0 |
Online |
1 |
Identify |
2 |
Device |
3 |
Additional Device Revision |
4 |
Measuring Point |
5 |
Additional Info |
6 |
Parameterize |
7 |
Device set-up |
8 |
Sensor Type |
9 |
Temp.Sensor |
10 |
Input/Output |
11 |
Function generator curve |
12 |
Function-gen curve |
13 |
Communication |
14 |
General |
15 |
Operate |
16 |
Observe |
17 |
PV bargraph |
18 |
PV |
19 |
Temperature (SV) bargraph |
20 |
SV |
21 |
Reference Impd.(TV) bargraph |
22 |
TV |
23 |
Sensor Input mV (QV) bargraph |
24 |
QV |
25 |
Output Current [mA] bargraph |
26 |
Loop Current |
27 |
Trend |
28 |
Diagnosis |
29 |
Overview |
30 |
Electronics |
31 |
Sensor |
32 |
Installation/Startup |
33 |
Process |
34 |
Operating Conditions |
35 |
Simulation |
36 |
By enabling diagnosis simulation, any one diagnosis can be simulated at a time.Actual device diagnosis are not reported when diagnosis simulation is turned ON |
37 |
Diagnosis Simulation |
38 |
Masking |
39 |
When a diagnosis is masked, that diagnosis condition is not generated by the device. |
40 |
Calibration |
41 |
PV Manual Cal |
42 |
Auto Buffer Cal |
43 |
Temperature Cal |
44 |
Edit PV,temp cal |
45 |
Reset PV,temp cal |
46 |
PV Cal Trend |
47 |
PV Cal Alarm Limits |
48 |
Analog Output Trim |
49 |
Current Output |
50 |
Extra |
51 |
Values |
52 |
Device reset |
53 |
Temp Cal |
54 |
Temperature calibration. A smart two point temperature calibration can be accomplished by performing temp cal at the lower point first and then at the upper point, the two points separated by at least 20 deg-C. |
55 |
One-point Manual PV Cal |
56 |
One Point process calibration |
57 |
Two-point Manual PV cal lets the user enter the two cal point values and the temperature of the calibration buffer. User manually determines when the process value is stable. |
58 |
Two-point Manual PV Cal |
59 |
Release output hold |
60 |
Auto buffer calibration. Select calibration buffer type (one of the pre-defined or user-defined) and the two calibration points before running this procedure. The procedure performs the calibration steps. The sensor temperature is used for calibration. Device automatically detects pH and temperature stability before performing calibration |
61 |
Reset Cal |
62 |
Reset the process and temperature sensor calibration data to the values set at the factory |
63 |
Exit from calibration |
64 |
Run TC Recognition |
65 |
On demand scan for temperature sensor type could be performed using this procedure. Normally, the device scans for temperature sensor at power up and when TC type is changed from Manual to Auto or Auto Sol. This procedure lets the user run the scan when the temperature sensor has been changed. |
66 |
ABB |
67 |
APA592PH |
68 |
Device Type |
69 |
Installation Date |
70 |
Descriptor |
71 |
Device ID |
72 |
Final Assembly Number |
73 |
Manufacturer |
74 |
Message |
75 |
Poll Address |
76 |
HART Tag |
77 |
Device Revision |
78 |
HART Revision |
79 |
Device status |
80 |
0x1A30 |
81 |
Response Preambles |
82 |
Burst Mode Status |
83 |
Burst Mode Command # |
84 |
Device Status 0 |
85 |
PV input error |
86 |
Primary process value related sensor board electronics malfunction |
87 |
Sensor temperature input error |
88 |
Temperature related sensor board electronics error |
89 |
Ref impedance input error |
90 |
Sensor reference diag signal related sensor board electronics malfunction |
91 |
Reserved |
92 |
|
93 |
PV out of physical limit |
94 |
The process applied to the sensor for the Primary Variable is beyond the operating limits of the device. |
95 |
Device Status 1 |
96 |
PV out of range limits |
97 |
The analog output for the Primary Variable is beyond its scaling limit and no longer represents the true applied process. |
98 |
High reference electr. impd. |
99 |
Reference electrode impedance is higher than the user set limit |
100 |
Device Status 2 |
101 |
Sensor electronics failure |
