 |
X8 Value |
952 |
x8 |
953 |
Y8 Value |
954 |
y8 |
955 |
X9 Value |
956 |
x9 |
957 |
Y9 Value |
958 |
y9 |
959 |
X10 Value |
960 |
x10 |
961 |
Y10 Value |
962 |
y10 |
963 |
X11 Value |
964 |
x11 |
965 |
Y11 Value |
966 |
y11 |
967 |
X12 Value |
968 |
x12 |
969 |
Y12 Value |
970 |
y12 |
971 |
X13 Value |
972 |
x13 |
973 |
Y13 Value |
974 |
y13 |
975 |
X14 Value |
976 |
x14 |
977 |
Y14 Value |
978 |
y14 |
979 |
X15 Value |
980 |
x15 |
981 |
Y15 Value |
982 |
y15 |
983 |
X16 Value |
984 |
x16 |
985 |
Y16 Value |
986 |
y16 |
987 |
X17 Value |
988 |
x17 |
989 |
Y17 Value |
990 |
y17 |
991 |
X18 Value |
992 |
x18 |
993 |
Y18 Value |
994 |
y18 |
995 |
X19 Value |
996 |
x19 |
997 |
Y19 Value |
998 |
y19 |
999 |
X20 Value |
1000 |
x20 |
1001 |
Y20 Value |
1002 |
y20 |
1003 |
X21 Value |
1004 |
x21 |
1005 |
Y21 Value |
1006 |
y21 |
1007 |
Select |
1008 |
Continue;Re-enter no of x/y pairs |
1009 |
Really reset? |
1010 |
You are about to reset 'configuration changed'flag. |
1011 |
Aborting method due to last error. |
1012 |
'Configuration Changed' flag resetted. |
1013 |
Abort autoadjust |
1014 |
Please wait, Device is performing Auto Adjust... |
1015 |
Abort Auto Adjustment... |
1016 |
Set %[L]{PositionProcessing_actuatorType} |
1017 |
Set %[L]{CurrentIn_direction} |
1018 |
Set %[L]{Coordinator_zeroPositionDir} |
1019 |
Set %[L]{TzidcMapper_autoAdjustConfig} |
1020 |
Set %[L]{Coordinator_deadbandCalc} |
1021 |
Set %[L]{Setpoint_characteristics} |
1022 |
Set %[L]{PositionProcessing_boltPosition} |
1023 |
Review easy setup settings:
%[L]{PositionProcessing_actuatorType} -> %{PositionProcessing_actuatorType}
%[L]{CurrentIn_direction} -> %{CurrentIn_direction}
%[L]{Coordinator_zeroPositionDir} -> %{Coordinator_zeroPositionDir}
%[L]{TzidcMapper_autoAdjustConfig} -> %{TzidcMapper_autoAdjustConfig}
%[L]{Coordinator_deadbandCalc} -> %{Coordinator_deadbandCalc}
%[L]{Setpoint_characteristics} -> %{Setpoint_characteristics}
%[L]{PositionProcessing_boltPosition} -> %{PositionProcessing_boltPosition} |
1024 |
Continue;Re-enter |
1025 |
Review easy setup settings:
%[L]{PositionProcessing_actuatorType} -> %{PositionProcessing_actuatorType}
%[L]{CurrentIn_direction} -> %{CurrentIn_direction}
%[L]{Coordinator_zeroPositionDir} -> %{Coordinator_zeroPositionDir}
%[L]{TzidcMapper_autoAdjustConfig} -> %{TzidcMapper_autoAdjustConfig}
%[L]{Coordinator_deadbandCalc} -> %{Coordinator_deadbandCalc}
%[L]{Setpoint_characteristics} -> %{Setpoint_characteristics} |
1026 |
lSelection |
1027 |
Set %[L]{CurrentIn_scaling_0} |
1028 |
Set %[L]{CurrentIn_scaling_1} |
1029 |
Set %[L]{TzidcMapper_rampCloseU8toFlt} |
1030 |
Set %[L]{TzidcMapper_rampOpenU8toFlt} |
1031 |
Review SP Range values :
%[L]{CurrentIn_scaling_0} -> %{CurrentIn_scaling_0}
%[L]{CurrentIn_scaling_1} -> %{CurrentIn_scaling_1}
%[L]{TzidcMapper_rampOpenU8toFlt} -> %{TzidcMapper_rampOpenU8toFlt}
%[L]{TzidcMapper_rampCloseU8toFlt} -> %{TzidcMapper_rampCloseU8toFlt} |
1032 |
Set %[L]{BinaryIO_binaryInputFunction} |
1033 |
Review Digital input DI :
%[L]{BinaryIO_binaryInputFunction} -> %{BinaryIO_binaryInputFunction} Sec |
1034 |
Set %[L]{TzidcMapper_outputRangeU16toFlt_0} |
1035 |
Set %[L]{TzidcMapper_outputRangeU16toFlt_1} |
1036 |
Set %[L]{AnalogOut_outputActing} |
1037 |
Set %[L]{AnalogOut_alarmActivation} |
