0 |
TB82PH-Combined |
1 |
ABB |
2 |
Rerange-Apply values |
3 |
EC1 PV.AD |
4 |
Process Variable A/D over or under range |
5 |
EC4 TC.PCB |
6 |
Incorrect Input board |
7 |
EC5 DO.PCB |
8 |
Incorrect input board |
9 |
EC6 TE.PCB |
10 |
Incorrect input board |
11 |
EC7 EC.PCB |
12 |
Incorrect Input board |
13 |
PC1 LO.GLS.Z |
14 |
Low pH measuring electrode impedance |
15 |
PC2 HI.REF.Z |
16 |
High reference electrode impedance |
17 |
Undefined |
18 |
PC4 GND LP |
19 |
Ground loops present or shorted sensor cable |
20 |
PC5 OPEN |
21 |
Open sensor cable or sensor out of solution |
22 |
PC6 HI.LOOP |
23 |
Current loop above upper range |
24 |
PC7 LO.LOOP |
25 |
Current loop below lower range value |
26 |
PC8 HI.PV |
27 |
PV above transmitter range |
28 |
PC9 LO.PV |
29 |
PV below transmitter range |
30 |
PC10 HI.TEMP |
31 |
Temperature above transmitter range |
32 |
PC11 LO.TEMP |
33 |
Temperature below transmitter range |
34 |
PC12 TEMP.AD |
35 |
Open, missing or shorted Temperature Sensor |
36 |
PC14 +HI.OFF |
37 |
Large positive sensor offset (>180 mV) |
38 |
PC15 -HI.OFF |
39 |
Large negative sensor offset (<-180 mV) |
40 |
PC16 HI.EFF |
41 |
High sensor efficiency (>110%) |
42 |
PC17 LO.EFF |
43 |
Low sensor efficiency (<60%) |
44 |
PC2O BAD.SEE |
45 |
Bad SEEPROM or bad input PCB assembly |
46 |
PC21 NO.F.CAL |
47 |
Missing factory calibration or nonfunctional SEEPROM |
48 |
PC22 BLNK.EE |
49 |
Blank microprocessor EEPROM |
50 |
PC23 SEE.EMI |
51 |
Unverifiable SEEPROM bus read operation |
52 |
PC30 PV.F.CAL |
53 |
Out of range or missing factory calibration for PV |
54 |
PC31 BA.F.CAL |
55 |
Out of range or missing factory calibration for 3-k ohm Balco temp. sensor |
56 |
PC32 PT.F.CAL |
57 |
Out of range or missing factory calibration for PT100 temp. sensor |
58 |
PC33 RZ.F.CAL |
59 |
Out of range or missing factory calibeation for reference impedance measurement |
60 |
PC34 PV.CHKS |
61 |
Incorrect or missing PV checksum |
62 |
PC35 BA.CHKS |
63 |
Incorrect or missing 3-k ohm Balco temp. sensor checksum |
64 |
PC36 PT.CHKS |
65 |
Incorrect or missing PT100 temp. sensor checksum |
66 |
PC37 RZ.CHKS |
67 |
Incorrect or missing reference impedance measurement checksum |
68 |
PC40 HI.R.CKT |
69 |
Reference impedance circuit failure-high range error |
70 |
PC41 LO.R.CKT |
71 |
Reference impedance circuit failure-low range error |
72 |
PC42 RZ.AD |
73 |
Reference impedance above or below transmitter A/D range |
74 |
PC44 HI.G.CKT |
75 |
pH measuring electrode impedance circuit failure-high range error |
76 |
PC45 LO.G.CKT |
77 |
pH measuring electrode impedance circuit failure-low range error |
78 |
PC46 GL.AD |
79 |
pH measuring electrode impedance above or below transmitter A/D range |
80 |
PC48 HI.C.CKT |
81 |
Cable diagnostic circuit failure-high range error |
82 |
PC49 LO.C.CKT |
83 |
Cable diagnostic circuit failure-low range error |
84 |
PC50 CA.AD |
85 |
Cable diagnostic signal above or below transmitter A/D range |
86 |
In calib. mode |
87 |
Device is in PV calibration mode |
88 |
Invalid span |
89 |
Main Menu |
90 |
Temp (SV) |
91 |
Ref Impednc (TV) |
92 |
Snsr Input (QV) |
93 |
.2f |
94 |
8.2f |
95 |
PV |
96 |
|
97 |
USL |
98 |
LSL |
99 |
Minimum Span |
100 |
Damping |
101 |
.1f |
102 |
8.1f |
103 |
7d |
104 |
User Defined non-linear transfer function |
105 |
Primary Variable pH, ORP, pION or Ion Concentration |
106 |
Secondary variable temperature |
107 |
Temp (SV) unit |
108 |
Secondary variable temperature engineering units |
109 |
SV-Temperature |
110 |
Secondary Variable Temperature |
111 |
Tertiary variable sensor reference impedance value. |
112 |
Ref.Impd.(TV) unit |
113 |
Tertiary variable reference impedance engineering units |
114 |
kOhm |
115 |
Quaternary variable sensor input |
116 |
Snsr Input (QV) unit |
117 |
Quaternary variable sensor input engineering units |
118 |
Rerange-Enter values |
119 |
PV type |
