Device dictionary

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Reference ID	String
0	Liquid USM
1	Daniel Industries
2	PV analog output saturated
3	PV analog output fixed
4	MMBtu
5	Million BTU
6	MJ/s
7	Megajoules per second
8	MJ/d
9	Megajoules per day
10	MMBtu/s
11	Million BTU per second
12	MMBtu/h
13	Million BTU per hour
14	MMBtu/d
15	Million BTU per day
16	L/d
17	Liters per day
18	PV
19	SV
20	TV
21	QV
22	Config lost
23	The meter's configuration has been lost and it should be fully reconfigured. Requires acknowledgement.
24	Acquisition mode
25	Meter starts in Acquisition mode and transitions to Measurement mode when it has acquired adequate number of chords to enable a good measurement.
26	Chord D hard failed
27	Chord D is "hard failed."
28	Chord C hard failed
29	Chord C is "hard failed."
30	Chord B hard failed
31	Chord B is "hard failed."
32	Chord A hard failed
33	Chord A is "hard failed."
34	Digital temperature invalid units
35	The live digital temperature input unit is invalid. Either the transmitter is configured for units that the meter does not support or the input is wired incorrectly (such as if the temperature and pressure inputs are swapped).
36	Digital pressure invalid units
37	The live digital pressure input unit is invalid. Either the transmitter is configured for units that the meter does not support or the input is wired incorrectly (such as if the temperature and pressure inputs are swapped).
38	GC alarm
39	There are one or more GC alarms
40	Flow temperature invalid
41	Flow-condition temperature invalid indicator.
42	Flow pressure invalid
43	Flow-condition pressure invalid indicator.
44	Reset required
45	Indicates that the meter should be warm-started for a requested value-change to take effect.
46	Key(s) expired
47	Indicates that one or more optional feature key(s) has/have expired. Requires acknowledgement.
48	Key(s) will expire
49	Indicates that one or more optional feature key(s) will expire within 30 days. Requires acknowledgement.
50	Clock invalid
51	The meter's hardware clock has been set to a date prior to Jan. 1, 2003.
52	Power failure
53	Indicates that a power failure occurred. Requires acknowledgement.
54	HART temperature device status
55	HART pressure device status
56	Measurement validity
57	Electronics temperature range
58	Electronics temperature out of range indicator.
59	Analog output 1 saturated
60	Indicates whether the AO1 current is saturated (i.e., the loop current has reached its upper or lower endpoint and cannot increase or decrease any further).
61	Analog output 1 fixed
62	Frequency 2 test enabled
63	The frequency 2 pair is in test mode. When in the Frequency Test mode, the frequency 2 outputs are fixed at the percentage of full scale specified via the 'Freq2TestModeOutputPercent' data point (regardless of the actual data content value). If a frequency pair remains in the Frequency Test mode for the length of time specified via the 'NonNormalModeTimeout' data point, the frequency pair is automatically exited from the Frequency Test mode and returns to its normal operation.
64	Frequency 1 test enabled
65	The frequency 1 pair is in test mode. When in the Frequency Test mode, the frequency 1 outputs are fixed at the percentage of full scale specified via the 'Freq1TestModeOutputPercent' data point (regardless of the actual data content value). If a frequency pair remains in the Frequency Test mode for the length of time specified via the 'NonNormalModeTimeout' data point, the frequency pair is automatically exited from the Frequency Test mode and returns to its normal operation.