102 |
No communication with sensor electronics board or wrong sensor electronics. |
103 |
Snsr factry cal data corrupt |
104 |
Sensor factory calibration data corrupt or missing |
105 |
Memory failure |
106 |
Electronic memory corrupted |
107 |
Device Status 3 |
108 |
Non-Volatile memory burn error |
109 |
Writings to the electronic non-Volatile Memory was not successful |
110 |
Loop Test |
111 |
Analog and digital analog outputs for the Primary Variable are held at the requested value. Device is in fixed current (Loop Test) mode. |
112 |
Analog output saturated |
113 |
Analog output for Primary Variable is beyond its scaling limit and not representing the true applied process |
114 |
Device Status 4 |
115 |
Unreliable output current |
116 |
Output unreliable due to D-to-A problems or wrong configuration |
117 |
Power Supply warning |
118 |
The Device Power Supply is close to the lowest or highest acceptable limit |
119 |
Output ReadBack failure |
120 |
The current output circuit could be broken or not correctly calibrated |
121 |
Sensor electronics voltage warning |
122 |
Process values could be affected due to too low or too high sensor electronics voltage |
123 |
Sensor diagnostic signal input error |
124 |
Sensor cable or glass diag signal related sensor board electronics malfunction |
125 |
Ground loops present or shorted sensor cable |
126 |
Sensor wiring problems, improper configuration of sensor diagnosis option. |
127 |
Low pH measuring electrode impedance |
128 |
Improper sensor wiring, dirty terminal block, improper configuration or broken electrode glass |
129 |
Device Status 5 |
130 |
Open sensor cable or sensor out of solution |
131 |
Sensor temperature over range |
132 |
Sensor temperature is above range |
133 |
Sensor temperature under range |
134 |
Sensor temperature is below range |
135 |
High sensor efficiency (slope) |
136 |
Problem with the sensor, improper calibration, incorrect configuration of user defined high sensor efficiency limit |
137 |
Low sensor efficiency (slope) |
138 |
Problem with the sensor, improper calibration, incorrect configuration of user defined low sensor efficiency limit |
139 |
Large positive sensor offset |
140 |
Problem with the sensor, improper calibration, incorrect configuration of user defined positive/negative sensor offset limit. |
141 |
Large negative sensor offset |
142 |
Temp Comp in MANUAL mode |
143 |
Ensure temperature sensor is connected and then run TC recognition to exit from manual TC mode |
144 |
Device Status Histiry 0 |
145 |
Diag History: PV input error |
146 |
Diag History: Sensor temperature input error |
147 |
Diag History: Ref impedance input error |
148 |
Diag History: PV out of physical limit |
149 |
Device Status History 1 |
150 |
Diag History: PV out of range limits |
151 |
Diag History: High reference electr. impd. |
152 |
Device Status History 2 |
153 |
Diag History: Sensor electronics failure |
154 |
Diag History: Snsr factry cal data corrupt |
155 |
Diag History: Memory failure |
156 |
Device Status History 3 |
157 |
Diag History: Non-Volatile memory burn error |
158 |
Diag History: Loop Test |
159 |
Diag History: Analog output saturated |
160 |
Device Status History 4 |
161 |
Diag History: Unreliable output current |
162 |
Diag History: Power Supply warning |
163 |
Diag History: Output ReadBack failure |
164 |
Diag History: Sensor electronics voltage warning |
165 |
Diag History: Sensor diagnostic signal input error |
166 |
Diag History: Ground loops present or shorted sensor cable |
167 |
Diag History: Low pH measuring electrode impedance |
168 |
Device Status History 5 |
169 |
Diag History: Open sensor cable or sensor out of solution |
170 |
Diag History: Sensor temperature over range |
171 |
Diag History: Sensor temperature under range |
172 |
Diag History: High sensor efficiency (slope) |
173 |