120 |
Primary Value type selection |
121 |
pH |
122 |
|
123 |
ORP |
124 |
pION |
125 |
Ion Concen |
126 |
pH sensor type |
127 |
Type of pH sensor. Valid for primary value type = pH |
128 |
Glass |
129 |
Select pH sensor type: GLASS when associated sensor uses standard glass measuring electrode. |
130 |
Antimony |
131 |
Select pH sensor type: ANTIMONY when associated sensor uses Antimony measuring electrode. |
132 |
Custom |
133 |
Select pH sensor type: CUSTOM when associated sensor uses measuring electrode having a unique Isopotential point and Asymmetric potential. |
134 |
Ref. Impedance Limit |
135 |
The Reference Electrode Impedance that triggers a diagnostic condition. |
136 |
K ohm |
137 |
Isopoten. pH value |
138 |
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 |
139 |
Asymmetric Poten. |
140 |
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 |
141 |
mV |
142 |
Snsr diagnostics |
143 |
Sensor Diagnostics selection determines whether certain sensor diagnostics are enabled or disabled |
144 |
Diagnostics not active |
145 |
Diagnostics are active |
146 |
Valence |
147 |
Ion valence ranging from -3 to +3. The valence determines the millivolt change per decade of concentration. Valid for primary value type = Ion Concentration |
148 |
Magnitudes |
149 |
The number of magnitudes that defines the transmitter output. Valid for primary value type = Ion Concentration |
150 |
End Magnitude |
151 |
End point magnitude that can be set to 10, 100 or 1000. Valid for primary value type = Ion Concentration |
152 |
10 |
153 |
100 |
154 |
1000 |
155 |
End mV |
156 |
End millivolt value associated with the end magnitude value. Valid for primary value type = Ion Concentration |
157 |
Transmitter Busy - Cannot Process Command |
158 |
Isopotential pH value too high |
159 |
Isopotential pH value too low |
160 |
Aysmmetric potential value too high |
161 |
Aysmmetric potential value too low |
162 |
Isopotential pH and Aysmmetric potential value out of limit |
163 |
Ion Concentration data item Valence, Magnitude, End Magnitude or End mV value out of limit |
164 |
Temp snsr type |
165 |
Temperature sensor type |
166 |
Balco |
167 |
Temperature sensor type 3k Balco |
168 |
PT 100 |
169 |
Temperature sensor type PT 100 |
170 |
None |
171 |
A temperature sensor is not being used. |
172 |
Temp comp type |
173 |
Determines the type of Temperature Compensation algorithm applied to the Primary Value |
174 |
Manual |
175 |
Manual Temp. Comp. - This state uses a fixed, manually set temperature value in the Nernstian temperature compensation algorithm. |
176 |
Automatic |
177 |
Automatic Temp. Comp. - This state uses the measured temperature value from the temperature sensor in the Nernstian temperature compensation algorithm. |
178 |
Auto Solution |
179 |
Automatic Solution Temp. Comp. This state uses the measured temperature value from the temperature sensor in the Nernstian and solution coefficient temperature compensation algorithm. |
180 |
Manual temp unit |
181 |
Manual Temp. |
182 |
Manual Temperature Compensation Value - is used in Nernstian temp. comp. when the Temp Comp selection is Manual |
183 |
pH solution coeff |
184 |
The solution coefficient is in terms of pH units per 10 deg-C for the pH analyzer state and has a range of +/- 9.99 pH units per 10 deg-C. The solution coeff is used only when Auto-Solution temp comp is selected. |
185 |
pH/10 degC |
186 |
mV solution coeff |
187 |
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 +/-19.99 mV per 10 deg-C. The solution coeff is used only when Auto-Solution temp comp is selected. |
188 |
mV/10 deg C |
189 |
pH Solution Coefficient too high |
190 |
pH Solution Coefficient too low |
191 |
mV Solution Coefficient too high |
192 |
mV Solution Coefficient too low |
193 |
pH and mV Solution Coefficients out of limit |
194 |
Enter all the curve points and then send the curve to the device |
195 |
