Device dictionary

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Reference ID	String
0	Write Common Display Settings
1	Set Display Write Error Flag
2	ErrorFlag
3	reserved
4	Read Var Assignment
5	Write Display
6	Device Settings
7	Operate
8	Fault history
9	Diagnostics
10	Maintenance
11	Process Variables
12	Additional Status
13	Additional Status details that indicate the cause for Critical and/or Non-critical status
14	Status Details
15	Get Overall Device Status
16	Overall Health Status according to NAMUR NE 107 reccomendation
17	Upgrade Options
18	This is used to activate optional firmware features in SmartLine devices that have already been shipped to customers
19	Plugged Impulse Line Detection (PILD)
20	PILD
21	Plugged Impulse Line Detection (PILD) Status
22	Device Status
23	Global Access
24	Device Reset, Lock/unlock and Loop test access
25	Write Protect settings
26	Write Protect graphical view
27	Current, Last, Previous Correction Records
28	Current URV, LRV, Zero Trim
29	Correction done on URV, LRV, Zero trim currently
30	Last URV, LRV, Zero Trim
31	Correction done on URV, LRV, Zero trim last time
32	Previous URV, LRV, Zero trim
33	Correction done on URV, LRV, Zero trim previously
34	Reset Correction Records
35	Current, Last and Previous Reset Corrections
36	Filter Performance Selection
37	Calibration Methods
38	Lists and allows you to calibrate the transmitter
39	Non-Critical Faults
40	None
41	Critical Faults
42	Config History
43	4-20mA Output
44	PV Ranges/Limits
45	Ranges/Limits Graphical View
46	Key Parameters
47	Device Info
48	General
49	Software Details
50	Manufacturing
51	Meter Body Details
52	Details of the Meter Body options selected by the user from the Model Selection Guide
53	Differential Pressure (PV)
54	Meter Body Temperature (SV)
55	Output Condition
56	4-20mA dc Output and failsafe levels
57	Configuration Summary
58	Summary of all the configuration parameters.
59	Process Values
60	Display Setup
61	Services
62	Calibration Settings
63	Transfer Function and cutoff mode
64	Meterbody Selections
65	Material
66	Installation and Device Life
67	Shows the device life related parameters
68	Power Cycle diagnostics
69	Power Cycle
70	Electronics Temperature (ET) Tracking
71	Parameters & Methods
72	Operating Voltage
73	PV Tracking
74
75	SV Tracking
76	TV Tracking
77	Sensor CPU Temp. Tracking
78	Sensor supply voltage (AVDD) Tracking
79	Trend Charts
80	PV Trend
81	SV Trend
82	TV Trend
83	ET Trend
84	AO Trend
85	Display Installation detail
86	Screen Configuration
87	Screen configuration parameters for Simple display
88	Offline
89	The offline parameter can be downloaded only if the Display is connected to the device.
90	Selection of Standard or Fast Speed of Response (SOR)
91	GetHealthStatus
92	HealthStatus Variable
93	This variable is used to test GetHealthStatus method
94	Honeywell
95	Device Type
96	ST 800
97	Disabled
98	Enabled
99	This is a message that will be displayed on the LCD panel (local display) of the transmitter (Max 24 chars, uppercase only).
100	Critical Status
101	Electronics Module DAC Failure
102	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.
103	Meter Body NVM Corrupt
104	NVM data is bad. If following a power cycle the failure recurs, then replace the Meter Body.
105	Config Data Corrupt
106	Config data is bad. Any of the following conditions can cause this failure: 1. Common DB Corrupt 2. Vital DB Corrupt 3. Geneal DB Corrupt Power cycle the device. If the problem persists, replace the Electronics Module.
107	Electronics Module Diag Failure
108	SIL Diagnostics failures. Any of the following conditions can cause this failure: 1. RAM failure 2. ROM failure 3. Program Flow failure Reset the device. If the problem persists, replace the Electronics module.
109	Meter Body Critical Failure
110	Failure in sensing section. Any of the following conditions can cause this failure: 1. Meter Body Failure 2. Char Table CRC Fault 3. PV,SV,TV Bad 4. Program Flow Failure If following a power cycle the failure recurs, replace the Meter Body. 5. Suspect Input 6. RAM Failure 7. ROM Failure 8. Sensor RAM Database Fault Replace the Meter Body.
111	Sensor Comm Timeout
112	No response from the Sensor. Replace the Electronics module. If it does not fix the problem, replace the Meter Body.
113	Non-Critical Status
114	Local Display
115	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.
116	Electronics Module Comm Failure
117	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.
118	Meter Body Excess Correct
119	Failure in sensing section. Any of the following conditions can cause this failure: 1. Excess zero correct: ZERO correction factor is outside acceptable limits. Could be that INPUT was incorrect or transmitter was in output mode during a CORRECT procedure. a. Check input pressure and be sure that it matches calibrated range value b. Check Meter Mody c. Do an LRV CORRECT procedure 2. Excess Span correct: SPAN correction factor is outside acceptable limits. Could be that transmitter was in output mode a. Check input pressure and be sure that it matches calibrated range value b. Check Meter Body c. Do a URV CORRECT procedure.
120	Sensor Over Temperature
121	Meter Body temperature is too high. Accuracy and life span may decrease if it remains high. Verify the environment is within spec. Take steps to insulate Meter Body from temperature source.
122	Fixed Current Mode
123	Output current is fixed and not varying as per input, or 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 it is active.
124	PV Out of Range
125	Calculated pressure is above Upper Transducer Limit (UTL). Any of the following conditions can cause this failure: 1. Sensor Overload or Fault 2. Redundant Characterization Calculation Error Check range and, if required, replace the transmitter with the one that has a wider range. 3. Meter Body may have been damaged. Check the transmitter for accuracy and linearity. Replace the Meter Body and recalibrate if needed.
126	No Factory Calibration
127	Factory calibration is missing. Accuracy will be compromised Replace the Meter Body or return the device for factory calibration.
128	No DAC Compensation
129	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.
130	LRV Set Err. Zero Config Button
131	Set operation using external Zero button was rejected. Verify the inputs are valid for the intended operation.
132	URV Set Err. Span Config Button
133	Set operation using external Span Config Button was rejected. Verify the inputs are valid for the intended operation.
134	AO Out of Range
135	Calculated Analog output is either above or below the specified Loop Current Limits due to the transmitter input not being within the specified range. Check the transmitter input.
136	Loop Current Noise
137	Under or over-current condition. If this condition is observed frequently, it could be an early indication of critical 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.
138	Meter Body Unreliable Comm
139	Unreliable sensor communication. Either the transmitter is installed in a noisy environment or internal communication quality between the Electronics Module and Sensor is degrading. Check if the transmitter environment settings are within specification limits. If the environment is within spec, call a service person.
140	Tamper Alarm
141	Outside attempts to change the device configuration exceeded the Tamper attempt limit (Attempt Counter) when Tamper Mode is enabled and Write Protect mode is Enabled/Disabled.
142	Low Supply Voltage
143	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: 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 Meter Body.
144	PILD Blockage Detected.
145	PILD blockage detected Clean out the impulse lines.
146	The digital value for the Primary Variable which represents the 20mA output on the 4-20mA Loop Current. Please ensure that the value entered is within the upper and lower limits for the current Primary Variable.
147	.4g
148	The digital value for the Primary Variable which represents the 4mA output on the 4-20mA Loop Current. Please ensure that the value entered is within the upper and lower limits for the current Primary Variable.
149	3.2f
150	6.3f
151	8.5f
152	Measurement Type - Type of measurement application this Field Device is intended to be used with.
153	Meter Body Type
154	DP
155	AP
156	GP
157	Meter Body Serial Number - Uniquely identifies the sensor from which the Digital Value representation or Field Device variable is primarily derived. PV Sensor- Pressure hardware that measures pressure with respect to a reference pressure.
158	Meter Body S/N
159	8u
160	Units
161	UTL
162	LTL
163	PV Damping
164	Meter Body Serial Number
165	PV Unit - Engineering unit to be displayed with the Digital Value representation, Minimum Span, Upper Range Value, Lower Range Value, Lower Sensor Limit, and Upper Sensor Limit. PV - Pressure of the process measured with respect to a reference pressure.
166	Field Device Variable Value- Digital value that changes magnitude with respect to time with no user intervention. Pressure- Pressure of the process measured with respect to a reference pressure.
