Device dictionary

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Reference ID	String
0	Honeywell
1	STT850
2	Critical
3	Electronic Module DAC Failure
4	Electronics Module is bad due to one or more DAC failure conditions.. Any of the following conditions can cause this failure: >1.Temp Above 140C: The board temperature is high. Verify the environment is within spec. If it is, then replace the Electronics Module. >2.Under Current Status or Over current Status: Reset the device. If problem persist, replace the Electronics Module. >3.Packet Error, SPI Failure or Control Word Fault: Reset the device . Note: Select 'Device Status - Additional Status' to see which of these conditions are set.
5	Sensor NVM Corrupt
6	Sensor NVM data is bad. If following a power cycle the failure recurs, then replace the Sensor.
7	Config Data Corrupt
8	Config data is bad. Any of the following conditions can cause this failure: >1.Common DB Corrupt, >2.Vital DB Corrupt, or >3.General DB Corrupt Power cycle the device. If the problem persists, replace the Electronics Module. Note: Select 'Device Status - Additional Status' to see which of these conditions are set.
9	Electronic Module Diag Failure
10	SIL Diagnostics failures. Any of the following conditions can cause this failure: >1.RAM Failure, >2.ROM Failure, or >3.Program Flow Failure Reset the device. If the problem persists replace the Electronics module . Note: Select 'Device Status - Additional Status' to see which of these conditions are set.
11	Sensor Critical Failure
12	Failure in sensing section. Any of the following conditions can cause this failure: >1.Input 1 Fault >2.Input 2 Fault Check the sensor connections. >3.Suspect Input Check sensor and connections. If the connections are ok, and problem persists, replace the Sensor board >4.Char Table CRC Fault >5.Sensor NVM Corrupt >6.RAM Failure >7.Flash CRC Failure >8.Program Flow Failure: If following a power cycle the failure recurs, replace the Sensor.. Note: Select 'Device Status - Additional Status' to see which of these conditions are set.
13	Sensor Comm Timeout
14	No sensor response Replace the Electronics module. If it does not fix the problem, replace the Sensor.
15	Excess Delta Detected
16	Excess Delta Alarm is Enabled and set as Critical Alarm. Check your sensor to see if they are reporting bad values. If the values are good, Increase your Delta Limit. Applicable to Redundant mode.
17	Non-Critical
18	Local Display
19	Display not detected or configuration data has been corrupted. Any of the following conditions can cause this failure: >1.Display Comm Timeout: Secure Display connections and recheck. If problem persists, replace the Display >2.Display Database corrupt: Reset the device, user may have to reconfigure the Screens. >3.Display Common Config DB corrupt, or >4.Display Screen Config DB corrupt: Reset the Device. Note: Select 'Device Status - Additional Status' to see which of these conditions are set.
20	Comm Section Non Critical Failure
21	Electronics Module communication section failure. Any of the following conditions can cause this failure: >1.Adv Diag DB Corrupt or Config Change DB Corrupt: Reset the device >2.Temp above 100c: Verify the environment is within spec. If it is, then replace the Electronics Module Note: Select 'Device Status - Additional Status' to see which of these conditions are set.
22	Sensing Section Non Critical Failure
23	Failure in sensing section. Any of the following conditions can cause this failure: >1.Excess Cal1 correction: The value applied during Calibration is too far away from the CAL point for Sensor1 >2.Excess Cal2 correction: The value applied during Calibration is too far away from the CAL point for Sensor2 Note: Select 'Device Status - Additional Status' to see which of these conditions are set.
24	CJ Out of Limits
25	sensor Cold junction temperature is too high. If the temperature is >85 degC and if compensation is Internal CJ (range is -40 to 85 degc), Accuracy and life span may decrease if inter CJ remains overrange. External CJ range is -200 to 850 deg c. As long as transmitter is isolated from the temperature source, there will not be any degradation. Take steps to isolate the device from the temperature source.
26	Fixed Current Mode
27	Output current is fixed and not varying as per input. Loop current mode is disabled or Loop Test is active. Enable loop current mode if it is disabled or exit the Loop Test mode if active.
28	PV Out Of Range
29	Loop PV is out of configured URV and LRV. Any of the following conditions can cause this failure: >1.Sensor Overload or Fault , or >2.Redundant Characterization Calculation Error. Check range and, if required, replace transmitter with one that has a wider range. Sensor may have been damaged. Check the transmitter for accuracy and linearity. Replace the Sensor and recalibrate if needed
30	No Factory Calibration
31	Factory calibration is missing. Accuracy will be compromised. Replace the Sensor or return the device for factory calibration.
32	No DAC Compensation
33	No temperature compensation data exists for calculations. Loop accuracy may be slightly compromised. Effect will be minor degradation of ambient temperature influence specifications. Replace the Electronics Module (PWA) to achieve the maximum current loop accuracy or return the device to factory for DAC compensation.
34	LRV Set Err. Zero Config Button
35	Set operation using external Zero button was rejected. Verify the inputs are valid for the intended operation.
36	URV Set Err. Span Config Button
37	Set operation using external Span Config Button was rejected. Verify the inputs are valid for the intended operation.
38	AO Out of Range
39	Calculated Analog output is either above or below the specified Loop Current Limits. The transmitter input is not in specified range. Check the transmitter input.
40	Loop Current Noise
41	If this condition is observed frequently, it could be an early indication of critical under or over-current failure. Try to find the source of the noise. It could be bad loop wires, a hardware problem inside the transmitter, loop wires running close to a noise source etc. If the environment is ok, try replacing the Electronics Module.
42	Sensor Unreliable Comm
43	Unreliable sensor communication. Either the transmitter is installed in a noisy environment or internal communication quality between the Electronics Module and Sensor is degrading. Call service person.
44	Tamper Alarm
45	This status is set when outside attempts to change the device configuration exceed the Tamper attempt limit (Attempt Counter) when -Write Protect is enabled and Tamper Mode is Enabled or, -when Tamper Mode alone is Enabled
46	No DAC Calibration
47	No DAC calibration. No DAC calibration.Perform DAC calibration and device will be usable..
48	Low Supply Voltage
49	Supply voltage low at transmitter terminals or at sensor board. Any of the following conditions can cause this failure: >1.Low Transmitter Supply: Incorrect supply voltage at the transmitter terminals. Check the power supply and loop resistance are within spec. If they are, then replace the Electronics Module. >2.Low Sensor Supply: Low sensor supply voltage. This can be caused by low supply voltage from the Comm Board or by loading by the Sensor or comm board. If possible try to increase the voltage level of supply.Try replacing the Comm Board. If that does not fix the problem replace the Sensor. Note:Select 'Device Status - Additional Status' to see which of these conditions are set.
50	When Excess Delta Alarm is Disabled, and device is in non-redundant mode, this status indicates that the difference between two sensor inputs has crossed the applicable delta limit
51	Sensor Over Temperature
52	Specifies that the sensor internal CPU temperature is going out of limits. Valid Range (-40 to 85 degc). Power cycle the device. If the problem still persists make sure the environment is within spec.
53	Sensor 1 Input Open
54	Sensor 1 input open.
55	Sensor 2 Input Open
56	Sensor 2 input open.
57	Sensor In Low Power Mode
58	Indicates that sensor is operating in low power mode. This indicates that the transmitter is operating in a reduced accuracy mode due to a critical failure.
59	Sensor 1 Input Out Of Range
60	Set when the input at first sensor is either under range or over range
61	Sensor 2 Input Out Of Range
62	Set when the input at second sensor is either under range or over range
63	PV
64	SV
65	TV
66	QV
67	Transmitter Install Date
68	Transmitter installation date in MM/DD/YYYY format.
69	Sensor1 Install Date
70	Sensor1 installation date in MM/DD/YYYY format.
71	Sensor2 Install Date
72	Sensor2 installation date in MM/DD/YYYY format.
73	Dummy Variable1
74
75	Dummy Variable2
76	Dummy Variable3
77	Dummy Variable4
78	Dummy Variable5
79	Dummy Variable6
80	Select the analog to digital converter power line rejection mode.
81	Line filter
82	60Hz
83	50Hz
84	PV Unit
85	Key#1
86	S
87	Key#2
88	T
89	Transmitter Type
90	AP
91	DP
92	GP
93	Key#4
94	8
95	7
96	Key#5
97	0
98	1
99	2
100	3
101	4
102	5
103	6
104	9
105	Key#6
106	L
107	Key#7
108
109	-
110	Barrier Diaphragm
111	316L Stainless Steel
112	Hastelloy® C-276
113	Monel® 400
114	Tantalum
115	Hastelloy C-276
116	Monel 400
117	Gold Plated 316L SS
118	Gold Plated Hastelloy C-276
119	Gold Plated Monel 400
120	Process Head Material
121	Plated Carbon Steel
122	316 Stainless Steel
123	Fill Fluid
124	Silicone Oil DC-200
125	Fluorinated Oil CTFE
126	Silicone Oil DC704
127	Neobee M-20
128	Process Connection-Size/Type
129	9/16' Aminco
130	1/2' NPT (male)
131	1/2' NPT (female)
