Device dictionary

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Reference ID	String
0	Model
1	Defines the condition the device will use to determine when to publish the burst message.
2	Primary Variable Out of Limits
3	Non-Primary Variable Out of Limits
4	Primary Variable mA Output Saturated
5	Primary Variable mA Output Fixed
6	.1f
7	A000: Undefined
8	A001: EEPROM Error (CP)
9	A002: RAM Error (CP)
10	A003: No Sensor Response
11	A004: Temperature Overrange
12	A005: Mass Flow Rate Overrange
13	A006: Characterization Required
14	A007: Real-Time Interrupt Failure
15	A008: Density Overrange
16	A009: Transmitter Initializing/Warming Up
17	A010: Calibration Failure
18	A011: Zero Calibration Failed: Low
19	A012: Zero Calibration Failed: High
20	A013: Zero Calibration Failed: Unstable
21	A014: Transmitter Failure
22	A015: MA Readback Error
23	A016: Sensor RTD Failure
24	A017: T-Series RTD Failure
25	A018: EEPROM Error (Xmtr)
26	A019: RAM Error (Xmtr)
27	A020: No Flow Cal Value
28	A021: No K1 Value
29	A022: Config DB Corrupt (CP)
30	A023: Internal Totals Corrupt (CP)
31	A024: Program Corrupt (CP)
32	A025: Boot Sector Fault (CP)
33	A026: Sensor/Xmtr Comm Failure
34	A027: Security Breach
35	A028: CP Write Failure
36	A029: PIC/Daughterboard Comm Failure
37	A030: Incorrect Board Type
38	A031: Low Power
39	A032: Outputs Fixed During MV/Outputs to Fault During MV
40	A033: No LPO/RPO Signal
41	A034: Meter Verification Failed
42	A035: Meter Verification Aborted
43	A036: Undefined
44	A037: Undefined
45	A038: Undefined
46	A039: Undefined
47	A100: mA Output Saturated
48	A101: mAO1 Fixed
49	A102: Drive Overrange
50	A103: Data Loss Possible
51	A104: Calibration-in-Progress
52	A105: Two-Phase Flow
53	A106: Burst Mode Enabled
54	A107: Power Reset Occurred
55	A108: Single-SP Event 1 ON
56	A109: Single-SP Event 2 ON
57	A110: FO Saturated
58	A111: FO Fixed
59	A112: Upgrade Transmitter Software
60	A113: mAO2 Saturated
61	A114: mA Output 2 Fixed
62	A115: No External Data or Polled Data
63	A116: PM: Temperature Overrange
64	A117: PM: Density Overrange
65	A118: DO1 Fixed
66	A119: DO2 Fixed
67	A120: CM: Curve Fit Failure
68	A121: CM: Extrapolation Alert
69	A122: DO3 Fixed
70	A123: DO4 Fixed
71	A124: FI Saturated
72	A125: Batch Timeout
73	A126: Batch Overrun
74	A127: Batch No Reset
75	A128: Batch/Fill No Start
76	A129: PPI Display Error
77	A130: Printer Out of Paper
78	A131: MV in Progress (Outputs at LMV)
79	A132: Sensor Simulation Active
80	A133: PIC UI EEPROM Error
81	A134: PPI Memory Error
82	A135: PPI Communication Error
83	A136: Undefined
84	A137: Undefined
85	A138: Undefined
86	A139: Undefined
87	D1 Calibration in Progress
88	D2 Calibration in Progress
89	D3 Calibration in Progress
90	D4 Calibration in Progress
91	FD Calibration in Progress
92	Zero Calibration in Progress
93	Temperature Slope Calibration in Progress
94	Temperature Offset Calibration in Progress
95	Discrete Event 1 Active
96	Discrete Event 2 Active
97	Discrete Event 3 Active
98	Discrete Event 4 Active
99	Discrete Event 5 Active
100	Discrete Output 1 Active
101	Discrete Output 2 Active
102	Discrete Output 3 Active
103	Discrete Input 1 Active
104	Discrete Input 2 Active
105	Flow Rate Switch Active
106	Undefined
107	Dynamic Variables Returned for Device Variables
108	Command Response Truncated
109	PV
110	SV
111	TV
112	QV
113	4.2f
114	Defines the threshold value for the device to begin bursting at the triggered update rate. Within the threshold limits, the device will burst at the default rate. Applicable to rising, falling and windowed trigger modes only.
115	Gas Standard Volume Cutoff Out of Range
116	Invalid Concentration Measurement Mode Code
117	Transmitter-Specific Command Error (Invalid CM curve)
118	Invalid Concentration Units Code
119	Invalid Temperature Units Code
120	Invalid Density Units Code
121	Reference Temperature Out of Range
122	Water Reference Temperature Out of Range
123	Water Reference Density Out of Range
124	Slope Trim Out of Range
125	Slope Offset Out of Range
126	Extrapolation Alarm Limit Out of Range
127	Max Fit Order Out of Range
128	Invalid Curve Index
129	Invalid Data Index
130	SGU
131	Current
132	Frequency
133	Concentration Measurement
134	Live Zero Flow Rate
135	Core Processor Input Voltage
136	Left and Right Pickoff Stiffness
137	%
138	Time in Seconds
139	Fluid Density at Specified Temperature and Concentration
140	Concentration
141	Concentration 1
142	Density 1
143	Concentration 2
144	Density 2
145	Concentration 3
146	Density 3
147	Concentration 4
148	Density 4
149	Concentration 5
150	Density 5
151	Fluid Density at Reference Temperature and Specified Concentration
152	Ref Temperature
153	Density 1 at Ref
154	Density 2 at Ref
155	Density 3 at Ref
156	Density 4 at Ref
157	Density 5 at Ref
158	Concentration 6
159	Density 6 at Ref
160	Differential Mass Flow Rate
161	Oil Flow Rate at Line
162	Water Flow Rate at Line
163	Oil Flow Rate at Reference
164	Water Flow Rate at Reference
165	Oil Density at Line (Fixed SGU Units)
166	Oil Density at Line (Fixed API Units)
167	API
168	Water Cut at Line
169	Water Cut at Reference
170	Unremediated Volume Flow at Line
171	Volume Flow Rate at Reference
172	Oil Density at Line (Fixed SGU)
173	Oil Flow Rate at Line
174	Oil Flow at Reference
175	Production Volume Reconciliation
176	Shrinkage Factor Corrected
177	Oil Flow at Reference
178	Volume Flow Rate at Reference
179	Mass Flow Rate (Remediated)
180	Unremediated Vol Flow at Line
181	First Point
182	Second Point
183	Third Point
184	Fourth Point
185	Flowing Density
186	mA Output Trim
187	Petroleum Measurement Setup
188	Edit Warning
189	Read Modbus Data
190	Write Modbus Data
191	Change Alert Severity
192	Variable Summary- PM
193	Variable Summary- CM
194	Special Units
195	External Pressure/Temperature
196	No Additional Information for Above
197	Additional Information for Above
198	A104: Calibration in Progress
199	A105: Two-Phase Flow
200	A116: Temperature Overrange (Petroleum Measurement)
201	A117: Density Overrange (Petroleum Measurement)
202	A: Discrete Output Fixed
203	A120: Curve Fit Failure (Concentration Measurement)
204	A121: Extrapolation Alert (Concentration Measurement)
205	Start
206	Starts meter verification and shows the result PASS or FAIL or ABORT. This procedure takes upto 4 minutes.
207	Setup
208	Show Last 20 Results
209	LD Optimization
210	Enter Matrix
211	Reset Matrix Data
212	Write Protect
213	Locate Device
214	Advanced HART Configuration
215	Lock/Unlock Device
216	Restore Factory Configuration
217	Device Reset
218	Configure Matrix
219	Trim Concentration Measurement Process Variables
220	Change HART Revision
221	Changes the universal revision of the HART interface.
222	Disable Simulation
223	Most Recent Test Results
224	Variable Summary- PVR
225	Variable Summary- TBR
226	MV Discrete Assignment
227
228	GetHealthStatus
229	Overview
230	Configure
231	Service Tools
232	Inputs/Outputs Fault Actions
233	Alert Severity
234	Concentration Measurement Alerts
235	Variables
236	Calibration
237	Security and Simulation
238	Security
239	Variables Polled from External Devices
240	Electronics
241	Zero
242	PVR
243	Reset/Restore
244	Identification
245	Revisions
246	Materials of Construction
247	All Totalizers
248	Differential Mass
249	Production Vol Reconc (PVR)
250	Oil Flow at Line
251	Water Flow at Line
252	Water Flow at Reference
253	Oil Flow at Line (Shrinkage)
254	Oil Flow at Ref (Shrinkage)
255	Volume Flow at Ref (Shrinkage)
256	Gas Standard Volume
257	External Poll Config
258	GSV Special Unit
259	Display Variable Menu Features
260	Offline Variable Menu Features
261	Mass Special Units
262	Volume Special Units
263	Primary Variables
264	Petroleum Measurement
265	Concentration Measurement
266	Fuel Consumption
267	Totalizer Variables
268	Frequency Output Settings
269	Frequency Output Fault Settings
270	Frequency Output Scaling
271	Variables (Fuel Consumption)
272	Variables (PVR)
273	Variables (TBR)
274	Variables (TMR)
275	mA Output Fault Settings
276	Smart Meter Verification
277	Manual Verification
278	Most Recent Test Results
279	Automatic Verification
280	Concentration Measurement Configuration
281	Configure Matrix
282	At Specific Temp and Conc
283	At Reference Temp and Conc
284	Temperature Isotherm
285	Isotherm 1
286	Isotherm 2
287	Isotherm 3
288	Isotherm 4
289	Isotherm 5
290	Isotherm 6
291	Density at Reference
292	Burst Mode
293	Burst Message 1
294	Message Contents
295	Configure Update Rate
296	Burst Message 2
297	Burst Message 3
298	Event Notification
299	Alert Bit Selection
300	F: EEPROM Error (CP)
301	F: RAM Error (CP)
302	F: No Sensor Response
303	View Diagnostic Variables
304	View Two-Phase Flow Condition
305	F: Temperature Overrange
306	Additional Information
307	F: Mass Flow Rate Overrange
308	F: Characterization Required
309	F: Density Overrange
310	View Density Characterization
311	F: Transmitter Initializing/Warming Up
312	F: Calibration Failure
313	F: Zero Calibration Failed: Low
314	F: Zero Calibration Failed: High
315	F: Zero Calibration Failed: Unstable
316	F: Transmitter Failure
317	F: Sensor RTD Failure
318	F: T-Series RTD Failure
319	F: EEPROM Error (Transmitter)
320	F: RAM Error (Transmitter)
321	F: No Flow Calibration Value
322	F: No K1 Value
323	F: Configuration Database Corrupt (Core Processor)
324	F: Internal Totals Corrupt (Core Processor)
325	F: Program Corrupt (Core Processor)
326	F: Boot Sector Fault (Core Processor)
327	F: Sensor/Transmitter Communications Failure
328	F: Security Breach
329	F: Core Processor Write Failure
330	F: PIC/Daughterboard Communication Failure
331	F: Incorrect Board Type
332	F: Low Power
333	F: Meter Verification in Progress: Outputs to Fault
334	F: Outputs Fixed During Meter Verification
335	F: No Right/Left Pickoff Signal
336	F: Meter Verification Failed
337	F: Meter Verification Aborted
338	A: mA Output Saturated
339	A: mA Output Fixed
340	M: Drive Overrange
341	M: Data Loss Possible (Totals and Inventories)
342	A: Calibration In Progress
343	M: Two-Phase Flow
344	A: Burst Mode Enabled
345	M: Power Reset Occurred
346	M: Single-Setpoint Event 1 ON
347	M: Single-Setpoint Event 2 ON
348	A: Frequency Output Saturated
349	A: Frequency Output Fixed
350	M: No External Input or Polled Data
351	M: Temperature Overrange (Petroleum Measurement)
352	M: Density Overrange (Petroleum Measurement)
353	A: Curve Fit Failure (Concentration Measurement)
354	M: Extrapolation Alert (Concentration Measurement)
355	View Concentration Measurement Variables
356	M: Meter Verification in Progress
357	M: Meter Verification in Progress: Outputs to Last Measured Value
358	A: Sensor Simulation Active
359	A: Discrete Event 1 Active
360	A: Discrete Event 2 Active
361	A: Discrete Event 3 Active
362	A: Discrete Event 4 Active
363	A: Discrete Event 5 Active
364	A: Discrete Input Active
365	M: Primary Variable Out of Limits
366	M: Non-Primary Variable Out of Limits
367	M: Primary Variable mA Output Saturated
368	M: Primary Variable mA Output Fixed
369	M: Cold Start
370	F: Field Device Malfunction
371	Mass (Remediated)
372	Offline
373	Flow Rate
374	This process variable is the rate at which mass is flowing through the sensor.
375	.2f
376	.3f
377	.4f
378	.5f
379	Sensor Serial Number - Uniquely identifies the sensor from which the field device variables are being read.
380	8d
381	8.2f
382	8.3f
383	8.6f
384	mAO Cutoff
385	Update Period
386	Mass Flow Classification
387	Mass Flow Family
388	Status
389	Mass Flow LS
390	Mass Flow Family Status
391	Mass Flow Update Period
392	The temperature of the liquid or gas being measured.
393	Temperature Classification
394	Temperature Family
395	Temperature PDQ
396	Temperature LS
397	Temperature Family Status
398	Temperature Update Period
399	The total mass that has flowed since the last totalizer reset.
400	Mass Total Classification
401	Mass Total Family
402	Mass Total PDQ
403	Mass Total LS
404	Mass Total Family Status
405	Mass Total Update Period
406	The density of the liquid being measured.
407	.6f
408	Density Classification
409	Density Family
410	Density LS
411	Density Family Status
412	Density Update Period
413	The total mass that has flowed since the last inventory reset.
414	Mass Inventory Classification
415	Mass Inventory Family
416	Mass Inventory PDQ
417	Mass Inventory LS
418	Mass Inventory Family Status
419	Mass Inventory Update Period
420	Flow Rate
421	This process variable is the rate at which volume is flowing through the sensor.
422	10.4f
423	Volume Flow Classification
424	Volume Flow Family
425	Volume Flow LS
426	Volume Flow Family Status
427	Volume Flow Update Period
428	Total
429	The total volume that has flowed since the last totalizer reset.
430	Volume Total Classification
431	Volume Total Family
432	Volume Total PDQ
433	Volume Total LS
434	Volume Total Family Status
435	Volume Total Update Period
436	The total volume that has flowed since the last inventory reset.
437	Volume Inventory Classification
438	Volume Inventory Family
439	Volume Inventory PDQ
440	Volume Inventory LS
441	Volume Inventory Family Status
442	Volume Inventory Update Period
443	Pressure value from an external device.
444	Pressure Classification
445	Pressure Family
446	Pressure PDQ
447	Pressure LS
448	Pressure Family Status
449	Pressure Update Period
450	Pressure Damping
451	Drive gain is the amount of current required to drive the vibrating element, expressed as a percentage of the maximum allowable drive gain.