167	Primary Variable (PV)
168	Minimum Span Value- Defines the smallest allowable difference between the Upper Range Value and the Lower Range Value. PV - Pressure of the process measured with respect to a reference pressure.
169	.2f
170	Sensor Upper Range Limit Value- Defines the maximum usable value for the Upper Range Value. PV - Pressure of the process measured with respect to a reference pressure.
171	PV URL
172	Sensor Lower Range Limit Value - Defines the minimum usable value for the Lower Range Value. PV - Pressure of the process measured with respect to a reference pressure.
173	PV LRL
174	This allows filtering to be applied to the digital and analog representation of the Primary Variable. The damping value represents one time constant (i.e. response to step input reaches 63% of final steady-state value after time specified has elapsed) as per the HART specification. This damping is applied to both the digital Primary Variable as well as the analog Loop Current.
175	PV Damping [sec]
176	5.2f
177	Set LRV and URV
178	SET the LRV and URV to the exact process inputs that correlate to the desired 0% (4 ma) and 100% (20 ma) output levels.
179	Zero Trim
180	Lock/Unlock Device
181	DAC Failure
182	Loop Voltage Low
183	Incorrect supply voltage. Check the power supply and loop resistance are within spec. If they are then replace the Electronics Module.
184	Temp Above 100C
185	The board temperature is high. Verify the environment is within spec. If it is, then replace Electronics Module.
186	Temp Above 140C
187	Under Current Status
188	Reset the device. If problem persist, replace the Electronics Module.
189	Over Current Status
190	Packet Error
191	Reset the device.
192	SPI Failure
193	Communication
194	RAM Status
195	SIL diagnostic failure. Reset the device. If problem persist, replace the Electronics module.
196	ROM Status
197	Program Flow Status
198	Comm. section stack overflow
199	Stack overflow occurs in comm. section stack.
200	Vital config RAM corrupt
201	Vital RAM CRC failure occurs.
202	Display
203	Display Comm Timeout
204	Commuincation between the Elecronics Module and Display has failed. Secure Display connections and recheck. If problem persists, replace the Display.
205	Display Config Data Corrupt
206	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.
207	DAC Info
208	Control Word Write Fault
209	Low Transmitter supply
210	Incorrect supply voltage.Check the power supply and loop resistance are within spec. If they are, then replace the Electronics Module.
211	Sensor
212	Low sensor supply
213	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 Meter Body.
214	Meter Body Failure
215	If following a power cycle the failure recurs, then replace the Meter Body
216	Char Table CRC Fault
217	PV, SV, TV Bad
218	Suspect Input
219	Replace the Meter Body.
220	RAM Failure
221	ROM Failure
222	Program Flow Failure
223	If following a power cycle the failure recurs, then replace the Meter Body.
224	Excess Zero Correction
225	ZERO correction factor is outside acceptable limits. Could be that INPUT was incorrect or transmitter was in output mode during a CORRECT procedure. Check input pressure and be sure that it matches calibrated range value. Check Meter Mody. Do an LRV CORRECT procedure.
226	Excess Span Correction
227	SPAN correction factor is outside acceptable limits. Could be that transmitter was in output mode. Check input pressure and be sure that it matches calibrated range value. Check Meter Body. Do a URV CORRECT procedure.
228	Characterization Calc Error
229	Characterization Calculation Error
230	PV Bad
231	If following a power cycle the flow failure recurs, then replace the Meterbody
232	SV Bad
233	TV Bad
234	Calculated pressure is above Upper Transducer Limit(UTL). Check Range and, if required, replace transmitter with one that has wider range. Meter Body may have been damaged. Check the transmitter for accuracy and linearity. Replace Meter Body and recalibrate, if needed.
235	Sensor RAM Database Fault
236	Replace the Meter Body
237	Database Integrity
238	Common DB Corrupt
239	Common database found corrupt. Reset the device.
240	Vital Config DB Corrupt
241	Vital configuration database found corrupt. Reset the device.
242	General Config DB Corrupt
243	General configuration database found corrupt. Reset the device.
244	Config Change DB Corrupt
245	Configuration Change database found corrupt. Reset the device.
246	Adv Diag DB Corrupt
247	Advanced diagnostics database found corrupt. Reset the device.
248	Display Screen Config DB Corrupt
249	Display Screen configuration database found corrupt. Reset the device.
250	Display Common Config DB Corrupt
251	Display common configuration database found corrupt. Reset the device.
252	Display Integrity
253	Display Screen 1 Corrupt
254	Display Screen 2 Corrupt
255	Display Screen 3 Corrupt
256	Display Screen 4 Corrupt
257	Display Screen 5 Corrupt
258	Display Screen 6 Corrupt
259	Display Screen 7 Corrupt
260	Display Screen 8 Corrupt
261	ADC0 fault
262	ADC0 fault.
263	ADC1 fault
264	ADC1 fault.
265	ADC reference fault
266	ADC reference fault
267	TB over current
268	If TB over current limit exceeded.
269	Display over current
270	If display over current limit exceeded.
271	Sensor over current
272	If sensor over current limit exceeded.
273	Stack Overflow
274	Cyclic task stack overflow
275	If stack overflow occured in cyclic task.
276	HART task stack overflow
277	If stack overflow occured in HART task.
278	Acyclic task stack overflow
279	If stack overflow occured in acyclic task.
280	DE task stack overflow
281	If stack overflow occured in DE task.
282	AO task stack overflow
283	If stack overflow occured in AO task.
284	Self task stack overflow
285	If stack overflow occured in self task.
286	HMI task stack overflow
287	If stack overflow occured in HMI task.
288	Interrupt task stack overflow
289	If stack overflow occured in interrupt task.
290	Defines the highest acceptable value for the Transducer. UTL = 2URL if DP type. UTL = 1.5URL if AP or GP type. SPAN cannot be greater than UTL. Engineering Unit for UTL and URL are the same as PV Unit)
291	Defines the lowest acceptable value for the Transducer. LTL = -2*URL if DP type. LTL = 0 if AP or GP type. SPAN cannot be greater than UTL. Engineering Unit for UTL and URL are the same as PV Unit
292	TV (Static Pressure) Unit - Engineering unit to be displayed with the Digital Value representation
293	Bad
294	Manual / Fixed
295	Poor Accuracy
296	Good
297	Not Limited
298	Low Limited
299	High Limited
300	Constant
301	More Device Family Status Available
302	7d
303	Meter Body ID - Gives the Meter Body bar code
304	Meter Body ID
305	Display Installed
306	Indicates if the Local Display is installed in the device or not
307	Yes
308	No
309	Secondary Variable Units - Sensor temperature engineering units
310	Meter Body Temperature Value or Secondary Variable (SV)
311	Secondary Variable (SV)
312	Tertiary Variable (TV)
313	Allows disabling Write Protect and changing the password
314	Write Protect Password
315	Allows to enter new password
316	New write Protect Password
317	Allows to enter reset password code
318	Reset Password code
319	Cal A URV
320	URV during factory A calibration
321	in H2O
322	6.2f
323	Cal B URV
324	URV during factory B calibration
325	Cal C URV
326	URV during factory C calibration
327	Cal A LRV
328	LRV during factory A calibration
329	Cal B LRV
330	LRV during factory B calibration
331	Cal C LRV
332	LRV during factory C calibration
333	Calibration Selection
334	Allows user to select one of the available Calibration options when CAL A&B or CAL A,B&C are available. When only CAL A option is available in the device, default factory calibration range is active in the device. When CAL B and/or C is available, then the user can select the desired Calibration option: CAL A, B or C.
335	Cal A
336	Cal B
337	Cal C
338	Auto Select
339	Active Calibration
340	Actual Calibration used by the sensor: CAL A, CAL B or CAL C. When only CAL A option is available in the device, default factory calibration range is active in the device. When CAL B and/or C is available, then the user selected Calibration option is the current active calibration. Range is CAL A, CAL B or CAL C.
341	Factory Cal Available
342	Indicates the available calibration options: CAL A, CAL A&B or CAL A,B&C. Each of the options have calibrations done on different ranges.