Diag History: Low sensor efficiency (slope) |
174 |
Diag History: Large positive sensor offset |
175 |
Diag History: Large negative sensor offset |
176 |
Invalid span |
177 |
Highest priority alarm |
178 |
Highest priority alarm - classification |
179 |
Highest priority alarm - group |
180 |
Function Generator |
181 |
Change Function-gen Curve |
182 |
Temperature (SV) |
183 |
Reference Impedance (TV) |
184 |
Sensor Input (QV) |
185 |
.2f |
186 |
8.2f |
187 |
mg/l |
188 |
milli-grams/liter (manufacturer specific) |
189 |
PV URV |
190 |
PV LSL |
191 |
Minimum Span |
192 |
Damping |
193 |
.1f |
194 |
8.1f |
195 |
7d |
196 |
Output Current |
197 |
Linearity determines the transfer function applied from the process variable to the analog output and its digital representation. Linearity could be set to Linear or Function-generator. |
198 |
Linearity |
199 |
Function-generator |
200 |
User Defined function-generator) |
201 |
Primary Variable pH, ORP, pION or Ion Concentration |
202 |
Secondary variable temperature |
203 |
Temp. (SV) unit |
204 |
Secondary variable temperature engineering units |
205 |
SV-Temperature |
206 |
Secondary Variable Temperature |
207 |
Tertiary variable sensor reference impedance value. |
208 |
Ref.Impd.(TV) unit |
209 |
Tertiary variable reference impedance engineering units |
210 |
kOhm |
211 |
Quaternary variable sensor input |
212 |
Sensor Input (QV) unit |
213 |
Quaternary variable sensor input engineering units |
214 |
Transmitter Busy - Cannot Process Command |
215 |
Analyzer type |
216 |
Primary Value type selection |
217 |
pH |
218 |
|
219 |
ORP |
220 |
pION |
221 |
Ion Concen |
222 |
pH sensor type |
223 |
Type of pH sensor. Valid for primary value type = pH |
224 |
Glass |
225 |
Select pH sensor type: GLASS when associated sensor uses standard glass measuring electrode. |
226 |
Antimony |
227 |
Select pH sensor type: ANTIMONY when associated sensor uses Antimony measuring electrode. |
228 |
Custom |
229 |
Select pH sensor type: CUSTOM when associated sensor uses measuring electrode having a unique Isopotential point and Asymmetric potential. |
230 |
Ref. Impedance Limit |
231 |
The Reference Electrode Impedance that triggers a diagnostic condition. |
232 |
K ohm |
233 |
Isopotential point |
234 |
The Isopotential Point is the potential of the sensor that is not affected by sample fluid temperature changes.
When the PH_SENSOR_TYPE is Glass or Antimony, the Isopotential Point is READ_ONLY.
Isopotential Point can be modified only for a Custom pH Sensor Type. Valid for primary value type = pH |
235 |
Asymmetric Poten. |
236 |
The Asymmetric Potential value is the electrical potential across the measuring and reference half-cell of the sensor at the isopotential point.
When PH_SENSOR_TYPE is Glass or Antimony, Asymmetric Potential is READ_ONLY.
Asymmetric Potential can be modified only for Custom pH sensor type. Valid for primary value type = pH |
237 |
mV |
238 |
Sensor diag. |
239 |
Sensor Diagnostics selection determines whether certain sensor diagnostics are enabled or disabled |
240 |
Diagnostics not active |
241 |
Diagnostics are active |
242 |
Valence |
243 |
Ion valence ranging from -3 to +3. The valence determines the millivolt change per decade of concentration. Valid for primary value type = Ion Concentration |
244 |
-3 |
245 |
-2 |
246 |
-1 |
247 |
1 |
248 |
2 |
249 |
3 |
250 |
Magnitudes |
251 |
The number of magnitudes that defines the transmitter output. Valid for primary value type = Ion Concentration |
252 |
End Magnitude |
253 |
End point magnitude that can be set to 10, 100 or 1000. Valid for primary value type = Ion Concentration |
254 |
10 |
255 |
100 |
256 |
1000 |
257 |
End mV |
258 |
End millivolt value associated with the end magnitude value. Valid for primary value type = Ion Concentration |
259 |
Isopotential pH value too high |
260 |