452	6.2f
453	Drive Classification
454	Drive Family
455	Drive PDQ
456	Drive LS
457	Drive Family Status
458	Drive Update Period
459	Drive Gain Damping
460	The referred density value after the density offset has been applied.
461	API Density Unit
462	API Density Upper Sensor Limit
463	API Density Lower Sensor Limit
464	API Density Minimum Span
465	API Density Classification
466	API Density Family
467	API Density PDQ
468	API Density LS
469	API Density Family Status
470	API Density Update Period
471	Flow Rate
472	The volume flow rate of the petroleum being measured at reference conditions.
473	API Volume Flow Units
474	API Volume Flow Upper Sensor Limit
475	API Volume Flow Lower Sensor Limit
476	API Volume Flow Minimum Span
477	API Volume Flow Classification
478	API Volume Flow Family
479	API Volume Flow PDQ
480	API Volume Flow LS
481	API Volume Flow Family Status
482	API Volume Flow Update Period
483	The total volume of petroleum that has flowed since the last totalizer reset.
484	API Volume Total Units
485	API Volume Total Classification
486	API Volume Total Family
487	API Volume Total PDQ
488	API Volume Total LS
489	API Volume Total Family Status
490	API Volume Total Update Period
491	Inventory
492	The total volume of petroleum that has flowed since the last inventory reset.
493	API Volume Inventory Classification
494	API Volume Inventory Family
495	API Volume Inventory PDQ
496	API Volume Inventory LS
497	API Volume Inventory Family Status
498	API Volume Inventory Update Period
499	The average density value of the petroleum being measured.
500	API Avg Density Unit
501	API Avg Density Upper Sensor Limit
502	API Avg Density Lower Sensor Limit
503	API Avg Density Minimum Span
504	API Average Density Classification
505	API Average Density Family
506	API Average Density PDQ
507	API Average Density LS
508	API Average Density Family Status
509	API Average Density Update Period
510	The average temperature of the petroleum being measured.
511	API Avg Temperature Unit
512	API Avg Temperature Upper Sensor Limit
513	API Avg Temperature Lower Sensor Limit
514	API Avg Temperature Minimum Span
515	API Average Temperature Classification
516	API Average Temperature Family
517	API Average Temperature PDQ
518	API Average Temperature LS
519	API Average Temperature Family Status
520	API Average Temperature Update Period
521	API CTL Classification
522	API CTL Family
523	API CTL PDQ
524	API CTL LS
525	API CTL Family Status
526	API CTL Update Period
527	External Temperature
528	Temperature value from an external device.
529	External Temperature Classification
530	External Temperature Family
531	External Temperature PDQ
532	External Temperature LS
533	External Temperature Family Status
534	External Temperature Update Period
535	Meter Temperature
536	Oil Total at Line
537	Oil Density Line (Fixed API Units)
538	Unremediated Volume Total at Line
539	Water Total at Line
540	Differential Mass Total
541	Differential Mass Inventory
542	Mass Total (Remediated)
543	Mass Inventory (Remediated)
544	Oil Total at Reference
545	Water Total at Reference
546	Unremediated Density at Line
547	Shrinkage Factor Oil Flow Rate at Line
548	Shrinkage Factor Oil Flow Rate at Reference
549	Shrinkage Factor Volume Flow Rate at Reference
550	Shrinkage Factor Oil Total at Line
551	Shrinkage Factor Oil Total at Reference
552	Shrinkage Factor Volume Total at Reference
553	Accumulated TBR Time (Min)
554	Accumulated TBR Time (Sec)
555	Oil Density at Reference (Fixed SGU Units)
556	Oil Density at Reference (Fixed API Units)
557	Unremediated Volume Flow of Mix at Line
558	Not Used
559	Shrinkage Factor Volume Flow Rate at Reference
560	Water Cut at Reference
561	Left Pickoff
562	Right Pickoff
563	ANSI 150
564	ANSI 300
565	ANSI 600
566	PN40
567	JIS 10K
568	JIS 20K
569	ANSI 900
570	Sanitary clamp fitting
571	Union
572	PN100
573	Unknown
574	Tube Lining
575	PTFE
576	Tefzel
577	Tube Wetted Material
578	Hast-C
579	Monel
580	Tantalum
581	Titanium
582	316L SST
583	Inconel
584	Base Unit
585	Base Time
586	Conversion Factor
587	Flow Label
588	Total Label
589	Forward
590	Reverse
591	Bi directional
592	A programmable high limit on density, which enables the transmitter to indicate two-phase flow (extremes in fluid density caused by two-phase of gas or accumulation of solids in a liquid flow stream) if fluid density goes outside programmed two-phase flow limits.
593	Two-Phase High Limit
594	5.4f
595	A programmable low limit on density, which enables the transmitter to indicate two-phase flow (extremes in fluid density caused by two-phase of gas or accumulation of solids in a liquid flow stream) if fluid density goes outside programmed two-phase flow limits.
596	Two-Phase Low Limit
597	A programmable time period, from 0.00 to 60.00 seconds, during which outputs representing flow hold their last measured value before indicating two-phase flow.
598	Two-Phase Duration
599	5.2f
600	Oil Flow Rate at Reference Total
601	Water Flow Rate at Reference Total
602	Oil Flow Rate at Line Total
603	Water Flow Rate at Line Total
604	SFC Oil Flow Rate at Line Total
605	SFC Oil Flow at Reference Total
606	SFC Volume Flow Rate at Reference Total
607	Frequency Output Polarity
608	5d
609	5.3f
610	µsec
611	5.5f
612	8.5f
613	1d
614	6.5f
615	2d
616	Fault Action
617	Fault Action
618	Fault Action
619	Fault Level
620	Fault Level
621	Present Frequency Output
622	7.5f
623	The tube frequency of the sensor measured in Hertz.
624	Pickoff amplitude indicates the distance that the vibrating element is traveling from its resting state.
625	7.2f
626	Scroll Time (1-30)
627	Passcode (4 Digits)
628	4d
629	4.1f
630	Poll as primary host
631	Poll as secondary host
632	Polled Variable 1
633	Gas Base Density
634	Polled Variable 2
635	Mass Total
636	Gas Standard Volume Flow Rate
637	Flow Pressure Factor
638	9.8f
639	Density Pressure Factor
640	10.7f
641	Pressure Compensation
642	Disable
643	Enable
644	Compensation Pressure
645	External Temperature
646	Correction Temperature
647	4.4f
648	Assignment
649	Milliamp Output 1
650	Assignment
651	Assignment
652	Active Matrix
653	Curve 1
654	Curve 2
655	Curve 3
656	Curve 4
657	Curve 5
658	Curve 6
659	The standard volume flow rate of the liquid being measured.
660	ED Standard Volume Flow Units
661	ED Standard Volume Flow Upper Sensor Limit
662	ED Standard Volume Flow Lower Sensor Limit
663	ED Standard Volume Flow Minimum Span
664	ED Standard Volume Flow Classification
665	ED Standard Volume Flow Family
666	ED Standard Volume Flow PDQ
667	ED Standard Volume Flow LS
668	ED Standard Volume Flow Family Status
669	ED Standard Volume Flow Update Period
670	The total standard volume of fluid that has flowed since the last totalizer reset.
671	ED Std Volume Total Units
672	ED Standard Volume Total Classification
673	ED Standard Volume Total Family
674	ED Standard Volume Total PDQ
675	ED Standard Volume Total LS
676	ED Standard Volume Total Family Status
677	ED Standard Volume Total Update Period
678	The total standard volume of fluid that has flowed since the last inventory reset.
679	ED Standard Volume Inventory Classification
680	ED Standard Volume Inventory Family
681	ED Standard Volume Inventory PDQ
682	ED Standard Volume Inventory LS
683	ED Standard Volume Inventory Family Status
684	ED Standard Volume Inventory Update Period
685	The net volume flow rate of the liquid being measured.
686	ED Net Volume Flow Units
687	ED Net Volume Flow Upper Sensor Limit
688	ED Net Volume Flow Lower Sensor Limit
689	ED Net Volume Flow Minimum Span
690	ED Net Volume Flow Classification
691	ED Net Volume Flow Family
692	ED Net Volume Flow PDQ
693	ED Net Volume Flow LS
694	ED Net Volume Flow Family Status
695	ED Net Volume Flow Update Period
696	The total net volume of fluid that has flowed since the last totalizer reset.
697	ED Net Volume Total Units
698	ED Net Volume Total Classification
699	ED Net Volume Total Family
700	ED Net Volume Total PDQ
701	ED Net Volume Total LS
702	ED Net Volume Total Family Status
703	ED Net Volume Total Update Period
704	The total net volume of fluid that has flowed since the last inventory reset.
705	ED Net Volume Inventory Classification
706	ED Net Volume Inventory Family
707	ED Net Volume Inventory PDQ
708	ED Net Volume Inventory LS
709	ED Net Volume Inventory Family Status
710	ED Net Volume Inventory Update Period
711	The net mass flow rate of the fluid being measured.
712	ED NEt Mass Flow Unit
713	ED Net Mass Flow USL
714	ED Net Mass Flow LSL
715	ED Net Mass Flow Minimum Span
716	ED Net Mass Flow Classification
717	ED Net Mass Flow Family
718	ED Net Mass Flow PDQ
719	ED Net Mass Flow LS
720	ED Net Mass Flow Family Status
721	ED Net Mass Flow Update Period
722	The total net mass of fluid that has flowed since the last totalizer reset.
723	ED Net Mass Total Unit
724	ED Net Mass Total Classification
725	ED Net Mass Total Family
726	ED Net Mass Total PDQ
727	ED Net Mass Total LS
728	ED Net Mass Total Family Status
729	ED Net Mass Total Update Period
730	The total net mass of fluid that has flowed since the last inventory reset.
731	ED Net Mass Inventory Classification
732	ED Net Mass Inventory Family
733	ED Net Mass Inventory PDQ
734	ED Net Mass Inventory LS
735	ED Net Mass Inventory Family Status
736	ED Net Mass Inventory Update Period
737	ED Density Ref Unit
738	ED Density Ref Upper Sensor Limit
739	ED Density Ref Lower Sensor Limit
740	ED Density Ref Minimum Span
741	ED Density Reference Classification
742	ED Density Reference Family
743	ED Density Reference PDQ
744	ED Density Reference LS
745	ED Density Reference Family Status
746	ED Density Reference Update Period
747	The specific gravity of the liquid being measured.
748	ED Density SGU Upper Sensor Limit
749	ED Density SGU Lower Sensor Limit
750	ED Density SGU Minimum Span
751	ED Density SGU Classification
752	ED Density SGU Family
753	ED Density SGU PDQ
754	ED Density SGU LS
755	ED Density SGU Family Status
756	ED Density SGU Update Period
757	ED Density Baume Upper Sensor Limit
758	Ed Density Baume Lower Sensor Limit
759	Ed Density Baume Minimum Span
760	Density Baume Classification
761	Density Baume Family
762	Density Baume PDQ
763	Density Baume LS
764	Density Baume Family Status
765	Density Baume Update Period
766	Baume Damping
767	Special
768	The concentration value after the density offset has been applied.
769	ED Concentration Classification
770	ED Concentration Family
771	ED Concentration PDQ
772	ED Concentration LS
773	ED Concentration Family Status
774	ED Concentration Update Period
775	Concentration Damping
776	Tube Classification
777	Tube Family
778	Tube PDQ
779	Tube LS
780	Tube Family Status
781	Tube Update Period
782	Board Temperature Classification
783	Board Temperature Family
784	Board Temperature PDQ
785	Board Temperature LS
786	Board Temperature Family Status
787	Board Temperature Update Period
788	Case Temperature Classification
789	Case Temperature Family
790	Case Temperature PDQ
791	Case Temperature LS
792	Case Temperature Family Status
793	Case Temperature Update Period
794	10 Point Linearization for Gas
795	Fuel Consumption
796	Smart Meter Verification Professional
797	Petroleum Measurement
798	Production Volume Reconciliation
799	Transient Bubble Remediation
800	Transient Mist Remediation
801	Disabled
802	Enabled
803	3d
804	Gas Reference Density
805	Reference density of the gas being measured.
806	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.
807	The existing volume unit that the special unit will be based on.
808	The existing time unit that the special unit will be based on.
809	The conversion factor is the base unit value divided by the special unit value.
810	The label used for the special volume flow unit that was defined.
811	The label used for the special volume total unit that was defined.
812	Specifies the lowest gas standard volume flow rate that will be reported as measured. All gas standard volume flow rates below this cutoff are reported as 0.
813	Simulate Primary Purpose Variables
814	Control
815	Fixed Value
816	Ramp Low Point
817	Ramp High Point
818	Ramp Period
819	Uncertainty Limit
820	CM Standard Volume Flow
821	Discrete Output Polarity
822	The state to which the discrete output will be set if the transmitter detects a fault with 'Alert Severity' = 'Fault'. If 'None' is selected, the behavior of the discrete output will be controlled by 'Discrete Output Source'.
823	RTD Cable Resistance
824	T-Series RTD Resistance
825	Line RTD Resistance
826	Power On Time
827	The power on time is saved in the core processor and is the number of total seconds the core has been powered. It is cumulative and not reset by a power cycle.