343	Cal A&B
344	Cal A,B&C
345	Allows disabling Write protect and changing the password
346	Write Protect Status
347	Diasable
348	Enable
349	Read
350	Change the Password
351	Reset the Password
352	Write protect disable/change password
353	Write Protect Edit
354	Transfer Function
355	4mA current value
356	20mA current value
357	Damping
358	Poll Addr
359	mA Mode
360	NAMUR
361	PV Unit
362	SV Unit
363	Low Flow Cutoff Breakpoint
364	Low Flow Cutoff Mode
365	Lock Device
366	Assy Num
367	Software WP
368	WP Password
369	Tag
370	Message
371	Long Tag
372	Tamper Mode
373	Display Contrast
374	Standard Display View1 Pressure Unit
375	Standard Display Menu Selection
376	No Record
377	Value of the requested parameter from configuration history
378	Config History Parameter
379	HART
380	DE
381	Linear
382	Square Root
383	User Config
384	Dual Slope
385	Disable
386	Disables the Tamper Mode
387	Enables the Tamper Mode
388	Standard
389	Display menu is selected as Standard
390	Extended
391	Display menu is selected as Extended
392	Error
393	InH2O
394	inches_of_water_68_degrees_F_help
395	InHg
396	inches_of_mercury_0_degrees_C_help
397	FtH2O
398	feet_of_water_68_degrees_F_help
399	mmH2O
400	millimeters_of_water_68_degrees_F_help
401	mmHg
402	millimeters_of_mercury_0_degrees_C_help
403	psi
404	pounds_per_square_inch_help
405	bar
406	bars_help
407	mbar
408	millibars_help
409	g_SqCm
410	grams_per_square_centimeter_help
411	kg_SqCm
412	kilograms_per_square_centimeter_help
413	PA
414	pascals_help
415	kPA
416	kilopascals_help
417	torr
418	torr_help
419	ATM
420	atmospheres_help
421	in_H2O_60_degrees_F
422	inches_of_water_60_degrees_F_help
423	mega_pascals
424	megapascals_help
425	in_H2O_4_degrees_C
426	inches_of_water_4_degrees_C_help
427	mm_H2O_4_degrees_C
428	millimeters_of_water_4_degrees_C_help
429	cmH2O @4degC
430	centimeters_of_water_4_degrees_C
431	mH2O @4degC
432	meters_of_water_4_degrees_C
433	m3/hr
434	L/sec
435	lgal/hr
436	%
437	kg/hr
438	MT/hr
439	CFH
440	bbl/hr
441	gal/hr
442	L/hr
443	SCFH
444	Pressure
445	Percentage Output
446	Loop Output
447	Flow
448	Config history parameter
449	Assy #
450	Allows to diasable/change the write protect password
451	Configuration History Code
452	First History Parameter
453	Second History Parameter
454	Third History Parameter
455	Fourth History Parameter
456	Fifth History Parameter
457	Exit
458	Key#1
459	S
460	Key#2
461	T
462	Transmitter Type
463	Key#4
464	8
465	7
466	Key#5
467	0
468	1
469	2
470	3
471	4
472	5
473	6
474	9
475	Key#6
476	L
477	Key#7
478
479	-
480	C
481	c
482	Barrier Diaphragm
483	316L Stainless Steel
484	Hastelloy® C-276
485	Monel® 400
486	Tantalum
487	Gold Plated Stainless Steel
488	Gold Plated Hastelloy C-276
489	Gold Plated Monel 400
490	Flange Type & Material
491	Without process flange(Mount with manifold)
492	Coplanar flange - 316/316L SST
493	Coplanar flange - HastelloyC - 276
494	Coplanar flange - Monel 400
495	Traditional flange - 316/316L SST
496	Traditional flange - Hastelloy C - 276
497	Traditional flange - Monel 400
498	Fill Fluid
499	Silicone Oil 200
500	Fluorinated Oil CTFE
501	Process Connection-Size/Type
502	1/4' NPT female
503	1/2' NPT female
504	Process Connection-Material
505	Standard with process flange
506	With Adaptor,Materials to Match process flange
507	Bolt Materials
508	Carbon Steel
509	316 SS
510	Grade 660 (NACE A286)
511	Vent/Drain Process Flange Type
512	Coplanar without process flange
513	Coplanar Process flange/Dual Ended Traditional flange
514	Coplanar/Single Ended Traditional flange
515	Vent Location/Type/Plug Material
516	Side/End,Standard Vent,Match Process Flange
517	Side/End,Center Vent,Stainless Steel Only
518	Side/End,Plug Only,Match Process Flange
519	Blind/Blind,None
520	Gasket Materials
521	Teflon or PTFE (Glass Filled)
522	Static Pressure
523	Normal Static Pressure - 1500 psig (105 bar)
524	Medium Static Pressure - 3625 psig (250 bar) except STD810C: 50 psi (3.5 bar)
525	Standard Static Pressure - 4500 psig (310 bar) except STD810C: 50 psi (3.5 bar)
526	High Pressure 6000 psi (415 bar)
527	Hastelloy C-276
528	Monel 400
529	Gold Plated 316L SS
530	Process Head Material
531	Reference Head Material applicable only for AP and GP type meter bodies
532	Plated Carbon Steel
533	316 Stainless Steel
534	Silicone Oil DC-200
535	Silicone Oil
536	Silicone Oil DC704
537	Neobee M-20
538	9/16' Aminco
539	1/2' NPT (male)
540	1/2' NPT (female)
541	DIN 19213 (1/4' female NPT)
542	None (1/4' NPTF female thread Std)
543	Materials to Match Head & Head Bolt Materials Selections
544	Same as Process Head
545	Grade 660 (NACE A286) with NACE 304 SS Nuts
546	Grade 660 (NACE A286) Bolts & Nuts
547	Monel K500
548	Super Duplex
549	B7M
550	Vent/Drain Location
551	Side w/Vent
552	Side w/Center Vent
553	End w/Vent
554	End w/Center Vent
555	Side w/ Vent & End w/Plug
556	Head Type
557	Single Ended
558	Dual Ended
559	Vent Material
560	Matches Head Material
561	Stainless Steel Only
562	Teflon® or PTFE (Glass Filled)
563	Viton® or Fluorocarbon Elastomer
564	Viton®
565	Graphite
566	Standard Static Pressure-4500 psig(315 bar) except STD610:50 psi(3.5 bar)
567	High Pressure 6000 psi
568	Standard Static Pressure - 4500 psig (310 bar) except STD810C: 50 psi (3.5 bar)
569	Table I Information
570	Key number selection
571	Table II Information
572	Table III Information
573	Table IV Information
574	Allows selecting User configurable single Breakpoint mode or Dual slope mode. When 'User configurable' option is selected it allows the user to specify a single breakpoint as the low flow cutoff point. When 'Dual Slope' is selected, device uses a dual slope formula to determine the low flow cutoff point.When 'Zero Flow' is selected,it sets analog output to 4mA when square root / flow is below user defined flow cutoff value.
575	Zero Flow
576	Low Flow Cutoff Brkpt(User Config)
577	User specified single breakpoint as the low flow cutoff point when the Transfer Function is set to Square Root and Low flow cutoff mode is 'User configurable' or 'Zero Flow'. Range is 0 to 25.0 %Flow.