132	DIN 19213 (1/4' female NPT)
133	Process Connection-Material
134	Same as Process Head
135	Bolt Materials
136	None
137	Carbon Steel
138	316 SS
139	Grade 660 (NACE A286) with NACE 304 SS Nuts
140	Grade 660 (NACE A286) Bolts & Nuts
141	Monel K500
142	Super Duplex
143	B7M
144	Vent/Drain Location
145	Side w/Vent
146	Side w/Center Vent
147	End w/Vent
148	End w/Center Vent
149	Side w/ Vent & End w/Plug
150	Head Type
151	Single Ended
152	Dual Ended
153	Vent Material
154	Matches Head Material
155	Stainless Steel Only
156	Gasket Materials
157	Teflon® or PTFE (Glass Filled)
158	Viton®
159	Graphite
160	Static Pressure
161	Standard Static Pressure-4500 psig(315 bar) except STD610:50 psi(3.5 bar)
162	High Pressure 6000 psi
163	Table I Information
164	Key number selection
165	Key Number Selection
166	.3f
167	8.3f
168	CJ_temperature
169	Temperature 1
170	Temperature 2
171	Sensor1
172	URL1
173	Upper Range Limit for Sensor 1. Sensor cannot provide accurate results beyond this limit.
174	LRL1
175	Lower Range Limit for Sensor 1. Sensor cannot provide accurate results beyond this limit.
176	Sensor1 Data Quality
177	Data Quality help
178	Sensor1 Limit Status
179	Limit Status help
180	Sensor1 Device Family Status
181	Device Family Status help
182	Sensor1 Device Variable Classification
183	Device Variable Classification help
184	Sensor1 Device Variable Family Codes
185	Sensor1 Unit
186	Sensor1 Dev Fam Status
187	Sensor1 Dev Var Class
188	Sensor1 Dev Fam Code
189	Upper Range Limit
190	Lower Range Limit
191	Sensor2
192	URL2
193	Upper Range Limit for Sensor 2. Sensor cannot provide accurate results beyond this limit.
194	LRL2
195	Lower Range Limit for Sensor 2. Sensor cannot provide accurate results beyond this limit.
196	Data Quality 2
197	Limit Status 2
198	Device Family Status 2
199	Device Variable Classification 2
200	Device Variable Family Codes 2
201	Sensor2 Unit
202	Data Quality
203	Limit Status
204	Dev Fam Status
205	Class
206	Dev Fam Code
207	Device Family Status
208	More Device Family Status Available
209	Device Variable Classification
210	Device Variable Family Codes
211	CJ Temp
212	SV Temperature Value
213	CJ Temp Unit
214	CJ Temperature Unit
215	(CJ) Temperature
216	CJ Temperature
217	Unit
218	CJ LTL
219	CJ UTL
220	PV UTL
221	.4g
222	PV LTL
223	.1f
224	Sec
225	PV Data Quality
226	PV Limit Status
227	Device Family Status: PV
228	Device Variable Classification: PV
229	SENSOR SERIAL NUMBER
230	The serial number of the temperature probe
231	7d
232	Dev SW Rev
233	Displays the version of the device software
234	Dev Var Class
235	URV
236	URV_help
237	LRV
238	LRV_help
239	UTL1 - Defines the highest acceptable value for the Transducer1.
240	UTL1
241	LTL1 - Defines the lowest acceptable value for the Transducer.
242	LTL1
243	Upper Calib Point
244	Upper Calibration Point - Defines the sensor1 upper calibration value.
245	Lower Calib Point
246	Lower Calibration Point - Defines the sensor1 lower calibration value.
247	UTL2 - Defines the highest acceptable value for the Transducer2.
248	UTL2
249	LTL2 - Defines the lowest acceptable value for the Transducer2.
250	LTL2
251	Upper Calibration Point - Defines the sensor2 upper calibration value.
252	Lower Calibration Point - Defines the sensor2 lower calibration value.
253	PV MRV
254	Medium range value for Split ranging loop control mode
255	Sensor1 Bias
256	Sensor2 Bias
257	Select either sensor break detection or no sensor break detection.
258	Break Detect
259	Disable
260	Enable
261	Select either external or internal cold junction compensation.
262	CJ Selection
263	Internal
264	External
265	Fixed
266	If you set this function ON, Sensor2 will be matched to Sensor1.
267	Match PV
268	Select the latching configuration.
269	Latching Alarm
270	Fixed CJ Compensation Value
271	Loop Control Mode
272	Select the loop control mode: 1.Averaging: The loop control method will be (Sensor1+Sensor2)/2. 2.Differential: The loop control method will be (Sensor1-Sensor2). 3.Sensor1: The loop current will be dependent on Sensor1 solely. 4.Sensor2: The loop current will be dependent on Sensor2 solely. 5.Redundant: If Sensor1 input fails, loop current is controlled by Sensor2 input. 6.Split Ranging: The range of both sensors will be split into 2 ranges. Range 1 will be controlled by Sensor1 and Range 2 will be controlled by Sensor2.
273	Average
274	Differential
275	Redundant
276	Split Range
277	Loop Controlled By
278	Currently loop current is controlled by the shown variable. This is dependent on the sensor 1 and 2 inputs.
279	Both Sensors
280	Single input
281	Hysteresis Band
282	This band is used to apply hysteresis in split range mode to avoid continuous switching between sensor1 and sensor2.
283	Damp-Bumpless Transfer
284	This is damping value that will be used when loop control is transferred from one sensor to another.
285	Sensor 1 Type
286	Type of the sensor 1.
287	MV
288	TC
289	RTD
290	OHMS
291	Sensor1 Id
292	ID of the sensor.
293	MV 125
294	MV 1200
295	TC Type E
296	TC Type J
297	TC Type K
298	TC Type N
299	TC Type T
300	TC Type S
301	TC Type R
302	TC Type B
303	RTD Pt 25
304	RTD Pt 100
305	RTD Pt 200
306	RTD Pt 500
307	RTD Pt 1000
308	OHMS 500
309	OHM 2K
310	OHM 3K
311	Sensor1 Mv Id
312	Type of the sensor.
313	Sensor1 Tc Id
314	Sensor1 RTD Id
315	Sensor1 OHM Id
316	Sensor2 Mv Id
317	RTD1 Type
318	2wire
319	3wire
320	4wire
321	RTD1 lead wire resistance
322	Ohm
323	Sensor 2 Type
324	Type of the sensor 2.
325	Sensor 2 Id
326	RTD2 Type
327	RTD2 Lead Wire Resistance
328	Gives the total time of the transmitter being operational
329	Transmitter Time In Operation
330	Gives the total time of sensor 1
331	Sensor 1 Time In Operation
332	Gives the total time of sensor 2
333	Sensor 2 Time In Operation
334	Allows to disable/change the write protect password
335	Write Protect Password
336	Allows to enter new password
337	New write Protect Password
338	Write protect disable/change password
339	Write Protect Status
340	Read
341	Change the Password
342	Maint Mode
343	Maintenance Mode - Indicates if the device can be safely taken out for maintenance
344	Chk with oper
345	Avail for maint
346	Error Log Flag
347	Select Enable/Disable for Error Log.
348	Reset Error Log
349	This action will reset Error Log and corresponding time-stamps.
350	Sensor SW Rev
351	Displays the version of the sensor software
352	Gives the total time of the device being operational
353	Time In Operation
354	It gives the value of the device life already consumed. The consumption of device life depends uponthe 'Time in operation' and the 'Device Stress Life' parameters. More the value of these parameters moreis the life consumed. Device's life can be effectively used by ensuring lesser value of 'Device stress life'
355	Comm Board Service Life
356	%
357	It gives the time duration for which the device has been under stress. Definition of Stress:It is the condition of the device in which any of the process variable/s exceed/s its stress limit/s.
358	Comm Board Stress Life
359	Sensor Stress Monitor
360	Sensor Board Stress Life
361	Sensor Board Service Life
362	PV Delta
363	Value of delta temperature between Sensor1 and Sensor2. PV Delta =Sensor1-Sensor2
364	2.3f
365	Delta Limit
366	Alarm level of delta temperature: if delta is greater than this value (plus or minus) a status will appear (critical or non-critical depending on Excess delta detection setting).
367	In case of Excess delta, the output will be driven to alarm level if you set this detection ON.
368	Excess Delta Detect
369	Table II Information
370	Table III Information
371	Table IV Information
372	This indicates the amount of time for which device is powered up.
373	Time In Service
374	Error code
375	Time Stamp 0
376	Time Stamp 1
377	Time Stamp 2
378	Time Stamp 3
379	Time Stamp 4
380	Time Stamp 5
381	Time Stamp 6
382	Time Stamp 7
383	Time Stamp 8
384	Time Stamp 9
385	DAC Failure
386	Loop Voltage Low
387	Incorrect supply voltage. Check the power supply and loop resistance are within spec. If they are then replace the Electronics Module.
388	Temp Above 100C
389	The board temperature is high. Verify the environment is within spec. If it is, then replace Electronics Module.
390	Temp Above 140C
391	Under Current Status
392	Reset the device. If problem persist, replace the Electronics Module.
393	Over Current Status
394	Packet Error
395	Reset the device.
396	SPI Failure
397	Communication
398	RAM Status
399	SIL diagnostic failure. Reset the device. If problem persist, replace the Electronics module.
400	ROM Status
401	Program Flow Status
402	Brownout Status
403	Reset the device. If problem persist, replace the Electronics module.
404	Display
405	Display Comm Timeout
406	Communication between the Electronics Module and Display has failed. Secure Display connections and recheck. If problem persists, replace the Display.
407	Display Config Data Corrupt
408	Display configuration data has been corrupted. Reset the device. Device will try to restore last saved configuration. If CRC still doesn't match with last configuration, the NVM block will be defaulted. User will need to reconfigure display Screens.