828	Refresh Rate (100-10,000)
829	English
830	German
831	French
832	Spanish
833	Engineer to Order Number
834	Not resettable from display or digital communications
835	Resettable from display only
836	Resettable from digital communications only
837	Resettable from display and digital communications
838	Input voltage is the current power input.
839	Input Voltage Classification
840	Input Voltage Family
841	Input Voltage PDQ
842	Input Voltage LS
843	Input Voltage Family Status
844	Input Voltage Update Period
845	Flow Rate
846	A standard volume flow rate measurement used when the process fluid is a gas.
847	Gas Volume Flow Classification
848	Gas Volume Flow Family
849	Gas Volume Flow LS
850	Gas Volume Flow Family Status
851	Gas Volume Flow Update Period
852	Nm3
853	NL
854	SCF
855	SL
856	Sm3
857	Total
858	The total standard volume of a gas that has flowed since the last totalizer reset.
859	Gas Volume Total Classification
860	Gas Volume Total Family
861	Gas Volume Total PDQ
862	Gas Volume Total LS
863	Gas Volume Total Family Status
864	Gas Volume Total Update Period
865	Inventory
866	The total standard volume of a gas that has flowed since the last inventory reset.
867	Gas Volume Inventory Classification
868	Gas Volume Inventory Family
869	Gas Volume Inventory PDQ
870	Gas Volume Inventory LS
871	Gas Volume Inventory Family Status
872	Gas Volume Inventory Update Period
873	The real-time bidirectional volume flow rate with no flow damping or mass flow cutoff applied.
874	Live Zero Classification
875	Live Zero Family
876	Live Zero PDQ
877	Live Zero LS
878	Live Zero Family Status
879	Live Zero Update Period
880	Field Verification Zero Classification
881	Field Verification Zero Family
882	Field Verification Zero PDQ
883	Field Verification Zero LS
884	Field Verification Zero Family Status
885	Field Verification Zero Update Period
886	Reset Corrected Volume Total
887	Reset All Totals
888	Reset CM Reference (Corrected) Volume Total
889	Reset CM Net Mass Total
890	Reset CM Net Volume Total
891	CM: Increment Current Curve
892	Reset Gas Standard Volume Total
893	Start/Stop Totals
894	Discrete Assignment
895	Variable
896	Event Type
897	Between Setpoint A and Setpoint B
898	< Setpoint A or > Setpoint B
899	Temperature-Corrected Average Density
900	Core Processor Software
901	Core Processor Serial Number
902	The serial number from the core processor label.
903	The version of the Device Description (DD) being used.
904	Hours until Next Run
905	Hours between Recurring Runs (0=Schedule is not repeating)
906	Hours Remaining until Next Run
907	Reason for Abort
908	No error
909	Manual Abort
910	Watchdog Timeout
911	High Peak Drive Voltage
912	High Drive Current Standard Deviation
913	High Drive Current Mean Value
914	Drive Loop Reported Error
915	High Delta T Standard Deviation
916	High Delta T Value
917	State Running
918	Verification Complete
919	Wrong Verification Enable
920	No Factory Air Verification
921	No Factory Water Verification
922	Parameter Registers not Set
923	Transmitter Running Seconds at Test
924	Reference Temperature
925	The reference temperature used for calculation of concentration.
926	Water Reference Temperature
927	The reference temperature for water, to be used in calculating specific gravity.
928	Slope
929	The multiplier (meter factor) to be used to adjust the concentration process variable.
930	Offset
931	The value to be added to the concentration process variable.
932	Limit
933	The acceptable variation, in percent, above and below the defined range of the concentration matrix. If either process temperature or process density exceeds this limit, an extrapolation alert is posted.
934	Curve Fit Maximum Order
935	2
936	3
937	4
938	5
939	Concentration Measurement
940	Enables the Concentration Measurement application.
941	Concentration Matrices
942	Prevents changes to the concentration measurement matrices.
943	Unlock
944	Lock
945	Temperature High
946	Density Low
947	Density High
948	Temperature Low
949	Water Reference Density
950	The reference density for water, to be used in calculating specific gravity.
951	Accuracy
952	Curve Fit Results
953	Poor
954	Empty
955	Temperature Units
956	Density Units
957	Concentration Units
958	The label to be used for the concentration measurement unit.
959	Matrix Name
960	Displays the name of the matrix.
961	Special Unit String
962	A user-defined label to be used for the concentration measurement unit.
963	Matrix Being Configured
964	Select the matrix to be configured or modified.
965	The process variable that the matrix is designed to calculate. Other process variables are calculated from the derived variable.
966	Derived Variable
967	Standard
968	Density at Ref.
969	S.G.
970	Mass Conc(Dens)
971	Mass Conc(SG)
972	Volume Conc(Dens)
973	Volume Conc(SG)
974	Conc(Dens)
975	Conc(SG)
976	The calculation of concentration derived from the entered concentration matrix data, and the measured density and temperature of the process fluid.
977	Percent concentration of a liquid calculated based on the entered concentration matrix data and the measured density and temperature.
978	The density at the specified concentration.
979	Density 6
980	Temperature Iso 1
981	The temperature value for which a range of density values will be defined for a specific concentration.
982	Temperature Iso 2
983	Temperature Iso 3
984	Temperature Iso 4
985	Temperature Iso 5
986	Temperature Iso 6
987	The density value for a specific concentration at the indicated temperature.
988	A100: mAO1 Saturated
989	Save Configuration:
990	Select the option you would like to configure:
991	Finish to Exit
992	Oil Flow Rate at Line Units
993	Flow Rate
994	Volume flow rate of oil at line conditions.
995	Oil Flow Rate at Line USL
996	Oil Flow Rate at Line LSL
997	Oil Flow Rate at Line Minimum Span
998	Oil Flow Rate at Line Classification
999	Oil Flow Rate at Line Family
1000	Oil Flow Rate at Line LS
1001	Oil Flow Rate at Line Family Status
1002	Oil Flow Rate at Line Update Period
1003	Water Cut at Line Units
1004	Calculated water cut at line conditions.
1005	Water Cut at Line USL
1006	Water Cut at Line LSL
1007	Water Cut at Line Minimum Span
1008	Water Cut at Line Classification
1009	Water Cut at Line Family
1010	Water Cut at Line LS
1011	Water Cut at Line Family Status
1012	Water Cut at Line Update Period
1013	Water Flow Rate at Line
1014	Water Flow Rate at Line Units
1015	Flow Rate
1016	Volume flow rate of the water at line conditions.
1017	Water Flow Rate at Line USL
1018	Water Flow Rate at Line LSL
1019	Water Flow Rate at Line Minimum Span
1020	Water Flow Rate at Line Classification
1021	Water Flow Rate at Line Family
1022	Water Flow Rate at Line LS
1023	Water Flow Rate at Line Family Status
1024	Water Flow Rate at Line Update Period
1025	Oil Flow Rate at Reference
1026	Oil Flow Rate at Reference Units
1027	Flow Rate
1028	Volume flow rate of oil at 60° F.
1029	Oil Flow Rate at Reference USL
1030	Oil Flow Rate at Reference LSL
1031	Oil Flow Rate at Reference Minimum Span
1032	Oil Flow Rate at Reference Classification
1033	Oil Flow Rate at Reference Family
1034	Oil Flow Rate at Reference LS
1035	Oil Flow Rate at Reference Family Status
1036	Oil Flow Rate at Reference Update Period
1037	Water Cut at Reference Units
1038	Calculated water cut at 60° F.
1039	Water Cut at Reference USL
1040	Water Cut at Reference LSL
1041	Water Cut at Reference Minimum Span
1042	Water Cut at Reference Classification
1043	Water Cut at Reference Family
1044	Water Cut at Reference LS
1045	Water Cut at Reference Family Status
1046	Water Cut at Reference Update Period
1047	Water Flow Rate at Reference Units
1048	Flow Rate
1049	Net volume flow rate of the water at 60° F.
1050	Water Flow Rate at Reference USL
1051	Water Flow Rate at Reference LSL
1052	Water Flow Rate at Reference Minimum Span
1053	Water Flow Rate at Reference Classification
1054	Water Flow Rate at Reference Family
1055	Water Flow Rate at Reference LS
1056	Water Flow Rate at Reference Family Status
1057	Water Flow Rate at Reference Update Period
1058	Oil Total at Line Units
1059	Total
1060	Net volume total of the oil at line conditions.
1061	Oil Total at Line Family
1062	Oil Total at Line PDQ
1063	Oil Total at Line LS
1064	Oil Total at Line Family Status
1065	Oil Total at Line Update Period
1066	Oil Density at Line (Fixed SGU Units) Minimum Span
1067	Oil Density at Line (Fixed SGU Units) Family
1068	Oil Density at Line (Fixed SGU Units)
1069	Density of the oil at 60° F (user-specified),converted to line conditions using line temperature and API Even Table Correction for 'A Tables' (Temperature at Line, Density Oil at 60° F), then reported in SGU units.
1070	Oil Density at Line (Fixed SGU Units) Units
1071	Oil Density at Line (Fixed SGU Units) Classification
1072	Oil Density at Line (Fixed SGU Units) PDQ
1073	Oil Density at Line (Fixed SGU Units) LS
1074	Oil Density at Line (Fixed SGU Units) Status
1075	Oil Density at Line (Fixed SGU Units) Update Period
1076	Oil Density at Line (Fixed SGU Units) USL
1077	Oil Density at Line (Fixed SGU Units) Damping
1078	Oil Density at Line (Fixed SGU Units) LSL
1079	Oil Density Line (Fixed API Units) Minimum Span
1080	Density of the oil at 60° F (user-specified), converted to line conditions using line temperature and API Even Table Correction for 'A Tables' (Temperature at Line, Density Oil at 60° F), then reported in °API.
1081	Oil Density Line (Fixed API Units) Units
1082	Oil Density Line (Fixed API Units) Classification
1083	Oil Density Line (Fixed API Units) Family
1084	Oil Density Line (Fixed API Units) PDQ
1085	Oil Density Line (Fixed API Units) LS
1086	Oil Density Line (Fixed API Units) Family Status
1087	Oil Density Line (Fixed API Units) Update Period
1088	Oil Density Line (Fixed API Units) USL
1089	Oil Density Line (Fixed API Units) Damping
1090	Oil Density Line (Fixed API Units) LSL
1091	Unremediated Volume Total at Line Units
1092	Total
1093	Total volume of the mixture at line conditions, unremediated.
1094	Unremediated Volume Total at Line Classification
1095	Unremediated Volume Total at Line Family
1096	Unremediated Volume Total at Line PDQ
1097	Unremediated Volume Total at Line LS
1098	Unremediated Volume Total at Line Family Status
1099	Unremediated Volume Total at Line Update Period
1100	Water Total at Line Units
1101	Total
1102	Volume total of the water at line conditions, incrementing.
1103	Water Total at Line Classification
1104	Water Total at Line Family
1105	Water Total at Line PDQ
1106	Water Total at Line LS
1107	Water Total at Line Family Status
1108	Water Total at Line Update Period
1109	Differential Mass Total Units
1110	Total
1111	Total fuel consumption since last totalizer reset, derived from the differential mass flow rate.
1112	Differential Mass Total Classification
1113	Differential Mass Total Family
1114	Differential Mass Total PDQ
1115	Differential Mass Total LS
1116	Differential Mass Total Family Status
1117	Differential Mass Total Update Period
1118	Inventory
1119	Total fuel consumption since last inventory reset, derived from the differential mass flow rate.
1120	Differential Mass Inventory Classification
1121	Differential Mass Inventory Family
1122	Differential Mass Inventory PDQ
1123	Differential Mass Inventory LS
1124	Differential Mass Inventory Family Status
1125	Differential Mass Inventory Update Period
1126	Oil Total at Reference Units
1127	Total
1128	Volume total of the oil at 60° F.
1129	Oil Total at Reference Classification
1130	Oil Total at Reference Family
1131	Oil Total at Reference PDQ
1132	Oil Total at Reference LS
1133	Oil Total at Reference Family Status
1134	Oil Total at Reference Update Period
1135	Water Total at Reference Units
1136	Total
1137	Volume total of the water at 60° F, incrementing.
1138	Water Total at Reference Classification
1139	Water Total at Reference Family
1140	Water Total at Reference PDQ
1141	Water Total at Reference LS
1142	Water Total at Reference Family Status
1143	Water Total at Reference Update Period
1144	Shrinkage Factor Oil Flow Rate at Line
1145	Shrinkage Factor Oil Flow Rate at Line Units
1146	Flow Rate
1147	Oil flow rate at line conditions adjusted for shrinkage, the change in liquid volume between the measurement point and a stock tank due to lighter hydrocarbons evaporating.
1148	Shrinkage Factor Oil Flow Rate at Line USL
1149	Shrinkage Factor Oil Flow Rate at Line LSL
1150	Shrinkae Fac Corr Oil Flow Rate at Line Min Span
1151	Shrinkage Factor Oil Flow Rate at Line Classification
1152	Shrinkage Factor Oil Flow Rate at Line Family
1153	Shrinkage Factor Oil Flow Rate at Line PDQ
1154	Shrinkage Factor Oil Flow Rate at Line LS
1155	Shrinkage Factor Oil Flow Rate at Line Family Status
1156	Shrinkage Factor Oil Flow Rate at Line Update Period
1157	Shrinkage Factor Oil Flow Rate at Reference
1158	Shrinkage Factor Oil Flow Rate at Reference Units
1159	Flow Rate
1160	Oil flow rate at reference conditions adjusted for shrinkage, the change in liquid volume between the measurement point and a stock tank due to lighter hydrocarbons evaporating.
1161	Shrinkage Factor Oil Flow Rate at Reference USL
1162	Shrinkage Factor Oil Flow Rate at Reference LSL
1163	Shrinkage Factor Oil Flow Rate at Reference Min Span
1164	Shrinkage Factor Oil Flow Rate at Reference Classification
1165	Shrinkage Factor Oil Flow Rate at Reference Family
1166	Shrinkage Factor Oil Flow Rate at Reference LS
1167	Shrinkage Factor Oil Flow Rate at Reference Family Status
1168	Shrinkage Factor Oil Flow Rate at Reference Update Period
1169	Shrinkage Factor Volume Flow Rate at Reference
1170	Shrinkage Factor Volume Flow Rate at Reference Units
1171	Flow Rate
1172	Volume flow rate of mixture at 60° F adjusted for shrinkage, the change in liquid volume between the measurement point and a stock tank due to lighter hydrocarbons evaporating.
1173	Shrinkage Factor Volume Flow Rate at Reference USL
1174	Shrinkage Factor Volume Flow Rate at Reference LSL
1175	Shrinkage Factor Volume Flow Rate at Reference Min Span
1176	Shrinkage Factor Volume Flow Rate at Reference Classification
1177	Shrinkage Factor Volume Flow Rate at Reference Family
1178	Shrinkage Factor Volume Flow Rate at Reference LS
1179	Shrinkage Factor Volume Flow Rate at Reference Family Status
1180	Shrinkage Factor Volume Flow Rate at Reference Update Period
1181	Shrinkage Factor Oil Total at Line
1182	Shrinkage Factor Oil Total at Line Units
1183	Total
1184	Total oil at line conditions adjusted for shrinkage, the change in liquid volume between the measurement point and a stock tank due to lighter hydrocarbons evaporating.
1185	Shrinkage Factor Oil Total at Line Classification
1186	Shrinkage Factor Oil Total at Line Family
1187	Shrinkage Factor Oil Total at Line PDQ
1188	Shrinkage Factor Oil Total at Line LS
1189	Shrinkage Factor Oil Total at Line Update Period
1190	Shrinkage Factor Oil Total at Reference
1191	Shrinkage Factor Oil Total at Reference Units
1192	Total
1193	Total oil at reference conditions adjusted for shrinkage, the change in liquid volume between the measurement point and a stock tank due to lighter hydrocarbons evaporating.
1194	Shrinkage Factor Oil Total at Reference Classification
1195	Shrinkage Factor Oil Total at Reference Family
1196	Shrinkage Factor Oil Total at Reference LS
1197	Shrinkage Factor Oil Total at Reference Family Status
1198	Shrinkage Factor Oil Total at Reference Update Period
1199	Shrinkage Factor Volume Total at Reference
1200	Units
1201	Total
1202	Total volume of the mixture at 60° F adjusted for shrinkage, the change in liquid volume between the measurement point and a stock tank due to lighter hydrocarbons evaporating.