66	One or more logs full
67	Start AO2 trim
68	Ack config changed
69	Ack config lost
70	Ack power failure
71	Ack memory error
72	Ack key(s) will expire
73	Ack key(s) expired
74	Ack core file present
75	Ack watchdog reset
76	Display K-factor
77	This displays the calculated K-factor and inverse K-factor for frequency output 1 based on the displayed maximum frequency and upper range
78	This displays the calculated K-factor and inverse K-factor for frequency output 2 based on the displayed maximum frequency and upper range
79	AO1 Content Changed
80	AO2 Content Changed
81	Freq1 Content Changed
82	Freq2 Content Changed
83	Units Changed
84	Start Zero
85	Start zero flow calibration
86	Abort Zero
87	Abort zero flow calibration
88	End Zero
89	End zero flow calibration
90	Velocity units
91	HART (via Analog Output 2) velocity unit.
92	Pressure units
93	HART (via Analog Output 2) pressure unit.
94	Temperature units
95	HART (via Analog Output 2) temperature unit.
96	Direction
97	Selects the flow direction represented by Analog Output 1. When set to "Reverse" or "Forward", the analog output represents the specified content when in the flow is in selected direction. When set to "Absolute", the analog output represents the specified content regardless of the flow direction.
98	Reverse
99	Forward
100	Absolute
101	Alarm action
102	Specifies the action for analog output 1 current when the content is invalid. No special action is taken when set to None.
103	High - 20mA
104	Low - 4mA
105	Hold Last Value
106	Very Low - 3.5mA
107	Very High - 20.5mA
108	None
109	Selects the flow direction represented by Analog Output 2. When set to "Reverse" or "Forward", the analog output represents the specified content when in the flow is in selected direction. When set to "Absolute", the analog output represents the specified content regardless of the flow direction.
110	Specifies the action for analog output 2 current when the content is invalid. No special action is taken when set to None.
111	Max frequency
112	Selects the frequency 1 pair maximum (full-scale) frequency.
113	1000
114	5000
115	B zeroed on error
116	When TRUE, forces the Frequency 1 channel B frequency to zero when the frequency pair's data is invalid.
117	Not Forced to Zero When Invalid
118	Forced to Zero When Invalid
119	B phase
120	Selects the frequency 1 pair channel B phase relative to the channel A phase based on the flow direction.
121	Lag Fwd, Lead Rev
122	Lead Fwd, Lag Rev
123	Freq1FeedbackCorrectionPcnt
124	Specifies the frequency 1 pair percentage of error (determined by frequency feedback) to adjust for per batch. This only applies when the frequency pair content is selected to be a rate.
125	Ch A polarity
126	Selects the digital output 1A polarity as "Normal" or "Inverted". For "Normal" polarity, a high output indicates either valid frequency data or forward flow (depending upon the content selected via the 'DO1AContent' data point). For "Inverted" polarity, a low output indicates either valid frequency data or forward flow.
127	Normal
128	Inverted
129	Ch A content
130	Selects the content for digital output 1A.
131	Freq1 Validity
132	Flow Direction
133	Ch B polarity
134	Selects the digital output 1B polarity as "Normal" or "Inverted". For "Normal" polarity, a high output indicates either valid frequency data or forward flow (depending upon the content selected via the 'DO1BContent' data point). For "Inverted" polarity, a low output indicates either valid frequency data or forward flow.
135	Ch B content
136	Selects the content for digital output 1B.
137	Selects the frequency 2 pair maximum (full-scale) frequency.
138	When TRUE, forces the Frequency 2 channel B frequency to zero when the frequency pair's data is invalid.
139	Selects the frequency 2 pair channel B phase relative to the channel A phase based on the flow direction.
140	Freq2FeedbackCorrectionPcnt
141	Specifies the frequency 2 pair percentage of error (determined by frequency feedback) to adjust for per batch. This only applies when the frequency pair content is selected to be a rate.
142	Selects the digital output 2A polarity as "Normal" or "Inverted". For "Normal" polarity, a high output indicates either valid frequency data or forward flow (depending upon the content selected via the 'DO2AContent' data point). For "Inverted" polarity, a low output indicates either valid frequency data or forward flow.
143	Selects the content for digital output 2A.
144	Freq2 Validity
145	Selects the digital output 2B polarity as "Normal" or "Inverted". For "Normal" polarity, a high output indicates either valid frequency data or forward flow (depending upon the content selected via the 'DO2BContent' data point). For "Inverted" polarity, a low output indicates either valid frequency data or forward flow.