578	Square-Root Flow Value
579	Square-root flow value of Low flow cutoff method-2
580	Install Date
581	Transmitter installation date in MM/DD/YYYY format.This is one time writable parameter.
582	Time In Operation
583	Gives the total time of the device being operational
584	Sensor Time In Operation
585	Gives the total time of the sensor being operational
586	Date Of Current URV Correct
587	Date of current URV correct
588	Date of last URV correct
589	Date Of Last URV Correct
590	Date Of Previous URV Correct
591	Date of previous URV correct
592	Timestamp (hours) Of Current URV Correct
593	Timestamp (hours) of current URV correct
594	Timestamp (hours) Of Last URV Correct
595	Timestamp (hours) of last URV correct
596	Timestamp (hours) Of Previous URV Correct
597	Timestamp (hours) of previous URV correct
598	Timestamp (minutes) Of Current URV Correct
599	Timestamp (minutes) of current URV correct
600	Timestamp (minutes) Of Last URV Correct
601	Timestamp (minutes) of last URV correct
602	Timestamp (minutes) Of Previous URV Correct
603	Timestamp (minutes) of previous URV correct
604	Timestamp (seconds) Of Last URV Correct
605	Timestamp (seconds) of last URV correct
606	Timestamp (seconds) Of Previous URV Correct
607	Timestamp (seconds) of previous URV correct
608	Date Of Current LRV Correct
609	Date of current LRV correct
610	Date Of Last LRV Correct
611	Date of last LRV correct
612	Date Of Previous LRV Correct
613	Date of previous LRV correct
614	Timestamp (hours) Of Current LRV Correct
615	Timestamp (hours) of current LRV correct
616	Timestamp (hours) Of Last LRV Correct
617	Timestamp (hours) of last LRV correct
618	Timestamp (hours) Of Previous LRV Correct
619	Timestamp (hours) of previous LRV correct
620	Timestamp (minutes) Of Current LRV Correct
621	Timestamp (minutes) of current LRV correct
622	Timestamp (minutes) Of Last LRV Correct
623	Timestamp (minutes) of last LRV correct
624	Timestamp (minutes) Of Previous LRV Correct
625	Timestamp (minutes) of previous LRV correct
626	Timestamp (seconds) Of Last LRV Correct
627	Timestamp (seconds) of last LRV correct
628	Timestamp (seconds) Of Previous LRV Correct
629	Timestamp (seconds) of previous LRV correct
630	Date Of Current Zero Trim
631	Date of current zero trim
632	Date Of Last Zero Trim
633	Date of last zero trim
634	Date Of Previous Zero Trim
635	Date of previous zero trim
636	Timestamp (hours) Of Current Zero Trim
637	Timestamp (hours) of current zero trim
638	Timestamp (hours) Of Last Zero Trim
639	Timestamp (hours) of last zero trim
640	Timestamp (hours) Of Previous Zero Trim
641	Timestamp (hours) of previous zero trim
642	Timestamp (minutes) Of Current Zero Trim
643	Timestamp (minutes) of current zero trim
644	Timestamp (minutes) Of Last Zero Trim
645	Timestamp (minutes) of last zero trim
646	Timestamp (minutes) Of Previous Zero Trim
647	Timestamp (minutes) of previous zero trim
648	Date Of Current Reset Corrects
649	Date of current Reset Correct
650	Date Of Last Reset Corrects
651	Date of last Reset Correct
652	Date Of Previous Reset Corrects
653	Date of previous Reset Correct
654	Timestamp (hours) Of Current Reset Corrects
655	Timestamp (hours) of current Reset Correct
656	Timestamp (hours) Of Last Reset Corrects
657	Timestamp (hours) of last Reset Corrects
658	Timestamp (hours) Of Previous Reset Corrects
659	Timestamp (hours) of previous Reset Correct
660	Timestamp (minutes) Of Current Reset Corrects
661	Timestamp (minutes) of current Reset Correct
662	Timestamp (minutes) Of Last Reset Corrects
663	Timestamp (minutes) of last Reset Correct
664	Timestamp (minutes) Of Previous Reset Corrects
665	Timestamp (minutes) of previous Reset Correct
666	Power Fail Timestamp
667	Timestamp of Power failure
668	Power Cycle count
669	Number of times the device is power cycled
670	Electronics Temp.
671	Electronics Temperature value
672	Maximum limit of Electronics Temperature
673	Max ET Limit
674	Minimum limit of Electronics Temperature
675	Min ET Limit
676	Maximum value of Electronics Temperature
677	Max ET Value
678	Minimum value of Electronics Temperature
679	Min ET Value
680	Number of minutes Electronics Temperature was above upper stress limit
681	Time Above Upper Stress Limit
682	minutes
683	Number of minutes Electronics Temperature was below lower stress limit
684	Time Below Lower Stress Limit
685	Time Since Last Event of Electronics Temperature that went to upper band
686	Time Since Last ET Up
687	Time Since Last Event of Electronics Temperature that went to lower band
688	Time Since Last ET Down
689	Meter Body Stress Monitor
690	Meter Body Stress Life
691	Meter Body Service Life
692	Gives current operating voltage of the device
693	Current Operating Voltage
694	volts
695	Minimum value of operating voltage
696	Min Op Voltage
697	Time Since Last operating voltage gone minimum
698	Time Since Operating Voltage Last At Minimum
699	Maximum value of pv
700	Max PV
701	Minimum value of pv
702	Min PV
703	Number of minutes PV was above upper stress limit
704	Number of minutes PV was below lower stress limit
705	Time Since Last Event of PV that went to upper band
706	Time Since Last Event
707	Time Since Last Event of PV that went to lower band
708	Time Since Last PV Down
709	.3f
710	Maximum limit of Static Pressure
711	Max TV Limit
712	Minimum limit of Static Pressure
713	Min TV Limit
714	Maximum value of Static Pressure
715	Max TV Value
716	Number of minutes SP above upper stress limit
717	Time Since Last Event of Static Pressure that went to upper band
718	Time Since Last TV Up
719	Maximum limit of Meter Body temp.
720	Max SV Limit
721	Max limit of Meter Body temp.
722	degC
723	degF
724	degR
725	Kelvin
726	Minimum limit of Meter Body temp.
727	Min SV Limit
728	Min limit of Meter Body temp.
729	Maximum value of Meter Body Temp.
730	Max SV Value
731	Minimum value of Meter Body Temp.
732	Min SV Value
733	Number of minutes Meter Body Temperature was above upper stress limit
734	Number of minutes Meter Body Temperature was below lower stress limit
735	Time Since Last Event of Meter Body Temperature that went to upper band
736	Time Since Last SV Up
737	Time Since Last Event of Meter Body Temperature that went to lower band
738	Time Since Last SV Down
739	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.
740	Comm Module Stress Life
741	It gives the value of the device life already consumed. The consumption of device life depends upon the 'Time in operation' and the 'Device Stress Life' parameters. More the value of these parameters more is the life consumed. Device's life can be effectively used by ensuring lesser value of Device stress life
742	Comm Module Service Life
743	Maximum value of sensor CPU core temperature
744	Max Sensor CPU Temp.
745	Minimum value of sensor CPU core temperature
746	Min Sensor CPU Temp.
747	Number of minutes sensor CPU core temperature was above upper stress limit
748	Number of minutes sensor CPU core temperature was below lower stress limit
749	Time Since Last Event of sensor CPU core temperature that went to upper band
750	Time Since Last Sensor CPU Temp. Up
751	Time Since Last Event of sensor CPU core temperature that went to lower band
752	Time Since Last Sensor CPU Temp. Down
753	Maximum value of sensor supply voltage
754	Max AVDD
755	Time Since Last Event of sensor supply voltage that went to upper band
756	Time Since Last AVDD Up
757	Minimum value of sensor supply voltage
758	Min AVDD
759	Time Since Last Event of sensor supply voltage that went to lower band
760	Time Since Last AVDD Down
761	Sensor module rev
762	Firmware version of the sensor module
763	Comm module rev
764	Firmware version of the communication module
765	Saturation Selection
766	Allows selecting the saturation current value; when selection is Honeywell, low and high saturation values are 3.8 and 20.8 mA; when selection is NAMUR, low and high saturation values are 3.8 and 20.5 mA.