409	Other Info
410	Control Word Write Fault
411	Low Transmitter Supply
412	Incorrect supply voltage. Check the power supply and loop resistance are within spec. If they are, then replace the Electronics Module.
413	CJ CT Delta Warning
414	Difference between the CPU core temperature and the Internal CJ sensor is > 10 degc
415	ADC0 Range Fault
416	Input value supplied to the ADC0 is > ADC Range
417	ADC1 Range Fault
418	Input value supplied to the ADC1 is > ADC Range
419	ADC Reference Fault
420	one of the sensor internal ADC reference voltages is bad. Power cycle the device. If the problem persisits replace the sensor board
421	Sensor
422	Low Sensor Supply
423	This can be caused by low supply voltage from the Comm Board or by loading by the Sensor or comm board. If possible try to increase the voltage level of supply.Try replacing the Comm Board. If that does not fix the problem replace the Sensor.
424	Sensor NVM corrupt
425	If following a power cycle the failure recurs, then check the sensor
426	Char Table CRC Fault
427	If following a power cycle the failure recurs, then replace the Sensor
428	Input 1/Input 2/CJ Val Bad
429	Suspect Input
430	Replace the Sensor.
431	RAM Failure
432	Flash CRC Failure
433	Program Flow Failure
434	If following a power cycle the failure recurs, then replace the Sensor.
435	Excess Cal1 Correction
436	The value applied during Calibration is too far away from the CAL point of Sensor 1. Check input and be sure that it matches calibrated range value.
437	Excess Cal2 Correction
438	The value applied during Calibration is too far away from the CAL point of Sensor 2. Check input and be sure that it matches calibrated range value.
439	User Corrects Activated
440	User Corrects for Sensor 1 or Sensor 2 activated
441	Input1 Val Bad
442	If following a power cycle the flow failure recurs, then replace the Sensor
443	Input2 Val Bad
444	CJ Val Bad
445	Input1 Fault
446	Input2 Fault
447	Database Integrity
448	Common DB Corrupt
449	Common database found corrupt. Reset the device.
450	Vital Config DB Corrupt
451	Vital configuration database found corrupt. Reset the device.
452	General Config DB Corrupt
453	General configuration database found corrupt. Reset the device.
454	Config Change DB Corrupt
455	Configuration Change database found corrupt. Reset the device.
456	Adv Diag DB Corrupt
457	Advanced diagnostics database found corrupt. Reset the device.
458	Display Screen Config DB Corrupt
459	Display Screen configuration database found corrupt. Reset the device.
460	Display Common Config DB Corrupt
461	Display common configuration database found corrupt. Reset the device.
462	Display Integrity
463	Display Screen 1 Corrupt
464	Display Screen 1 found corrupt. Reset the device.
465	Display Screen 2 Corrupt
466	Display Screen 2 found corrupt. Reset the device.
467	Display Screen 3 Corrupt
468	Display Screen 3 found corrupt. Reset the device.
469	Display Screen 4 Corrupt
470	Display Screen 4 found corrupt. Reset the device.
471	Display Screen 5 Corrupt
472	Display Screen 5 found corrupt. Reset the device.
473	Display Screen 6 Corrupt
474	Display Screen 6 found corrupt. Reset the device.
475	Display Screen 7 Corrupt
476	Display Screen 7 found corrupt. Reset the device.
477	Display Screen 8 Corrupt
478	Display Screen 8 found corrupt. Reset the device.
479	Power Fail Timestamp
480	Number of times the device is power cycled
481	Power Cycles
482	Electronics Temperature
483	ET
484	degC
485	Max limit of Electronics Temperature
486	Max ET Limit
487	Min limit of Electronics Temperature
488	Min ET Limit
489	Max value of Electronics Temperature
490	Max ET Value
491	Min value of Electronics Temperature
492	Min ET Value
493	Number of minutes Electronics Temperature above upper stress limit
494	Time Above Upper Stress Limit
495	Min
496	Number of minutes Electronics Temperature below lower stress limit
497	Time Below Lower Stress Limit
498	Time Since Last Event of Electronics Temperature going to upper band
499	Time Since Last ET Up
500	Time Since Last Event of ET going to lower band
501	Time Since Last ET Down
502	Gives current operating voltage
503	Current Op Voltage
504	V
505	.2f
506	Min value of operating voltage
507	Min Op Voltage
508	Time since operating voltage last at minimum
509	Time Since Operating Voltage Last At Minimum
510	Type Of Display Connected
511	Shows if the Display is installed and its type.
512	Not Connected
513	Advanced
514	Basic
515	Display Connected
516	No
517	Yes
518	Shows the transmitter type
519	Screen Number
520	Screen 1
521	Screen 2
522	Screen 3
523	Screen 4
524	Screen 5
525	Screen 6
526	Screen 7
527	Screen 8
528	Custom Tag
529	Language
530	English
531	French
532	German
533	Spanish
534	Russian
535	Chinese
536	Japanese
537	Turkish
538	Italian
539	Rotation Time
540	3 sec
541	4 sec
542	5 sec
543	6 sec
544	7 sec
545	8 sec
546	9 sec
547	10 sec
548	11 sec
549	12 sec
550	13 sec
551	14 sec
552	15 sec
553	16 sec
554	17 sec
555	18 sec
556	19 sec
557	20 sec
558	21 sec
559	22 sec
560	23 sec
561	24 sec
562	25 sec
563	26 sec
564	27 sec
565	28 sec
566	29 sec
567	30 sec
568	Screen Rotation
569	Display Password
570	Password
571	Display SW Rev
572	Displays the version of the display software
573	Contrast Level
574	Allows to select the Contrast level of display. 'Default' value may vary according to the type of display connected.
575	Default
576	Disp Low Limit
577	Low limit for Trend/Bar chart
578	13.2f
579	13.3f
580	Disp High Limit
581	High limit for Trend/Bar chart
582	Screen Format
583	PV & Bargraph
584	PV & Trend
585	PV Selection
586	Loop PV
587	Sensor 1
588	Sensor 2
589	Sensor Delta
590	Sensor 1 Resistance
591	Sensor 2 Resistance
592	Loop Output(mA)
593	Percent Output
594	Engineering Units for the Display. For Basic Display it also sets units for all the Menu items including LRV, URV, LRL, URL and Calibration Methods
595	Display Units
596	Custom
597	°C
598	°F
599	°R
600	K
601	mV
602	Degree
603	mA
604	Decimals
605	.x
606	.xx
607	.xxx
608	Trend Duration
609	Date Of Current URV1 Correct
610	Date of current URV1 correct
611	Date Of Last URV1 Correct
612	Date of last URV1 correct
613	Date Of Previous URV1 Correct
614	Date of previous URV1 correct
615	Timestamp (Hours) Of Current URV1 Correct
616	Timestamp (Hours) of current URV1 correct
617	Timestamp (Hours) Of Last URV1 Correct
618	Timestamp (Hours) of last URV1 correct
619	Timestamp (Hours) Of Previous URV1 Correct
620	Timestamp (Hours) of previous URV1 correct
621	Timestamp (Minutes) Of Current URV1 Correct
622	Timestamp (Minutes) of current URV1 correct
623	Timestamp (Minutes) Of Last URV1 Correct
624	Timestamp (Minutes) of last URV1 correct
625	Timestamp (Minutes) Of Previous URV1 Correct
626	Timestamp (Minutes) of previous URV1 correct
627	Timestamp (Seconds) Of Last URV1 Correct
628	Timestamp (Seconds) of last URV1 correct
629	Timestamp (Seconds) Of Previous URV1 Correct
630	Timestamp (Seconds) of previous URV1 correct
631	Date Of Current URV2 Correct
632	Date of current URV2 correct
633	Date Of Last URV2 Correct
634	Date of last URV2 correct
635	Date Of Previous URV2 Correct
636	Date of previous URV2 correct
637	Timestamp (Hours) Of Current URV2 Correct
638	Timestamp (Hours) of current URV2 correct
639	Timestamp (Hours) Of Last URV2 Correct
640	Timestamp (Hours) of last URV2 correct
641	Timestamp (Hours) Of Previous URV2 Correct
642	Timestamp (Hours) of previous URV2 correct
643	Timestamp (Minutes) Of Current URV2 Correct
644	Timestamp (Minutes) of current URV2 correct
645	Timestamp (Minutes) Of Last URV2 Correct
646	Timestamp (Minutes) of last URV2 correct
647	Timestamp (Minutes) Of Previous URV2 Correct
648	Timestamp (Minutes) of previous URV2 correct
649	Timestamp (Seconds) Of Last URV2 Correct
650	Timestamp (Seconds) of last URV2 correct
651	Timestamp (Seconds) Of Previous URV2 Correct