1038 |
Set %[L]{AnalogOut_clippingRange} |
1039 |
Review Analog feedback signal:
%[L]{TzidcMapper_outputRangeU16toFlt_0} -> %{TzidcMapper_outputRangeU16toFlt_0}
%[L]{TzidcMapper_outputRangeU16toFlt_1} -> %{TzidcMapper_outputRangeU16toFlt_1}
%[L]{AnalogOut_outputActing} -> %{AnalogOut_outputActing}
%[L]{AnalogOut_alarmActivation} -> %{AnalogOut_alarmActivation}
%[L]{AnalogOut_clippingRange} -> %{AnalogOut_clippingRange} |
1040 |
Set %[L]{BinaryIO_switchpoint1} |
1041 |
Set %[L]{BinaryIO_switchpoint2} |
1042 |
Set %[L]{SW1_LogicLevel} |
1043 |
Set %[L]{SW2_LogicLevel} |
1044 |
Set %[L]{SW1_WorkingRange} |
1045 |
Set %[L]{SW2_WorkingRange} |
1046 |
Review Digital limit value:
%[L]{BinaryIO_switchpoint1} -> %{BinaryIO_switchpoint1}
%[L]{BinaryIO_switchpoint2} -> %{BinaryIO_switchpoint2}
%[L]{SW1_LogicLevel} -> %{SW1_LogicLevel}
%[L]{SW2_LogicLevel} -> %{SW2_LogicLevel}
%[L]{SW1_WorkingRange} -> %{SW1_WorkingRange}
%[L]{SW2_WorkingRange} -> %{SW2_WorkingRange} |
1047 |
Set %[L]{AnalogOut_alarmBehavior} |
1048 |
Review Alarm current:
%[L]{AnalogOut_alarmBehavior} -> %{AnalogOut_alarmBehavior} |
1049 |
Set %[L]{AlarmLogicLevel} |
1050 |
Review Binary output:
%[L]{AlarmLogicLevel} -> %{AlarmLogicLevel} |
1051 |
Set %[L]{Setpoint_readbackCharacteristics} |
1052 |
Review Readback characteristic:
%[L]{Setpoint_readbackCharacteristics} -> %{Setpoint_readbackCharacteristics} |
1053 |
Set %[L]{BinaryIO_mapAlarmToOptionDo} |
1054 |
Review Map alarm to DO :
%[L]{BinaryIO_mapAlarmToOptionDo} -> %{BinaryIO_mapAlarmToOptionDo} |
1055 |
up %x{TzidcMapper_pidParKPupU16toFlt_HrtCmd} |
1056 |
Set %[L]{TzidcMapper_pidParKPupU16toFlt} |
1057 |
Set %[L]{TzidcMapper_pidParKPdownU16toFlt} |
1058 |
Set %[L]{TzidcMapper_pidParTVupU16toFlt} |
1059 |
Set %[L]{TzidcMapper_pidParTVdownU16toFlt} |
1060 |
Set %[L]{TzidcMapper_ipOffsetUpU8toFlt} |
1061 |
Set %[L]{TzidcMapper_ipOffsetDnU8toFlt} |
1062 |
Review Control parameter:
%[L]{TzidcMapper_pidParKPupU16toFlt} -> %{TzidcMapper_pidParKPupU16toFlt}
%[L]{TzidcMapper_pidParKPdownU16toFlt} -> %{TzidcMapper_pidParKPdownU16toFlt}
%[L]{TzidcMapper_pidParTVupU16toFlt} -> %{TzidcMapper_pidParTVupU16toFlt}
%[L]{TzidcMapper_pidParTVdownU16toFlt} -> %{TzidcMapper_pidParTVdownU16toFlt}
%[L]{TzidcMapper_ipOffsetUpU8toFlt} -> %{TzidcMapper_ipOffsetUpU8toFlt}
%[L]{TzidcMapper_ipOffsetDnU8toFlt} -> %{TzidcMapper_ipOffsetDnU8toFlt} |
1063 |
Set %[L]{TzidcMapper_pidParToleranceBandU16toFlt} |
1064 |
Set %[L]{TzidcMapper_deadbandU16toFlt} |
1065 |
Set %[L]{Controller_parN} |
1066 |
Review Deadband:
%[L]{TzidcMapper_pidParToleranceBandU16toFlt} -> %{TzidcMapper_pidParToleranceBandU16toFlt}
%[L]{TzidcMapper_deadbandU16toFlt} -> %{TzidcMapper_deadbandU16toFlt}
%[L]{Controller_parN} -> %{Controller_parN} |
1067 |
Set %[L]{Coordinator_targetMode} |
1068 |
Review Operation mode:
%[L]{Coordinator_targetMode} -> %{Coordinator_targetMode} |
1069 |
Set %[L]{IpConverter_compMode} |
1070 |
Review Additional parameter:
%[L]{IpConverter_compMode} -> %{IpConverter_compMode} |
1071 |
Set %[L]{ValveDiagnosis_valveCycleCounterLimit} |
1072 |
Set %[L]{ValveDiagnosis_valveTravelCounterLimit} |
1073 |
Set %[L]{TzidcMapper_valveCycleCounterHysteresisU8toFlt} |
1074 |
Review Maintenance counter:
%[L]{ValveDiagnosis_valveCycleCounterLimit} -> %{ValveDiagnosis_valveCycleCounterLimit}
%[L]{ValveDiagnosis_valveTravelCounterLimit} -> %{ValveDiagnosis_valveTravelCounterLimit}
%[L]{TzidcMapper_valveCycleCounterHysteresisU8toFlt} -> %{TzidcMapper_valveCycleCounterHysteresisU8toFlt} |
1075 |
Set %[L]{Setpoint_deadAngleClose} |
1076 |
Set %[L]{Setpoint_deadAngleOpen} |
1077 |
Set %[L]{TzidcMapper_lowCutOffI16toFlt} |
1078 |
Set %[L]{TzidcMapper_highCutOffI16toFlt} |
1079 |
Review Valve parameter:
%[L]{Setpoint_deadAngleClose} -> %{Setpoint_deadAngleClose}
%[L]{Setpoint_deadAngleOpen} -> %{Setpoint_deadAngleOpen}
%[L]{TzidcMapper_lowCutOffI16toFlt} -> %{TzidcMapper_lowCutOffI16toFlt}
%[L]{TzidcMapper_highCutOffI16toFlt} -> %{TzidcMapper_highCutOffI16toFlt} |
1080 |
Set %[L]{Coordinator_springActionDir} |
1081 |
Review Basic settings:
%[L]{Coordinator_springActionDir} -> %{Coordinator_springActionDir}
%[L]{PositionProcessing_actuatorType} -> %{PositionProcessing_actuatorType} |
1082 |
Set %[L]{TzidcMapper_operatingRangePercentI16toFlt_0} |
1083 |
Set %[L]{TzidcMapper_operatingRangePercentI16toFlt_1} |
1084 |
Review Max. working range:
%[L]{TzidcMapper_operatingRangePercentI16toFlt_0} -> %{TzidcMapper_operatingRangePercentI16toFlt_0}
%[L]{TzidcMapper_operatingRangePercentI16toFlt_1} -> %{TzidcMapper_operatingRangePercentI16toFlt_1} |
1085 |
Set %[L]{TzidcMapper_outputScalingUInt16Flt_0} |
1086 |
Set %[L]{TzidcMapper_outputScalingUInt16Flt_1} |
1087 |
Review Max. working range:
%[L]{TzidcMapper_outputScalingUInt16Flt_0} -> %{TzidcMapper_outputScalingUInt16Flt_0}
%[L]{TzidcMapper_outputScalingUInt16Flt_1} -> %{TzidcMapper_outputScalingUInt16Flt_1} |
1088 |
Reset travel counter ? |
1089 |
Travel counter resetted |
1090 |
Reset movement Counter ? |
1091 |
Movement counter resetted |
1092 |
CAUTION !! - All device parameters are set to the factory settings, User specific settings are lost |
1093 |
Continue;Exit |
1094 |
Factory setting is in progress... |
1095 |
Set %[L]{lock_device_codes} |
1096 |
Perform Squawk Function ? |
1097 |
Squawk;Exit |
1098 |
Squawk Function is in process... |
1099 |
Device Status : Failure |
1100 |
Device Status : Check function |
1101 |
Device Status : Off Specification |
1102 |
Device Status : Maintenance Required |
1103 |
Device Status : OK |
1104 |
Set %[L]{Diagnosis_alarmMask} |
1105 |
Review Diagnosis messages:
%[L]{Diagnosis_alarmMask} -> %{Diagnosis_alarmMask} |
1106 |
Set %[L]{ValveDiagnosis_positioningTimeLimit} |
1107 |
Set %[L]{Controller_dbCloseUpRange} |
1108 |
Review positioning timeout:
%[L]{ValveDiagnosis_positioningTimeLimit} -> %{ValveDiagnosis_positioningTimeLimit}
%[L]{Controller_dbCloseUpRange} -> %{Controller_dbCloseUpRange} |
1109 |
Set %[L]{ValveDiagnosis_leakageLimit} |
1110 |
Review Leakage sensivity:
%[L]{ValveDiagnosis_leakageLimit} -> %{ValveDiagnosis_leakageLimit} |
1111 |
Set %[L]{TzidcMapper_simFunction} |
1112 |
Review Data simulation:
%[L]{TzidcMapper_simFunction} -> %{TzidcMapper_simFunction} |
1113 |
Set %[L]{TzidcMapper_simOutputU16toFlt} |
1114 |
Review Data simulation:
%[L]{TzidcMapper_simOutputU16toFlt} -> %{TzidcMapper_simOutputU16toFlt} |
1115 |
Set %[L]{TzidcMapper_setPointHartI16toFlt} |
1116 |
Review Manual setpoint:
%[L]{TzidcMapper_setPointHartI16toFlt} -> %{TzidcMapper_setPointHartI16toFlt} |