Isopotential pH value too low |
261 |
Aysmmetric potential value too high |
262 |
Aysmmetric potential value too low |
263 |
Isopotential pH and Aysmmetric potential value out of limit |
264 |
Ion Concentration data item Valence, Magnitude, End Magnitude or End mV value out of limit |
265 |
Temp sensor type |
266 |
Temperature sensor type |
267 |
3K Balco 2-wire |
268 |
2-wire temperature sensor type 3K Balco |
269 |
3K Balco 3-wire |
270 |
3-wire temperature sensor type 3K Balco |
271 |
PT 100 2-wire |
272 |
2-wire temperature sensor type PT 100 |
273 |
PT 100 3-wire |
274 |
3-wire temperature sensor type PT 100 |
275 |
PT 1000 2-wire |
276 |
2-wire temperature sensor type PT 1000 |
277 |
PT 1000 3-wire |
278 |
3-wire temperature sensor type PT 1000 |
279 |
None |
280 |
A temperature sensor is not being used. |
281 |
TC Recognition Status |
282 |
Temp sensor recognition status. Device scans for TC at power up, when TC type is switched from MANUAL to AUTOMATIC, and when TC recognition is run through the appropriate menu. |
283 |
Not Recognized |
284 |
Recognized |
285 |
Temp compensation |
286 |
Determines the type of Temperature Compensation algorithm applied to the Primary Value |
287 |
Automatic |
288 |
Automatic Temp. Comp. - This state uses the measured temperature value from the temperature sensor in the Nernstian temperature compensation algorithm. When TC is switched from Manual to Auto, the device scans for a valid temp. sensor and switches back to Manual when no temp. sensor is found. |
289 |
Auto Solution |
290 |
Automatic Solution Temp. Comp. This state uses the measured temperature value from the temperature sensor in the Nernstian and solution coefficient temperature compensation algorithm. When TC is switched from Manual to Auto Sol, the device scans for a valid temp. sensor and switches back to Manual when no temp. sensor is found. |
291 |
Manual |
292 |
Manual Temp. Comp. - This state uses a fixed, manually set temperature value in the Nernstian temperature compensation algorithm. TC type is set to Manual when a temperature sensor is not detected by the device. |
293 |
Manual Temp Setpoint. |
294 |
Manual Temperature Compensation Value - is used in Nernstian temp. comp. when the Temp Comp selection is Manual |
295 |
pH solution coeff |
296 |
The solution coefficient is in terms of pH units per 10 deg-C for the pH analyzer state and has a range of +/- 10 pH units per 10 deg-C. The solution coeff is used only when Auto-Solution temp comp is selected. |
297 |
pH/10 degC |
298 |
mV solution coeff |
299 |
The solution coefficient is in terms of millivolts per 10 deg-C for the ORP, pION and ion-conc states and has a range of +/-20 mV per 10 deg-C. The solution coeff is used only when Auto-Solution temp comp is selected. |
300 |
mV/10 deg C |
301 |
pH Solution Coefficient too high |
302 |
pH Solution Coefficient too low |
303 |
mV Solution Coefficient too high |
304 |
mV Solution Coefficient too low |
305 |
Enter all the transfer function points and then send the curve to the device |
306 |
Information indicating not to transmit individual curve points one at a time to the device |
307 |
Function-gen x1 |
308 |
Function-generator curve x1 value (input value point 1 entered as a percentage of Primary value range). Valid only when Linearity is Function generator |
309 |
% |
310 |
Function-gen x2 |
311 |
Function-generator curve x2 value (input value point 2 entered as a percentage of Primary value range). Valid only when Linearity is Function generator |
312 |
Function-gen x3 |
313 |
Function-generator curve x3 value (input value point 3 entered as a percentage of Primary value range). Valid only when Linearity is Function generator |
314 |
Function-gen x4 |
315 |
Function-generator curve x4 value (input value point 4 entered as a percentage of Primary value range). Valid only when Linearity is Function generator |