146	Selects the content for digital output 2B.
147	Lower range
148	Analog output 2 zero scale volume flow rate. Used for scaling charts.
149	Upper range
150	Analog output 2 full scale volume flow rate. Used for scaling charts.
151	Minimum input pressure. Used for scaling charts.
152	.2f
153	Maximum input pressure. Used for scaling charts.
154	Minimum input temperature. Used for scaling charts.
155	.3f
156	Maximum input temperature. Used for scaling charts.
157	General polarity
158	Digital input 1 polarity control.
159	Calibration polarity
160	This point specifies the polarity for digital input 1 (DI1) when it is configured (via IsDI1UsedForCal) for use in synchronizing a calibration. See also IsDI1ForCalStateGated.
161	DI1 Cal Active High
162	DI1 Cal Active Low
163	Calibration gating
164	This point specifies the calibration gating for digital input 1 (DI1) when it is configured (via IsDI1UsedForCal) for use in synchronizing a calibration. When FALSE, the calibration is started/stopped via an inactive->active edge; when TRUE, the calibration is started via an inactive->active state change and stopped via an active->inactive state change. The active edge/state is specified via the IsDI1ForCalActiveLow data point.
165	DI1 Cal Edge Gated
166	DI1 Cal State Gated
167	Low limit
168	Pressure alarm low limit. An alarm is generated when the input flow pressure is at or below this limit.
169	High limit
170	Pressure alarm high limit. An alarm is generated when the input flow pressure is at or above this limit.
171	Fixed pressure
172	Specifies (fixes) the flow-condition pressure when the 'EnablePressureInput' data point is set to "Fixed".
173	Gage or absolute pressure
174	Specifies whether the input pressure is absolute (TRUE) or gage (FALSE). If the input pressure is gage, then the absolute pressure is calculated as the sum of the input gage pressure and the atmospheric pressure (specified via the 'AtmosphericPress' data point).
175	Gage
176	Atmospheric pressure
177	Specifies the atmospheric pressure. This value is required when the flow pressure input is fixed (see 'EnablePressureInput') and the input pressure is gage (see 'InputPressureUnit').
178	Temperature alarm low limit. An alarm is generated when the input flow temperature is at or below this limit.
179	Temperature alarm high limit. An alarm is generated when the input flow temperature is at or above this limit.
180	Fixed temperature
181	Specifies (fixes) the flow-condition temperature when the 'EnableTemperatureInput' data point is set to "Fixed".
182	DampingValue
183	Specifies the damping value for all outputs and measurement data points. The damping value is the (worst case) time for the outputs and measurement data points to reach 63% of the steady-state value in response to a step input. This is a function of the BatchUpdatePeriod.
184	Volume units
185	HART (via AO2) volume unit. The volumetric flow rate unit (HARTAO2VolFlowRateUnit) is derived from this unit data point and the rate time unit data point (HARTAO2RateTimeUnit).
186	Flow rate time units
187	HART (via AO2) flow rate time unit. This data point is used to derive the volumetric flow rate unit.
188	HARTAO2VolFlowRateUnit
189	HART (via Analog Output 2) volumetric flow rate unit. This unit is derived from the volume unit (HARTAO2VolUnit) and the flow rate time unit (HARTAO2RateTimeUnit) data points.
190	Content
191	Selects the data to be represented by Analog Output 1.
192	Selects the data to be represented by Analog Output 2. If Analog Output 2 is used for HART (slave) communication, then this selects the Primary Variable content.
193	Selects the data to be represented by the frequency output 1 pair (1A and 1B). Frequency output 1 and digital output 1 share a common ground.
194	Selects the flow direction represented by the Frequency 1 pair (Freq1A and Freq1B). When set to "Reverse" or "Forward", both channels A and B represent the specified content when in the flow is in selected direction. When set to "Absolute", both channels A and B represent the specified content regardless of the flow direction. When set to "Bidirectional", channel A represents the specified content when the flow is in the forward direction and channel B represents the specified content when flow is in the reverse direction.