1203	Shrinkage Factor Volume Total at Reference Classification
1204	Shrinkage Factor Volume Total at Reference Family
1205	Shrinkage Factor Volume Total at Reference PDQ
1206	Shrinkage Factor Volume Total at Reference LS
1207	Shrinkage Factor Volume Total at Reference Family Status
1208	Shrinkage Factor Volume Total at Reference Update Period
1209	Accumulated TBR Time (Min) Units
1210	Total number of minutes that TBR correction has been active, since the last master reset.
1211	Accumulated TBR Time (Min) Classification
1212	Accumulated TBR Time (Min) Family
1213	Accumulated TBR Time (Min) PDQ
1214	Accumulated TBR Time (Min) LS
1215	Accumulated TBR Time (Min) Family Status
1216	Accumulated TBR Time (Min) Update Period
1217	Accumulated TBR Time (Sec) Units
1218	sec
1219	Accumulated TBR Time (Sec)
1220	Total number of seconds that TBR correction has been active, since the last master reset.
1221	Accumulated TBR Time (Sec) Classification
1222	Accumulated TBR Time (Sec) Family
1223	Accumulated TBR Time (Sec) PDQ
1224	Accumulated TBR Time (Sec) LS
1225	Accumulated TBR Time (Sec) Family Status
1226	Accumulated TBR Time (Sec) Update Period
1227	Flow Rate
1228	Flow rate of supply meter minus flow rate of return meter.
1229	Differential Mass Flow Rate Units
1230	Differential Mass Flow Rate Classification
1231	Differential Mass Flow Rate Family
1232	Differential Mass Flow Rate PDQ
1233	Differential Mass Flow Rate LS
1234	Differential Mass Flow Rate Family Status
1235	Differential Mass Flow Rate Update Period
1236	Differential Mass Flow Rate Update USL
1237	Differential Mass Flow Rate Update LSL
1238	Differential Mass Flow Rate Update Minimum Span
1239	Oil Density at Reference (Fixed SGU Units)
1240	Oil Density at Reference (Fixed SGU Units) Minimum Span
1241	Oil Density at Reference (Fixed SGU Units) Family
1242	Measured density corrected to reference temperature. It is assumed the mixture is all oil. May not be accurate if there is significant air or water in the mix.
1243	Oil Density at Reference (Fixed SGU Units) Units
1244	Oil Density at Reference (Fixed SGU Units) Classification
1245	Oil Density at Reference (Fixed SGU Units) PDQ
1246	Oil Density at Reference (Fixed SGU Units) LS
1247	Oil Density at Reference (Fixed SGU Units) Family Status
1248	Oil Density at Reference (Fixed SGU Units) Update Period
1249	Oil Density at Reference (Fixed SGU Units) USL
1250	Oil Density at Reference (Fixed SGU Units) LSL
1251	Oil Density at Reference (Fixed API Units)
1252	Oil Density at Reference (Fixed API Units) Minimum Span
1253	Oil Density at Reference (Fixed API Units) Family
1254	Measured density corrected to reference temperature. It is assumed the mixture is all oil. May not be accurate if there is significant air or water in the mix.
1255	Oil Density at Reference (Fixed API Units) Units
1256	Oil Density at Reference (Fixed API Units) Classification
1257	Oil Density at Reference (Fixed API Units) PDQ
1258	Oil Density at Reference (Fixed API Units) LS
1259	Oil Density at Reference (Fixed API Units) Family Status
1260	Oil Density at Reference (Fixed API Units) Update Period
1261	Oil Density at Reference (Fixed API Units) USL
1262	Oil Density at Reference (Fixed API Units) Damping
1263	Oil Density at Reference (Fixed API Units) LSL
1264	Unremediated Volume Flow at Line Units
1265	Flow Rate
1266	Volume flow rate of the mixture at line conditions, without TBR correction, unremediated.
1267	Unremediated Volume Flow at Line USL
1268	Unremediated Volume Flow at Line LSL
1269	Unremediated Volume Flow at Line Minimum Span
1270	Unremediated Volume Flow at Line Classification
1271	Unremediated Volume Flow at Line Family
1272	Unremediated Volume Flow at Line LS
1273	Unremediated Volume Flow at Line Update Period
1274	SMV Display
1275	Enabling this parameter allows the user to start Smart Meter Verification (SMV) from the transmitter’s Local Operator Interface (LOI).
1276	The device firmware version that indicates the level of change based on NAMUR 53.
1277	NE 53 Version
1278	Var Code 22
1279	Var Code 23
1280	Var Code 24
1281	Var Code 25
1282	Var Code 26
1283	Var Code 27
1284	Var Code 28
1285	Var Code 29
1286	Var Code 30
1287	Var Code 31
1288	Var Code 32
1289	Var Code 33
1290	Var Code 34
1291	Var Code 35
1292	Var Code 36
1293	Var Code 37
1294	Var Code 38
1295	Var Code 39
1296	Var Code 40
1297	Var Code 41
1298	Var Code 42
1299	Var Code 43
1300	Var Code 44
1301	Var Code 45
1302	Var Code 46
1303	Var Code 47
1304	Var Code 48
1305	Var Code 49
1306	Var Code 50
1307	Var Code 51
1308	Var Code 52
1309	Var Code 53
1310	Var Code 54
1311	Var Code 56
1312	Var Code 57
1313	Var Code 58
1314	Var Code 59
1315	Var Code 60
1316	Var Code 61
1317	Var Code 62
1318	Var Code 63
1319	Var Code 64
1320	Var Code 65
1321	Var Code 66
1322	Var Code 67
1323	Number of decimal points to be displayed for the value.
1324	Density at Ref Temperature
1325	Temp-Corrected Volume Total (PM)
1326	Temp-Corrected Volume Inventory (PM)
1327	Density at Reference
1328	Density (Fixed SG Units)
1329	Standard Volume Flow Rate
1330	Volume Total at Ref Temperature
1331	Volume Inventory at Ref Temperature
1332	Net Mass Flow Rate
1333	Net Mass Total
1334	Net Mass Inventory
1335	Net Volume Flow Rate
1336	Net Volume Total
1337	Net Volume Inventory
1338	Density of Oil at line(SGU)
1339	Unremediated Vol Tot of Mix at Line
1340	Net Oil Total at 60F
1341	Volume Total of Mix at 60F
1342	Density of the mixture at line conditions, unremediated.
1343	Unremediated Density at Line Cutoff
1344	Unremediated Density at Line Upper Sensor Limit
1345	Unremediated Density at Line Damping
1346	Unremediated Density at Line Lower Sensor Limit
1347	Unremediated Density at Line Minimum Span
1348	Unremediated Density
1349	Unremediated Density at Line Classification
1350	Unremediated Density at Line Family
1351	Unremediated Density at Line LS
1352	Unremediated Density at Line Family Status
1353	TMR Mass Flow Unit
1354	Flow Rate
1355	Mass flow rate of the process fluid, remediated.
1356	Mass Flow Rate (Remediated) Cutoff
1357	Remediated Mass Flow Upper Sensor Limit
1358	TMR Remediated Mass Flow Lower Sensor Limit
1359	TMR Remediated Mass Flow Minimum Span
1360	Mass Flow Rate (Remediated) Classification
1361	Mass Flow Rate (Remediated) Family
1362	Mass Flow Rate (Remediated) LS
1363	Mass Flow Rate (Remediated) Family Status
1364	Mass Flow Rate (Remediated) Update Period
1365	Mass Total (Remediated) Units
1366	Total
1367	Mass total of the process fluid, remediated.
1368	Mass Total (Remediated) Classification
1369	Mass Total (Remediated) Family
1370	Mass Total (Remediated) PDQ
1371	Mass Total (Remediated) LS
1372	Mass Total (Remediated) Family Status
1373	Mass Total (Remediated) Update Period
1374	Inventory
1375	Mass inventory of the process fluid, remediated.
1376	Mass Inventory (Remediated) Classification
1377	Mass Inventory (Remediated) Family
1378	Mass Inventory (Remediated) PDQ
1379	Mass Inventory (Remediated) LS
1380	Mass Inventory (Remediated) Family Status
1381	Mass Inventory (Remediated) Update Period
1382	Source
1383	Fixed Value or Digital Communications
1384	Poll for External Value
1385	Enable Data Logger
1386	global trigger status
1387	Total Memory
1388	Free Memory
1389	Enable SFC
1390	Disable
1391	Enable
1392	Enable FC
1393	Primary Variable
1394	Totalizers
1395	Initial Setup
1396	Configure channels, map variables, primary output, pulse output settings and RS-485 port settings.
1397	Perform a density calibration.
1398	Perform temperature calibration.
1399	Characterize
1400	Optional Setup
1401	Configure the process monitor screens by selecting the desired process variables for each screen.
1402	Configure the number of decimal places for each process variable.
1403	Assign a variable to the frequency output, set polarity and scaling.
1404	Configure burst messages and event notification.
1405	Set up Bell-202 port and RS-485 port settings.
1406	Configure the HART revision level.
1407	Configure Burst Variables
1408	Device Variables
1409	PV, SV, TV, QV
1410	Enable or disable write protect mode.
1411	Allow HART master to have exclusive access while configuring or calibrating field device. Access from the other masters is restricted.
1412	Set Up Bell 202 Port
1413	HART Burst Mode
1414	This screen will not automatically refresh after changing the 'Type' field. Select Guided Setup and then return to this screen to see the current configuration.
1415	Enter an Alert number and change the Alert's severity to Fault, Information or Ignore.
1416	Enter an Alert number and view the current severity of the alert.
1417	Extrapolation Limit
1418	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort.
1419	Digital Communications
1420	The 'First Milliamp Output' uses the 'Primary Variable' as its source.
1421	The 'Secondary Variable' is only used in HART communications .
1422	The 'Frequency Output' uses the 'Third Variable' as its source.
1423	The 'Fourth Variable' is only used in HART communications.
1424	Secondary Variable
1425	Petroleum Measurement
1426	Inputs/Outputs
1427	If the device is equipped with a display, show a pattern on the display to make the device easily identifiable.
1428	Perform smart meter verification which will determine the health of the flowmeter without stopping the process flow or removing the meter from the line.
1429	This will help to identify the device by showing pattern on the display. Click Next to start.
1430	The device is now displaying the pattern shown above, making it identifiable. The display will return to normal operations after 60 seconds but can be interrupted by pressing any button on the device display.
1431	Read modbus register values.
1432	Write modbus register values.
1433	Reset the transmitter without losing configuration.
1434	Overwrite the existing device configuration with the configuration set at the factory.
1435	Manually reset the configuration changed flag if the host is not able to reset the flag automatically.
1436	Simulation Configuration
1437	Mass Flow Rate Simulation Settings
1438	Density Simulation Settings
1439	Temperature Simulation Settings
1440	Simulate Mass Flow Rate
1441	Simulation Settings
1442	Other (Curved Tube)
1443	T-Series (Straight Tube)
1444	Loop Tests
1445	Revision Numbers
1446	World Area Information
1447	Recommended Actions: 1. Check the sensor circuitry. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 3. If the problem persists, contact Micro Motion.
1448	Recommended Actions: 1. Check for 'Two-Phase Flow'. 2. View the diagnostic variables to verify whether tubes are vibrating. Left and Right pickoffs should be above 10mV. 3. Check the sensor circuitry. 4. Check sensor tubes for plugging. 5. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 6. If the problem persists, contact Micro Motion.
1449	Density Characterization
1450	Two-Phase Flow Condition
1451	Recommended Actions: 1. Verify that a sensor is connected to the transmitter. 2. Check the sensor RTD circuitry. 3. Verify that process temperature is within range of sensor and transmitter. 4. If the problem persists, contact Micro Motion.
1452	Recommended Actions: 1. If other alerts are present (typically, A003, A006, A008, A102, or A105), resolve those alerts first. If the A005 alert persists, continue with the suggestions below. 2. View the diagnostic variables to verify whether tubes are vibrating. Left and Right pickoffs should be above 10mV. 3. Check the sensor circuitry. 4. Check the sensor tubes for erosion by verifying density. 5. If the problem persists, contact Micro Motion.
1453	Recommended Actions: 1. Check the characterization. Specifically, verify the 'Flow FCF' and 'K1' values on the sensor tag. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 3. If the problem persists, contact Micro Motion.
1454	Recommended Actions: 1. Check the characterization. Specifically, verify the 'FlowCal' and 'K1' values on the sensor tag. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 3. If the problem persists, contact Micro Motion.
1455	The measured 'Density' has exceeded 0-10 g/cm3.
1456	Recommended Actions: 1. If other alerts are present (typically, A003, A006, A033, A102, or A105), resolve those alerts first. If the A008 alert persists, continue with the suggestions below. 2. Verify process. Check for air in the flow tubes, tubes not filled, foreign material in tubes, or coating in tubes. 3. Check the sensor circuitry. 4. Verify 'Density' characterization and verify configuration matches sensor tag. 5 View diagnostic variables to verify raw tube frequency is in the proper range for the sensor type. 6. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 7. If the problem persists, contact Micro Motion.
1457	Recommended Actions: 1. Allow the flowmeter to warm up (approximately 30 seconds). The error should disappear once the flowmeter is ready for normal operation. 2. Check the input voltage to ensure its between 12 and 15 V. 3. If alert does not clear, make sure that the sensor is completely full or completely empty. 4. Check the sensor circuitry. 5. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1458	Recommended Actions: 1. If 'A026' also appears, resolve the 'A026' first. 2. Allow the flowmeter to warm up (approximately 30 seconds). The error should disappear once the flowmeter is ready for normal operation. 3. Check the input voltage to ensure its between 12 and 15 V. 4. Check for proper voltage into the transmitter. 5. If alert does not clear, make sure that the sensor is completely full or completely empty. 6. Check the sensor circuitry. 7. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1459	Mechanical Zero: The resulting zero was greater than 3 microseconds. Temperature or Density Calibrations: Many possible causes.
1460	Recommended Actions: 1. If alert appears during a transmitter zero, ensure that there is no flow through the sensor, then retry. 2. Cycle power to the flowmeter to clear the alert. 3. If appropriate, restore the factory zero to return the flowmeter to operation. 4. If alert appears during a density calibration, contact Micro Motion.
1461	Mechanical Zero: Calibration procedure failed due to reverse flow through the sensor.
1462	Recommended Actions: 1. If alert appears during a transmitter zero, ensure that there is no flow through the sensor, then retry. 2. Cycle power to the flowmeter to clear the alert. 3. If appropriate, restore the factory zero to return the flowmeter to operation. 4. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 5. If alert appears during a density calibration, contact Micro Motion.
1463	Mechanical Zero: Calibration procedure failed due to reverse flow through the sensor. The resulting zero was greater than 3 microseconds.
1464	Mechanical Zero: The resulting zero was greater than 3 microseconds.
1465	Internal memory or program fault has been detected.
1466	Recommended Actions: 1. Resolve other active alerts first. 2. Cycle power to the flowmeter. 3. If alert persists, the transmitter might need service. Contact Micro Motion.
