Device dictionary

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Reference ID	String
0	Model
1	.1f
2	No specific error
3	Field device specific error
4	Update fail
5	Access restricted
6	A000: Undefined
7	A001: EEPROM Error (CP)
8	A002: RAM Error (CP)
9	A003: No Sensor Response
10	A004: Temperature Overrange
11	A005: Mass Flow Rate Overrange
12	A006: Characterization Required
13	A007: Real-Time Interrupt Failure
14	A008: Density Overrange
15	A009: Transmitter Initializing/Warming Up
16	A010: Calibration Failure
17	A011: Zero Calibration Failed: Low
18	A012: Zero Calibration Failed: High
19	A013: Zero Calibration Failed: Unstable
20	A014: Transmitter Failure
21	A015: MA Readback Error
22	A016: Sensor RTD Failure
23	A017: T-Series RTD Failure
24	A018: EEPROM Error (Xmtr)
25	A019: RAM Error (Xmtr)
26	A020: No Flow Cal Value
27	A021: No K1 Value
28	A022: Config DB Corrupt (CP)
29	A023: Internal Totals Corrupt (CP)
30	A024: Program Corrupt (Core Processor)
31	A025: Boot Sector Fault (CP)
32	A026: Sensor/Transmitter Communications Failure
33	A027: Security Breach
34	A028: Core Processor Write Failure
35	A029: PIC/Daughterboard Comm Failure
36	A030: Incorrect Board Type
37	A031: Low Power
38	A032: MV: Outputs to Fault
39	A033: No LPO/RPO Signal
40	A034: Undefined
41	A035: Undefined
42	A036: Undefined
43	A037: Undefined
44	A038: Undefined
45	A039: Undefined
46	A100: MAO1 Saturated
47	A101: MAO1 Fixed
48	A102: Drive Overrange
49	A103: Data Loss Possible
50	A104: Calibration-In-Progress
51	A105: Slug Flow
52	A106: Burst Mode Enabled
53	A107: Power Reset Occurred
54	A108: Single-Setpoint Event 1 ON
55	A109: Single-Setpoint Event 2 ON
56	A110: Frequency Output Saturated
57	A111: Frequency Output Fixed
58	A112: Upgrade Transmitter Software
59	A113: mA Output 2 Saturated
60	A114: mA Output 2 Fixed
61	A115: No External Data
62	A116: API: Temperature Overrange
63	A117: API: Density Overrange
64	A118: Discrete Output 1 Fixed
65	A119: Discrete Output 2 Fixed
66	A120: Enhanced Density: Curve Fit Failure
67	A121: ED: Extrapolation Alert
68	A122: Discrete Output 3 Fixed
69	A123: DO4 Fixed
70	A124: Frequency Input Saturated
71	A125: Batch Timeout
72	A126: Batch Overrun
73	A127: Batch No Reset
74	A128: Batch/Fill No Start
75	A129: PPI Display Error
76	A130: Printer Out of Paper
77	A131: Meter Verification: Outputs to Last Measured Value
78	A132: Sensor Simulation Active
79	A133: PIC UI EEPROM Error
80	A134: PPI Memory Error
81	A135: PPI Communication Error
82	A136: Undefined
83	A137: Undefined
84	A138: Undefined
85	A139: Undefined
86	D1 Calibration In Progress
87	D2 Calibration In Progress
88	D3 Calibration In Progress
89	D4 Calibration In Progress
90	FD Calibration In Progress
91	Zero Calibration In Progress
92	Temperature Slope Calibration In Progress
93	Temperature Offset Calibration In Progress
94	Discrete Event 1 Active
95	Discrete Event 2 Active
96	Discrete Event 3 Active
97	Discrete Event 4 Active
98	Discrete Event 5 Active
99	Discrete Output 1 Active
100	Discrete Output 2 Active
101	Discrete Output 3 Active
102	Discrete Input 1 Active
103	Discrete Input 2 Active
104	Undefined
105	Field Device Variable- Digital measurement that changes with respect to time without user intervention.
106	Too few data bytes received
107	In 'Write Protect' mode
108	Invalid unit
109	Enter mA Measurement Point
110	The range of the mA output on the Model 2200S is 12-20 mA. If an adapter-barrier is installed, the range is converted to 4-20 mA. Specify the mA measurement point so that the mA output data can be reported correctly. If you specify Don't Know, data will be reported for both spans.