316 |
Function-gen x5 |
317 |
Function-generator curve x5 value (input value point 5 entered as a percentage of Primary value range). Valid only when Linearity is Function generator |
318 |
Function-gen y1 |
319 |
Function-generator curve y1 value (Analog output value point 1 entered as a percentage of Analog Output). Valid only when Linearity is Function generator |
320 |
Function-gen y2 |
321 |
Function-generator curve y2 value (Analog output value point 2 entered as a percentage of Analog Output). Valid only when Linearity is Function generator |
322 |
Function-gen y3 |
323 |
Function-generator curve y3 value (Analog output value point 3 entered as a percentage of Analog Output). Valid only when Linearity is Function generator |
324 |
Function-gen y4 |
325 |
Function-generator curve y4 value (Analog output value point 4 entered as a percentage of Analog Output). Valid only when Linearity is Function generator |
326 |
Function-gen y5 |
327 |
Function-generator curve y5 value (Analog output value point 5 entered as a percentage of Analog Output). Valid only when Linearity is Function generator |
328 |
Function-generator curve value out of limit |
329 |
Function-generator curve values not monotonic |
330 |
PV efficiency (slope) |
331 |
PV sensor efficiency (slope) value in percent |
332 |
PV offset |
333 |
PV sensor offset value. |
334 |
Temp snsr Slope |
335 |
Temperature sensor Slope |
336 |
Temp snsr offset |
337 |
Cal Status |
338 |
Not Active |
339 |
calibration is inactive |
340 |
Waiting for stabilityManual Calibration is waiting to be told that i/p signal is stable |
341 |
Waiting for new value |
342 |
Manual Calibration is waiting for a new process value |
343 |
Immerse in buffer 1 |
344 |
Auto Calibration is waiting for 1st std buffer solution to be applied |
345 |
Waiting buf1 |
346 |
Auto Calibration is caulculating factors for 1st std buffer solution |
347 |
Immerse in buffer 2 |
348 |
Auto Calibration is waiting for 2nd std buffer solution to be applied |
349 |
Waiting buf2 |
350 |
Auto Calibration is caulculating factors for 2nd std buffer solution |
351 |
Success |
352 |
calibration has completed and successfully calculated new factors |
353 |
Failure |
354 |
calibration has completed but could not calculate new factors |
355 |
Reject |
356 |
calibration is rejecting any new factors |
357 |
Accept |
358 |
calibration is saving any new factors |
359 |
Cal Mode |
360 |
Not active |
361 |
calibration is not active |
362 |
1 point cal active |
363 |
PV 1 point calibration is active |
364 |
1 point val received |
365 |
2 point cal is active |
366 |
Auto buffer cal is active |
367 |
Temp cal active |
368 |
temp cal val received |
369 |
Cal new value |
370 |
PV cal slope hi alarm lim |
371 |
4.1f |
372 |
PV cal slope lo alarm lim |
373 |
PV cal offset alarm lim (+/-) |
374 |
.0f |
375 |
5.0f |
376 |
PV Efficiency (Slope) too high |
377 |
PV Efficiency (Slope) too low |
378 |
PV Offset too high |
379 |
PV Offset too low |
380 |
Temp Slope too high |
381 |
Temp Slope too low |
382 |
Temp Offset too high |
383 |
Temp Offset too low |
384 |
PV slope high alarm limit out of range |
385 |
PV slope low alarm limit out of range |
386 |
PV offset alarm limit out of range |
387 |
Busy |
388 |
Cal Buffer Type |
389 |
Buffer type used for Auto buffer calibration |
390 |
User Defined |
391 |
User defined buffer table |
392 |
ABB Buffers |
393 |
NIST |
394 |
NIST Buffers |
395 |
DIN 19266 |
396 |
DIN 19266 Buffers |
397 |
Merck |
398 |
Merck Buffers |
399 |
US Tech |
400 |
US Technical Buffers |
401 |
Cal buffer type changed |
402 |
Cal buffer warning |
403 |
Buffer 1 Value |
404 |
Buffer value 1 for Auto buffer calibration. Not valid for user-defined buffer. |
405 |
ABB 4.00 pH |
406 |
ABB 7.00 pH |
407 |
ABB 9.00 pH |
408 |
NIST 4.00 pH |
409 |
NIST 6.86 pH |
410 |