652	Timestamp (Seconds) of previous URV2 correct
653	Date Of Current LRV1 Correct
654	Date of current LRV1 correct
655	Date Of Last LRV1 Correct
656	Date of last LRV1 correct
657	Date Of Previous LRV1 Correct
658	Date of previous LRV1 correct
659	Timestamp (Hours) Of Current LRV1 Correct
660	Timestamp (Hours) of current LRV1 correct
661	Timestamp (Hours) Of Last LRV1 Correct
662	Timestamp (Hours) of last LRV1 correct
663	Timestamp (Hours) Of Previous LRV1 Correct
664	Timestamp (Hours) of previous LRV1 correct
665	Timestamp (Minutes) Of Current LRV1 Correct
666	Timestamp (Minutes) of current LRV1 correct
667	Timestamp (Minutes) Of Last LRV1 Correct
668	Timestamp (Minutes) of last LRV1 correct
669	Timestamp (Minutes) Of Previous LRV1 Correct
670	Timestamp (Minutes) of previous LRV1 correct
671	Timestamp (Seconds) Of Last LRV1 Correct
672	Timestamp (Seconds) of last LRV1 correct
673	Timestamp (Seconds) Of Previous LRV1 Correct
674	Timestamp (Seconds) of previous LRV1 correct
675	Date Of Current LRV2 Correct
676	Date of current LRV2 correct
677	Date Of Last LRV2 Correct
678	Date of last LRV2 correct
679	Date Of Previous LRV2 Correct
680	Date of previous LRV2 correct
681	Timestamp (Hours) Of Current LRV2 Correct
682	Timestamp (Hours) of current LRV2 correct
683	Timestamp (Hours) Of Last LRV2 Correct
684	Timestamp (Hours) of last LRV2 correct
685	Timestamp (Hours) Of Previous LRV2 Correct
686	Timestamp (Hours) of previous LRV2 correct
687	Timestamp (Minutes) Of Current LRV2 Correct
688	Timestamp (Minutes) of current LRV2 correct
689	Timestamp (Minutes) Of Last LRV2 Correct
690	Timestamp (Minutes) of last LRV2 correct
691	Timestamp (Minutes) Of Previous LRV2 Correct
692	Timestamp (Minutes) of previous LRV2 correct
693	Timestamp (Seconds) Of Last LRV2 Correct
694	Timestamp (Seconds) of last LRV2 correct
695	Timestamp (Seconds) Of Previous LRV2 Correct
696	Timestamp (Seconds) of previous LRV2 correct
697	Calibration date
698	Date of calibration in MM/DD/YYYY format
699	Timestamp (Hours) Of calibration
700	Timestamp (Hours) of calibration
701	Timestamp (Minutes) Of calibration
702	Timestamp (Minutes) of calibration
703	Date Of Sensor1 Current Reset Corrects
704	Date of Sensor1 current Reset Corrects
705	Date Of Sensor1 Last Reset Corrects
706	Date of Sensor1last Reset Corrects
707	Date Of Sensor1 Previous Reset Corrects
708	Date of Sensor1 previous Reset Corrects
709	Timestamp (Hours) Of Sensor1 Current Reset Corrects
710	Timestamp (Hours) of Sensor1 current Reset Corrects
711	Timestamp (Hours) Of Sensor1 Last Reset Corrects
712	Timestamp (Hours) of Sensor1 last Reset Corrects
713	Timestamp (Hours) Of Sensor1 Previous Reset Corrects
714	Timestamp (Hours) of Sensor1 previous Reset Corrects
715	Timestamp (Minutes) Of Sensor1 Current Reset Corrects
716	Timestamp (Minutes) of Sensor1 current Reset Corrects
717	Timestamp (Minutes) Of Sensor1 Last Reset Corrects
718	Timestamp (Minutes) of Sensor1 last Reset Corrects
719	Timestamp (Minutes) Of Sensor1 Previous Reset Corrects
720	Timestamp (Minutes) of Sensor1 previous Reset Corrects
721	Date Of Sensor2 Current Reset Corrects
722	Date of Sensor2 current Reset Corrects
723	Date Of Sensor2 Last Reset Corrects
724	Date of Sensor2 last Reset Corrects
725	Date Of Sensor2 Previous Reset Corrects
726	Date of Sensor2 previous Reset Corrects
727	Timestamp (Hours) Of Sensor2 Current Reset Corrects
728	Timestamp (Hours) of Sensor2 current Reset Corrects
729	Timestamp (Hours) Of Sensor2 Last Reset Corrects
730	Timestamp (Hours) of Sensor2 last Reset Corrects
731	Timestamp (Hours) Of Sensor2 Previous Reset Corrects
732	Timestamp (Hours) of Sensor2 previous Reset Corrects
733	Timestamp (Minutes) Of Sensor2 Current Reset Corrects
734	Timestamp (Minutes) of Sensor2 current Reset Corrects
735	Timestamp (Minutes) Of Sensor2 Last Reset Corrects
736	Timestamp (Minutes) of Sensor2 last Reset Corrects
737	Timestamp (Minutes) Of Sensor2 Previous Reset Corrects
738	Timestamp (Minutes) of Sensor2 previous Reset Corrects
739	Max value of CJ sensor CPU temperature Delta
740	Max CJ-Sensor CPU Temp. Delta
741	Delta value of CJ-sensor CPU core temperature
742	CJ-Sensor CPU Temp. Delta
743	SHM1 Ohms
744	SHM1 Ohms
745	Ohms
746	SHM2 Ohms
747	SHM2 Ohms
748	Minimum value of CJ sensor CPU temperature Delta
749	Min CJ-Sensor CPU Temp. Delta
750	Number of minutes sensor CPU core temperature above upper stress limit
751	Number of minutes sensor CPU core temperature below lower stress limit
752	Time Since Last Event of sensor CPU core temperature going to upper band
753	Time Since Last Sensor CPU Temp. Up
754	Time Since Last Event of sensor CPU core temperature going to lower band
755	Time Since Last Sensor CPU Temp. Down
756	Max value of AVDD
757	Max AVDD
758	Sensor ET highest value
759	Sensor ET Highest Value Timestamp
760	ET Highest Value Timestamp
761	Sensor ET high alarm counter
762	Sensor ET High Alarm Counter
763	Sensor ET lowest value
764	Sensor ET Lowest value
765	Sensor ET Lowest Value Timestamp
766	ET Lowest Value Timestamp
767	Sensor ET low alarm counter
768	Sensor ET Low Alarm Counter
769	Time Since Last Event of AVDD going to upper band
770	Time Since Last AVDD Up
771	Min value of AVDD
772	Min AVDD
773	Time Since Last Event of AVDD going to lower band
774	Time Since Last AVDD Down
775	Tamper Mode
776	Enable/Disable the Tamper Mode
777	Disables the Tamper Mode
778	Enables the Tamper Mode
779	Tamper Latency
780	Allows to decide the tamper latency
781	Max Allowable Attempts
782	Allows to enter the maximum number attempts for Tamper Alarm
783	10
784	Attempt Counter
785	Tamper attempt counter shows the number of tamper attempts made
786	Reset code
787	Dynamic variable code
788	PV Lowest variable value
789	PV Lowest value minutes
790	PV Highest variable value
791	PV Highest value minutes
792	CJ Lowest variable value
793	CJ Lowest value minutes
794	CJ Highest variable value
795	CJ Highest value minutes
796	Low alarm limit
797	High alarm limit
798	PV Low Alarm Limit
799	PV High Alarm Limit
800	PV Low Alarm Counter
801	PV High Alarm Counter
802	CJ Low Alarm Counter
803	CJ low alarm counter.CJ limit ranges from -40 to 85
804	CJ High Alarm Counter
805	CJ high alarm counter.CJ limit ranges from -40 to 85
806	NAMUR Selection
807	Current setting of NAMUR.
808	Disabled
809	Output saturation value is not-clamped
810	Enabled
811	Output saturation value is clamped
812	Sensor Scratch Pad
813	Write Protect Edit
814	4mA current value
815	20mA current value
816	Damping
817	Poll Addr & loop current mode
818	NAMUR
819	SV Unit
820	Lock Device
821	Assy Num
822	Software WP
823	WP Password
824	Tag, Descriptor& Date
825	Tag
826	Message
827	Long Tag
828	Hysterisis Band
829	Damping for bumpless transfer
830	Loop control mode,excess delta detect,URV,LRV,MRV
831	Excess delta detect
832	Delta limit
833	Error Logging Status
834	URV,LRV,MRV& Delta Limit
835	MRV
836	No Record
837	Value of the requested parameter from configuration history
838	Config History Parameter
839	HART
840	DE
841	Linear
842	Square Root
843	User Config
844	Dual Slope
845	Off
846	On
847	Error
848	Config history parameter
849	Assy #
850	Averaging
851	Split Ranging
852	Excess Delta detect
853	Configuration History Code
854	First History Parameter
855	Second History Parameter
856	Third History Parameter
857	Fourth History Parameter
858	Fifth History Parameter
859	Exit
860	Excess span observed during calibration
861	Device is busy in some other operation or getting accessed from Display. Please try again.
862	Wrong password. Please retry.
863	No History Data
864	RTD1 Type is 4wire.Change it first and try again.
865	Display not connected or display menu is already accessed or wrong data. Please try again
866	Device is locked by other master or previously entered display data is still getting accepted by device. Please try again.
