0 |
Online |
1 |
Offline |
2 |
Identify |
3 |
Device |
4 |
Additional Device Revision |
5 |
Measuring Point |
6 |
Additional Info |
7 |
Parameterize |
8 |
Device set-up |
9 |
Concentration Configuration |
10 |
Main Sensor |
11 |
Temp.Sensor |
12 |
Input/Output |
13 |
Analog Output |
14 |
Communication |
15 |
General |
16 |
Diagnosis |
17 |
Overview |
18 |
Electronics |
19 |
Sensor |
20 |
Installation/Startup |
21 |
Process |
22 |
Operating Conditions |
23 |
Simulation |
24 |
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 |
25 |
Diagnosis Simulation |
26 |
Masking |
27 |
When a diagnosis is masked, that diagnosis condition is not generated by the device. |
28 |
Calibration |
29 |
Conductivity/Concentration cal |
30 |
Temperature Cal |
31 |
Edit PV,temp cal |
32 |
Edit PV,tempcal |
33 |
Reset PV,temp cal |
34 |
Analog Output Trim |
35 |
Current Output |
36 |
Extra |
37 |
Operate |
38 |
Observe |
39 |
Charts |
40 |
PV |
41 |
Temperature (SV) |
42 |
Uncomp. Conductivity (TV) |
43 |
Comp. Conductivity (QV) |
44 |
Output Current [mA] |
45 |
Trend |
46 |
Process Values |
47 |
mA |
48 |
Device reset |
49 |
Start Temperature Cal |
50 |
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. |
51 |
Start Cond/Conc. Cal |
52 |
|
53 |
Reset PV,temp Cal |
54 |
Reset the process and temperature sensor calibration data to the values set at the factory |
55 |
Exit from calibration |
56 |
Run TC Recognition |
57 |
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. |
58 |
Reset Configuration Changed Flag |
59 |
Reset the device Configuration Changed flag |
60 |
PV Range Units Warning |
61 |
Warning |
62 |
Diag Simulation warning |
63 |
Device Type |
64 |
ACA592EC |
65 |
Manufacturer |
66 |
ABB |
67 |
Installation Date |
68 |
Descriptor |
69 |
Final Assembly Number |
70 |
Message |
71 |
Poll Addr |
72 |
HART Tag |
73 |
Device Revision |
74 |
HART Revision |
75 |
Device status |
76 |
Device ID |
77 |
0x1A31 |
78 |
Resp. Preamble |
79 |
Burst Mode Status |
80 |
Burst Mode Command # |
81 |
Cmd 1 |
82 |
Cmd 2 |
83 |
Cmd 3 |
84 |
Device Status 0 |
85 |
PV input error |
86 |
Primary process value related sensor board electronics malfunction |
87 |
Temperature input error |
88 |
Temperature related sensor board electronics error |
89 |
Reserved |
90 |
PV out of physical limit |
91 |
The process applied to the sensor for the Primary Variable is beyond the operating limits of the device. |
92 |
Device Status 1 |
93 |
PV out of range limits |
94 |
The analog output for the Primary Variable is beyond its scaling limit and no longer represents the true applied process. |
95 |
Device Status 2 |
96 |
Sensor electronics failure |
97 |
No communication with sensor electronics board or wrong sensor electronics |
98 |
Snsr factory cal data corrupt |
99 |
Sensor factory calibration data corrupt or missing |
100 |
Memory failure |
101 |
Electronic memory corrupted |
102 |
Device Status 3 |
103 |
Non-Volatile memory burn error |
104 |
Writings to the electronic non-Volatile Memory was not successful |
105 |
Loop Test |
106 |
Analog and digital analog outputs for the Primary Variable are held at the requested value. Device is in fixed current (Loop Test) mode. |
107 |
Analog output saturated |
108 |
Analog output for Primary Variable is beyond its scaling limit and not representing the true applied process |
109 |
Device Status 4 |
110 |
Unreliable output current |
111 |
Output unreliable due to D-to-A problems or wrong configuration |
112 |
Power Supply warning |
113 |
The Device Power Supply is close to the lowest or highest acceptable limit |
114 |
Output ReadBack failure |
115 |
The current output circuit could be broken or not correctly calibrated |
116 |
Sensor electronics voltage warning |
117 |
Process values could be affected due to too low or too high sensor electronics voltage |
118 |
Sensor diagnostic signal input error |
119 |
Dirty sensor signal or ground loop diagnostic signal related sensor board electronics malfunction |
120 |
Ground loops present or shorted sensor cable |
121 |