767	Output saturation value (low/high): 3.8 / 20.8
768	Output saturation value (low/high): 3.8 / 20.5
769	Dummy Variable1
770	Display Type
771	If Display is installed, shows connected Display type: Basic or Standard.
772	Advanced
773	Basic
774	No Display
775	Advanced Display
776	Basic Display
777	Display module rev
778	Firmware version of the display module
779	Language
780	Allows to select the Language in which the display screens and menus show the parameter names and messages.
781	English
782	French
783	German
784	Spanish
785	Russian
786	Chinese
787	Japanese
788	Turkish
789	Italian
790	Rotation Time
791	Allows to select the frequency of rotation of configured screens on the display.
792	3 sec
793	4 sec
794	5 sec
795	6 sec
796	7 sec
797	8 sec
798	9 sec
799	10 sec
800	11 sec
801	12 sec
802	13 sec
803	14 sec
804	15 sec
805	16 sec
806	17 sec
807	18 sec
808	19 sec
809	20 sec
810	21 sec
811	22 sec
812	23 sec
813	24 sec
814	25 sec
815	26 sec
816	27 sec
817	28 sec
818	29 sec
819	30 sec
820	Password
821	Contrast Level
822	Allows to select the Contrast level of display.
823	Default
824	Screen Number
825	Allows to select the Screen number to see the screen settings for that screen, or to change the setting for that screen
826	Screen 1
827	Screen 2
828	Screen 3
829	Screen 4
830	Screen 5
831	Screen 6
832	Screen 7
833	Screen 8
834	Screen Format
835	Allows selecting PV in different formats; Default format, Large PV, Bargraph & Trend
836	PV
837	PV & Bargraph
838	PV & Trend
839	Large PV
840	Large PV & Tag
841	Trend Duration
842	Allows setting the duration for the Trend
843	1 Hr
844	2 Hr
845	3 Hr
846	4 Hr
847	5 Hr
848	6 Hr
849	7 Hr
850	8 Hr
851	9 Hr
852	10 Hr
853	11 Hr
854	12 Hr
855	13 Hr
856	14 Hr
857	15 Hr
858	16 Hr
859	17 Hr
860	18 Hr
861	19 Hr
862	20 Hr
863	21 Hr
864	22 Hr
865	23 Hr
866	24 Hr
867	PV Selection
868	Allows selecting different parameters as your PV for the screen
869	Meterbody Temp
870	Percent Output
871	Static Press
872	Process Variable 6
873	Process Variable 7
874	Process Variable 8
875	PILD Factor
876	Decimals
877	Allows selecting number of decimal places for the selected PV to be shown on the screen
878	.x
879	.xx
880	.xxx
881	PV Scaling
882	Allows showing the screen PV in default unit or in converted unit based on the selected Engineering unit
883	Convert Units
884	Display Units
885	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
886	inH2O @ 39°F
887	Inches of Water at 39 Degrees Fahrenheit
888	inH2O @ 60°F
889	Inches of Water at 60 Degrees Fahrenheit
890	inH2O @ 68°F
891	inHg @ 0°C
892	kgf/cm2
893	mmH2O @ 4°C
894	mmH2O @ 68°F
895	mmHg @ 0°C
896	Torr
897	ftH2O @ 68°F
898	gf/cm2
899	°C
900	°F
901	°R
902	K
903	Custom
904	cm_of_water_4_degrees_C
905	M_of_water_4_degrees_C
906	Default(inH2O @ 39°F)
907	Default(psi)
908	Default(°C)
909	Default(mA)
910	Default(%)
911	Scaling High
912	High scaling value for the selected PV on the screen
913	13.3g
914	13.3f
915	Scaling Low
916	Low scaling value for the selected PV on the screen
917	Disp Low Limit
918	Low limit for Trend/Bar chart
919	Disp High Limit
920	High limit for Trend/Bar chart
921	Custom Units
922	Allows providing user defined Custom Unit for the selected PV.
923	Custom Tag
924	Allows providing user defined Custom tag for the selected screen.
925	Maintenance Mode
926	Maintenance Mode - Indicates if the device can be safely taken out for maintenance
927	Check with operator
928	Available for maintenance
929	Filter Performance
930	Std SOR
931	Standard Speed of Response Filter
932	Fast SOR
933	Fast Speed of Response Filter
934	Avging Filter
935	Enter averaging filter value. Range 0-255
936	Sync Filter
937	Enter sync filter value. Range 0-255
938	Enable/Disable the Tamper Mode
939	Tamper Latency
940	Allows to decide the tamper latency
941	Sec
942	Max Attempts
943	Allows to enter the maximum number attempts for Tamper Alarm
944	10
945	Attempt Counter
946	Tamper attempt counter shows the number of tamper attempts made
947	PILD Functionality
948	Indicates whether PILD functionality is available in the device or not.
949	Not Available
950	Available
951	Status
952	Indicates the blockage status of impulse line
953	Not Blocked
954	Both Sides Blocked
955	One side Blocked
956	Blocked
957	PILD Factor (PFactor) indicates the current status of impulse lines, which can be used for predication of blockage.
958	Current Mode
959	Indicates the current Working Mode of PILD algorithm. To accommodate process noise patterns, when the PILD feature is enabled, a learning or training mode is automatically launched where the transmitter listens and learns the baseline noise patterns associated with the particular installation. Successful completion of this training mode will automatically place the transmitter in the final monitoring mode for detecting potential plugged conditions
960	Training Mode
961	Monitoring Mode
962	Training Result
963	Indicates the Training Result of PILD algorithm. To accommodate process noise patterns, when the PILD feature is enabled, a learning mode is automatically launched where the transmitter listens and learns the baseline noise patterns associated with the particular installation. Completion of this training mode will be Success or Failure. Successful completion will automatically place the transmitter in the final monitoring mode for detecting potential plugged conditions
964	Success
965	Failure
966	Normal PV Ref
967	Reference of normal PV, which is the median of PV/URL and is the output from training mode.
968	.5e
969	Fluc. PV Ref
970	Reference of the noise fluctuation of normal PV. This indicates the median of the noise fluctuation of normal PV in a sampling window during training mode.
971	Current Normal PV
972	Indicates the median of normal PV (PV/URL) in a sampling window during monitoring mode.
973	Current Fluc PV
974	Noise fluctuation of normal PV, and is the output from monitoring mode.
975	This selection allows the user to enable or disable PILD function. This item will be available only if the PILD functionality is available. When disabled, PILD algorithm will not be running in the device and thus, any blockage in the impulse line will not be detected.
976	Disables PILD
977	Enables PILD
978	Application (App)
979	Allows selecting PILD application type. DP Flow application; Marine applications with high turbulence and rapid level changes; bubbling or boliing surfaces with heavy vapors
980	DP Flow
981	DP Flow Application
982	Marine Level
983	Marine Level Application
984	Bubbler Level
985	Bubbler Level Application
986	Other
987	Other Application
988	Sampling Window (SWIN)
989	The sampling window of PILD in Minutes, which is a cycle of PILD runs for both training and monitoring mode.
990	3 Minutes
991	6 Minutes
992	9 Minutes
993	12 Minutes
994	15 Minutes
995	Up Limit(UL)
996	The upper limit of PILD factor for normal (not blocked) status. Value ranges from 0.50 to 1
997	Down Limit(DL)
998	The lower limit of PILD factor for normal (not blocked) status. Value ranges from Blockage Limit value to 0.50
999	Blockage Limit(BL)
1000	The limit of PILD factor for both sides blockage. Value ranges from 0 to PILD factor Lower Limit (Max is 0.50)
1001	Cut Off Frequency
1002	The cut off frequency of high pass filter (HPF). HPF is used to take noise fluctuation of PV in a dynamic process. Value ranges from 0 to 5 Hz
1003	Hz
1004	Upgrade Code
1005	Allows setting Contrast level of the Simple display.
1006	Display PV Type
1007	Flow type is configurable for DP devices.
1008	Allows to configure display language selection of the Simple display.
1009	Display Pressure Unit
1010	Applicable for 'PV Type' configured as Pressure.
1011	Display Scaling High
1012	Applicable for 'PV Type' configured as Flow.
1013	Display Scaling Low
1014	Display Flow Unit
1015	lb/min
1016	lb/hr
1017	gal/min
1018	SCFM
1019	SCFD
1020	MSCFH
1021	MMSCFH
1022	Display Menu
1023	Simple Display menu selection. Standard: Allows to configure PV, Units for selected PV, scaling low / high when PV is Flow, enter LRV, URV and set zero. Extended: Allows to configure zero trim and span trim in addition to all the parameters supported by Standard option.
1024	Log faults
1025	Allows enable or disable logging errors
1026	Reset Error Log
1027	Timestamp
1028	Fault Code
1029	No fault
1030	DAC Fail
1031	MB NVM Corrupt
1032	User Config Corrupt
1033	COMM Sec Fail
1034	Sensing Sec Fail
1035	Sensor Comm Timeout
1036	Unused
1037	Local Display
1038	Watchdog Reset
1039	Cold Restart
1040	Comm Board NC Error
1041	Sensing Sec NC Error
1042	Sensor Over Temperature
1043	Fixed Current Mode
1044	PV Out Of Range
1045	No Factory Calibration
1046	No DAC Compensation
1047	LRV Set Err. Zero Config Button
1048	URV Set Err. Span Config Button
1049	AO Out of Range
1050	Loop Current Noise
1051	Sensor Unreliable Comm
1052	Tamper Alarm
1053	Low Supply Voltage
1054	PILD Staus
1055	Year
1056	Month
1057	Date
1058	Hours
1059	Minutes
1060	Device revision.DD Revision.Sub DD Revision
1061	DD Rev
1062	7.1.00
1063	FDI package Revision
1064	FDI package Rev
1065	07.01.00.000
1066	Device is busy in some other operation or getting accessed from Display. Please try again.
1067	Wrong password. Please retry.
1068	Device is busy with some operation. Please try again.
1069	Entered Reset Key is invalid. Please recheck the Reset Key and run the Method again.
1070	Locked for writing by one of the masters. Please unlock and try again
1071	No History Data
1072	PILD is enabled.So Parameter can't be modified
1073	PILD is disabled.So diagnostics Parameter can't be read
1074	Wrong Upgrade Code
1075	Upgrade functionality not supported on this device
1076	Device is in Training mode, or your device does not support this parameter change when PILD is enabled
1077	Display not connected or display menu is already accessed. Please try again.
1078	Device is locked by other master or previously entered display data is still getting accepted by device. Please try again.