867	Display not connected or display menu is already accessed. Please try again.
868	Allows to select either internal or external compensation.
869	CJ Compensation
870	Allows to write Rtd1 type
871	Write RTD1 Type
872	Allows the user to enable or disable the configuration write protection.
873	Write Protect On/Off
874	Allows the user to change the password of write protection.
875	Change Password
876	Master Reset
877	Transmitter Time In Service
878	Displays time in service of the Transmitter
879	Sensor 1 Time In Service
880	Displays time in service of the sensor1
881	Sensor 2 Time In Service
882	Displays time in service of the sensor 2
883	Time Since Last Sensor CPU Temp Up
884	Time Since Last Sensor CPU Temperature up event
885	Time Since Last Sensor CPU Temp Down
886	Time Since Last Sensor CPU Temperature down event
887	Time Since Last AVDD up event
888	Time Since Last AVDD down event
889	Sensor1 Reset Corrects
890	Calibration shift gets removed
891	Sensor1 LRV1 Correct
892	Sensor1 URV1 Correct
893	Sensor2 Reset Corrects
894	Sensor2 LRV2 Correct
895	Sensor2 URV2 Correct
896	Curr URV1 Correct Records
897	Last URV1 Correct Records
898	Prev URV1 Correct Records
899	Curr LRV1 Correct Records
900	Last LRV1 Correct Records
901	Prev LRV1 Correct Records
902	Curr Sensor1 Reset Records
903	Last Sensor1 Reset Records
904	Prev Sensor1 Reset Records
905	Curr URV2 Correct Records
906	Last URV2 Correct Records
907	Prev URV2 Correct Records
908	Curr LRV2 Correct Records
909	Last LRV2 Correct Records
910	Prev LRV2 Correct Records
911	Curr Sesnsor2 Reset Records
912	Last Sesnsor2 Reset Records
913	Prev Sesnsor2 Reset Records
914	Clear Message
915	Clears the Display Message
916	Show Error Log
917	Displays Error Log with time-stamps of device
918	Restore Screen Data
919	Configure
920	This allows you to configure a Advanced display screen
921	Configure Basic Screen
922	This allows you to configure a Basic display screen
923	ET Upper Limit For Stress Condition
924	ET upper limit for stress condition
925	ET Lower Limit For Stress Condition
926	ET lower limit for stress condition
927	Time Since Last ET high event
928	Time Since Last ET low event
929	Reset Operating Voltage Parameters
930	Resets the minimum operating voltage value and the associated time stamp
931	Time Since Last Power Cycle
932	Time Since Last Voltage Low
933	Time Since Last operating voltage gone minimum
934	Change Sensor Type/Id
935	Change Loop Control Mode
936	Allows to change the loop control mode
937	Configure Tamper Alarm
938	Allows to configure Tamper alarm parameters
939	Reset Tamper Counter
940	Allows to reset Tamper alarm counter
941	Select Display Screen
942	Allows you to select the screen number of the display
943	PV Low Value
944	Displays PV Lowest value and corresponding time stamp
945	PV High Value
946	Displays PV Highest value and corresponding time stamp
947	CJ Low Value
948	Displays CJ Lowest value and corresponding time stamp
949	CJ High Value
950	Displays CJ Highest value and corresponding time stamp
951	Change PV Alm Limits
952	Reset PV Tracking Values
953	Reset CJ Tracking Values
954	Acknowledge Latch
955	Model Number
956	Displays model number of device
957	Config History
958	Allows to check the configuration history. Select the parameter number to read history stored under it.Parameter 1 gives the latest history and Parameter 5 gives the oldest.
959	Upload Variables
960	My Device
961	Process Variables
962	Shortcuts
963	Quick Access functions
964	Basic Setup
965	Calibration
966	Device Setup
967	Trends
968	Device Information
969	Detailed Setup
970	Trend of PV
971	trends showing history of the actual reading
972	PV value
973	Trend of SV
974	Trend showing history of the actual SV reading
975	SV Value
976	Trend of TV
977	TV Value
978	Trend of QV
979	QV Value
980	Trend of ET
981	Electronics Temp. trends showing history of the actual reading
982	ET Value
983	Trend of AO
984	Analog Value trend showing history of the actual reading
985	AO value
986	Alarm
987	Sensor1 Config Params
988	Sensor2 Config Params
989	Sensor1 Calibration
990	Sensor2 Calibration
991	Output Condition
992	Calibration Methods
993	Lists and allows you to calibrate/change LRV/URV values in different ways.
994	Services
995	Diagnostics
996	Adv Diagnostics
997	AVDD Tracking
998	Sensor CPU Temp. Tracking
999	ET Tracking
1000	Comm Board
1001	Sensor Board
1002	Installation And Device Life
1003	Shows the life related parameters
1004	Signal Condition
1005	Variables Monitoring
1006	NAMUR Option
1007	Device Status
1008	Additional Status
1009	Display Setup
1010	Read Screen Info
1011	Reads or configure the details of the selected screen or the screen which was recently configured, whichever is latest.
1012	Device Health
1013	Shows the overall status of the transmitter
1014	Correct LRV1 Records
1015	Correct URV1 Records
1016	Reset Sensor1 Corrects Records
1017	Correct LRV2 Records
1018	Correct URV2 Records
1019	Reset Sensor2 Corrects Records
1020	Operating Voltage
1021	Power Up Diagnostics
1022	Error Log
1023	PV Tracking
1024	PV tracking Parameters
1025	PV High-Low values
1026	PV High-Low Alm & Counter
1027	CJ Tracking
1028	CJ tracking Parameters
1029	CJ High-Low values
1030	CJ High-Low Alarm Counter
1031	Details
1032	Screen Configuration
1033	Screen of the display can be configured
1034	Common Setup
1035	Common setup of the display
1036	Help - Critical Diagnostics
1037	Lists all the Critical Diagnostics, Cause and Resolution. A critical failure drives the output of the transmitter to its failsafe direction: upscale or downscale.
1038	Help - Non-Crit. Diag.
1039	Lists Non-Critical Diagnostics, Cause and Resolution. All communicator functions remain operational during a Non-Critical failure
1040	Help - LRV Set Err. Zero Config Button
1041	Cause and Resolution when LRV Set Err. Zero Config Button status set
1042	LRV Set Error - Zero Config Button: Set operation using external Zero button was rejected. Verify the inputs are valid for the intended operation.
1043	Help - URV Set Err. Span Config Button
1044	Cause and Resolution when URV Set Err. Span Config Button status set
1045	URV Set Error - Span Config Button: Set operation using external Span button was rejected. Verify the inputs are valid for the intended operation.
1046	Help - AO Out of Range
1047	Cause and Resolution when AO Out of Range status set
1048	AO Out of Range: Calculated Analog output is either above or below the specified Loop Current Limits. Check the transmitter input to see if it is in specified range. If not, rerange the device.
1049	Help - Excess Delta Detected.
1050	Excess delta detected.
1051	LRV2 Set Error - Zero Config Button: Set operation using external Zero button was rejected. Verify the inputs are valid for the intended operation.
1052	Help - Sensor Health Warning
1053	Sensor Health Warning
1054	Sensor Health Warning.
1055	Help - Sensor Over Temperature
1056	Sensor Over Temperature.
1057	Help - Sensor 1 Input Open.
1058	Help - Sensor 2 Input Open.
1059	Help - Sensor In Low Power Mode
1060	Sensor In Low Power Mode.
1061	Help - Sensor 1 Input Out Of Range
1062	Help - Sensor 2 Input Out Of Range
1063	Help - Loop Current Noise
1064	Cause and Resolution when Loop Current Noise status set
1065	Loop Current Noise: If this is observed frequently, it is an early indication of critical under or over-current failure. Try to find the source of the noise. It could be bad loop wires, a hardware problem inside the transmitter, loop wires running close to a noise source etc. If no sources of noise found, replace the Electronics Module. If this does not fix the problem, then replace the Sensor or call Service Person.
1066	Help - Sensor Unreliable Comm
1067	Cause and Resolution when Sensor Unreliable Comm status set
1068	Sensor Unreliable Comm: Unreliable sensor communciation. Either the transmitter is installed in a noisy environment or internal communication quality between the Electronics Module and Sensor is degrading. Call service person.
1069	Help - Tamper Alarm
1070	Cause and Resolution when Tamper Alarm status set
1071	Tamper Alarm: Device is in Write Protect Mode and the user tried to change one or more of the parameters and his write attempt exceeded the Tamper attempt limit. Refer the User Manual for understanding the Tamper Alarm function
1072	Help - No DAC Calibration
1073	Cause and Resolution when No DAC Calibration status set
1074	No DAC Calibration: No DAC calibration done on the device. Perform DAC calibration and device will be usable.
1075	Help - Low Supply Voltage
1076	Cause and Resolution when Low Supply Voltage is set
1077	Low Supply Voltage: Supply voltage low at transmitter terminals or at sensor board. Any of the following conditions can cause this failure: >1.Low Transmitter Supply: Check the power supply and loop resistance are within spec. If they are, then replace the Electronics Module. >2.Low Sensor Supply: Low sensor supply voltage. This can be caused by low supply voltage from the Comm Board or by loading by the Sensor or comm board. Try to increase the voltage level of supply. If problem persists, try replacing the Comm Board. If the problem still persists, replace the Sensor. Note:Select 'Device Status - Additional Status' to see which of these conditions are set.
1078	Help - Extented Device Status
1079	Lists all the HART extended Device Statuses
1080	Help - Maintenance Required
1081	Maintenance Required
1082	Maintenance Required: Not Used
1083	Help - Device Variable Alert
1084	Cause and Resolution when Device Variable Alert status set
1085	Device Variable Alert: This indicates PV, SV, or TV Bad. If following a power cycle the failure recurs, replace the sensor.