Sensor wiring problems, improper configuration of sensor diagnosis option. |
122 |
Dirty sensor detected |
123 |
Sensor dirty, improper configuration of sensor diagnosis option. |
124 |
Device Status 5 |
125 |
Sensor temperature over range |
126 |
Sensor temperature is above range |
127 |
Sensor temperature under range |
128 |
Sensor temperature is below range |
129 |
Temp Comp in MANUAL mode |
130 |
Ensure temperature sensor is connected and then run TC recognition to exit from manual TC mode |
131 |
Highest priority alarm |
132 |
Highest priority alarm - classification |
133 |
Highest priority alarm - group |
134 |
Device Status History 0 |
135 |
Diag History: PV input error |
136 |
Diag History: Temperature input error |
137 |
Diag History: PV out of physical limit |
138 |
Device Status History 1 |
139 |
Diag History: PV out of range limits |
140 |
Device Status History 2 |
141 |
Diag History: Sensor electronics failure |
142 |
Diag History: Snsr factory cal data corrupt |
143 |
Diag History: Memory failure |
144 |
Device Status History 3 |
145 |
Diag History: Non-Volatile memory burn error |
146 |
Diag History: Loop Test |
147 |
Diag History: Analog output saturated |
148 |
Device Status History 4 |
149 |
Diag History: Unreliable output current |
150 |
Diag History: Power Supply warning |
151 |
Diag History: Output ReadBack failure |
152 |
Diag History: Sensor electronics voltage warning |
153 |
Diag History: Sensor diagnostic signal input error |
154 |
Diag History: Ground loops present or shorted sensor cable |
155 |
Diag History: Dirty sensor detected |
156 |
Device Status History 5 |
157 |
Diag History: Sensor temperature over range |
158 |
Diag History: Sensor temperature under range |
159 |
Diag History: Temp Comp in MANUAL mode |
160 |
PV Range Units |
161 |
mg/l |
162 |
milli-grams/liter (manufacturer specific) |
163 |
|
164 |
none |
165 |
PV Hi Rng Val |
166 |
.1f |
167 |
.3f |
168 |
PV Lo Rng Val |
169 |
Primary Value |
170 |
PV Units |
171 |
Device primary variable (PV) display units |
172 |
Snsr lim Units |
173 |
PV USL |
174 |
.0f |
175 |
PV LSL |
176 |
Minimum Span |
177 |
Damping |
178 |
7d |
179 |
Current Out |
180 |
.2f |
181 |
Alarm Current |
182 |
Linearity |
183 |
Primary % Range |
184 |
Primary Variable |
185 |
Secondary variable temperature |
186 |
Temp.unit |
187 |
Temperature engineering units for all temperature values in the device. |
188 |
SV-Temperature |
189 |
Secondary Variable Temperature |
190 |
Teritary value Uncompensate4d. Conductivity |
191 |
Uncomp. Conductivity(TV) unit |
192 |
Teritiary variable Uncomp. Conductivity engineering units |
193 |
Quaternary variable Comp. Conductivity |
194 |
Comp. Conductivity (QV) unit |
195 |
Quaternary variable Comp. Conductivity engineering units |
196 |
Hardware revision |
197 |
Field device HW revision |
198 |
Software revision |
199 |
Field device Firmware revision |
200 |
Device Serial Number |
201 |
Unique device serial No. |
202 |
Transmitter Busy - Cannot Process Command |
203 |
Analyzer type |
204 |
PV measurement will be Conductivity or Concentration based on selection from Analyzer Type When PV is Concentration, Conductivity value is available as QV (Comp. Conductivity) |
205 |
Conductivity |
206 |
Concentration |
207 |
Sensor Group |
208 |
Sensor Group A or B based on sensor cell constant |
209 |
Group A |
210 |
Group B |
211 |
Sensor diag. |
212 |
Sensor Diagnostics selection determines whether certain sensor diagnostics are enabled or disabled |
213 |
Diagnostics not active |
214 |
Diagnostics are active |
215 |
Conc. Solution |
216 |
Defines the solute algorithm used for Concentration configuration Both predefined and user-defined concentration configurations are available. The available solution types are dependent upon the current Sensor Group. Sensor Group A: 0-15% NaOH, 0-20% NaCl, 0-18% HCl, 0-20% H2SO4, User Defined. Sensor Group B: User Defined. |
217 |
0-15% NaOH |
218 |
Predefined configuration: NaOH |
219 |
0-20% NaCl |
220 |
Predefined configuration: NaCl |
221 |
0-18% HCl |