1467	Recommended Actions: 1. Check the sensor RTD circuitry. 2. Verify that process temperature is within range of sensor and transmitter. 3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 4. If the problem persists, contact Micro Motion.
1468	Recommended Actions: 1.Cycle power to the transmitter. 2.If problem persists, contact Micro Motion.
1469	Attempts to write to a memory location in the transmitter have failed.
1470	The flow calibration factor and/or 'K1' has not been entered since the last master reset.
1471	Recommended Actions: 1. Check the characterization against the sensor tag. Specifically, verify the 'Flow FCF', 'K1' and 'K2' values. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 3. If the problem persists, contact Micro Motion.
1472	Recommended Actions: 1. Check the characterization against the sensor tag. Specifically, verify the 'FlowCal', 'K1' and 'K2' values. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 3. If the problem persists, contact Micro Motion.
1473	The sensor is recognized as a straight tube but the 'K1' value indicates a curved tube, or vice versa.
1474	Recommended Actions: 1. If 'A017' is active, resolve it first. 2. Check the characterization against the sensor tag. Specifically, verify the 'Flow FCF', 'K1' and 'K2' values. 3. Check the sensor RTD circuitry. 4. If the problem persists, contact Micro Motion.
1475	Recommended Actions: 1. Verify the wiring between the transmitter and core processor. 2. Verify the power to both the transmitter and Core Processor. 3. Cycle power to the transmitter. 4. If problem persists, contact Micro Motion.
1476	Recommended Actions: 1. Alarm can be cleared by user by putting the transmitter back in secure mode, but authorized procedure is required to seal transmitter.
1477	Recommended Actions: 1. Verify the core processor input voltage is at least 12V. 2. Check the power supply and all power wiring.
1478	Recommended Actions: 1. Check for two-phase flow. 2. View the diagnostic variables to verify whether tubes are vibrating. Left and Right pickoffs should be above 10mV. 3. Check the sensor circuitry. 4. Check sensor tubes for plugging. 5. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 6. If the problem persists, contact Micro Motion.
1479	Meter verification failed. The stiffness values not within acceptable limits.
1480	Recommended Actions: 1. Immediately re-run the meter verification test with outputs held at fault or last measured value. If the meter passes the second test, the fail result can be ignored. If the meter fails the second test, the flow tubes may be damaged. 2. Use the knowledge of your process to consider the type of damage and determine the appropriate action. These actions might include removing the meter from service and physically inspecting the tubes. At a minimum, perform a flow validation and a density calibration. 3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1481	Meter verification aborted.
1482	Reason: User Initiated Abort Recommend Actions: 1. Wait for 15 seconds before starting meter verification again. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1483	Reason: Frequency Drift Recommend Actions: 1. Ensure temperature, flow and density are stable and run meter verification again. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1484	Reason: High Drive Gain Recommend Actions: 1. Ensure flow is steady and minimize entrained gas and run meter verification again. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1485	Reason: Unstable Flow Recommend Actions: 1. Reduce flow rate and run meter verification again. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1486	Reason: No Air Reference Recommend Actions: 1. Perform factory calibration on air. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1487	Reason: No Water Reference Recommend Actions: 1. Perform factory calibration on water. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1488	Reason: Missing Configuration Recommend Actions: 1. Load verification parameter registers with proper values. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1489	Reason: Other Recommend Actions: 1. Run meter verification again. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 3. If abort persists, contact Micro Motion.
1490	Recommended Actions: 1. Verify that mA output range values are set to appropriate values. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1491	Non-zero 'HART Address' configured, or user has set the mA output to a fixed value.
1492	Recommended Actions: 1. Check the 'HART Address'. If non-zero, set 'mA Output Action' parameter to enable 'Live mA Output' or if multi-drop mode is desired change the alert severity to ignore by going to the Configure-> Alert Setup-> Alert Severity screen. 2. If mA output trim is being performed, exit mA output trim. 3. If mA output loop test is being performed, exit mA output loop test. 4. Check to see if the output has been fixed via digital communications or the local display.
1493	Recommended Actions: 1. Check the sensor circuitry. 2. If this is the only active alarm, it can be ignored. If desired, reconfigure the alarm severity to Ignore. 3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1494	The core processor was unable to successfully store the totalizers and inventories on the last power down and must rely on the previously saved values. These values may be up to two hours old. The transmitter is still functional.
1495	Recommended Actions: 1. Verify the transmitter and core processor have proper input voltage. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 3. If the problem persists, contact Micro Motion.
1496	Recommended Actions: 1. Allow the flowmeter to complete calibration. 2. For zero calibration procedures, you may abort the calibration, set the zero time parameter to a lower value, and restart the calibration. 3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1497	The 'Density' has exceeded the user-defined two-phase flow (density) limits.
1498	Recommended Actions: 1. Check that sensor is completely full. 2. Check that two-phase flow limits are set to appropriate values. 3. Verify density cutoff is at least 0.2 g/cc. 4. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1499	Device is in HART Burst mode.
1500	Recommended Actions: 1. No action required. 2. If desired, reconfigure the alert severity to Ignore by going to the Configure-> Alert Setup-> Alert Severity screen.
1501	Recommended Actions: 1. No action required. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1502	Process variable assigned to 'Frequency Output' is outside configured scale limits.
1503	Recommended Actions: 1. Change 'Frequency Output' scaling factors to more appropriate settings. 2. If the 'Third Variable' is set to 'Volume Flow', low 'Density' or empty tubes can cause the frequency output to saturate. 3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1504	User has set the 'Frequency Output' to a fixed value.
1505	Recommended Actions: 1. Exit 'Frequency Output' loop test. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1506	Recommended Actions: 1. The HART polling connection to external device has failed. Ensure that external device is available: 2. Verify external device is not in fault. 3. Verify HART segment power, wiring and loop resistance. 4. Verify polling configuration in the transmitter and external device. 5. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1507	The process 'Temperature' is outside Petroleum Measurement defined extrapolation limits.
1508	Recommended Actions: 1. Verify process. 2. Verify configuration for Petroleum Measurement reference table and 'Temperature'. 3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1509	The process 'Density' is outside Petroleum Measurement defined extrapolation limits.
1510	Recommended Actions: 1. If other alerts are present, resolve those alerts first. 2. Verify process. 3. Verify configuration for Petroleum Measurement reference table and 'Density'. 4. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1511	The user has set the 'Discrete Output' to a fixed state.
1512	Recommended Actions: 1. Exit 'Discrete Output' test. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1513	The configured 'Density'/'Temperature'/'Concentration' values do not result in a proper Concentration Measurement (CM) curve.
1514	Recommended Actions: 1. Verify Concentration Measurement (CM) matrix configuration by going to Configure-> Manual Setup-> Measurements-> Concentration Measurement-> Enter Matrix.
1515	The process 'Temperature' or 'Density' is outside the user-defined extrapolation limits.
1516	Recommended Actions: 1. Verify the process 'Temperature' and 'Density'. 2. Verify Concentration Measurement (CM) extrapolation alert limit. 3. Verify process. If tubes are empty or there is gas in the process, wait for condition to clear itself. 4. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1517	Recommended Actions: 1. Allow the procedure to complete. 2. If desired, abort the procedure and restart with outputs set to fault. 3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1518	Recommended Actions: 1. Allow the procedure to complete. You may abort the procedure if desired. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1519	Recommended Actions: 1. Disable output simulation. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1520	Recommended Actions: 1. Verify process and check for two-phase flow. 2. Check the diagnostic variables. 3. Check the sensor circuitry. 4. Check the sensor tubes for erosion. 5. If the problem persists, contact Micro Motion.
1521	Recommended Actions: 1. Check the 'HART Address'. If non-zero, set mA Output Action parameter to enable Live mA Output. 2. If mA output trim is being performed, exit mA output trim. 3. If mA output loop test is being performed, exit mA output loop test. 4. Check to see if the output has been fixed via digital communications or the local display.
1522	Recommended Actions: 1. This is a summary alert and is generated when one of the fault severity alerts is active. Resolve the other active alerts first.
1523	Schedule
1524	Matrix Configuration
1525	Matrix Selection
1526	Extrapolation Alert
1527	Reference Condition
1528	Configure Burst Message 1
1529	Burst Message 1 needs to be enabled before continuing. This message will burst at a continuous rate of transmission. Please choose the burst option below:
1530	Configure Burst Message 2
1531	Please choose burst option below:
1532	Configure Burst Message 3
1533	Burst Message 1 Configuration is shown below. Would you like to save settings?
1534	Burst Rate Configuration
1535	Burst Message 2 Configuration is shown below. Would you like to save settings?
1536	Burst Message 3 Configuration is shown below. Would you like to save settings?
1537	The host system must be able to accept burst messages and event notifications. Confirm before proceeding with configuration.
1538	Note: Select the 'Finish to Exit' option from below drop down list to exit 'Advanced HART Configuration' method.
1539	Event Notification help to identify abnormal device conditions by sending a burst message.
1540	Select the alerts on the screen whose status change will trigger an event notification.
1541	Adjust values for Trigger Interval and Retry Rate if required. Trigger Interval is the time that the alert(s) have to be active to trigger an event notification. Retry Rate is the time that event notification will continue to appear until acknowledged through host.
1542	Advance HART Configuration completed successfully.
1543	Update Rate
1544	Message 2
1545	Extended Device Status
1546	Message 3
1547	Warning
1548	Triggered Update Rate has been adjusted.
1549	Error
1550	Invalid burst trigger mode selected.
1551	Burst condition conflict
1552	Electronic Conditions
1553	Recommended Actions: 1. Cycle power to the flow meter. 2. The flow meter might need service. Contact Micro Motion.
1554	Sensor Conditions
1555	Recommended Actions: 1. Check for two-phase flow if connected to core 700. 2. View the diagnostic variables to verify whether tubes are vibrating. Left and Right pickoffs should be above 10mV if connected to core 700. 3. Check the sensor circuitry. 4. Check sensor tubes for plugging if connected to core 700. 5. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 6. If the problem persists, contact Micro Motion.
1556	Process Conditions
1557	Configuration Conditions
1558	Recommended Actions: 1. If A26 also appears, resolve the A26 first if connected to core 700. 2. Allow the flowmeter to warm up (approximately 30 seconds). The error should disappear once the flowmeter is ready for normal operation. 3. Check the input voltage to ensure its between 12 and 15 V. 4. Check for proper voltage into the transmitter if connected to core 700. 5. If alert does not clear, make sure that the sensor is completely full or completely empty. 6. Check the sensor circuitry. 7. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1559	Recommended Actions: 1.Cycle power to the flowmeter. 2.The transmitter might need service. Contact Micro Motion.
1560	Recommended Actions: 1. Cycle power to the flowmeter. 2. The transmitter might need service or upgrading. Contact Micro Motion.
1561	Recommended Actions: 1. Cycle power to the flowmeter. 2. If the problem persists, contact Micro Motion.
1562	Recommended Actions: 1. Contact Micro Motion.
1563	Recommended Actions: 1. Allow the procedure to complete. 2. If desired, abort the procedure and restart with outputs set to last measured value.
1564	Recommended Actions: 1. Allow the procedure to complete. 2. If desired, abort the procedure and restart with outputs set to continue measuring.
1565	Recommended Actions: 1. Meter verification aborted. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1566	Recommended Actions: 1. Verify that frequency input parameters are set to appropriate values.
1567	Recommended Actions: 1. Check valves, piping, and pumps for proper operation. 2. Increase number of seconds for Time Out. 3. If ignore source alarms is set to YES, increase number of minutes for Alarm Timeout. 4. After cause has been diagnosed, press END to end batch or RESUME to resume batch.
1568	Recommended Actions: 1. Check wiring for discrete output indicating overrun. 2. Check device connected to discrete output indicating overrun. 3. Enable batch Automatic Overshoot Compensation (AOC). 4. After cause has been diagnosed, press RESET or START to start new batch.
1569	Recommended Actions: 1. Press RESET, then press START. 2. Set reset on start option to YES.
1570	Recommended Actions: 1. Set enable batch control option to YES. 2. Configure batch flow source. 3. Assign control functions such as primary valve, secondary valve, or pump to discrete outputs. 4. Clear all alerts. 5.5. Shut off discrete input. 6. Change target value.
1571	Recommended Actions: 1. Verify process and check for two-phase flow. 2. Check the test points. 3. Check the sensor circuitry. 4. Check the sensor tubes for erosion. 5. If the problem persists, contact Micro Motion.
1572	Recommended Actions: 1. Verify that mA output range values are set to appropriate values.
1573	Recommended Actions: 1. The first command to recognize this condition will automatically reset this flag. 2. This flag may also be set following a Master Reset or a Self Test.