1079	Display not connected or display menu is already accessed or wrong data. Please try again
1080	Invalid Extend Command Number
1081	Display Connection Issue
1082	Passed Parameter is too Large
1083	Passed Parameter is too Small
1084	Model Number
1085	Displays model number of device
1086	Coplanar Model Number
1087	Time In Service
1088	Displays time in service of device
1089	Sensor Time In Service
1090	Displays time in service of the sensor
1091	Curr URV Correct
1092	Last URV Correct
1093	Prev URV Correct
1094	Curr LRV Correct
1095	Last LRV Correct
1096	Prev LRV Correct
1097	Curr Zero Correct
1098	Last Zero Correct
1099	Prev Zero Correct
1100	Curr Corrects Rec
1101	Last Corrects Rec
1102	Prev Corrects Rec
1103	Time Since Last Power Cycle
1104	ET Upper Limit For Stress Condition
1105	ET upper limit for stress condition
1106	ET Lower Limit For Stress Condition
1107	ET lower limit for stress condition
1108	Time Since Last ET high event
1109	Time Since Last ET low event
1110	Reset Operating Voltage Parameters
1111	Resets the minimum operating voltage value and the associated time stamp
1112	Time Since Last Voltage Low
1113	PV Upper Limit For Stress Condition
1114	PV upper limit for stress condition
1115	PV Lower Limit For Stress Condition
1116	PV lower limit for stress condition
1117	Time Since Last PV Up
1118	Time Since Last PV up event
1119	Time Since Last PV down event
1120	Time Since Last Meter Body Temp. up event
1121	Time Since Last Meter Body Temp. down event
1122	Time Since Sensor CPU Temp Up
1123	Time Since Last Sensor CPU Temperature up event
1124	Time Since Sensor CPU Temp Down
1125	Time Since Last Sensor CPU Temperature down event
1126	Time Since Last AVDD up event
1127	Time Since Last AVDD down event
1128	SP Upper Limit For Stress Condition
1129	SP upper limit for stress condition
1130	Time Since Last Static Pressure up event
1131	Master Reset
1132	Soft power reset to the device
1133	Reset Corrects
1134	Calibration shift gets removed
1135	LRV Correct
1136	URV Correct
1137	Temperature Conversion
1138	Read Config History
1139	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.
1140	Select Display Type
1141	Select the type of display connected to the device
1142	Allows the user to enable or disable the configuration write protection.
1143	Write Protect On/Off
1144	Allows the user to change the password of write protection.
1145	Change Password
1146	Allows the user to reset/forgot the password.
1147	Reset/Forgot Password
1148	Configure Tamper Alarm
1149	Allows to configure Tamper alarm parameters
1150	Reset Tamper Counter
1151	Allows to reset Tamper alarm counter
1152	Upload Variables
1153	Ranges/Limits
1154	Trends
1155	Basic and Test
1156	Basic options
1157	Calibration and Correction Records
1158	Factory Calibration Selection
1159	Factory Calibration Selection.
1160	Allows selecting one of the available Calibration options. Each of the options have different calibrated ranges
1161	Optional firmware feature that detects plugged impulse lines.
1162	Correct LRV Records
1163	Correct URV Records
1164	Zero Trim Records
1165	Reset Corrects Records
1166	Maximum
1167	Minimum
1168	Honeywell Logo
1169	Device Icon
1170	Variable Tracking
1171	PV Levels
1172	Write Protection
1173	NAMUR Level
1174	Transfer Function Image
1175	Trend of PV
1176	Pressure trends showing history of the actual reading
1177	PV value
1178	LRV
1179	URV
1180	PV LRV
1181	PV URV
1182	PV Value
1183	Trend of SV
1184	Meter Body Temp. trend showing history of the actual reading
1185	SV Value
1186	Trend of TV
1187	Static Pressure trends showing history of the actual reading
1188	TV Value
1189	Trend of ET
1190	Electronics Temp. trends showing history of the actual reading
1191	ET Value
1192	Trend of AO
1193	Analog Value trend showing history of the actual reading
1194	AO value
1195	PV AO value
1196	AO Value
1197	mA
1198	Local Display setup parameters
1199	Common Settings
1200	Common setup of the display
1201	Allows reading the configuration of selected display screen or allows configuring the selected screen. For Basic Display you can read and configure Screen 1 only.
1202	Display Parameters
1203	Reads the details of Standard Display screen information whichever is latest
1204	Basic Parameters
1205	Configure & read the details of simple Display screen information. Note: If PV type configured as Pressure and Flow then perform Display Advance configuration for Units and Scaling parameters.
1206	Display Advanced Configuration
1207	Display Basic Configuration
1208	Select Display Screen
1209	Allows you to select the screen number of the display
1210	Restore Screen Data
1211	Configure
1212	This allows you to configure a Advanced display screen
1213	This allows you to configure a Basic display screen
1214	Clear Message
1215	Clears the Display Message
1216	Enter License Key
1217	This Method is used to activate optional firmware feature in the device. Please refer document 34-ST-33-73 for supported firmware revision level requirements.
1218	Clear Fault history
1219	This will clear the logged Faults
1220	Fault Set/Cleared Log
1221	This table contains the last 10 faults that occured in the past with time-stamps of device
1222	Fault No.
1223	Error Description
1224	Set
1225	Cleared
1226	MM
1227	DD
1228	YY
1229	hh
1230	mm
1231	Download to Device
1232	Upload from Device
1233	PV Analog Channel Saturated
1234	PV Analog Channel Fixed
1235	Wireless
1236	WirelessHART Device
1237	IEEE 802.15.4 2.4GHz DSSS with O-QPSK Modulation
1238	Primary
1239	Primary Analog Channel
1240	Secondary
1241	Secondary Analog Channel
1242	Tertiary
1243	Tertiary Analog Channel
1244	Quaternary
1245	Quaternary Analog Channel
1246	Quinary
1247	Quinary Analog Channel
1248	Critical Power Failure
1249	Lock all
1250	Trim not supported
1251	Configuration cannot be changed
1252	Locked by gateway
1253	Analog Input Channel
1254	Analog Output Channel
1255	Secondary Analog Channel Saturated
1256	Tertiary Analog Channel Saturated
1257	Quaternary Analog Channel Saturated
1258	Quinary Analog Channel Saturated
1259	Secondary Analog Channel Fixed
1260	Tertiary Analog Channel Fixed
1261	Quaternary Analog Channel Fixed
1262	Quinary Analog Channel Fixed
1263	Simulation active
1264	The device is in simulation mode and the level output is not representative of the process.
1265	Non-Volatile memory failure
1266	The Non-Volatile memory check is invalid or maybe corrupt, or the battery of a battery-backed memory has failed.
1267	Volatile memory error
1268	The RAM memory check is invalid or maybe corrupt
1269	Watchdog reset executed
1270	A watchdog reset has been performed
1271	Voltage conditions out of range
1272	A voltage condition is outside its allowable range
1273	Environmental conditions out of range
1274	An internal or environmental condition is beyond acceptable limits.
1275	Electronic failure
1276	A hardware problem not related to the sensor has been detected.
1277	Subdevice list changed
1278	Duplicate master detected
1279	Capacity Denied
1280	The device was unable to acquire the communication bandwidth required to support the Burst Messaging specified
1281	Bandwidth allocation pending
1282	Block transfer pending
1283	Battery life
1284	Percent range
1285	Loop current
1286	Primary variable
1287	Secondary variable
1288	Tertiary variable
1289	Quaternary variable
1290	Read receive time
1291	Write date and time
1292	Non-Volatile Clock
1293	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.
1294	Clock Uninitialized
1295	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.