222 |
Predefined configuration: HCl |
223 |
0-20% H2SO4 |
224 |
Predefined configuration: H2SO4 |
225 |
User Defined |
226 |
User-defined configuration |
227 |
Conc. Curve Name |
228 |
This is a six character text name for the concentration curve. It could be modified in user-defined concentration configuration. |
229 |
Conc. Unit |
230 |
Concentration unit is % for pre-defined solute algorithms. unit can be selected between percent, ppm, µg/l, ppb, mg/l and none for user-defined solute algorithm. |
231 |
HW write protection |
232 |
Hardware write protection |
233 |
Off |
234 |
HW write protection switch is OFF |
235 |
On |
236 |
HW write protection switch is ON |
237 |
SW write protection |
238 |
Software write protection |
239 |
SW write protection is disabled |
240 |
SW write protection is enabled |
241 |
Temp. sensor type |
242 |
Temperature sensor type recognized |
243 |
3K Balco 2-wire |
244 |
2-wire temperature sensor type 3K Balco |
245 |
3K Balco 3-wire |
246 |
3-wire temperature sensor type 3K Balco |
247 |
PT 100 2-wire |
248 |
2-wire temperature sensor type PT 100 |
249 |
PT 100 3-wire |
250 |
3-wire temperature sensor type PT 100 |
251 |
PT 1000 2-wire |
252 |
2-wire temperature sensor type PT 1000 |
253 |
PT 1000 3-wire |
254 |
3-wire temperature sensor type PT 1000 |
255 |
None |
256 |
A temperature sensor is not being used. |
257 |
TC Recognition Status |
258 |
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. |
259 |
Not Recognized |
260 |
Recognized |
261 |
Auto TC Option |
262 |
Determines the algorithm that adjusts for the temperature effect of a solute. |
263 |
Standard KCl |
264 |
TC Coeff |
265 |
NaOH |
266 |
NaCl |
267 |
HCl |
268 |
H2SO4 |
269 |
User Def TC |
270 |
Temp comp is based on percent change of conductivity from an adjustable reference temperature per deg C. The value is adjustable between 0 and 9.99 % per deg-C |
271 |
%/degC |
272 |
Temp.Comp.Type |
273 |
Determines the type of Temperature Compensation algorithm applied to the Primary Value |
274 |
Auto |
275 |
Automatic Temp. Comp. - This state uses the measured temperature value from the temperature sensor in the Nernstian temperature compensation algorithm. |
276 |
Manual |
277 |
Manual Temp. Comp. - This state uses a fixed, manually set temperature value in the Nernstian temperature compensation algorithm. |
278 |
Manual Temp |
279 |
Manual Temperature Compensation Value - is used in Nernstian temp. comp. when the Temp Comp selection is Manual |
280 |
Reference Temp |
281 |
Variable reference temperature - this provides the ability to use any temp as the reference temp used to determine the temp-compensated PV |
282 |
TC Coeff too high |
283 |
TC Coeff too low |
284 |
Reference Temperature too high |
285 |
Reference Temperature too low |
286 |
Temp 1 |
287 |
When the user defined Auto temperature compensation is selected, the values in this curve are used for temperature compensation.The curve points Temp 1 to Temp 6 are the temperature values and the curve points K1/K25 to K6/K25 are the corresponding ratiosof uncompensated conductivity at Temp x to the conductivity at the reference temperature. |
288 |
Temp 2 |
289 |
Temp 3 |
290 |
Temp 4 |
291 |
Temp 5 |
292 |
Temp 6 |
293 |
K1/Kref |
294 |
K2/Kref |
295 |
K3/Kref |
296 |
K4/Kref |
297 |
K5/Kref |
298 |
K6/Kref |
299 |
TC user defined curve value out of limit |
300 |
TC user defined curve values not monotonic |
301 |
X1 Cond |
302 |
Concentration curve with x-axis = Conductivity in µS/cm and y-axis = Concentration in Conc. Unit. |
303 |
X2 Cond |
304 |
X3 Cond |
305 |
X4 Cond |
306 |
X5 Cond |
307 |
X6 Cond |
308 |
Y1 Conc |
309 |
Y2 Conc |
310 |
Y3 Conc |
311 |
Y4 Conc |
312 |
Y5 Conc |
313 |
Y6 Conc |
314 |
User defined concen. curve value out of limit |
315 |
User defined concen. Curve curve values not monotonic |
316 |
User Def Conc.Table |
317 |
User Def TempComp Table |
318 |
PV Slope |
319 |
PV sensor efficiency (slope) value in percent |
320 |
% |
321 |
PV Offset |
322 |
PV sensor offset value. |
323 |
Temp.Slope |