1574	Recommended Actions: 1. No action required.
1575	Classic View
1576	Oil Totalizers
1577	Shrinkage Factor Corrected Totalizers
1578	Volume Flow at Reference
1579	Transient Bubble Remediation
1580	Transient Mist Remediation
1581	Security Switch Status
1582	Simulation Status
1583	HART Lock Status
1584	Specify the display precision for each process variable.
1585	Specify the display precision for each totalizer and inventory.
1586	Process Variables
1587	Diagnostic Variables
1588	Sensor
1589	Electronics
1590	Zero
1591	mA Outputs
1592	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Mass Flow Rate'. Select Primary Variable:
1593	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Temperature'. Select Primary Variable:
1594	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Density'. Select Primary Variable:
1595	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Volume Flow Rate'. Select Primary Variable:
1596	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Density at Reference Temperature'. Select Primary Variable:
1597	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Volume Flow at Reference Temperature'. Select Primary Variable:
1598	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Average Observed Density'. Select Primary Variable:
1599	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Average Observed Temperature'. Select Primary Variable:
1600	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Density at Reference (Concentration)'. Select Primary Variable:
1601	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Specific Gravity (Concentration)'. Select Primary Variable:
1602	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Temperature-Corrected Volume Flow Rate (Concentration)'. Select Primary Variable:
1603	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Net Mass Flow Rate (Concentration)'. Select Primary Variable:
1604	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Net Volume Flow Rate (Concentration)'. Select Primary Variable:
1605	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Concentration'. Select Primary Variable:
1606	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Drive Gain'. Select Primary Variable:
1607	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'External Pressure'. Select Primary Variable:
1608	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'External Temperature'. Select Primary Variable:
1609	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Baume (Concentration)'. Select Primary Variable:
1610	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Gas Standard Volume Flow'. Select Primary Variable:
1611	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Oil Flow Rate at Line'. Select Primary Variable:
1612	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Water Cut at Line'. Select Primary Variable:
1613	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Water Flow Rate at Line'. Select Primary Variable:
1614	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Oil Flow Rate at Reference'. Select Primary Variable:
1615	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Water Cut at Reference'. Select Primary Variable:
1616	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Water Flow Rate at Reference'. Select Primary Variable:
1617	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Unremediated Density at Line'. Select Primary Variable:
1618	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Shrinkage Factor Oil Flow Rate at Line'. Select Primary Variable:
1619	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Shrinkage Factor Oil Flow Rate at Reference'. Select Primary Variable:
1620	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Shrinkage Factor Volume Flow Rate at Reference'. Select Primary Variable:
1621	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Differential Mass Flow Rate'. Select Primary Variable:
1622	Any changes made on this screen will be written to the device when the Next button is clicked and could affect transmitter operation. Click Next to write changes to the device, or click Cancel to abort. Primary Variable is set to 'Mass Flow Rate (Remediated)'. Select Primary Variable:
1623	Production Volume Reconciliation Variables
1624	TBR Totalizers
1625	Upload
1626	Burst Variable 2
1627	Burst Variable 3
1628	Burst Variable 4
1629	Burst Variable 5
1630	Burst Variable 6
1631	Burst Variable 7
1632	Burst Variable 8
1633	Burst Variable 1
1634	Option
1635	Default Update Rate
1636	Mode
1637	Trigger Mode
1638	Classification
1639	Trigger Units
1640	Trigger Level
1641	Burst Messages
1642	Events
1643	PV Analog Channel Saturated
1644	PV Analog Channel Fixed
1645	Wireless
1646	WirelessHART Device
1647	IEEE 802.15.4 2.4GHz DSSS with O-QPSK Modulation
1648	Primary
1649	Primary Analog Channel
1650	Secondary
1651	Secondary Analog Channel
1652	Tertiary
1653	Tertiary Analog Channel
1654	Quaternary
1655	Quaternary Analog Channel
1656	Quinary
1657	Quinary Analog Channel
1658	Critical Power Failure
1659	Lock all
1660	Trim not supported
1661	Configuration cannot be changed
1662	Locked by gateway
1663	Analog Input Channel
1664	Analog Output Channel
1665	Secondary Analog Channel Saturated
1666	Tertiary Analog Channel Saturated
1667	Quaternary Analog Channel Saturated
1668	Quinary Analog Channel Saturated
1669	Secondary Analog Channel Fixed
1670	Tertiary Analog Channel Fixed
1671	Quaternary Analog Channel Fixed
1672	Quinary Analog Channel Fixed
1673	Simulation active
1674	The device is in simulation mode and the level output is not representative of the process.
1675	Non-Volatile memory failure
1676	The Non-Volatile memory check is invalid or maybe corrupt, or the battery of a battery-backed memory has failed.
1677	Volatile memory error
1678	The RAM memory check is invalid or maybe corrupt
1679	Watchdog reset executed
1680	A watchdog reset has been performed
1681	Voltage conditions out of range
1682	A voltage condition is outside its allowable range
1683	Environmental conditions out of range
1684	An internal or environmental condition is beyond acceptable limits.
1685	Electronic failure
1686	A hardware problem not related to the sensor has been detected.
1687	Subdevice list changed
1688	Duplicate master detected
1689	Capacity Denied
1690	The device was unable to acquire the communication bandwidth required to support the Burst Messaging specified
1691	Bandwidth allocation pending
1692	Block transfer pending
1693	Battery life
1694	Percent range
1695	Loop current
1696	Primary variable
1697	Secondary variable
1698	Tertiary variable
1699	Quaternary variable
1700	Read receive time
1701	Write date and time
1702	Non-Volatile Clock
1703	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.
1704	Clock Uninitialized
1705	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.
1706	None
1707	No restrictions
1708	SI Only
1709	Restricted to SI Unit codes only
1710	Process automation device
1711	Discrete device
1712	Hybrid:Process automation+discrete
1713	I/O System
1714	WirelessHART Process automation device
1715	WirelessHART Discrete device
1716	WirelessHART Process automation+discrete
1717	WirelessHART Gateway
1718	WirelessHART Access point
1719	WirelessHART Process adapter
1720	WirelessHART Discrete adapter
1721	WirelessHART enabled handheld/portable maintenance tool
1722	Device Profile
1723	US
1724	United States of America
1725	JP
1726	Japan
1727	DE
1728	Germany
1729	FR
1730	France
1731	ES
1732	Spain
1733	RU
1734	Russian Federation
1735	CN
1736	People's Republic of China
1737	Secondary Master
1738	Primary Master
1739	Device Diagnostic Status 0
1740	Device Diagnostic Status 1
1741	I/O and Subdevice Status
1742	WirelessHART Status
1743	Time Set Option
1744	Real Time Clock Flags
1745	Country
1746	Country of intended device installation
1747	SI Unit Control
1748	Indicates if device should only display SI unit codes
1749	Burst Trigger Units
1750	Enable on token-passing data link layer only
1751	Enable on TDMA data link layer only
1752	Enable on both TDMA and token-passing data link layer
1753	Burst Trigger Class
1754	Continuous
1755	The Burst Message is published continuously at (worst case) the Minimum Update Period.
1756	Window
1757	The Burst Message is triggered when the source value deviates more than the specified trigger value
1758	Rising
1759	The Burst Message is triggered when source value Rises Above the specified trigger value.
1760	Falling
1761	The Burst Message is triggered when the source value Falls Below the specified trigger value.
1762	On-change
1763	The Burst Message is triggered when any value in the message changes.
1764	Off
1765	Enable event notification on token-passing data link layer
1766	Enable event notification on TDMA data link layer
1767	Enable event notification on TDMA and token-passing data link layer
1768	Configuration changed event pending
1769	Device status event pending
1770	More status available event pending
1771	Wired HART Enabled
1772	Enabled on Wired HART device connection only
1773	Wireless HART Enabled
1774	Enabled on WirelessHART device connection only
1775	Both Wired and WirelessHart Enabled
1776	Enabled on both Wired and WirelessHART connections
1777	Burst Msg Trigger Mode
1778	Event Status
1779	Event Notification Control
1780	Device Status Mask
1781	Ext dev status Mask
1782	Device Diagnostic Status 0 Mask
1783	Device Diagnostic Status 1 Mask
1784	Device Diagnostic Status 2 Mask
1785	Device Diagnostic Status 3 Mask
1786	AO saturated Mask
1787	AO fixed Mask
1788	Latched Device Status
1789	Operate mode Mask
1790	Not Defined
1791	Latched Ext dev status
1792	Latched Device Diagnostic Status 0
1793	Latched Device Diagnostic Status 1
1794	Latched Device Diagnostic Status 2
1795	Latched Device Diagnostic Status 3
1796	Latched AO saturated
1797	Latched AO fixed
1798	Latched Operate Mode
1799	Flow Coriolis Mass
1800	Time Stamp
1801	Relative time value on network
1802	8u
1803	Configuration Change Counter Mismatch
1804	Status bytes mismatch
1805	Device Variable
1806	Analog Channel Number
1807	Analog Channel Number- Index into an array of Analog Channels.
1808	STX Count
1809	Count of STX messages received by this device
1810	ACK Count
1811	Count of ACK messages received by this device
1812	BACK Count
1813	Count of BACK messages received by this device
1814	Burst Command
1815	Cmd 48: Read Additional Device Status
1816	Read Additional Device - This command reads additional device status information
1817	Update Period
1818	Update period for burst message
1819	Max Update Period
1820	Maxium update period for burst message
1821	Burst Variable Code
1822	Burst Variable Slot - Device variable code assigned to the slot to be read in burst mode.
1823	Burst Trigger Level
1824	Time First Unack Event Triggered
1825	The time when the first unacknowledged event was triggered
1826	Event Notification Retry Time
1827	Max Update Time
1828	Burst Message Number
1829	Total Burst Msgs
1830	Total number of burst messages supported by this device
1831	Event Number
1832	Event Debounce Interval
1833	Device Specific Status 0 Mask
1834	Device Specific Status 1 Mask
1835	Device Specific Status 2 Mask
1836	Device Specific Status 3 Mask
1837	Device Specific Status 4 Mask
1838	Device Specific Status 5 Mask
1839	Device Specific Status 14 Mask
1840	Device Specific Status 15 Mask
1841	Device Specific Status 16 Mask
1842	Device Specific Status 17 Mask
1843	Device Specific Status 18 Mask
1844	Device Specific Status 19 Mask
1845	Device Specific Status 20 Mask
1846	Latched Device Specific Status 0
1847	Latched Device Specific Status 1
1848	Latched Device Specific Status 2
1849	Latched Device Specific Status 3
1850	Latched Device Specific Status 4
1851	Latched Device Specific Status 5
1852	Latched Device Specific Status 14
1853	Latched Device Specific Status 15
1854	Latched Device Specific Status 16
1855	Latched Device Specific Status 17
1856	Latched Device Specific Status 18
1857	Latched Device Specific Status 19
1858	Latched Device Specific Status 20
1859	Latched Cfg chng count
1860	Number of Events Supported
1861	Burst Variable Codes
1862	Update time adjusted
1863	Invalid burst message
1864	Invalid device variable classification
1865	Invalid burst trigger mode selection code
1866	Burst condition conflict
1867	Update period increased
1868	Insufficient bandwidth
1869	Update period or debounce interval adjusted
1870	Update times adjusted
1871	Update rate uncertain
1872	Not all events cleared
1873	The device is currently locked due to the Software Write Protect and HART Lock. This prevents any configuration changes from being made to the device.
1874	The device is currently locked due to the Software Write Protect. The Software Write Protect must be disabled in order to make configuration changes to the device.
1875	The HART Lock is active. This prevents any configuration changes from being made to the device.
1876	Changing configuration can affect transmitter operation. Ensure that the control loop is set for manual operation before continuing.
1877	Enter 'Zero Time':
1878	A problem was detected:
1879	Zero calibration is starting.
1880	Calibration is in progress, please wait. Zero: %{0} µsec Standard Deviation: %{1} µsec Zero Offset: %{2} µsec
1881	Auto Zero is complete. Zero: %{0} µsec Standard Deviation: %{1} µsec Zero Offset: %{2} µsec
1882	Enter 'Density':
1883	You are about to perform a first point calibration.
1884	Calibration is in progress, please wait.
1885	Density calibration is complete.
1886	You are about to perform a second point calibration.
1887	You are about to perform a third point calibration.
1888	You are about to perform a fourth point calibration.
1889	Note- Flow rate must be greater than 50% of the nominal flow for the meter.
1890	Select 'Discrete Output 1' level:
1891	'Discrete Output 1' is off.
1892	'Discrete Output 1' is on.
1893	Returning field device to original output...
1894	Select 'Frequency Output Level':
1895	10000 Hz;Other;End
1896	Output:
1897	'Frequency Output' is fixed at %0 Hz.
1898	Select 'Analog Output Level':
1899	Output Value:
1900	Parameters are being updated, please wait.
1901	'Analog Output' is fixed at %{0} mA.
1902	Connect reference meter.
1903	'mA Output' is about to be set to %0 mA.
1904	Enter 'Meter Value':
1905	Choose 'Petroleum Measurement Table Number':
1906	Choose 'Petroleum Measurement Table Letter':
1907	Enter 'Thermal Expansion Coefficient'
1908	Enter 'Reference Temperature' in degC
1909	All totalizers have been started.
1910	All totalizers have been stopped.
1911	All totalizers have been reset.
1912	'Mass Total' has been reset.
1913	'Volume Total' has been reset.
1914	Note-When selecting upscale or downscale, configure fault value before sending fault code to the device.
1915	Note-Send PV assignment before modifying range values.
1916	Note-Send SV assignment before modifying range values.
1917	Note-Send TV assignment before modifying frequency scaling.
1918	Note-Variables which use this as the units code will be in the previous units until this value is sent to the device.
1919	Note-Send scaling method selection to the device prior to performing frequency output scaling.
1920	Selection for data type:
1921	Enter 'Coil Number':
1922	number
1923	Enter 'Register Number':
1924	'Coil Mode' is %0 and 'Exception Code' is %1.
1925	'Unsigned 16 Value' is %0 and 'Exception Code' is %1.
1926	'Unsigned 32 Value' is %0 and 'Exception Code' is %1.
1927	'Floating Point Value' is %0 and 'Exception Code' is %1.
1928	Coil Mode:
1929	Disable;Enable
1930	Enter 'Unsigned 16 Value':
1931	uValue
1932	Enter 'Unsigned 32 Value'
1933	Enter 'Floating Point Value':
1934	fValue
1935	alarmNum
1936	View 'Alert Severity' of
1937	Choose a 'Discrete Event':
1938	'%0' is assigned to '%1'.
1939	Select the 'Simulation Mode':
1940	select
1941	'Simulation Mode' is %0.
1942	Meter Verification PASSED. Meter meets factory specifications.
1943	Meter Verification FAILED. Meter may not meet factory specifications. Press Help for more Information.
1944	'CM Net Mass Total' has been reset.
1945	'CM Net Volume Total' has been reset.
1946	'GSV Total' has been reset.
1947	'Temperature Corrected Volume Total' has been reset.
1948	'CM Volume Total' has been reset.
1949	Enter 'Mass Flow Fixed Value'
1950	Enter 'Mass Flow Minimum Amplitude' of waveform
1951	Enter 'Mass Flow Maximum Amplitude' of waveform
1952	Enter 'Mass Flow Period' of waveform in second
1953	Enter 'Temperature Fixed Value'
1954	Enter 'Temperature Minimum Amplitude' of waveform
1955	Enter 'Temperature Maximum Amplitude' of waveform
1956	Enter 'Temperature Period' of waveform in second
1957	Enter 'Density Fixed Value'
1958	Enter 'Density Minimum Amplitude' of waveform
1959	Enter 'Density Maximum Amplitude' of waveform
1960	Enter 'Density Period' of waveform in second
1961	All alerts are acknowledged.
1962	Current 'Totalizer Reset Option' selected is '%0'.
1963	Select 'Totalizer Reset Option':
1964	Not resettable from display or digital communications;Resettable from display only;Resettable from digital communications only;Resettable from display and digital communications
1965	'Configuration Changed Flag' is being reset, please wait.
1966	'Configuration Changed Flag’ has been reset.
1967	Factory zero has been restored.
1968	Enter 'Pressure Unit':
1969	The method is being aborted.
1970	Frequency Factor (Hz):
1971	floatFreqVal
1972	Rate Factor:
1973	floatRateVal
1974	Pulses/Unit:
1975	floatPulsesPerUnit
1976	Units/Pulse:
1977	floatUnitsPerPulse
1978	Current sensor type selection is Other (Curved Tube). Select 'Sensor Type':
1979	Current sensor type selection is T-Series (Straight Tube). Select 'Sensor Type':
1980	Next
1981	Priority: Failed - Fix Now An uncorrectable checksum mismatch has been detected. Recommended Actions: 1. Cycle power to the flow meter. 2. The flow meter might need service. Contact Micro Motion.
1982	No Additional Information Available
1983	Priority: Failed - Fix Now ROM checksum error or a RAM location cannot be written to. Recommended Actions: 1. Cycle power to the flowmeter. 2. The flow meter might need service. Contact Micro Motion.