1296	No restrictions
1297	SI Only
1298	Restricted to SI Unit codes only
1299	Process automation device
1300	Discrete device
1301	Hybrid:Process automation+discrete
1302	I/O System
1303	WirelessHART Process automation device
1304	WirelessHART Discrete device
1305	WirelessHART Process automation+discrete
1306	WirelessHART Gateway
1307	WirelessHART Access point
1308	WirelessHART Process adapter
1309	WirelessHART Discrete adapter
1310	WirelessHART enabled handheld/portable maintenance tool
1311	Device Profile
1312	US
1313	United States of America
1314	JP
1315	Japan
1316	Germany
1317	FR
1318	France
1319	ES
1320	Spain
1321	RU
1322	Russian Federation
1323	CN
1324	People's Republic of China
1325	Secondary Master
1326	Primary Master
1327	Device Diagnostic Status 0
1328	Device Diagnostic Status 1
1329	I/O and Subdevice Status
1330	WirelessHART Status
1331	Time Set Option
1332	Real Time Clock Flags
1333	Country
1334	Country of intended device installation
1335	SI Unit Control
1336	Indicates if device should only display SI unit codes
1337	Time Stamp
1338	Relative time value on network
1339	Dynamic Variables Returned for Device Variables
1340	Command Response Truncated
1341	Configuration Change Counter Mismatch
1342	Status bytes mismatch
1343	8.3f
1344	Measurement Type- Type of measurement application this Field Device is intended to be used with.
1345	Sensor Serial Number- Uniquely identifies the sensor from which the Digital Value representation or Field Device variable is primarily derived. Pressure Sensor- Pressure hardware that measures pressure with respect to a reference pressure.
1346	Field Device Variable Unit- Engineering unit to be displayed with the Digital Value representation, Minimum Span, Upper Range Value, Lower Range Value, Lower Sensor Limit, and Upper Sensor Limit. Pressure- Pressure of the process measured with respect to a reference pressure.
1347	.3g
1348	.f
1349	.1f
1350	Minimum Span Value- Defines the smallest allowable difference between the Upper Range Value and the Lower Range Value. Pressure- Pressure of the process measured with respect to a reference pressure.
1351	Damping Value- Damping time constant applied to both the Digital Value representation and Analog Value of the respective Analog Output. The units of this variable are always in seconds. Pressure- Pressure of the process measured with respect to a reference pressure.
1352	s
1353	4.2f
1354	Send warning
1355	Send Warning- Yields a units code notice to the User.
1356	Variables which use this as the units code will be in the previous units until this value is sent to the device.
1357	Upper Sensor Limit Value- Defines the maximum useable value for the Upper Range Value. Pressure- Pressure of the process measured with respect to a reference pressure.
1358	Lower Sensor Limit Value- Defines the minimum useable value for the Lower Range Value. Pressure- Pressure of the process measured with respect to a reference pressure.
1359	Device Variable
1360	URV Correction Date :%{0} Time: HH:MM %{1}:%{2} LRV Correction Date :%{3} Time: HH:MM %{4}:%{5} Zero Correction Date :%{6} Time: HH:MM %{7}:%{8}
1361	Current Reset Correction Date :%{0} Time: HH:MM %{1}:%{2} Last Reset Correction Date :%{3} Time: HH:MM %{4}:%{5} Previous Reset Correction Date :%{6} Time: HH:MM %{7}:%{8}
1362	Method In Progress
1363	Aborting due to last error. Please try again...
1364	%{0}%{1}%{2}%{3}%{4}
1365	Time In Service is in :Minutes = %{0}
1366	Time In Service is : Hours = %{hours}, Minutes = %{minutes}
1367	Time In Service is : Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1368	Time In Service is : Months = %{months}, Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1369	Time In Service is : Years = %{years}, Months = %{months}, Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1370	Sensor time In Service is :Minutes = %{0}
1371	Sensor time In Service is : Hours = %{hours}, Minutes = %{minutes}
1372	Sensor time In Service is : Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1373	Sensor time In Service is : Months = %{months}, Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1374	Sensor time In Service is : Years = %{years}, Months = %{months}, Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1375	Calibration Date Is:%{0} Calibration Time in HH:MM %{1}:%{2}
1376	Calibration Date Is:%{0} Calibration Time in HH:MM %{1}:%{2}
1377	Time Since Last Event :Minutes = %{result}
1378	Time Since Last Event : Hours = %{hours}, Minutes = %{minutes}
1379	Time Since Last Event : Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1380	Time Since Last Event : Months = %{months}, Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1381	Time Since Last Event : Years = %{years}, Months = %{months}, Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1382	ET upper limit for stress condition: %{ET_up_limit_stress} DegC
1383	ET upper limit for stress condition: %{ET_up_limit_stress} DegF
1384	ET upper limit for stress condition: %{ET_up_limit_stress} DegR
1385	ET upper limit for stress condition: %{ET_up_limit_stress} Kelvin
1386	ET lower limit for stress condition: %{ET_low_limit_stress} DegC
1387	ET lower limit for stress condition: %{ET_low_limit_stress} DegF
1388	ET lower limit for stress condition: %{ET_low_limit_stress} DegR
1389	ET lower limit for stress condition: %{ET_low_limit_stress} Kelvin
1390	Time Since Last Event : Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1391	Time Since Last Event : Months = %{months}, Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1392	Time Since Last Event : Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1393	Time Since Last Event : Years = %{years}, Months = %{months}, Days = %{days}, Hours = %{hours}, Minutes = %{minutes}
1394	About to reset Operating voltage Parameters
1395	Method In Progress Please wait
1396	PV upper limit for stress condition: %{PV_up_limit_stress} inH2O
1397	PV upper limit for stress condition: %{PV_up_limit_stress} inHg
1398	PV upper limit for stress condition: %{PV_up_limit_stress} ftH2O
1399	PV upper limit for stress condition: %{PV_up_limit_stress} mmH2O
1400	PV upper limit for stress condition: %{PV_up_limit_stress} mmHg
1401	PV upper limit for stress condition: %{PV_up_limit_stress} psi
1402	PV upper limit for stress condition: %{PV_up_limit_stress} bar
1403	PV upper limit for stress condition: %{PV_up_limit_stress} mbar
1404	PV upper limit for stress condition: %{PV_up_limit_stress} g/Sqcm
1405	PV upper limit for stress condition: %{PV_up_limit_stress} kg/Sqcm
1406	PV upper limit for stress condition: %{PV_up_limit_stress} Pa
1407	PV upper limit for stress condition: %{PV_up_limit_stress} kPa
1408	PV upper limit for stress condition: %{PV_up_limit_stress} torr
1409	PV upper limit for stress condition: %{PV_up_limit_stress} atm
1410	PV upper limit for stress condition: %{PV_up_limit_stress} inH2O@60DegF
1411	PV upper limit for stress condition: %{PV_up_limit_stress} MPa
1412	PV upper limit for stress condition: %{PV_up_limit_stress} inH2O@4DegC
1413	PV upper limit for stress condition: %{PV_up_limit_stress} mmH2O@4DegC
1414	PV upper limit for stress condition: %{PV_up_limit_stress} CmH2O@4DegC
1415	PV upper limit for stress condition: %{PV_up_limit_stress} mH2O@4DegC
1416	PV lower limit for stress condition: %{PV_low_limit_stress} inH2O
1417	PV lower limit for stress condition: %{PV_low_limit_stress} inHg
1418	PV lower limit for stress condition: %{PV_low_limit_stress} ftH2O
1419	PV lower limit for stress condition: %{PV_low_limit_stress} mmH2O
1420	PV lower limit for stress condition: %{PV_low_limit_stress} mmHg
1421	PV lower limit for stress condition: %{PV_low_limit_stress} psi
1422	PV lower limit for stress condition: %{PV_low_limit_stress} bar
1423	PV lower limit for stress condition: %{PV_low_limit_stress} mbar
1424	PV lower limit for stress condition: %{PV_low_limit_stress} g/Sqcm
1425	PV lower limit for stress condition: %{PV_low_limit_stress} kg/Sqcm
1426	PV lower limit for stress condition: %{PV_low_limit_stress} Pa
1427	PV lower limit for stress condition: %{PV_low_limit_stress} kPa
1428	PV lower limit for stress condition: %{PV_low_limit_stress} torr
1429	PV lower limit for stress condition: %{PV_low_limit_stress} atm
1430	PV lower limit for stress condition: %{PV_low_limit_stress} inH2O@60DegF
1431	PV lower limit for stress condition: %{PV_low_limit_stress} MPa
1432	PV lower limit for stress condition: %{PV_low_limit_stress} inH2O@4DegC
1433	PV lower limit for stress condition: %{PV_low_limit_stress} mmH2O@4DegC
1434	SP upper limit for stress condition: %{SP_up_limit_stress} inH2O
1435	SP upper limit for stress condition: %{SP_up_limit_stress} inHg
1436	SP upper limit for stress condition: %{SP_up_limit_stress} ftH2O
1437	SP upper limit for stress condition: %{SP_up_limit_stress} mmH2O
1438	SP upper limit for stress condition: %{SP_up_limit_stress} mmHg
1439	SP upper limit for stress condition: %{SP_up_limit_stress} psi
1440	SP upper limit for stress condition: %{SP_up_limit_stress} bar
1441	SP upper limit for stress condition: %{SP_up_limit_stress} mbar
1442	SP upper limit for stress condition: %{SP_up_limit_stress} g/Sqcm
1443	SP upper limit for stress condition: %{SP_up_limit_stress} kg/Sqcm
1444	SP upper limit for stress condition: %{SP_up_limit_stress} Pa
1445	SP upper limit for stress condition: %{SP_up_limit_stress} kPa
1446	SP upper limit for stress condition: %{SP_up_limit_stress} torr
1447	SP upper limit for stress condition: %{SP_up_limit_stress} atm
1448	SP upper limit for stress condition: %{SP_up_limit_stress} inH2O@60DegF
1449	SP upper limit for stress condition: %{SP_up_limit_stress} MPa
1450	SP upper limit for stress condition: %{SP_up_limit_stress} inH2O@4DegC
1451	SP upper limit for stress condition: %{SP_up_limit_stress} mmH2O@4DegC
1452	Master Reset done
1453	Please ensure that the device is not in hardware/software write protect mode. WARN-Loop should be removed from automatic control