Information indicating not to transmit individual curve points one at a time to the device |
196 |
Spcl xfer curve x1 |
197 |
Transfer Function Special Curve x1 value (input value point 1 entered as a percentage of Primary value range). Valid only when PV xfer fnctn is spcl curve |
198 |
% |
199 |
Spcl xfer curve x2 |
200 |
Transfer Function Special Curve x2 value (input value point 2 entered as a percentage of Primary value range). Valid only when PV xfer fnctn is spcl curve |
201 |
Spcl xfer curve x3 |
202 |
Transfer Function Special Curve x3 value (input value point 3 entered as a percentage of Primary value range). Valid only when PV xfer fnctn is spcl curve |
203 |
Spcl xfer curve x4 |
204 |
Transfer Function Special Curve x4 value (input value point 4 entered as a percentage of Primary value range). Valid only when PV xfer fnctn is spcl curve |
205 |
Spcl xfer curve x5 |
206 |
Transfer Function Special Curve x5 value (input value point 5 entered as a percentage of Primary value range). Valid only when PV xfer fnctn is spcl curve |
207 |
Spcl xfer curve y1 |
208 |
Transfer Function Special Curve y1 value (Analog output value point 1 entered as a percentage of Analog Output). Valid only when PV xfer fnctn is spcl curve |
209 |
Spcl xfer curve y2 |
210 |
Transfer Function Special Curve y2 value (Analog output value point 2 entered as a percentage of Analog Output). Valid only when PV xfer fnctn is spcl curve |
211 |
Spcl xfer curve y3 |
212 |
Transfer Function Special Curve y3 value (Analog output value point 3 entered as a percentage of Analog Output). Valid only when PV xfer fnctn is spcl curve |
213 |
Spcl xfer curve y4 |
214 |
Transfer Function Special Curve y4 value (Analog output value point 4 entered as a percentage of Analog Output). Valid only when PV xfer fnctn is spcl curve |
215 |
Spcl xfer curve y5 |
216 |
Transfer Function Special Curve y5 value (Analog output value point 5 entered as a percentage of Analog Output). Valid only when PV xfer fnctn is spcl curve |
217 |
Xfer fnctn special curve value out of limit |
218 |
Xfer fnctn special curve values not monotonic |
219 |
LCD secondry disp |
220 |
The parameter sets the HMI's local LCD secondary display area to one of several options. |
221 |
Temp deg-C |
222 |
Temperature in deg C |
223 |
Temp deg-F |
224 |
Temperature in deg F |
225 |
Output current |
226 |
Analog Output current in mA |
227 |
Input mV |
228 |
Sensor inpuit value in mV |
229 |
Ref impedance |
230 |
Reference impedance |
231 |
SW rev |
232 |
Software revision |
233 |
Security Lock |
234 |
When ENABLED, the Security Password will be active for Security mode on local HMI. If Security Lock is disabled, then the Security mode of operation can be accessed from the local HMI without supplying the password. |
235 |
Configuration Lock |
236 |
When ENABLED, the Security Password will be active for Config mode on local HMI. Config parameters will be write protected on the HART interface. When the Configuration-Lock is DISABLED, the Config mode of operation can be accessed from the local HMI without supplying the password |
237 |
Calibration Lock |
238 |
When ENABLED, the Security Password will be active for Calibrate mode on local HMI. Calib parameters will be write protected on the HART interface. When the Calibration Lock is DISABLED, the Calibrate mode of operation can be accessed from the local HMI without supplying the password |
239 |
Output Lock |
240 |
When ENABLED, the Security Password will be active for Output mode on local HMI. Output related parameters will be write protected on the HART interface. When the Output Lock is DISABLED, the Output mode of operation can be accessed from the local HMI without supplying the password |
241 |
Secur. Passwrd 1 |
242 |