NIST 9.00 pH |
411 |
DIN 1.68 pH |
412 |
DIN 4.00 pH |
413 |
DIN 6.86 pH |
414 |
DIN 9.18 pH |
415 |
MERCK 4.00 pH |
416 |
MERCK 7.00 pH |
417 |
MERCK 9.00 pH |
418 |
MERCK 10.00 pH |
419 |
US Tech 4.00 pH |
420 |
US Tech 7.00 pH |
421 |
US Tech 10.00 pH |
422 |
Buffer 2 Value |
423 |
Buffer value 2 for Auto buffer calibration. Not valid for user-defined buffer. |
424 |
Cal Progress |
425 |
Cal Error |
426 |
2d |
427 |
User Def Buffer Table 1 |
428 |
Buf 1 Temp. 1 |
429 |
User Buf 1 Temperature point 1 |
430 |
Buf 1 Temp. 2 |
431 |
User Buf 1 Temperature point 2 |
432 |
Buf 1 Temp. 3 |
433 |
User Buf 1 Temperature point 3 |
434 |
Buf 1 Temp. 4 |
435 |
User Buf 1 Temperature point 4 |
436 |
Buf 1 Temp. 5 |
437 |
User Buf 1 Temperature point 5 |
438 |
Buf 1 pH 1 |
439 |
User Buf Table 1 pH point 1 |
440 |
Buf 1 pH 2 |
441 |
User Buf Table 1 pH point 2 |
442 |
Buf 1 pH 3 |
443 |
User Buf Table 1 pH point 3 |
444 |
Buf 1 pH 4 |
445 |
User Buf Table 1 pH point 4 |
446 |
Buf 1 pH 5 |
447 |
User Buf Table 1 pH point 5 |
448 |
User defined buffer table value out of limit |
449 |
User defined buffer table values not monotonic |
450 |
User Def Buffer Table 2 |
451 |
Buf 2 Temp. 1 |
452 |
User Buf 2 Temperature point 1 |
453 |
Buf 2 Temp. 2 |
454 |
User Buf 2 Temperature point 2 |
455 |
Buf 2 Temp. 3 |
456 |
User Buf 2 Temperature point 3 |
457 |
Buf 2 Temp. 4 |
458 |
User Buf 2 Temperature point 4 |
459 |
Buf 2 Temp. 5 |
460 |
User Buf 2 Temperature point 5 |
461 |
Buf 2 pH 1 |
462 |
User Buf Table 2 pH point 1 |
463 |
Buf 2 pH 2 |
464 |
User Buf Table 2 pH point 2 |
465 |
Buf 2 pH 3 |
466 |
User Buf Table 2 pH point 3 |
467 |
Buf 2 pH 4 |
468 |
User Buf Table 2 pH point 4 |
469 |
Buf 2 pH 5 |
470 |
User Buf Table 2 pH point 5 |
471 |
Diagnosis Masking byte0 |
472 |
Diagnosis Masking byte1 |
473 |
Diagnosis Masking byte2 |
474 |
Diagnosis Masking byte3 |
475 |
Diagnosis Masking byte4 |
476 |
Low pH measuring electrode impedance |
477 |
Diagnosis Masking byte5 |
478 |
Diagnosis Simulation On/Off |
479 |
help |
480 |
Diagnosis Simulation Byte0 |
481 |
Diagnosis Simulation Byte1 |
482 |
Power Supply Warning |
483 |
Diagnosis Simulation Byte2 |
484 |
Temperature input error |
485 |
Sensor diag signal input error |
486 |
Diagnosis Simulation Byte3 |
487 |
Diagnosis Simulation Byte4 |
488 |
Temp comp in MANUAL mode |
489 |
Buf 1 |
490 |
Buf 1 value for manual 2 pt cal. |
491 |
Buf 2 |
492 |
Buf 2 value for manual 2 pt cal. |
493 |
Buf Temp |
494 |
Buf temperature value for manual 2 pt cal. |
495 |
Total working time |
496 |
days |
497 |
hrs |
498 |
mins |
499 |
Slope 1 |
500 |
% (oldest) |
501 |
Offset 1 |
502 |
mV (oldest) |
503 |
Cal time 1 |
504 |
Slope 2 |
505 |
Offset 2 |
506 |
Cal time 2 |
507 |
Slope 3 |
508 |
Offset 3 |
509 |
Cal time 3 |
510 |
Slope 4 |
511 |
Offset 4 |
512 |
Cal time 4 |
513 |
Slope 5 |
514 |
% (newest) |
515 |
Offset 5 |
516 |
mV (newest) |
517 |
Cal time 5 |
518 |
Long tag |
519 |
Hardware revision |
520 |
Software revision |
521 |
Device Serial No. |
522 |
HW write protection |
523 |
Hardware write protection |
524 |
Off |
525 |
HW write protection switch is OFF |
526 |
On |
527 |
HW write protection switch is ON |
528 |
SW write protection |
529 |
Software write protection |
530 |
SW write protection is disabled |
531 |
SW write protection is enabled |
532 |
FMU860 |
533 |
DT |
534 |
DVC |
535 |
FCX |
536 |
AS800 |
537 |
340T |
538 |
340C |
539 |
344 |
540 |
Siemens Micro K |
541 |
SITRANS L |
542 |
SIPAN PH |
543 |
SITRANS P |
544 |
75SMT |
545 |
UNIDELTA |
546 |
8320 |
547 |
SX5100 |
548 |
TSV175 |
549 |
DMU |
550 |
3780 |
551 |
BM70 |
552 |
8u |
553 |
WARNING: Device will be reset! |
554 |
About to reset the device |
555 |
Device reset in progress
Please wait... |
556 |
Device maybe stuck in reset. |
557 |
Device reset OK |
558 |
PV or Temp cal is currently in progress.