324 |
Temperature sensor Slope |
325 |
Temp Offset |
326 |
Temperature sensor offset value. |
327 |
PV Slope too high |
328 |
PV Slope too low |
329 |
PV Offset too high |
330 |
PV Offset too low |
331 |
Temp Slope too high |
332 |
Temp Slope too low |
333 |
Temp Offset too high |
334 |
Temp Offset too low |
335 |
Cal new value |
336 |
Busy |
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 |
Waiting for standard 1 |
344 |
Calculating 1 |
345 |
Auto Calibration is calculating factors for 1st std buffer solution |
346 |
Waiting for standard 2 |
347 |
Auto Calibration is waiting for 2nd std buffer solution to be applied |
348 |
Calculating 2 |
349 |
Auto Calibration is calculating factors for 2nd std buffer solution |
350 |
Success |
351 |
calibration has completed and successfully calculated new factors |
352 |
Failure |
353 |
calibration has completed but could not calculate new factors |
354 |
Reject |
355 |
calibration is rejecting any new factors |
356 |
Accept |
357 |
calibration is saving any new factors |
358 |
No reject |
359 |
Not active |
360 |
calibration is not active |
361 |
PV Cal Active |
362 |
PV cal Value Received |
363 |
Temp cal active |
364 |
Temp cal val received |
365 |
Cal Progress |
366 |
Cal Error |
367 |
2d |
368 |
Diagnosis Masking byte 0 |
369 |
this diagnosis condition will not generated by the device. |
370 |
Diagnosis Masking byte 1 |
371 |
Diagnosis Masking byte 2 |
372 |
Snsr factry cal data corrupt |
373 |
Diagnosis Masking byte 3 |
374 |
Diagnosis Masking byte 4 |
375 |
Diagnosis Masking byte 5 |
376 |
Diagnosis Simulation On/Off |
377 |
help |
378 |
Diagnosis Simulation Byte0 |
379 |
Simulate this condition |
380 |
Diagnosis Simulation Byte1 |
381 |
Wrong configuration |
382 |
Power Supply Warning |
383 |
Diagnosis Simulation Byte2 |
384 |
Dirty sensor diag signal input error |
385 |
Diagnosis Simulation Byte3 |
386 |
Wrong sensor electronics board |
387 |
Diagnosis Simulation Byte4 |
388 |
Diagnosis Simulation Byte5 |
389 |
Total working time |
390 |
days |
391 |
hrs |
392 |
mins |
393 |
Power On Counter |
394 |
Long tag |
395 |
32 characters |
396 |
FMU860 |
397 |
DT |
398 |
DVC |
399 |
FCX |
400 |
AS800 |
401 |
340T |
402 |
340C |
403 |
344 |
404 |
Siemens Micro K |
405 |
SITRANS L |
406 |
SIPAN PH |
407 |
SITRANS P |
408 |
75SMT |
409 |
UNIDELTA |
410 |
8320 |
411 |
SX5100 |
412 |
TSV175 |
413 |
DMU |
414 |
3780 |
415 |
BM70 |
416 |
8u |
417 |
WARNING: Device will be reset! |
418 |
About to reset the device |
419 |
Device reset in progress
Please wait... |
420 |
Device maybe stuck in reset. |
421 |
Device reset OK |
422 |
PV or Temp cal is currently in progress.
Another cal cannot be started. |
423 |
Current Temp value: %{0} %{4}
Temp Compensation type: %{5} |
424 |
Enter desired value for temperature calibration: (%{4}): |
425 |
Please wait... |
426 |
Temperature cal failed. |
427 |
Temperature cal success.
Temp slope: %{1} percent
Temp offset: %{2} %{4} |
428 |
Press OK when PV is stable
%{0} %{4} |
429 |
Enter desired PV value (%{4}): |
430 |
Calibration failed.
Reason: PV cal offset too high |
431 |
Calibration failed.
Reason: PV cal offset too low |
432 |
Calibration failed.
Reason: PV cal slope too high |
433 |
Calibration failed.
Reason: PV cal slope too low |
434 |
Calibration failed. |
435 |
Calibration successful.
PV slope: %{1} percent
PV offset: %{2} uS/cm |
436 |
PV and Temperature calibration slope and offset and
temperature manual setpoint will be reset to default!
Select Calibration reset option |
437 |
Reset PV and Temperature cal;Exit |
438 |
Exiting from calibration... |
439 |
Perform Temperature Sensor Recognition? |
440 |
Yes;No |
441 |
Temperature sensor %{1}.
Temperature sensor type = %{0} |
442 |
The Configuration Changed Flag will be cleared |
443 |
PV Range Units and PV Range are always written together to the device. Since the PV Range Units have have been modified, ensure that the PV Range value is also modified to match the new units before sending the PV Range Units and PV Range to the device. |