1984	Priority: Failed - Fix Now Continuity failure of drive circuit, LPO, or RPO, or LPO-RPO mismatch when driving. Recommended Actions: 1. Check the sensor circuitry. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 3. If the problem persists, contact Micro Motion.
1985	Priority: Failed - Fix Now Continuity failure of drive circuit, LPO, or RPO, or LPO-RPO mismatch when driving. Recommended Actions: 1. Check for 'Two-Phase Flow'. 2. View the diagnostic variables to verify whether tubes are vibrating. Left and Right pickoffs should be above 10mV. 3. Check the sensor circuitry. 4. Check sensor tubes for plugging. 5. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 6. If the problem persists, contact Micro Motion.
1986	Drive Gain: Value %0
1987	Priority: Failed - Fix Now The value computed for the resistance of the line RTD or the Meter/Case RTD is outside limits. Recommended Actions: 1. Verify that a sensor is connected to the transmitter. 2. Check the sensor RTD circuitry. 3. Verify that process temperature is within range of sensor and transmitter. 4. If the problem persists, contact Micro Motion.
1988	Temperature: Value %0
1989	Priority: Failed - Fix Now The measured flow has exceeded the maximum flow rate of the sensor. Recommended Actions: 1. If other alerts are present (typically, A003, A006, A008, A102, or A105), resolve those alerts first. If the A005 alert persists, continue with the suggestions below. 2. View the diagnostic variables to verify whether tubes are vibrating. Left and Right pickoffs should be above 10mV. 3. Check the sensor circuitry. 4. Check the sensor tubes for erosion by verifying density. 5. If the problem persists, contact Micro Motion.
1990	Priority: Failed - Fix Now One or more required characterization parameters have not been entered. Recommended Actions: 1. Check the characterization. Specifically, verify the 'FlowCal' and 'K1' values on the sensor tag. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 3. If the problem persists, contact Micro Motion.
1991	Flow Cal: Value %0 K1: Value %1 uSec K2: Value %2 uSec
1992	Priority: Failed - Fix Now One or more required characterization parameters have not been entered. Recommended Actions: 1. Check the characterization. Specifically, verify the 'Flow FCF' and 'K1' values on the sensor tag. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 3. If the problem persists, contact Micro Motion.
1993	Flow FCF: Value %0 K1: Value %1 uSec K2: Value %2 uSec
1994	Priority: Failed - Fix Now The measured 'Density' has exceeded 0-10 g/cm3. Recommended Actions: 1. If other alerts are present (typically, A003, A006, A102, or A105), resolve those alerts first. If the A008 alert persists, continue with the suggestions below. 2. Verify process. Check for air in the flow tubes, tubes not filled, foreign material in tubes, or coating in tubes. 3. Check the sensor circuitry. 4. Verify 'Density' characterization and verify configuration matches sensor tag. 5 View diagnostic variables to verify raw tube frequency is in the proper range for the sensor type. 6. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 7. If the problem persists, contact Micro Motion.
1995	Priority: Failed - Fix Now Transmitter in power-up mode. Recommended Actions: 1. Allow the flowmeter to warm up (approximately 30 seconds). The error should disappear once the flowmeter is ready for normal operation. 2. Check the input voltage to ensure its between 12 and 15 V. 3. If alert does not clear, make sure that the sensor is completely full or completely empty. 4. Check the sensor circuitry. 5. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1996	Priority: Failed - Fix Now Transmitter in power-up mode. Recommended Actions: 1. If 'A026' also appears, resolve the 'A026' first. 2. Allow the flowmeter to warm up (approximately 30 seconds). The error should disappear once the flowmeter is ready for normal operation. 3. Check the input voltage to ensure its between 12 and 15 V. 4. Check for proper voltage into the transmitter. 5. If alert does not clear, make sure that the sensor is completely full or completely empty. 6. Check the sensor circuitry. 7. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
1997	Priority: Failed - Fix Now Mechanical zero: The resulting zero was greater than 3 microseconds. Temperature or Density Calibrations: Many possible causes. Recommended Actions: 1. If alert appears during a transmitter zero, ensure that there is no flow through the sensor, then retry. 2. Cycle power to the flowmeter to clear the alert. 3. If appropriate, restore the factory zero to return the flowmeter to operation. 4. If alert appears during a density calibration, contact Micro Motion.
1998	Priority: Failed - Fix Now Mechanical zero: Calibration procedure failed due to reverse flow through the sensor. Recommended Actions: 1. If alert appears during a transmitter zero, ensure that there is no flow through the sensor, then retry. 2. Cycle power to the flowmeter to clear the alert. 3. If appropriate, restore the factory zero to return the flowmeter to operation. 4. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 5. If alert appears during a density calibration, contact Micro Motion.
1999	Priority: Failed - Fix Now Mechanical zero: Calibration procedure failed due to flow through the sensor.The resulting zero was greater than 3 microseconds. Recommended Actions: 1. If alert appears during a transmitter zero, ensure that there is no flow through the sensor, then retry. 2. Cycle power to the flowmeter to clear the alert. 3. If appropriate, restore the factory zero to return the flowmeter to operation. 4. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 5. If alert appears during a density calibration, contact Micro Motion.
2000	Priority: Failed - Fix Now Mechanical zero: The resulting zero was greater than 3 microseconds. Recommended Actions: 1. If alert appears during a transmitter zero, ensure that there is no flow through the sensor, then retry. 2. Cycle power to the flowmeter to clear the alert. 3. If appropriate, restore the factory zero to return the flowmeter to operation. 4. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 5. If alert appears during a density calibration, contact Micro Motion.
2001	Priority: Failed - Fix Now Internal memory or program fault has been detected. Recommended Actions: 1. Resolve other active alerts first. 2. Cycle power to the flowmeter. 3. If alert persists, the transmitter might need service. Contact Micro Motion.
2002	Priority: Failed - Fix Now The value computed for the resistance of the Line RTD is outside limits. Recommended Actions: 1. Check the sensor RTD circuitry. 2. Verify that process temperature is within range of sensor and transmitter. 3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 4. If the problem persists, contact Micro Motion.
2003	Priority: Failed - Fix Now The value computed for the resistance of the Meter/Case RTD is outside limits. Recommended Actions: 1. Check the sensor RTD circuitry. 2. Verify that process temperature is within range of sensor and transmitter. 3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 4. If the problem persists, contact Micro Motion.
2004	Priority: Failed - Fix Now The transmitter has experienced an EEPROM checksum failure. Recommended Actions: 1.Cycle power to the transmitter. 2.If problem persists, contact Micro Motion.
2005	Priority: Failed - Fix Now Attempts to write to a memory location in the transmitter have failed. Recommended Actions: 1.Cycle power to the transmitter. 2.If problem persists, contact Micro Motion.
2006	Priority: Failed - Fix Now The flow calibration factor and/or 'K1' has not been entered since the last master reset. Recommended Actions: 1. Check the characterization against the sensor tag. Specifically, verify the 'FlowCal', 'K1' and 'K2' values. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 3. If the problem persists, contact Micro Motion.
2007	Priority: Failed - Fix Now The flow calibration factor and/or 'K1' has not been entered since the last master reset. Recommended Actions: 1. Check the characterization against the sensor tag. Specifically, verify the 'Flow FCF', 'K1' and 'K2' values. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 3. If the problem persists, contact Micro Motion.
2008	Priority: Failed - Fix Now The sensor is recognized as a straight tube but the 'K1' value indicates a curved tube, or vice versa. Recommended Actions: 1. If 'A017' is active, resolve it first. 2. Check the characterization against the sensor tag. Specifically, verify the 'Flow FCF', 'K1' and 'K2' values. 3. Check the sensor RTD circuitry. 4. If the problem persists, contact Micro Motion.
2009	Flow FCF: Value %0 K1: Value %1 uSec K2: Value %2 uSec
2010	Priority: Failed - Fix Now Uncorrectable checksum mismatch. Recommended Actions: 1. Cycle power to the flowmeter. 2. The transmitter might need service. Contact Micro Motion.
2011	Priority: Failed - Fix Now Communication errors between transmitter and core processor. Recommended Actions: 1. Verify the wiring between the transmitter and core processor. 2. Verify the power to both the transmitter and core processor. 3. Cycle power to the transmitter. 4. If problem persists, contact Micro Motion.
2012	Priority: Failed - Fix Now Weights and Measures security seal has been broken. Recommended Actions: 1. Alarm can be cleared by user by putting the transmitter back in secure mode, but authorized procedure is required to seal transmitter.
2013	Priority: Failed - Fix Now An attempt to write data to the core processor has failed. Recommended Actions: 1. Cycle power to the flowmeter. 2. The transmitter might need service or upgrading. Contact Micro Motion.
2014	Priority: Failed - Fix Now Transmitter electronics failure has occurred. Recommended Actions: 1. Cycle power to the flowmeter. 2. If the problem persists, contact Micro Motion.
2015	Priority: Failed - Fix Now The loaded software is not compatible with the programmed board type. Recommended Actions: 1. Contact Micro Motion.
2016	Priority: Failed - Fix Now The core processor is not receiving enough power. Recommended Actions: 1. Verify the core processor input voltage is at least 12V. 2. Check the power supply and all power wiring.
2017	Priority: Failed - Fix Now Meter verification is in progress, with outputs set to fault. Recommended Actions: 1. Allow the procedure to complete. 2. If desired, abort the procedure and restart with outputs set to last measured value.
2018	Priority: Failed - Fix Now Meter verification is in progress, with outputs set to fault or last measured value. Recommended Actions: 1. Allow the procedure to complete. 2. If desired, abort the procedure and restart with outputs set to continue measuring.
2019	Priority: Failed - Fix Now No signal from Left Pickoff or Right Pickoff, suggesting that sensor tubes are not vibrating. Recommended Actions: 1. Check for two-phase flow. 2. View the diagnostic variables to verify whether tubes are vibrating. Left and Right pickoffs should be above 10mV. 3. Check the sensor circuitry. 4. Check sensor tubes for plugging. 5. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 6. If the problem persists, contact Micro Motion.
2020	Priority: Failed - Fix Now Meter verification failed. The stiffness values not within acceptable limits. Recommended Actions: 1. Immediately re-run the meter verification test with outputs held at fault or last measured value. If the meter passes the second test, the fail result can be ignored. If the meter fails the second test, the flow tubes may be damaged. 2. Use the knowledge of your process to consider the type of damage and determine the appropriate action. These actions might include removing the meter from service and physically inspecting the tubes. At a minimum, perform a flow validation and a density calibration. 3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2021	Meter Verification Run Counter: %0 Transmitter Running Hours at Test: %1 Left Pickoff Stiffness: %2
2022	Right Pickoff Stiffness: %0
2023	Priority: Failed - Fix Now Meter verification aborted. Reason: User Initiated Abort Recommend Actions: 1. Wait for 15 seconds before starting meter verification again. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2024	Priority: Failed - Fix Now Meter verification aborted. Reason: Frequency Drift Recommend Actions: 1. Ensure temperature, flow and density are stable and run meter verification again. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2025	Priority: Failed - Fix Now Meter verification aborted. Reason: High Drive Gain Recommend Actions: 1. Ensure flow is steady and minimize entrained gas and run meter verification again. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2026	Priority: Failed - Fix Now Meter verification aborted. Reason: Unstable Flow Recommend Actions: 1. Reduce flow rate and run meter verification again. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2027	Priority: Failed - Fix Now Meter verification aborted. Reason: No Air Reference Recommend Actions: 1. Perform factory calibration on air. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2028	Priority: Failed - Fix Now Meter verification aborted. Reason: No Water Reference Recommend Actions: 1. Perform factory calibration on water. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2029	Priority: Failed - Fix Now Meter verification aborted. Reason: Missing Configuration Recommend Actions: 1. Load verification parameter registers with proper values. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2030	Priority: Failed - Fix Now Meter verification aborted. Reason: Other Recommend Actions: 1. Run meter verification again. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 3. If abort persists, contact Micro Motion.
2031	Meter Verification Run Counter: %0 Transmitter Running Hours at Test: %1 Abort Code: %2
2032	Left Pickoff Stiffness: %0 Right Pickoff Stiffness: %1
2033	Priority: Advisory The calculated amount of current output is outside of the linear range. Recommended Actions: 1. Verify that mA output range values are set to appropriate values. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2034	Primary Variable: %0 %0: Value %1 %2
2035	PV LRV: Value %0 %1 PV URV: Value %2 %3
2036	Priority: Advisory Non-zero 'HART Address' configured, or user has set the mA output to a fixed value. Recommended Actions: 1. Check the 'HART Address'. If non-zero, set 'mA Output Action' parameter to enable 'Live mA Output' or if multi-drop mode is desired change the alert severity to ignore by going to the Configure-> Alert Setup-> Alert Severity screen. 2. If mA output trim is being performed, exit mA output trim. 3. If mA output loop test is being performed, exit mA output loop test. 4. Check to see if the output has been fixed via digital communications or the local display.
2037	HART Address: %0 mAO Fault Action: %1
2038	Priority: Maintenance - Fix Soon The drive power (current/voltage) is at its maximum. Recommended Actions: 1. Check the sensor circuitry. 2. If this is the only active alarm, it can be ignored. If desired, reconfigure the alarm severity to Ignore. 3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2039	Priority: Maintenance - Fix Soon The core processor was unable to successfully store the totalizers and inventories on the last power down and must rely on the previously saved values. These values may be up to two hours old. The transmitter is still functional. Recommended Actions: 1. Verify the transmitter and core processor have proper input voltage. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen. 3. If the problem persists, contact Micro Motion.
2040	Priority: Advisory A calibration procedure is in progress. Recommended Actions: 1. Allow the flowmeter to complete calibration. 2. For zero calibration procedures, you may abort the calibration, set the zero time parameter to a lower value, and restart the calibration. 3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2041	Priority: Maintenance - Fix Soon The 'Density' has exceeded the user-defined two-phase flow (density) limits. Recommended Actions: 1. Check that sensor is completely full. 2. Check that two-phase limits are set to appropriate values. 3. Verify density cutoff is at least 0.2 g/cc. 4. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2042	Two-Phase High Limit: Value %0 g/Cucm Two-Phase Low Limit: Value %1 g/Cucm Two-Phase Duration: Value %2 sec
2043	Priority: Advisory Device is in HART Burst mode. Recommended Actions: 1. No action required. 2. If desired, reconfigure the alert severity to Ignore by going to the Configure-> Alert Setup-> Alert Severity screen.
2044	Priority: Maintenance - Fix Soon Transmitter has been restarted. Recommended Actions: 1. No action required. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2045	Priority: Maintenance - Fix Soon Event 1 has been triggered. Recommended Actions: 1. No action required. 2. If desired, reconfigure the alert severity to Ignore by going to the Configure-> Alert Setup-> Alert Severity screen.
2046	Event 1 Setpoint: Value %0 Event 1 Variable: %1 Event 1 Type: %2
2047	Priority: Maintenance - Fix Soon Event 2 has been triggered. Recommended Actions: 1. No action required. 2. If desired, reconfigure the alert severity to Ignore by going to the Configure-> Alert Setup-> Alert Severity screen.