Another cal cannot be started. |
559 |
Current Temp value: %{0} %{4}
Temp Compensation type: %{5} |
560 |
Enter desired value for temperature calibration: (%{4}): |
561 |
Please wait... |
562 |
Temperature cal failed. |
563 |
Temperature cal success.
Temp slope: %{1} percent
Temp offset: %{2} %{4} |
564 |
Press OK when PV is stable
%0 %{4} |
565 |
Enter desired PV value for 1 point calibration (%{4}): |
566 |
One-point PV calibration failed.
Reason: PV cal offset too high |
567 |
One-point PV calibration failed.
Reason: PV cal offset too low |
568 |
One-point PV calibration failed. |
569 |
One-point PV calibration successful.
PV slope: %{1} percent
PV offset: %{2} mV |
570 |
Hold analog output current constant during the procedure? |
571 |
Fixing Analog Output... |
572 |
Write protect error while fixing output. |
573 |
Information: Device loop current is disabled or the device is in Multidrop mode. |
574 |
Enter buffer temperature for 2 point calibration in %{5} |
575 |
Enter buffer 1 value for 2 point calibration in %{4} |
576 |
Immerse sensor in buffer 1 and press OK when PV is stable
%{3} %{4} |
577 |
Enter buffer 2 value for 2 point calibration in %{4} |
578 |
Immerse sensor in buffer 2 and press OK when PV is stable
%{3} %{4} |
579 |
Two-point Manual PV cal failed.
Reason: PV cal offset too high |
580 |
Two-point Manual PV cal failed.
Reason: PV cal offset too low |
581 |
Two-point Manual PV cal failed.
Reason: PV cal slope too high |
582 |
Two-point Manual PV cal failed.
Reason: PV cal slope too low |
583 |
Two-point Manual PV cal failed. |
584 |
Two-point Manual PV calibration successful.
PV slope: %{6} percent
PV offset: %{7} mV |
585 |
Release Analog Output hold? |
586 |
Starting two-point Auto Buffer Calibration.
Buffer 1 = User Defined buffer 1
Buffer 2 = User Defined buffer 2
|
587 |
Starting two-point Auto Buffer Calibration.
Buffer 1 = %{1} %{0} Buffer
Buffer 2 = %{2} %{0} Buffer
|
588 |
Calibration Buffer 1: %{8} %{0} Buffer
Immerse sensor in buffer 1.
Press continue to proceed.
|
589 |
Continue;Abort |
590 |
Calibration Buffer 1: %{8} %{0} Buffer
PV: %{3} %{4}
Buf Temp: %{5} %{6}
Please Wait...
Process value settling and sampling progress: %{7} percent |
591 |
Two-point Auto Buffer calibration failed.
Reason: PV or temperature not stable |
592 |
Two-point Auto Buffer calibration failed. |
593 |
Calibration Buffer 2: %{8} %{0} Buffer
Immerse sensor in buffer 2.
Press continue to proceed.
|
594 |
Calibration Buffer 2: %{8} %{0} Buffer
PV: %{3} %{4}
Buf Temp: %{5} %{6}
Please Wait...
Process value settling and sampling progress: %{7} percent |
595 |
Two-point Auto Buffer calibration failed.
Reason: PV cal offset too high |
596 |
Two-point Auto Buffer calibration failed.
Reason: PV cal offset too low |
597 |
Two-point Auto Buffer calibration failed.
Reason: PV cal slope too high |
598 |
Two-point Auto Buffer calibration failed.
Reason: PV cal slope too low |
599 |
Two-point Auto Buffer calibration successful.
PV slope: %{9} percent
PV offset: %{10} mV |
600 |
PV and Temperature calibration slope and offset and
temperature manual setpoint will be reset to default!
Select Calibration reset option |
601 |
Reset PV and Temperature cal;Exit |
602 |
Exiting from calibration... |
603 |
Perform Temperature Sensor Recognition? |
604 |
Yes;No |
605 |
Temperature sensor %{1}.
Temperature sensor type = %{0} |
606 |
Calibration buffer type has been changed!
Send this parameter to the device and then
select the required buffer values 1 and 2. |