111	Sensor Serial Number- Uniquely identifies the sensor from which the Digital Value representation or Field Device variable is primarily derived.
112	8d
113	mA Output Alarm Type
114	High
115	Low
116	None
117	Transfer Function
118	Mass Flow Rate
119	Current mass flow rate as calculated from external volume flow rate.
120	.2f
121	.3f
122	.4f
123	.5f
124	The mass flow rate below which the frequency/pulse output indicates zero flow,and below which totalizers stop counting. Cutoffs can also be configured for the mA output(s) (the mA output cutoffs). An mA output cutoff is active only if the process variable assigned to the output is mass flow or volume flow.
125	4.2f
126	mA Output Upper Limit
127	mA output Lower Endpoint Value- Defines the lower endpoint, of the respective mA output, for normal operating conditions.
128	mA Output Lower Limit
129	mA Output Added Damping Value- Damping time constant applied the mA output. The units of this variable are always in seconds.
130	Percent of Range- Variable that tracks the Digital Value representation with respect to the range defined by the Lower Range Value and Upper Range Value, for normal operating modes. The units of this variable are always in percent.
131	Mass Flow Lower Range Value
132	Damping Value- Damping time constant applied to both the Digital Value representation and Analog Value of the respective mA output. The units of this variable are always in seconds.
133	Upper Sensor Limit Value- Defines the maximum usable value for the Upper Range Value.
134	Mass Flow Upper Sensor Limit
135	8.2f
136	Lower Sensor Limit Value- Defines the minimum usable value for the Lower Range Value.
137	Mass Flow Lower Sensor Limit
138	Minimum Span Value- Defines the smallest allowable difference between the Upper Range Value and the Lower Range Value.
139	Mass Flow Minimum Span
140	Damping
141	Sensor Unit
142	mA Output Cutoff
143	Mass Total Unit
144	Density
145	The density of the liquid being measured.
146	.6f
147	Current volume flow rate from an external device.
148	Volume Flow Rate
149	The volume flow rate below which the frequency/pulse output indicates zero flow,and below which totalizers stop counting. Cutoffs can also be configured for the mA output(s) (the mA output cutoffs). An mA output cutoff is active only if the process variable assigned to the output is mass flow or volume flow.
150	Volume Flow Lower Range Value
151	Volume Flow Upper Sensor Limit
152	10.4f
153	Volume Flow Lower Sensor Limit
154	Volume Flow Minimum Span
155	Volume Flow Total Unit
156	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.
157	Pressure value from an external device.
158	Drive gain is the amount of current required to drive the vibrating element, expressed as a percentage of the maximum allowable drive gain.
159	6.2f
160	Upper Range Value (20mA)
161	Temperature value from an external device.
162	NLPD
163	NLPH
164	NLPM
165	NLPS
166	Nm3/day
167	Nm3/hr
168	Nm3/min
169	Nm3/sec
170	SCFD
171	SCFH
172	SCFM
173	SCFS
174	SLPD
175	SLPH
176	SLPM
177	SLPS
178	Sm3/day
179	Sm3/hr
180	Sm3/min
181	Sm3/sec
182	Gas Volume Flow
183	Meter Temperature: T-Series
184	Input voltage is the current power input.
185	Core Processor Input Voltage
186	Temperature
187	Primary Variable
188	Secondary Variable
189	Third Variable
190	Fourth Variable
191	ANSI 150
192	ANSI 300
193	ANSI 600
194	PN40
195	JIS 10K
196	JIS 20K
197	ANSI 900
198	Sanitary clamp fitting
199	Union
200	PN100
201	Unknown
202	Tube Lining
203	Tube Wetted Material
204	Hast-C
205	Monel
206	Tantalum
207	Titanium
208	316L SST
209	Inconel
210	Base Unit
211	Base Time
212	Conversion Factor
213	Flow Label
214	Total Label
215	Forward
216	Reverse
217	5.4f
218	5.2f
219	Flow Cal
220	The mass or volume flow rate below which is a mA output representing flow indicates zero flow.
221	mA Output Flow Rate Cutoff
222	Start
223	Stop
224	Reset
225	5d
226	5.5f
227	µsec
228	6.5f
229	Fault Timeout
230	2d
231	Downscale: mA outputs that indicate flow go to the configured limit. Upscale: mA outputs go to the configured limit. Internal zero: Flow outputs indicate zero flow.