Three password digits form the Security Password. Each digit can have a value from 0 to 9. The 3-digit Password range is 000 to 999. When Secur, Config, Output or Calib Locks are ENABLED, this Security Password will be required at the local HMI to access the corresponding modes of operation. |
243 |
Secur. Passwrd 2 |
244 |
Secur. Passwrd 3 |
245 |
PV slope units |
246 |
PV efficiency (slope) |
247 |
PV sensor efficiency (slope) value in percent |
248 |
PV offset units |
249 |
PV offset |
250 |
PV sensor offset value. |
251 |
Temp slope units |
252 |
Temp snsr Slope |
253 |
Temperature sensor Slope |
254 |
Temp snsr offset unit |
255 |
Temperature sensor offset unit |
256 |
Temp snsr offset |
257 |
Cal Status |
258 |
PV cal offset warning |
259 |
PV cal slope warning |
260 |
Device is in LOCAL Two-Point cal mode |
261 |
Device is in REMOTE Two-Point cal mode |
262 |
Temperature cal offset warning |
263 |
Temperature cal slope warning |
264 |
Temp cal unit |
265 |
Temp cal value |
266 |
PV Efficiency (Slope) too high |
267 |
PV Efficiency (Slope) too low |
268 |
PV Offset too high |
269 |
PV Offset too low |
270 |
Temp Slope too high |
271 |
Temp Slope too low |
272 |
Temp Offset too high |
273 |
Temp Offset too low |
274 |
Access Restricted. Temperature value is forced |
275 |
PV value for one point cal |
276 |
PV cal low value |
277 |
PV low value for 2 point calibration. |
278 |
PV cal high value |
279 |
PV high value for 2 point calibration. |
280 |
2 Point Cal Temp. value |
281 |
Temperature value for 2 point PV calib |
282 |
Access Restricted. PV value is forced |
283 |
PV Two-Point cal is already in progress. Another Two-Point cal cannot be started. |
284 |
Transmitter Busy - Cannot Process Command |
285 |
PV low calib value too high |
286 |
PV low calib value too low |
287 |
Not in proper Calibration mode to perform Two-Point PV Calibration |
288 |
Invalid Engineering units |
289 |
PV high calib value too high |
290 |
PV high calib value too low |
291 |
Two-Point PV cal Temperature value too high |
292 |
Two-Point PV cal Temperature value too low |
293 |
Busy |
294 |
Main sensor |
295 |
Temp. sensor |
296 |
Xfer fnctn spcl Curve |
297 |
HMI |
298 |
Temperature |
299 |
Analog Output |
300 |
Units |
301 |
Master reset |
302 |
Reset Cal |
303 |
Reset the process and temperature sensor calibration data to the values set at the factory |
304 |
Temp Cal |
305 |
Temperature calibration |
306 |
One point calib |
307 |
One Point process calibration |
308 |
Two Point Calibration - Calibration procedure where two different pH values are used, typically at or near the Lower Range Value and Upper Range Value of the transmitter. |
309 |
Release output hold |
310 |
Exit from 2 point cal |
311 |
Dummy abort method |
312 |
Exit Remote Two-Pt Cal |
313 |
The method exits from an on-going remote 2 point cal procedure that was started remotely from HART commands |
314 |
Read Two-Point PV cal activity |
315 |
Reads whether a REMOTE or a LOCAL Two-Point PV calibration is currently in progress |
316 |
Refresh variables |
317 |
Read all transmitter data to refresh their values. This will update any variable that was modified via the device keypad. |
318 |
FMU860 |
319 |
DT |
320 |
DVC |
321 |
FCX |
322 |
AS800 |
323 |
340T |
324 |
340C |
325 |
344 |
326 |
Siemens Micro K |
327 |
SITRANS L |
328 |
SIPAN PH |
329 |
SITRANS P |
330 |
75SMT |
331 |
UNIDELTA |
332 |
8320 |
333 |
SX5100 |
334 |
TSV175 |
335 |
DMU |
336 |
3780 |
337 |
BM70 |
338 |
8u |
339 |
low |
340 |
high |
341 |
tmp_av |
342 |
About to Preform Master Reset |
343 |
Master Reset in
progress please wait |
344 |
Device maybe stuck in Master Reset. |
345 |
Master reset OK |
346 |
Select Calibration reset option |
347 |
Reset PV cal;Reset Temperature cal;Exit |
348 |
Current Temp value: %[.2f]{0} %{1}
Temp Compensation type: %{2} |
349 |
Select Temp Cal Units: |
350 |
Enter Temp Cal Value: |
351 |
Temp cal failed
Reason: Temp cal offset out-of-range. |
352 |
Temp cal failed
Reason: Temp cal slope out-of-range |
353 |
Temp cal success.