1086	Help - Critical Power Failure
1087	Critical Power Failure
1088	Critical Power Failure: Not Used
1089	Help - Electronic Module DAC Failure
1090	Cause and Resolution when Electronic Module DAC Failure status set
1091	Electronic Module DAC Failure: Electronics Module is bad. Any of the following conditions can cause this failure: >1.Temp Above 140C: The board temperature is high. Verify the environment is within spec. If it is, then replace the Electronics Module. >2.Under Current Status or Over current Status: Reset the device. If problem persist, replace the Electronics Module. >3.Packet Error, SPI Failure or Control Word Fault: Reset the device . Note: Select 'Device Status - Additional Status' to see which of these conditions are set.
1092	Help - Sensor NVM Corrupt
1093	Cause and Resolution when Sensor NVM Corrupt status set
1094	Sensor NVM Corrupt: NVM data is bad. If following a power cycle the failure recurs, then replace the Sensor.
1095	Help - Config Data Corrupt
1096	Cause and Resolution when Config Data Corrupt status set
1097	Config Data Corrupt: Config data is bad. Any of the following conditions can cause this failure: >1.Common DB Corrupt, >2.Vital DB Corrupt, or >3.General DB Corrupt Power cycle the device. If the problem persists, replace the Electronics Module. Note: Select 'Device Status - Additional Status' to see which of these conditions are set.
1098	Help - Electronic Module Diag Failure
1099	Cause and Resolution when Electronic Module Diag Failure status set
1100	Electronic Module Diag Failure: SIL Diagnostics failures. Any of the following conditions can cause this failure: >1.RAM Status, >2.ROM Status, or >3.Program Flow Status Reset the device. If the problem persists replace the Electronics module . Note: Select 'Device Status - Additional Status' to see which of these conditions are set.
1101	Help - Sensor Critical Failure
1102	Cause and Resolution when Sensor Critical Failure status set
1103	Sensor Critical Failure: Failure in sensing section. Any of the following conditions can cause this failure: >1.Sensor Failure, >2.Char Table CRC Fault, >3.PV,SV,TV Bad, or >4.Program Flow Failure: If following a power cycle the failure recurs, replace the Sensor. >5.Suspect Input, >6.RAM Failure, >7.ROM Failure, or >8.Sensor RAM Database Fault: Replace the Sensor. Note: Select 'Device Status - Additional Status' to see which of these conditions are set.
1104	Help - Sensor Comm Timeout
1105	Cause and Resolution when Sensor Comm Timeout status set
1106	Sensor Comm Timeout: No response from the sensor. Replace the Electronics module. If it does not fix the problem, replace the Sensor.
1107	Help - Local Display
1108	Cause and Resolution when Local Display status set
1109	Local Display: Display not detected or configuration data has been corrupted. Any of the following conditions can cause this failure: >1.Display Comm Timeout: Secure Display connections and recheck. If problem persists, replace the Display >2.Display Database corrupt: Reset the device, user may have to reconfigure the Screens. >3.Display Common Config DB corrupt, or >4.Display Screen Config DB corrupt: Reset the Device. Note: Select 'Device Status - Additional Status' to see which of these conditions are set.
1110	Help - Comm Section Non Critical Failure
1111	Comm Section Non Critical Failure.
1112	Help - Sensing Section Non Critical Failure
1113	Cause and Resolution when Sensor Over Temperature status set
1114	Sensor Over Temperature: Sensor temperature is too high. Accuracy and life span may decrease if it remains high. Verify the environment is within spec. Take steps to insulate Sensor from temperature source.
1115	Help - Fixed Current Mode
1116	Cause and Resolution when Fixed Current Mode status set
1117	Fixed Current Mode: Output current is fixed and not varying as per input. Loop current mode is disabled or Loop Test is active. Enable loop current mode if it is disabled or exit the Loop Test mode if active.
1118	Help - PV Out of Range
1119	Cause and Resolution when PV Out of Range status set
1120	PV Out of Range: Calculated PV is above Upper Transducer Limit (UTL). Any of the following conditions can cause this failure: >1.Sensor Overload or Fault, or >2.Redundant Characterization Calculation Error. Check range and, if required, replace transmitter with one that has a wider range. Sensor may have been damaged. Check the transmitter for accuracy and linearity. Replace the Sensor and recalibrate if needed
1121	Help - No Factory Calibration
1122	Cause and Resolution when No Factory Calibration status set
1123	No Factory Calibration: Factory calibration is missing. Accuracy will be compromised. Replace the Sensor or return the device for factory calibration.
1124	Help - No DAC Compensation
1125	Cause and Resolution when No DAC Compensation status set
1126	No DAC Compensation: No temperature compensation data exists for calculations. Loop accuracy may be slightly compromised. Effect will be minor degradation of ambient temperature influence specifications. Replace the Electronics Module (PWA) to achieve the maximum current loop accuracy or return the device to factory for DAC compensation.
1127	Overall Status
1128	Device Icon
1129	Honeywell Logo
1130	STT 850 Device
1131	Write Protection
1132	STT 850 Assembly
1133	Device Assembly
1134	Wiring Diagram
1135	T/C_mV_VoltConnect
1136	Thermocouple, mV and VoltConnections
1137	RTD_OhmConnect
1138	RTD and Ohm Connections
1139	RemoteC/J_MixedSensrConnect
1140	Remote C/J and Mixed Sensors Connections
1141	DigitalO/P_mALoadConnect
1142	Digital Output Connections for mA Load
1143	DigitalO/P_PLCCountingI/PConnect
1144	Digital Output Connections for PLC Counting Input
1145	NAMUR Level
1146	PV Levls
1147	Display Format
1148	Process Monitoring
1149	Bar Chart For AO
1150	PV AO %
1151	AO Bar chart showing the percentage
1152	PV AO value
1153	--> % Value
1154	Gauge Charts
1155	The gauge charts for different parameters are shown here
1156	PV Gauge Chart
1157	SV Gauge Chart
1158	TV Gauge Chart
1159	QV Gauge Chart
1160	ET Gauge Chart
1161	PV Meter
1162	PV value is displayed in the form of analog meter
1163	PV Value
1164	--> PV Value
1165	SV Meter
1166	SV value is displayed in the form of analog meter
1167	--> SV Value
1168	TV Meter
1169	TV value is displayed in the form of analog meter
1170	--> TV Value
1171	QV Meter
1172	QV value is displayed in the form of analog meter
1173	--> QV Value
1174	ET Meter
1175	ET value is displayed in the form of analog meter
1176	--> ET Value
1177	AO Gauge Chart(mA)
1178	AO Meter
1179	Current value is displayed in the form of analog meter
1180	mA Value
1181	--> mA Value
1182	Trend Charts
1183	PV Trend
1184	Trends showing history of the actual PV reading
1185	PV LRV
1186	PV URV
1187	SV Trend
1188	Trend showing history of the actual SV reading
1189	TV Trend
1190	Trends showing history of the actual TV reading
1191	QV Trend
1192	QV trends showing history of the actual reading
1193	ET Trend
1194	AO Trend
1195	AO Value
1196	Download to Device
1197	Upload from Device
1198	Offline Configuration
1199	PV Analog Channel Saturated
1200	PV Analog Channel Fixed
1201	Wireless
1202	WirelessHART Device
1203	IEEE 802.15.4 2.4GHz DSSS with O-QPSK Modulation
1204	Primary
1205	Primary Analog Channel
1206	Secondary
1207	Secondary Analog Channel
1208	Tertiary
1209	Tertiary Analog Channel
1210	Quaternary
1211	Quaternary Analog Channel
1212	Quinary
1213	Quinary Analog Channel
1214	Lock all
1215	Trim not supported
1216	Configuration cannot be changed
1217	Locked by gateway
1218	Analog Input Channel
1219	Analog Output Channel
1220	Secondary Analog Channel Saturated
1221	Tertiary Analog Channel Saturated
1222	Quaternary Analog Channel Saturated
1223	Quinary Analog Channel Saturated
1224	Secondary Analog Channel Fixed
1225	Tertiary Analog Channel Fixed
1226	Quaternary Analog Channel Fixed
1227	Quinary Analog Channel Fixed
1228	Simulation active
1229	The device is in simulation mode and the level output is not representative of the process.
1230	Non-Volatile memory failure
1231	The Non-Volatile memory check is invalid or maybe corrupt, or the battery of a battery-backed memory has failed.
1232	Volatile memory error
1233	The RAM memory check is invalid or maybe corrupt
1234	Watchdog reset executed
1235	A watchdog reset has been performed
1236	Voltage conditions out of range
1237	A voltage condition is outside its allowable range
1238	Environmental conditions out of range
1239	An internal or environmental condition is beyond acceptable limits.
1240	Electronic failure
1241	A hardware problem not related to the sensor has been detected.
1242	Subdevice list changed
1243	Duplicate master detected
1244	Capacity Denied
1245	The device was unable to acquire the communication bandwidth required to support the Burst Messaging specified
1246	Bandwidth allocation pending
1247	Block transfer pending
1248	Battery life
1249	Percent range
1250	Loop current
1251	Primary variable
1252	Secondary variable
1253	Tertiary variable
1254	Quaternary variable
1255	Read receive time
1256	Write date and time
1257	Non-Volatile Clock
1258	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.
1259	Clock Uninitialized
1260	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.