195	Bidirectional
196	Selects the data to be represented by the frequency output 2 pair (2A and 2B). Frequency output 2 and digital output 2 share common ground.
197	Selects the flow direction represented by the Frequency 2 pair (Freq2A and Freq2B). When set to "Reverse" or "Forward", both channels A and B represent the specified content when in the flow is in selected direction. When set to "Absolute", both channels A and B represent the specified content regardless of the flow direction. When set to "Bidirectional", channel A represents the specified content when the flow is in the forward direction and channel B represents the specified content when flow is in the reverse direction.
198	ZeroFlowCalReqControl
199	Specifies the desired zero-flow calibration action. A zero-flow calibration process must be inactive in order to be started. The "Accept Result and Exit" selection is only valid when the status indicates "Completed Successfully."
200	Exit/abort
201	Start
202	Accept Result and Exit
203	Zero calib status
204	Current zero-flow calibration status indicator.
205	Inactive
206	In Progress
207	Completed Successfully
208	Failed - Chord Failure
209	Failed - Too-Large Offset
210	Failed - Too-Large Est Max Deviation
211	Zero calib duration
212	Specifies the zero-flow calibration duration.
213	Zero calib velocity
214	Factory-calibrated flow velocity (customer calibration not applied). This is the result of applying the factory calibration coefficients to the average weighted flow velocity (AvgWtdFlowVel).
215	.4f
216	Proposed offset
217	Zero-flow calibration result. This value is only valid and can only be accepted when the ZeroFlowCalStatus is "Completed Successfully." When accepted, this value is used to update the FwdA0 and RevA0 data points. This value is not retained through a power cycle.
218	Zero calib progress
219	Zero-flow calibration progress (percent complete).
220	Uncorr volume flow rate
221	HART Device Variable 0 (uncorrected volumetric flow rate) value. The units are specified by the 'HARTAO2VolFlowRateUnit' data point.
222	HARTDevVar0XdcrLmtUpper
223	Specifies the HART Device Variable 0 (uncorrected volumetric flow rate) upper transducer limit. The units are specified by the 'HARTDevVar0Units' data point.
224	HARTDevVar0XdcrLmtLower
225	Specifies the HART Device Variable 0 (uncorrected volumetric flow rate) lower transducer limit . The units are specified by the 'HARTDevVar0Units' data point.
226	Device variable 0 minimum span
227	Device variable 0 units
228	Device variable 0 serial number
229	Device variable 0
230	Upper range value
231	Lower range value
232	Pressure
233	HART Device Variable 6 (flow pressure) value. The units are specified by the 'HARTAO2PressureUnit' data point.
234	HARTDevVar6XdcrLmtUpper
235	Specifies the HART Device Variable 6 (flow pressure) upper transducer limit. The units are specified by the 'HARTDevVar6Units' data point.
236	HARTDevVar6XdcrLmtLower
237	Specifies the HART Device Variable 6 (flow pressure) lower transducer limit . The units are specified by the 'HARTDevVar6Units' data point.
238	Device variable 6 minimum span
239	Device variable 6 units
240	Device variable 6 serial number
241	Device variable 6
242	Temperature
243	HART Device Variable 7 (flow temperature) value. The units are specified by the 'HARTAO2TemperatureUnit' data point.
244	HARTDevVar7XdcrLmtUpper
245	Specifies the HART Device Variable 7 (flow temperature) upper transducer limit. The units are specified by the 'HARTDevVar7Units' data point.
246	HARTDevVar7XdcrLmtLower
247	Specifies the HART Device Variable 7 (flow temperature) lower transducer limit . The units are specified by the 'HARTDevVar7Units' data point.