2048	Event 2 Setpoint: Value %0 Event 2 Variable: %1 Event 2 Type: %2
2049	Priority: Advisory Process variable assigned to 'Frequency Output' is outside configured scale limits. Recommended Actions: 1. Change 'Frequency Output' scaling factors to more appropriate settings. 2. If the 'Third Variable' is set to 'Volume Flow', low 'Density' or empty tubes can cause the frequency output to saturate. 3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2050	Third Variable: %0 %0: Value %1 %2
2051	Rate Factor: Value %0 Hz Pulses/Unit: Value %1 Units/Pulse: Value %2
2052	Priority: Advisory User has set the 'Frequency Output' to a fixed value. Recommended Actions: 1. Exit 'Frequency Output' loop test. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2053	Tube Frequency: Value %0 Hz
2054	Priority: Maintenance - Fix Soon No response received from polled device. Recommended Actions: 1. The HART polling connection to external device has failed. Ensure that external device is available: 2. Verify device operation. 3. Verify wiring. 4. Verify polling configuration in the transmitter and external device. 5. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2055	Poll Control: %0 Ext Device Tag 1: %1 Polled Variable 1: %2
2056	Ext Device Tag 2: %0 Polled Variable 2: %1
2057	Priority: Maintenance - Fix Soon The process 'Temperature' is outside Petroleum Measurement defined extrapolation limits. Recommended Actions: 1. Verify process. 2. Verify configuration for Petroleum Measurement reference table and 'Temperature'. 3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2058	Priority: Maintenance - Fix Soon The process 'Density' is outside Petroleum Measurement defined extrapolation limits. Recommended Actions: 1. If other alerts are present, resolve those alerts first. 2. Verify process. 3. Verify configuration for Petroleum Measurement reference table and 'Density'. 4. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2059	Priority: Advisory The user has set the 'Discrete Output' to a fixed state. Recommended Actions: 1. Exit 'Discrete Output' test. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2060	Priority: Advisory The configured 'Density'/'Temperature'/'Concentration' values do not result in a proper Concentration Measurement (CM) curve. Recommended Actions: 1. Verify Concentration Measurement (CM) matrix configuration by going to Configure-> Manual Setup-> Measurements-> Concentration Measurement-> Enter Matrix.
2061	Priority: Maintenance - Fix Soon The process 'Temperature' or 'Density' is outside the user-defined extrapolation limits. Recommended Actions: 1. Verify the process 'Temperature' and 'Density'. 2. Verify Concentration Measurement (CM) extrapolation alert limit. 3. Verify process. If tubes are empty or there is gas in the process, wait for condition to clear itself. 4. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2062	Priority: Maintenance - Fix Soon Meter verification in progress, with outputs set to last measured value. Recommended Actions: 1. Allow the procedure to complete. 2. If desired, abort the procedure and restart with outputs set to fault. 3. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2063	Priority: Maintenance - Fix Soon Meter verification in progress. Recommended Actions: 1. Allow the procedure to complete. You may abort the procedure if desired. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2064	Priority: Advisory Simulation mode is enabled. Recommended Actions: 1. Disable output simulation. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
2065	Priority: Advisory Discrete Event 1 has been triggered. Recommended Actions: 1. No action required.
2066	Discrete Event Var: %0 Discrete Event Type: %1
2067	Setpoint A: Value %0 Setpoint B: Value %1
2068	Priority: Advisory Discrete Event 2 has been triggered. Recommended Actions: 1. No action required.
2069	Priority: Advisory Discrete Event 3 has been triggered. Recommended Actions: 1. No action required.
2070	Priority: Advisory Discrete Event 4 has been triggered. Recommended Actions: 1. No action required.
2071	Priority: Advisory Discrete Event 5 has been triggered. Recommended Actions: 1. No action required.
2072	Priority: Advisory Discrete Input is active. Recommended Actions: 1. No action required.
2073	Priority: Maintenance - Fix Soon Primary variable has exceeded sensor limits. Recommended Actions: 1. Verify process and check for two-phase flow. 2. Check the test points. 3. Check the sensor circuitry 4. Check the sensor tubes for erosion. 5. If the problem persists, contact Micro Motion.
2074	Priority: Maintenance - Fix Soon Non-primary variable has exceeded sensor limits. Recommended Actions: 1. Verify process and check for two-phase flow. 2. Check the test points. 3. Check the sensor circuitry 4. Check the sensor tubes for erosion. 5. If the problem persists, contact Micro Motion.
2075	Priority: Maintenance - Fix Soon The calculated amount of current output is outside of the linear range. Recommended Actions: 1. Verify that mA output range values are set to appropriate values.
2076	Priority: Maintenance - Fix Soon Non-zero 'HART Address' configured, or user has set the mA output to a fixed value. Recommended Actions: 1. Check the 'HART Address'. If non-zero, set mA Output Action parameter to enable Live mA Output. 2. If mA output trim is being performed, exit mA output trim. 3. If mA output loop test is being performed, exit mA output loop test. 4. Check to see if the output has been fixed via digital communications or the local display.
2077	Priority: Maintenance - Fix Soon Power has been removed and reapplied resulting in the reinstallations of the setup information. Recommended Actions: 1. The first command to recognize this condition will automatically reset this flag. 2. This flag may also be set following a Master Reset or a Self Test.
2078	Priority: Maintenance - Fix Soon A write or set command has been executed. Recommended Actions: 1. No action required.
2079	Priority: Failed - Fix Now A hardware error or failure has been detected by the device. Recommended Actions: 1. This is a summary alert and is generated when one of the fault severity alerts is active. Resolve the other active alerts first.
2080	Select 'Output Behavior':
2081	Continue Measuring;Outputs Held at Fault
2082	Continue Measuring;Outputs Held at Last Value;Outputs Held at Fault
2083	Meter Verification will hold outputs at last value for about 2 minutes. Press Next to start or Cancel to end.
2084	Meter Verification will hold outputs at fault value for about 2 minutes. Press Next to start or Cancel to end.
2085	Aborting due to field device error
2086	Starting meter verification, please wait.
2087	Meter Verification Progress: %{intSMVprogress}% complete
2088	Meter Verification FAILED. Meter may not meet factory specifications. Recommended Action: Run Meter Verification with outputs held at last measured value or fault.
2089	Meter Verification FAILED. Meter may not meet factory specifications. Recommended Action: Immediately re-run the meter verification test. If the meter passes the second test, the fail result can be ignored. If the meter fails the second test, the flow tubes may be damaged and should be investigated.
2090	Meter verification error.
2091	Meter Verification ABORTED. Reason: %{0} Recommended Action: Wait for 15 seconds before starting Meter Verification again.
2092	Meter Verification ABORTED. Reason: User Initiated Abort Recommended Action: Wait for 15 seconds before starting Meter Verification again.
2093	For Hours Between Recurring Runs, valid range is 1 to 1000 hours or 0 for no recurring schedule. Please enter again.
2094	Test Result #%{Datalog_Index} Run Number: %0 Result: %1 Abort Code: %2 Time in Seconds: %3
2095	Results data are being uploaded from device.. This will take a few minutes.
2096	select1
2097	'LD Optimization' is enabled. Do you want to disable it ?
2098	LD Optimization:
2099	Yes;No
2100	The concentration matrix is locked, please unlock the matrix to configure.
2101	Press Next to reset the data for all six matrices or press Cancel to not reset the data.
2102	All matrix data has been set to 0.
2103	Concentration Measurement screen needs to be refreshed.
2104	Press OK to reset the data for all six matrices or press ABORT to not reset the data.
2105	'Write Protect' is enabled. Do you want to disable it?
2106	'Write Protect' is disabled. Do you want to enable it?
2107	Select Write Protect Action:
2108	Yes;No
2109	Select 'Alert Number':
2110	Current severity is '%0'.
2111	Select 'Alert Severity':
2112	'%{1}' is set to '%{0}'.
2113	'A001: EEPROM Error (CP)' is set to '%0'.
2114	'A002: RAM Error (CP)' is set to '%0'.
2115	'A003: No Sensor Response' is set to '%0'.
2116	'A004: Temperature Overrange' is set to '%0'.
2117	'A005: Mass Flow Rate Overrange' is set to '%0'.
2118	'A006: Characterization Required' is set to '%0'.
2119	'A008: Density Overrange' is set to '%0'.
2120	'A009: Transmitter Initializing Warming Up' is set to '%0'.
2121	'A010: Calibration Failure' is set to '%0'.
2122	'A011: Zero Calibration Failed: Low' is set to '%0'.
2123	'A012: Zero Calibration Failed: High' is set to '%0'.
2124	'A013: Zero Calibration Failed: Unstable' is set to '%0'.
2125	'A014: Transmitter Failure' is set to '%0'.
2126	'A016: Sensor RTD Failure' is set to '%0'.
2127	'A017: T-Series RTD Failure' is set to '%0'.
2128	'A018: EEPROM Error (Xmtr)' is set to '%0'.
2129	'A019: RAM Error (Xmtr)' is set to '%0'.
2130	'A020: No Flow Cal Value' is set to '%0'.
2131	'A021: No K1 Value' is set to '%0'.
2132	'A022: Config DB Corrupt (CP)' is set to '%0'.
2133	'A023: Internal Totals Corrupt (CP)' is set to '%0'.
2134	'A024: Program Corrupt (CP)' is set to '%0'.
2135	'A025: Boot Sector Fault (CP)' is set to '%0'.
2136	'A026: Sensor Xmtr Comm Failure' is set to '%0'.
2137	'A027: Security Breach' is set to '%0'.
2138	'A028: CP Write Failure' is set to '%0'.
2139	'A031: Low Power' is set to '%0'.
2140	'A032: MV: Outputs to Fault' is set to '%0'.
2141	'A033: No LPO RPO Signal' is set to '%0'.
2142	'A034: Meter Verification Failed' is set to '%0'.
2143	'A035: Meter Verification Aborted' is set to '%0'.
2144	'A100: mAO1 Saturated' is set to '%0'.
2145	'A101: mAO1 Fixed' is set to '%0'.
2146	'A102: Drive Overrange' is set to '%0'.
2147	'A103: Data Loss Possible' is set to '%0'.
2148	'A104: Calibration-in-Progress' is set to '%0'.
2149	'A105: Two-Phase Flow' is set to '%0'.
2150	'A106: Burst Mode Enabled' is set to '%0'.
2151	'A107: Power Reset Occurred' is set to '%0'.
2152	'A108: Single-SP Event 1 ON' is set to '%0'.
2153	'A109: Single-SP Event 2 ON' is set to '%0'.
2154	'A110: FO Saturated' is set to '%0'.
2155	'A111: FO Fixed' is set to '%0'.
2156	'A115: No External Data' is set to '%0'.
2157	'A116: PM: Temperature Overrange' is set to '%0'.
2158	'A117: PM: Density Overrange' is set to '%0'.
2159	'A118: DO1 Fixed' is set to '%0'.
2160	'A120: CM: Curve Fit Failure' is set to '%0'.
2161	'A121: CM: Extrapolation Alarm' is set to '%0'.
2162	'A131: MV in progress' is set to '%0'.
2163	'A132: Sensor Simulation Active' is set to '%0'.
2164	Device is locked, could not configure parameters.
2165	Finish
2166	This will help to identify the device by showing identifiable pattern on the display. Click OK to start.
2167	The device is now displaying the pattern, making it identifiable. The display will return to normal operations after 60 seconds but can be interrupted by pressing any button on the device display.
2168	warning
2169	Back;Next
2170	select2
2171	select3
2172	Finish
2173	Select 'Lock Option':
2174	Permanent;Temporary;Lock All
2175	Cannot unlock device. Device is locked by other host.
2176	You are about to overwrite the device configuration with factory values. Before continuing, set the control loop for manual operation and ensure that existing configuration values are documented or saved to a file. If the device connection is lost, reconnect using the defaults. Would you like to proceed?
2177	Aborting due to field device error.
2178	Factory values were restored successfully.
2179	Warning- Loop should be removed from automatic control.
2180	Device is being reset, please wait.
2181	Aborting method due to last error.
2182	Device may be stuck in selftest.
2183	Device reset completed successfully.
2184	Select the matrix being configured:
2185	Curve 1;Curve 2;Curve 3;Curve 4;Curve 5;Curve 6
2186	'LD Optimization' is disabled.
2187	'LD Optimization' is disabled. Do you want to enable it ?
2188	'LD Optimization' is enabled.
2189	HART5
2190	This device is currently configured to communicate in HART Universal Revision 7. Press Next to change the configuration of this device to communicate in HART Universal Revision 5.
2191	Warning- Verify that your systems are prepared to support HART Universal Revision 5 devices. 1. Refer to system documentation to determine compatibility with HART 5 communication. 2. Verify that the HART 5 device driver is installed. Reference product and system documentation for more information. During this process, intermittent communication may occur.
2192	This device is now configured to communicate in HART Universal Revision 5. If you wish to return the device to HART Universal Revision 7, reference the product manual for instructions. Warning- You may experience communication issues between the system and device due to the device's HART revision change. Restart the asset management system to access HART 5 functionality and proper HART communication.
2193	Simulation is being disabled, please wait...
2194	Simulation has been disabled.
2195	'Oil Flow at Reference Total' has been reset.
2196	'Oil Flow at Line Total' has been reset.
2197	'Water Flow at Reference Total' has been reset.
2198	'Water Flow at Line Total' has been reset.
2199	'Shrinkage Factor Oil Flow at Line Total' has been reset.
2200	'Shrinkage Factor Oil Flow at Reference Total' has been reset.
2201	'Shrinkage Factor Volume Flow at Reference Total' has been reset.
2202	'Differential Mass Total' has been reset.
2203	'Unremediated Volume Flow at Line Total' has been reset.
2204	'Write Protect' is disabled.
2205	'Write Protect' is enabled.
2206	Temperature: Value %{0} %{1} Differential Mass Flow Rate: Value %{2} %{3}
2207	Temperature: Value %{0} %{1} Oil Flow Rate at Line: Value %{2} %{3} Water Flow Rate at Line: Value %{4} %{5}
2208	Oil Flow Rate at Reference: Value %{0} %{1} Water Flow Rate at Reference: Value %{2} %{3} Oil Density at Line (Fixed SGU Units): Value %{4} SGU
2209	Oil Flow Rate at Line (Shrinkage): Value %{0} %{1} Oil Flow Rate at Reference (Shrinkage): Value %{2} %{3} Volume Flow Rate at Reference (Shrinkage): Value %{4} %{5}
2210	'Mass (Remediated) Total' has been reset.
2211	Temperature: Value %{0} %{1} Mass Flow Rate (Remediated): Value %{2} %{3}
2212	Temperature: Value %{0} %{1} Unremediated Density at Line: Value %{2} %{3} Unremediated Volume Flow at Line: Value %{4} %{5}
2213	Note-Loop may be returned to automatic control.
Reference ID	String