1261	No restrictions
1262	SI Only
1263	Restricted to SI Unit codes only
1264	Process automation device
1265	Discrete device
1266	Hybrid:Process automation+discrete
1267	I/O System
1268	WirelessHART Process automation device
1269	WirelessHART Discrete device
1270	WirelessHART Process automation+discrete
1271	WirelessHART Gateway
1272	WirelessHART Access point
1273	WirelessHART Process adapter
1274	WirelessHART Discrete adapter
1275	WirelessHART enabled handheld/portable maintenance tool
1276	Device Profile
1277	US
1278	United States of America
1279	JP
1280	Japan
1281	Germany
1282	FR
1283	France
1284	ES
1285	Spain
1286	RU
1287	Russian Federation
1288	CN
1289	People's Republic of China
1290	Secondary Master
1291	Primary Master
1292	Device Diagnostic Status 0
1293	Device Diagnostic Status 1
1294	I/O and Subdevice Status
1295	WirelessHART Status
1296	Time Set Option
1297	Real Time Clock Flags
1298	Country
1299	Country of intended device installation
1300	SI Unit Control
1301	Indicates if device should only display SI unit codes
1302	Time Stamp
1303	Relative time value on network
1304	8u
1305	Dynamic Variables Returned for Device Variables
1306	Command Response Truncated
1307	Configuration Change Counter Mismatch
1308	Status bytes mismatch
1309	Device Variable
1310	Select Compensation Type
1311	Internal;Fixed
1312	Internal;External;Fixed
1313	Compensation is not valid.Please check the sensors type
1314	Please wait...
1315	The Compensation type changed to '%{cj_selection} compensation' successfully.
1316	Select RTD1 Type
1317	RTD1 type selected as '4 wire'.This will also write the 'Loop Control Mode' to 'Sensor1'. Do you want to proceed ?
1318	The RTD1 type changed to '%{rtd1_type}' successfully.
1319	Select config
1320	Disable;Enable
1321	Enter write protect password.
1322	Write protect disabled.
1323	Please ensure that the device is not in hardware/software write protect mode or locked by any master.
1324	Device Locked by other master.Please unlock and try again. Aborting...
1325	Device is in Write Protect Mode. Disable the Write Protect first and then try again
1326	Enter Old password
1327	Enter New password
1328	Password Changed Successfully
1329	Sensor time In Service is :Minutes = %{0}
1330	Sensor time In Service is : Hours = %{hours}, Minutes = %{minutes}
1331	Sensor time In Service is : Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1332	Sensor time In Service is : Months = %{months}, Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1333	Sensor time In Service is : Years = %{years}, Months = %{months}, Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1334	Sensor 1 time In Service is :Minutes = %{0}
1335	Sensor 1 time In Service is : Hours = %{hours}, Minutes = %{minutes}
1336	Sensor 1 time In Service is : Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1337	Sensor 1 time In Service is : Months = %{months}, Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1338	Sensor 1 time In Service is : Years = %{years}, Months = %{months}, Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1339	Sensor 2 time In Service is :Minutes = %{0}
1340	Sensor 2 time In Service is : Hours = %{hours}, Minutes = %{minutes}
1341	Sensor 2 time In Service is : Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1342	Sensor 2 time In Service is : Months = %{months}, Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1343	Sensor 2 time In Service is : Years = %{years}, Months = %{months}, Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1344	Method In Progress
1345	Time Since Last Event :Minutes = %{result}
1346	Time Since Last Event : Hours = %{hours}, Minutes = %{minutes}
1347	Time Since Last Event : Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1348	Time Since Last Event : Months = %{months}, Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1349	Time Since Last Event : Years = %{years}, Months = %{months}, Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1350	Time Since Last Event : Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1351	Please ensure that the device is not in hardware/software write protect mode. WARN-Loop should be removed from automatic control
1352	Please enter calibration date in MM/DD/YYYY
1353	Please enter current calibration time in 24 Hr clock format (Hour field)
1354	Time entered is not valid. Please try again.
1355	Please enter current calibration time (Minute field)
1356	Minutes entered is not valid. Please try again.
1357	About to Reset Corrects
1358	Reset Corrects in progress please wait...
1359	Device may be stuck.
1360	Sensor 1 Reset Corrects OK
1361	Apply sensor 1 LRV temperature.
1362	Press OK when temperature is stable
1363	Remove Temperature
1364	Apply Sensor 1 URV Temperature.
1365	Reset Corrects OK
1366	Apply sensor2 LRV Temperature.
1367	Apply sensor2 URV Temperature .
1368	calibration date in MM/DD/YYYY is:%{0} Calibration Time in HH:MM %{1}:%{2}
1369	calibration date in MM/DD/YYYY is:%{0} Calibration Time in HH:MM %{1}:%{2}
1370
1371	Message already cleared. Aborting...
1372	This will clear the message. Please proceed if you are sure...
1373	Message cleared successfully.
1374	Choose the Error Number
1375	Error 1;Error 2;Error 3;Error 4;Error 5;Error 6;Error 7;Error 8;Error 9;Error 10;Exit
1376	No error.
1377	DAC failure occurred %{mins} minutes ago.
1378	DAC failure occurred %{hrs} hours, %{mins} minutes ago.
1379	DAC failure occurred %{dys} days, %{hrs} hours, %{mins} minutes ago.
1380	DAC failure occurred %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1381	DAC failure occurred %{yrs} years, %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1382	Wrong Time Stamp.
1383	Factory Calibration Corruption occurred %{mins} minutes ago.
1384	Factory Calibration Corruption occurred %{hrs} hours, %{mins} minutes ago.
1385	Factory Calibration Corruption occurred %{dys} days, %{hrs} hours, %{mins} minutes ago.
1386	Factory Calibration Corruption occurred %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1387	Factory Calibration Corruption occurred %{yrs} years, %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1388	User Configuration Corruption occurred %{mins} minutes ago.
1389	User Configuration Corruption occurred %{hrs} hours, %{mins} minutes ago.
1390	User Configuration Corruption occurred %{dys} days, %{hrs} hours, %{mins} minutes ago.
1391	User Configuration Corruption occurred %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1392	User Configuration Corruption occurred %{yrs} years, %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1393	COMM section failure occurred%{mins} minutes ago.
1394	COMM section failure occurred %{hrs} hours, %{mins} minutes ago.
1395	COMM section failure occurred %{dys} days, %{hrs} hours, %{mins} minutes ago.
1396	COMM section failure occurred%{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1397	COMM section failure occurred %{yrs} years, %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1398	Sensing section failure occurred%{mins} minutes ago.
1399	Sensing section failure occurred %{hrs} hours, %{mins} minutes ago.
1400	Sensing section failure occurred %{dys} days, %{hrs} hours, %{mins} minutes ago.
1401	Sensing section failure occurred%{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1402	Sensing section failure occurred %{yrs} years, %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1403	Sensor communication timeout occurred%{mins} minutes ago.
1404	Sensor communication timeout occurred %{hrs} hours, %{mins} minutes ago.
1405	Sensor communication timeout occurred %{dys} days, %{hrs} hours, %{mins} minutes ago.
1406	Sensor communication timeout occurred%{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1407	Sensor communication timeout occurred %{yrs} years, %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1408	Excess Delta Critical occurred %{mins} minutes ago.
1409	Excess Delta Critical occurred %{hrs} hours, %{mins} minutes ago.
1410	Excess Delta Critical occurred %{dys} days, %{hrs} hours, %{mins} minutes ago.
1411	Excess Delta Critical occurred %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1412	Excess Delta Critical occurred %{yrs} years, %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1413	INFO : Excess Delta Cleared occurred %{mins} minutes ago.
1414	INFO : Excess Delta Cleared occurred %{hrs} hours, %{mins} minutes ago.
1415	INFO : Excess Delta Cleared occurred %{dys} days, %{hrs} hours, %{mins} minutes ago.
1416	INFO : Excess Delta Cleared occurred %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1417	INFO : Excess Delta Cleared occurred %{yrs} years, %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1418	Display critical error occurred %{mins} minutes ago.
1419	Display critical error occurred %{hrs} hours, %{mins} minutes ago.
1420	Display critical error occurred %{dys} days, %{hrs} hours, %{mins} minutes ago.
1421	Display critical error occurred %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1422	Display critical error occurred %{yrs} years, %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1423	Watchdog Reset occurred %{mins} minutes ago.
1424	Watchdog Reset occurred %{hrs} hours, %{mins} minutes ago.
1425	Watchdog Reset occurred %{dys} days, %{hrs} hours, %{mins} minutes ago.
1426	Watchdog Reset occurred %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1427	Watchdog Reset occurred %{yrs} years, %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1428	Cold restart occurred %{mins} minutes ago.
1429	Cold restart occurred %{hrs} hours, %{mins} minutes ago.
1430	Cold restart occurred %{dys} days, %{hrs} hours, %{mins} minutes ago.
1431	Cold restart occurred %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1432	Cold restart occurred %{yrs} years, %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1433	Communication board non critical error occurred %{mins} minutes ago.
1434	Communication board non critical error occurred %{hrs} hours, %{mins} minutes ago.
1435	Communication board non critical error occurred %{dys} days, %{hrs} hours, %{mins} minutes ago.
1436	Communication board non critical error occurred %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1437	Communication board non critical error occurred %{yrs} years, %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1438	Sensing section non critical error occurred %{mins} minutes ago.
1439	Sensing section non critical error occurred %{hrs} hours, %{mins} minutes ago.
1440	Sensing section non critical error error occurred %{dys} days, %{hrs} hours, %{mins} minutes ago.
1441	Sensing section non critical error occurred %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1442	Sensing section non critical error occurred %{yrs} years, %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1443	Sensor1 input open occurred %{mins} minutes ago.