Temp cal slope: %[.2f]{3} %{5}
Temp cal offset: %[.2f]{4} %{6} |
354 |
PV Two-Point cal is in progress. A One-Point cal cannot be started. |
355 |
Press OK when PV is stable
%0 pH |
356 |
Press OK when PV is stable
%0 mV |
357 |
Press OK when PV is stable
%0 ppm |
358 |
Press OK when PV is stable
%0 ppb |
359 |
Press OK when PV is stable
%0 |
360 |
Enter new value (%{1}): |
361 |
One-pt PV cal failed.
Reason: PV cal offset out-of-range.
Do you want to retry? |
362 |
Yes;No |
363 |
One-pt PV cal failed.
Reason: PV cal slope out-of-range.
Do you want to retry? |
364 |
One-pt PV cal success.
PV slope: %[.2f]{2} %{4}
PV offset: %[.2f]{3} mV |
365 |
Fix (Hold) Analog Output during Two-point PV cal? |
366 |
Fixing Analog Output... |
367 |
Write protect error while fixing output. |
368 |
Information: Device loop current is disabled or the device is in Multidrop mode. |
369 |
Enter Temperature (%{8}): |
370 |
Low Calib Value (%{1}) is: |
371 |
High Calib Value (%{1}) is: |
372 |
Apply %[.2f]{6} pH. Press OK when PV is stable
%0 pH |
373 |
Apply %[.2f]{6} mV. Press OK when PV is stable
%0 mV |
374 |
Apply %[.2f]{6} ppm. Press OK when PV is stable
%0 ppm |
375 |
Apply %[.2f]{6} ppb. Press OK when PV is stable
%0 ppb |
376 |
Apply %[.2f]{6} PV. Press OK when PV is stable
%0 |
377 |
Apply %[.2f]{7} pH. Press OK when PV is stable
%0 pH |
378 |
Apply %[.2f]{7} mV. Press OK when PV is stable
%0 mV |
379 |
Apply %[.2f]{7} ppm. Press OK when PV is stable
%0 ppm |
380 |
Apply %[.2f]{7} ppb. Press OK when PV is stable
%0 ppb |
381 |
Apply %[.2f]{7} PV. Press OK when PV is stable
%0 |
382 |
Two-pt PV cal failed.
Reason: PV cal offset out-of-range.
Do you want to retry? |
383 |
Two-pt PV cal failed.
Reason: PV cal slope out-of-range.
Do you want to retry? |
384 |
Two-pt PV cal success.
PV cal slope: %[.2f]{2} %{4}
PV cal offset: %[.2f]{3} %{5} |
385 |
Release Analog Output hold? |
386 |
Exiting from Two-Point PV Calibration mode... |
387 |
Please Wait... |
388 |
If a remote 2 Pt PV Cal is in progress, it will be exited! Exit remote 2 Pt cal? |
389 |
Exiting Remote Two-Point PV cal |
390 |
A PV Two-Point cal is in progress and was started from the device local HMI. (LOCAL Two-Point PV cal active) |
391 |
A PV Two-Point cal is in progress and was started from HART commands.
(REMOTE Two-Point PV cal active) |
392 |
A PV Two-Point cal is not in progress |
393 |
Reading all device data, please wait. |