248	Device variable 7 minimum span
249	Device variable 7 units
250	Device variable 7 serial number
251	Device variable 7
252	AO1 range units
253	Analog output 1 lower range
254	Analog output 1 upper range
255	AO1 setup
256	AO1 device variable
257	AO1 lower range
258	AO1 upper range
259	AO1 direction
260	AO1 alarm action
261	AO2 range units
262	Analog output 2 lower range
263	Analog output 2 upper range
264	AO2 setup
265	AO2 device variable
266	AO2 lower range
267	AO2 upper range
268	AO2 direction
269	AO2 alarm action
270	Analog output index
271	FO1 range units
272	Frequency output 1 lower range
273	Frequency output 1 upper range
274	FO1 setup
275	FO1 device variable
276	FO1 lower range
277	FO1 upper range
278	FO1 max freq
279	FO1 direction
280	FO1 B zeroed on error
281	FO1 B phase
282	FO1 feedback pct
283	DO1A polarity
284	DO1A content
285	DO1B polarity
286	DO1B content
287	FO2 range units
288	Frequency output 2 lower range
289	Frequency output 2 upper range
290	FO2 setup
291	FO2 device variable
292	FO2 lower range
293	FO2 upper range
294	FO2 max freq
295	FO2 direction
296	FO2 B zeroed on error
297	FO2 B phase
298	FO2 feedback pct
299	DO2A polarity
300	DO2A content
301	DO2B polarity
302	DO2B content
303	Frequency output index
304	Acknowledge alarm ID
305	IsCorePresent
306	Is1BitMemoryError
307	WatchDogReset
308	DidCnfgChksumChg
309	DidColdStart
310	DidPowerFail
311	Pressure source
312	Not Used
313	Live Analog
314	Live HART
315	Fixed
316	Pres config units
317	Temp source
318	Temp config units
319	Alarm selection
320	The pressure and/or temperature source when the corresponding input is in alarm. Either the last good, i.e. non-alarm, value or a fixed value is used.
321	Hold Last Output Value
322	Used Fixed Value
323	Failed byte 0
324	Reserved for future use
325	Acq board rev unknown
326	Unknown Acquisition Board revision - a firmware upgrade is required. Gain units may be incorrect.
327	Watchdog reset
328	The software watchdog performed a meter warm-start. The watchdog keeps track of the performance of all processes in the meter to ensure a reliable measurement. Any unexpected unrecoverable condition ("lockup") results in a watchdog reset (i.e., meter warm-start). Requires acknowledgement.
329	Memory error
330	A memory error has been detected (which was corrected by the hardware ECC memory). Requires acknowledgement.
331	Electronics voltage range
332	Electronics voltage out of range indicator.
333	Acq board comm error
334	Communication error with Acquisition board indicator.
335	Core file present
336	A diagnostic file ("core dump") has been generated which may indicate a problem - please contact Daniel Engineering. Requires acknowledgement.
337	Failed byte 1
338	Maintenance byte 0
339	Chord A measurement speed of sound
340	Sound speed out of range error (Measurement mode, chord A).
341	Chord A signal quality below minimum
342	Signal quality below minimum threshold (chord A).
343	Chord A delta time measurement
344	Delta time measurement error (chord A).
345	Chord A acquisition speed of sound
346	Acquisition mode sound speed out of (min,max) range (chord A).
347	Chord A measurement quality check
348	Measurement quality check failed (chord A).
349	Chord A SNR below minimum
350	Signal-to-noise ratio below minimum threshold (chord A).
351	Chord A noise exceeded limit
352	Noise energy exceeded maximum limit (chord A).
353	Maintenance byte 1
354	Chord A signal discarded
355	Signal discarded due to distortion (chord A). The signal failed to meet one of the span tests defined by the PosSpan and NegSpan data points.
356	Chord A detection
357	Chord A detection error.
358	Maintenance byte 2
359	Chord B measurement speed of sound
360	Sound speed out of range error (Measurement mode, chord B).
361	Chord B signal quality below minimum
362	Signal quality below minimum threshold (chord B).
363	Chord B delta time measurement
364	Delta time measurement error (chord B).
365	Chord B acquisition speed of sound
366	Acquisition mode sound speed out of (min,max) range (chord B).
367	Chord B measurement quality check
368	Measurement quality check failed (chord B).
369	Chord B SNR below minimum
370	Signal-to-noise ratio below minimum threshold (chord B).
371	Chord B noise exceeded limit
372	Noise energy exceeded maximum limit (chord B).
373	Maintenance byte 3
374	Chord B signal discarded
375	Signal discarded due to distortion (chord B). The signal failed to meet one of the span tests defined by the PosSpan and NegSpan data points.