1444	Sensor1 input open occurred %{hrs} hours, %{mins} minutes ago.
1445	Sensor1 input open occurred %{dys} days, %{hrs} hours, %{mins} minutes ago.
1446	Sensor1 input open occurred %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1447	Sensor1 input open occurred %{yrs} years, %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1448	Sensor2 input open occurred %{mins} minutes ago.
1449	Sensor2 input open occurred %{hrs} hours, %{mins} minutes ago.
1450	Sensor2 input open occurred %{dys} days, %{hrs} hours, %{mins} minutes ago.
1451	Sensor2 input open occurred %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1452	Sensor2 input open occurred %{yrs} years, %{mnths} months, %{dys} days, %{hrs} hours, %{mins} minutes ago.
1453	Error description not available or Invalid error
1454	Please ensure that the display is connected to the device, settings menu is not accessed and device is not write protected or locked by any master. Proceed only if this care is taken. Do not remove the display from unit or manually enter in display settings using display keys until this configuration completes.
1455	Locked for writing by one of the masters. Please unlock and try again. Aborting...
1456	No Display connected. Aborting...
1457	Select the screen to be configured
1458	Reading current configuration of %{screen_number}...
1459	Select the Screen Format
1460	Enter value for Chart Low Limit
1461	Invalid entry. Allowed range is -100000000 to 100000000. Please try again.
1462	Enter value for Chart High Limit
1463	High limit can not be less than or equal to low limit. Please try again.
1464	Enter value of Trend duration (1-999)
1465	Aborting due to last error. Please try again...
1466	Downloading your screen configuration. This may take upto 30 seconds. Please wait...
1467	This completes the configuration of the %{screen_number}.
1468	Enter value of PV Selection
1469	CJ Temperature;Sensor 1;Sensor 1 Resistance;Loop Output(mA);Percent Output
1470	Loop PV;CJ Temperature;Sensor 1;Sensor 1 Resistance;Loop Output(mA);Percent Output
1471	Loop PV;CJ Temperature;Sensor 2;Sensor 2 Resistance;Loop Output(mA);Percent Output
1472	Loop PV;CJ Temperature;Sensor 1;Sensor 2;Sensor Delta;Sensor 1 Resistance;Sensor 2 Resistance;Loop Output(mA);Percent Output
1473	Enter Engineering Units
1474	ohm
1475	°C;°F;°R;K
1476	Select number of Decimals
1477	Enter Custom Tag (14 chars)
1478	This completes the Basic screen configuration.
1479	ET upper limit for stress condition: %{ET_up_limit_stress} DegC
1480	ET upper limit for stress condition: %{ET_up_limit_stress} DegF
1481	ET upper limit for stress condition: %{ET_up_limit_stress} DegR
1482	ET upper limit for stress condition: %{ET_up_limit_stress} Kelvin
1483	ET lower limit for stress condition: %{ET_low_limit_stress} DegC
1484	ET lower limit for stress condition: %{ET_low_limit_stress} DegF
1485	ET lower limit for stress condition: %{ET_low_limit_stress} DegR
1486	ET lower limit for stress condition: %{ET_low_limit_stress} Kelvin
1487	Time Since Last Event : Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1488	Time Since Last Event : Years = %{years}, Months = %{months}, Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1489	About to reset Operating Voltage parameters
1490	Method In Progress Please wait...
1491	Operating Voltage parameters is reset.
1492	Time Since Last Event : Months = %{months}, Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1493	-WARNING- Pressing OK will reset error-logging data.
1494	Error Log is reset.
1495	Enter Sensor 1 Type
1496	Enter Sensor1 ID
1497	Enter Sensor 2 Type
1498	Enter Sensor2 ID
1499	Enter Sensor1 TC ID
1500	Enter Sensor2 RTD ID
1501	Enter Sensor1 RTD ID
1502	Enter Sensor2 TC ID
1503	Sensor type and ID changed
1504	Currently the Loop Control Mode is %{loop_control_choice}.Do you want to change it?
1505	Transmitter is 'Single input' type. So loop control mode can't be modified.Aborting..
1506	Select Loop Control Mode
1507	Loop Control Mode changed to %{loop_control_choice} successfully.
1508	Please ensure that the device is not in hardware/software write protect mode.
1509	Select Tamper Mode
1510	Enter Tamper Latency (0-60 sec)
1511	Incorrect value entered. Aborting...
1512	Enter Max allowable attempts for enabling tamper alarm
1513	Tamper alarm counter reset successfully.
1514	Select the screen of which data is to be displayed:
1515	Screen 1;Screen 2;Screen 3;Screen 4;Screen 5;Screen 6;Screen 7;Screen 8
1516	Lowest value %{loc_lwst_val} %{5} occured %{lo_val_tm_stmp} minutes ago.
1517	Lowest value %{loc_lwst_val} %{5} occured %{hours} hours and %{minutes} minutes ago.
1518	Lowest value %{loc_lwst_val} %{5} occured %{days} days, %{hours} hours and %{minutes} minutes ago.
1519	Lowest value %{loc_lwst_val} %{5} occured %{months} months, %{days} days, %{hours} hours and %{minutes} minutes ago.
1520	Lowest value %{loc_lwst_val} %{5} occured %{years} years, %{months} months, %{days} days, %{hours} hours and %{minutes} minutes ago.
1521	Highest value %{loc_hist_val} %{5} occured %{hi_val_tm_stmp} minutes ago.
1522	Highest value %{loc_hist_val} %{5} occured %{hours} hours and %{minutes} minutes ago.
1523	Highest value %{loc_hist_val} %{5} occured %{days} days, %{hours} hours and %{minutes} minutes ago.
1524	Highest value %{loc_hist_val} %{5} occured %{months} months, %{days} days, %{hours} hours and %{minutes} minutes ago.
1525	Highest value %{loc_hist_val} %{5} occured %{years} years, %{months} months, %{days} days, %{hours} hours and %{minutes} minutes ago.
1526	Lowest value %{loc_lwst_val} %{5} occured %{lo_val_tm_stmp} minutes ago.
1527	Lowest value %{loc_lwst_val} %{5} occured %{hours} hours and %{minutes} minutes ago.
1528	Lowest value %{loc_lwst_val} %{5} occured %{days} days, %{hours} hours and %{minutes} minutes ago.
1529	Lowest value %{loc_lwst_val} %{5} occured %{months} months, %{days} days, %{hours} hours and %{minutes} minutes ago.
1530	Lowest value %{loc_lwst_val} %{5} occured %{years} years, %{months} months, %{days} days, %{hours} hours and %{minutes} minutes ago.
1531	Highest value %{loc_hist_val} %{5} occured %{hours} hours and %{minutes} minutes ago.
1532	Enter high alarm crossing limit value in %{0}
1533	Enter low alarm crossing limit value in %{0}
1534	Invalid low alarm value
1535	Choose the Reset option
1536	Reset All;Reset High Value;Reset Low Value;Reset High Alarm Count;Reset Low Alarm Count
1537	PV Tracking Values are reset.
1538	CJ Tracking Values are reset.
1539	This will Acknowledge the Latch. Please proceed if you are sure...
1540	Latch is Acknowledged.
1541	%{0}%{1}%{2}%{3}%{4}
1542	Choose the Configuration History Number
1543	No record found for %{conf_histoy_code}
1544	Configuration History for %{conf_histoy_code} is given below: %{DB_ID}: %{hist_val_UINT1_1enum}
1545	Configuration History for %{conf_histoy_code} is given below: %{DB_ID}: %{hist_val_UINT1_1}
1546	Configuration History for %{conf_histoy_code} is given below: 1. Poll Address: %{hist_val_UINT1_1} 2. Loop Current Mode: %{hist_val_UINT1_3}
1547	Configuration History for %{conf_histoy_code} is given below: 1. Tag %{hist_val_TAG} 2. Descriptor: %{hist_val_DESC} 3. Date (mm/dd/yyyy): %{hist_val_DATE}
1548	Configuration History for %{conf_histoy_code} is given below: . Tag %{hist_val_TAG}
1549	Configuration History for %{conf_histoy_code} is given below: %{DB_ID}: %{hist_val_FLOAT}
1550	Configuration History for %{conf_histoy_code} is given below: %{DB_ID}: %{hist_val_STR32}
1551	Configuration History for %{conf_histoy_code} is given below: %{DB_ID}: %{hist_val_MSG}
1552	Configuration History for %{conf_histoy_code} is given below: %{DB_ID}: %{hist_val_FA}
1553	Configuration History for %{conf_histoy_code} is given below: %{DB_ID}: XXXX
1554	Configuration History for %{conf_histoy_code} is given below: 1. %{DB_ID}: %{hist_val_UINT1_1enum} 2. Tamper Latency: %{hist_val_UINT1_2} 3. Max allowable attempts: %{hist_val_UINT1_4}
1555	Configuration History for %{conf_histoy_code} is given below: 1.Loop Control Mode: %{hist_val_LCM} 2. Excess Delta Detect: %{hist_val_XSDELTA} 3. URV : %{hist_val_URV} 4. LRV : %{hist_val_LRV} 5. MRV : %{hist_val_MRV} 6.Delta Limit : %{hist_val_DELTAL}
1556	Configuration History for %{conf_histoy_code} is given below: 1. URV : %{hist_val_URV} 2. LRV : %{hist_val_LRV} 3. MRV : %{hist_val_MRV} 4. Delta Limit : %{hist_val_DELTAL}
Reference ID	String