1454	Please enter calibration date
1455	Enter calibration time in 24 Hr Format
1456	Not a valid number for hours. Please try again.
1457	Enter calibration time in Minutes
1458	Not a valid number for minutes. Please try again.
1459	About to Reset Corrects
1460	Reset Corrects in progress please wait
1461	Device may be stuck.
1462	Reset Corrects OK
1463	Apply LRV pressure.
1464	Apply URV pressure.
1465	Choose the Configuration History Number
1466	No record found for %{conf_histoy_code}
1467	Configuration History for %{conf_histoy_code} is given below: %{DB_ID}: %{hist_val_UINT1_1enum}
1468	Configuration History for %{conf_histoy_code} is given below: %{DB_ID}: %{hist_val_UINT1_1}
1469	Configuration History for %{conf_histoy_code} is given below: 1. %{DB_ID}: %{hist_val_UINT1_1} 2. Loop Current Mode: %{hist_val_UINT1_3}
1470	Configuration History for %{conf_histoy_code} is given below: 1. %{DB_ID}: %{hist_val_UINT1_1} 2. PV Type: %{hist_val_UINT1_3}
1471	Configuration History for %{conf_histoy_code} is given below: 1. %{DB_ID}: %{HistoryValue_PressureUnit} 2. Standard Display View1 Flow Unit: %{HistoryValue_FlowUnit} 3. Scaling Low: %{hist_val_FLOAT} 4. Scaling High: %{hist_val_2_FLOAT}
1472	Configuration History for %{conf_histoy_code} is given below: 1. %{DB_ID}: %{hist_val_TAG} 2. Descriptor: %{hist_val_DESC} 3. Date (mm/dd/yyyy): %{hist_val_DATE}
1473	Configuration History for %{conf_histoy_code} is given below: %{DB_ID}: %{hist_val_FLOAT}
1474	Configuration History for %{conf_histoy_code} is given below: %{DB_ID}: %{hist_val_STR32}
1475	Configuration History for %{conf_histoy_code} is given below: %{DB_ID}: %{hist_val_MSG}
1476	Configuration History for %{conf_histoy_code} is given below: %{DB_ID}: %{hist_val_FA}
1477	Configuration History for %{conf_histoy_code} is given below: %{DB_ID}: %{hist_val_PSWRD}
1478	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 Attempts: %{hist_val_UINT1_4}
1479	%{display_type_code_offline} selected
1480	Select config
1481	Disable;Enable
1482	Enter write protect password.
1483	Write protect disabled.
1484	Please ensure that the device is not in hardware/software write protect mode.
1485	Device is in Write Protect Mode. Disable the Write Protect first and then try again
1486	Enter Old/Master password
1487	Enter new password
1488	Password changed successfully
1489	Please ensure that the device is not in hardware write protect mode.
1490	Device Locked by other master.Please unlock and try again. Aborting...
1491	Enter master password to reset the password
1492	Password is reset successfully
1493	Select Tamper Mode
1494	Enter Tamper Latency (0-60 sec)
1495	Incorrect value entered. Aborting...
1496	Enter Max attempts for enabling tamper alarm
1497	Tamper alarm counter reset successfully.
1498	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.
1499	Locked for writing by one of the masters. Please unlock and try again. Aborting...
1500	PV Type Configured as %{PV_publish_sd}.
1501	Select Flow Unit For Standard Display
1502	Enter Scaling Low Value
1503	Invalid entry. Allowed range is -999999 to 999999. Please try again.
1504	Enter Scaling High Value
1505	Scaling High Value can not be less than or equal to Scaling low Value. Please try again.
1506	Select Pressure Unit
1507	No Flow Configuration For AP/GP Models
1508	Standard Display Parameters Configured successfully.
1509	Select Contrast Level For Standard Display
1510	Select PV Type
1511	Select Std. Display Language
1512	Default Unit For Percent Output is '%'
1513	Default Unit For Loop Output is 'mA'
1514	Standard Display PV Type and Contrast Level Configured successfully.
1515	No Display connected. Aborting...
1516	Select the screen of which data is to be displayed:
1517	Screen 1;Screen 2;Screen 3;Screen 4;Screen 5;Screen 6;Screen 7;Screen 8
1518	Reading current configuration of %{screen_number}...
1519	'No Display' option is selected. Aborting...
1520	Select the screen to be configured
1521	Select the Screen Format
1522	Enter Low Limit Value
1523	Invalid entry. Allowed range is -100000000 to 100000000. Please try again.
1524	Enter High Limit Value
1525	High limit can not be less than or equal to low limit. Please try again.
1526	Enter value of Trend duration (1-24)
1527	Downloading your screen configuration. This may take upto 30 seconds. Please wait...
1528	This completes the configuration of the %{screen_number}.
1529	Enter value of PV Selection
1530	Pressure;Meterbody Temp;Loop Output;Percent Output;PILD Factor
1531	Pressure;Meterbody Temp;Loop Output;Percent Output
1532	Pressure;Loop Output;Percent Output
1533	Enter value of PV Scaling
1534	None;Convert Units;Linear;Square Root
1535	None;Convert Units
1536	None;Linear
1537	Enter value for Scaling Low Limit
1538	Enter value for Scaling High Limit
1539	Enter Engineering Units
1540	inH2O @ 39°F;inH2O @ 60°F;inH2O @ 68°F;inHg @ 0°C;kgf/cm2;kPa;mbar;mmH2O @ 4°C;mmH2O @ 68°F;mmHg @ 0°C;MPa;Pa;psi;Torr;atm;bar;ftH2O @ 68°F;gf/cm2;cmH2O @ 4°C;mH2O @ 4°C
1541	°C;°F;°R;K
1542	inH2O @ 39°F
1543	gal/min;gal/h;L/min;L/h;%;Custom
1544	Default(inH2O @ 39°F)
1545	Default(°C)
1546	Enter Custom Units (8 chars)
1547	Select number of Decimals
1548	Enter Custom Tag (8 chars)
1549	Enter Custom Tag (14 chars)
1550	Pressure;Meterbody Temp;Loop Output;Percent Output;Static Press
1551	%;Custom
1552	Enter Pressure Units
1553	Select the screen number:
1554	Enter value for Chart Low Limit
1555	Enter value for Chart High Limit
1556
1557	Message already cleared. Aborting...
1558	This will clear the message. Please proceed if you are sure...
1559	Message cleared successfully.
1560	This Method is used to activate an optional firmware feature in the device. Please refer to document 34-ST-33-73 for supported firmware revision level requirements.
1561	Device Upgraded Successfully.
1562	-WARNING- Pressing OK will clear the logged Faults.
1563	All the Faults cleared.
1564	Enter calibration date in MM/DD/YYYY
Reference ID	String