376	Chord B detection
377	Chord B detection error.
378	Maintenance byte 4
379	Chord C measurement speed of sound
380	Sound speed out of range error (Measurement mode, chord C).
381	Chord C signal quality below minimum
382	Signal quality below minimum threshold (chord C).
383	Chord C delta time measurement
384	Delta time measurement error (chord C).
385	Chord C acquisition speed of sound
386	Acquisition mode sound speed out of (min,max) range (chord C).
387	Chord C measurement quality check
388	Measurement quality check failed (chord C).
389	Chord C SNR below minimum
390	Signal-to-noise ratio below minimum threshold (chord C).
391	Chord C noise exceeded limit
392	Noise energy exceeded maximum limit (chord C).
393	Maintenance byte 5
394	Chord C signal discarded
395	Signal discarded due to distortion (chord C). The signal failed to meet one of the span tests defined by the PosSpan and NegSpan data points.
396	Chord C detection
397	Chord C detection error.
398	Maintenance byte 6
399	Chord D measurement speed of sound
400	Sound speed out of range error (Measurement mode, chord D).
401	Chord D signal quality below minimum
402	Signal quality below minimum threshold (chord D).
403	Chord D delta time measurement
404	Delta time measurement error (chord D).
405	Chord D acquisition speed of sound
406	Acquisition mode sound speed out of (min,max) range (chord D).
407	Chord D measurement quality check
408	Measurement quality check failed (chord D).
409	Chord D SNR below minimum
410	Signal-to-noise ratio below minimum threshold (chord D).
411	Chord D noise exceeded limit
412	Noise energy exceeded maximum limit (chord D).
413	Maintenance byte 7
414	Chord D signal discarded
415	Signal discarded due to distortion (chord D). The signal failed to meet one of the span tests defined by the PosSpan and NegSpan data points.
416	Chord D detection
417	Chord D detection error.
418	Maintenance byte 8
419	Analog output 2 fixed
420	Indicates whether the AO2 current is fixed or not. The current can be fixed via the HART command 40 or via entering the test mode (via the IsAO2EnableTest data point).
421	Analog output 2 test enabled
422	Analog output 2 is in test mode. When in the Analog Output Test mode, the analog output 2 is fixed at the percentage of full scale specified via the 'AO21TestModeOutputPercent' data point (regardless of the actual data content value). If Analog Output remains in the Analog Output Test mode for the length of time specified via the 'NonNormalModeTimeout' data point, the Analog Output 2 is automatically exited from the Analog Output Test mode and returns to its normal operation.
423	Maintenance byte 9
424	GC comm error
425	Indicates a communication error with the GC.
426	GC invalid data
427	Indicates invalid data read from the GC.
428	GC warning condition
429	Indicates that a GC warning condition is present.
430	GC alarm condition
431	Indicates that a GC alarm condition is present.
432	Advisory byte 0
433	Mass flow rate
434	Mass flow rate validity indicator. This point is only applicable when the AGA8 calculations are performed internally or are performed externally with the mixture flow-condition mass density specified (via the SpecRhoMixFlow data point).
435	Energy flow rate
436	Indicates when the energy rate is invalid. This point is only applicable when the heating value is fixed (specified) or read from a gas chromatograph (requires the option board).
437	AGA8 flow condition calculation
438	AGA8 flow-condition calculation validity indicator.
439	AGA8 base condition calculation
440	AGA8 base-condition calculation validity indicator.
441	Base condition volume flow rate
442	Base-condition volumetric flow rate validity indicator.
443	Flow condition volume flow rate
444	Flow-condition volumetric flow rate validity indicator.
445	Advisory byte 1
446	Pressure PV out of its limits
447	Indicates HART pressure transmitter Primary Variable is out of its limits (Device Status bit 0).
448	Pressure non-PV out of limits
449	Indicates HART pressure transmitter non-Primary Variable is out of limits (Device Status bit 1).
450	Pressure loop current saturated
451	Indicates HART pressure transmitter loop current is saturated (Device Status bit 2).
452	Pressure loop current fixed
453	Indicates HART pressure transmitter loop current is fixed (Device Status bit 3).
454	Pressure more status
455	Indicates HART pressure transmitter has more status available (Device Status bit 4).
456	Pressure cold started
457	Indicates HART pressure transmitter cold started (Device Status bit 5).
458	Pressure config changed
459	Indicates HART pressure transmitter configuration changed (Device Status bit 6).
460	Pressure device malfunction
461	Indicates HART pressure transmitter device malfunction (Device Status bit 7).
462	Advisory byte 2
463	Temperature PV out of limits
464	Indicates HART temperature transmitter Primary Variable is out of its limits (Device Status bit 0).
465	Temperature non-PV out of limits
466	Indicates HART temperature transmitter non-Primary Variable is out of limits (Device Status bit 1).
467	Temperature loop current saturated
468	Indicates HART temperature transmitter loop current is saturated (Device Status bit 2).
469	Temperature loop current fixed
470	Indicates HART temperature transmitter loop current is fixed (Device Status bit 3).
471	Temperature more status
472	Indicates HART temperature transmitter has more status available (Device Status bit 4).
473	Temperature cold started
474	Indicates HART temperature transmitter cold started (Device Status bit 5).
475	Temperature config changed
476	Indicates HART temperature transmitter configuration changed (Device Status bit 6).
477	Temperature device malfunction
478	Indicates HART temperature transmitter device malfunction (Device Status bit 7).
479	Advisory byte 3
480	Indicates whether the AO1 current is fixed or not. The current can be fixed via entering the test mode (via the IsAO1EnableTest data point).
481	Analog Output 1 test enabled
482	Analog output 1 is in test mode. When in the Analog Output Test mode, the analog output 1 is fixed at the percentage of full scale specified via the 'AO11TestModeOutputPercent' data point (regardless of the actual data content value). If Analog Output remains in the Analog Output Test mode for the length of time specified via the 'NonNormalModeTimeout' data point, the Analog Output 1 is automatically exited from the Analog Output Test mode and returns to its normal operation.
483	AO1 validity
484	Analog output 1 validity indicator
485	AO2 (HART) validity
486	Analog output 2 (HART) validity indicator
487	Freq1 validity
488	Frequency output 1 validity indicator
489	Freq2 validity
490	Frequency output 2 validity indicator
491	Temperature comm error
492	Indicates a communication error with the HART temperature transmitter. Refer to the TempHARTCommStatus data point for further information.
493	Pressure comm error
494	Indicates a communication error with the HART pressure transmitter. Refer to the PressHARTCommStatus data point for further information.
495	Advisory byte 4
496	HART AO2 QV validity
497	HART AO2 QV validity indicator
498	HART AO2 TV validity
499	HART AO2 TV validity indicator
500	HART AO2 SV validity
501	HART AO2 SV validity indicator
502	System log full
503	System log full indicator.
504	Alarm log full
505	Alarm log full indicator.
506	Audit log full
507	Audit log full indicator.
508	Daily log full
509	Daily log full indicator.
510	Hourly log full
511	Hourly log full indicator.
512	Advisory byte 5
513	HART AO2 slot 3 validity
514	HART AO2 slot 3 validity indicator
515	HART AO2 slot 2 validity
516	HART AO2 slot 2 validity indicator
517	HART AO2 slot 1 validity
518	HART AO2 slot 1 validity indicator
519	HART AO2 slot 0 validity
520	HART AO2 slot 0 validity indicator
521	Flow temperature out of limits
522	Flow-condition temperature out of limits indicator. This is only valid if connected to the temperature transmitter via HART.
523	Flow pressure out of limits
524	Flow-condition pressure out of limits indicator. This is only valid if connected to the pressure transmitter via HART.
525	Avg sound velocity out of limits
526	Average sound velocity out of limits indicator.
527	Avg flow velocity out of limits
528	Average flow velocity out of limits indicator.
529	8.3f
530	Invalid frequency output
531	Status: FAILED
532	Status: MAINTENANCE
533	Status: ADVISORY
534	Status: GOOD
535	General device status indication (good, failed, maintenance or advisory) image
536	Daniel Industries logo
537	EPM logo
538	Emerson Process Management logo
539	34XX Gas USM
540	Daniel Industries 34XX Gas USM image
541	38XX Liquid USM
542	Daniel Industries 38XX Liquid USM image
543
544	PV chart
545	PV strip chart showing 10 minutes of data by default
546	SV chart
547	SV strip chart showing 10 minutes of data by default
548	TV chart
549	TV strip chart showing 10 minutes of data by default
550	QV chart
551	QV strip chart showing 10 minutes of data by default
552	Zero flow velocity
553	Zero flow velocity chart
554	Zero flow velocity strip chart showing Zero calib duration minutes of data by default
555	PV gauge
556	PV gauge based on minimum and maximum scale associated with this variable
557	SV gauge
558	SV gauge based on minimum and maximum scale associated with this variable
559	TV gauge
560	TV gauge based on minimum and maximum scale associated with this variable
561	QV gauge
562	QV gauge based on minimum and maximum scale associated with this variable
563	Configure/Setup
564	Device Diagnostics
565	Process Variables
566	Basic setup
567	Device
568	Calibrate
569	AO2 trim
570	Zero flow
571	AO1
572	AO2 (HART)
573	Freq & digital 1
574	Frequency output 1
575	Digital output 1
576	Freq & digital 2
577	Frequency output 2
578	Digital output 2
579	Live temperature
580	Temperature alarm
581	Live pressure
582	Pressure alarm
583	Pressure type
584	Digital input
585	Units
586	Identification
587	DD rev 1, build 022
588	Device variables mapping
589	Acknowledge
590	Failed
591	Advisory
592	View details
593	Failed details
594	Device malfunction
595	Maintenance
596	Maintenance details
597	Advisory details
598	Variable out of limits
599	HART pressure transmitter
600	HART temperature transmitter
601	All variables
602	FMU860
603	DT
604	DVC
605	FCX
606	AS800
607	340T
608	340C
609	344
610	Siemens Micro K
611	SITRANS L
612	SIPAN PH
613	SITRANS P
614	75SMT
615	UNIDELTA
616	8320
617	SX5100
618	TSV175
619	DMU
620	3780
621	BM70
622	8u
623	Cannot calculate K-factor due to invalid upper range or units
624	K-factor: %[.6f]{kFactor} pulses/%{0}
625	Inverse K-factor: %[.6f]{inverseKFactor} %{0}/pulse
626	You must write analog output 1 content to the meter to refresh dependent values
627	You must write analog output 2 content (the device variable mapped to PV) to the meter to refresh dependent values
628	You must write frequency output 1 content to the meter to refresh dependent values
629	You must write frequency output 2 content to the meter to refresh dependent values
630	You must write units to the meter to refresh dependent values
631	Enter zero flow calibration duration
632	Wait for zero flow calibration to complete and then select End Zero to process the result. Select Abort Zero to stop the zero flow calibration early without updating the zero flow velocity offset.
633	Zero flow calibration not inactive
634	Zero flow calibration aborted. The zero flow velocity offset has not been updated.
635	Zero flow calibration not started
636	Zero flow velocity offset %[.5f]{zeroFlowCalResult} %{0}
637	Zero flow calibration failed due to chord failure. The zero flow velocity offset has not been updated.
638	Zero flow calibration failed due to zero flow velocity offset too large. The zero flow velocity offset has not been updated.
639	Zero flow calibration failed due to estimated maximum deviation too large. The zero flow velocity offset has not been updated.
Reference ID	String