232	Fault Action
233	Upscale
234	Downscale
235	Fault Level (Adapter-Barrier)
236	Digital Communications Fault Action
237	1d
238	Reference temperature
239	mA Output 1 Cutoff
240	Cutoff Type
241	11.5f
242	8.3f
243	Pickoff amplitude indicates the distance that the vibrating element is traveling from its resting state.
244	Drive Gain
245	Live Zero Flow Rate
246	RTD Cable Resistance
247	T-Series RTD Resistance
248	Line RTD Resistance
249	The resistance of the line RTD.
250	'Power On Time' is the number of seconds since the last power cycle.
251	Power On Time
252	7.2f
253	Scroll Time (1-30)
254	Passcode (4 Digits)
255	4d
256	Refresh Rate (100-10,000)
257	On
258	Option Model Number
259	2500 Config I/O
260	9.8f
261	10.7f
262	Pressure Compensation
263	Compensation Pressure
264	External Temperature
265	Correction Temperature
266	Engineer to Order Number
267	Meter Verification
268	Alarm Number
269	3d
270	Information
271	Coil
272	Disabled
273	Enabled
274	Gas Reference Density
275	Reference density of the gas being measured.
276	SL
277	Sm3
278	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.
279	Simulate Primary Purpose Variables
280	Control
281	Ramp Low Point
282	Ramp High Point
283	Ramp Period
284	Time is measured in terms of time elapsed since trasmitter has been switched on first time.
285	A001: EEPROM Error (Core Processor)
286	A002: RAM Error (Core Processor)
287	A006: Characterization Required
288	A020: No Flow Calibration Value
289	A022: Configuration Database Corrupt (Core Processor)
290	A023: Internal Totals Corrupt (Core Processor)
291	A025: Boot Sector Fault (Core Processor)
292	A029: PIC/Daughterboard Communication Failure
293	A032: Meter Verification: Outputs to Fault
294	A033: No Right/Left Pickoff Signal
295	A100: mA Output 1 Saturated
296	A101: mA Output 1 Fixed
297	The version of the Device Description (DD) being used.
298	Keep Existing Assignment
299	Perform Auto Zero
300	First Point
301	Second Point
302	Third Point
303	Fourth Point
304	Flowing Density
305	Fix mA Output- Allows the User to manually manipulate a selected mA output to a selected constant output value.
306	mA Output 1 Fault value
307	mA Output Trim
308	Digital to Analog Trim- Allows the calibration of a selected mA output with an external reference at the operating endpoints of the mA output.
309	Reset All
310	Reset Total
311	Change Alert Severity
312	Read Modbus Data
313	Write Modbus Data
314	Leaving fixed current mode
315	Leaving Fixed Current Mode- Takes the selected mA output out of a mode where the output was a constant value, and returns the output to a mode where the output then tracks the input.
316	Sensor
317	Configure the transmitter for sensor characteristics.
318	Configure channels, inputs, outputs, map variables, and communication settings.
319	Special Units
320	Configure the parameters required to convert an existing measurement unit to a different unit.
321	External Pressure/Temperature
322	Configure polled connections to an external temperature or pressure transmitter.
323	Configure the transmitter for gas standard volume measurement.
324	Configure the process monitor screens by selecting the desired variables for each screen.
325	No Additional Information for Above
326	Additional Information for Above
327	A004: Temperature Overrange
328	A006: Characterization Required
329	A008: Density Overrange
330	A009: Transmitter Initializing/Warming Up
331	A011: Zero Calibration Failed: Low
332	A012: Zero Calibration Failed: High
333	A013: Zero Calibration Failed: Unstable
334	A020: No Flow Calibration Value
335	A029: PIC/Daughterboard Communication Failure
336	A100: mA Output Saturated
337	A101: mA Output Fixed
338	Primary Variable Out of Limits
339	Non-Primary Variable Out of Limits
340	Primary Variable mA Output Saturated
341	Primary Variable mA Output Fixed
342	Write Protect
343	Device Reset
344	Restore Factory Configuration
345	GetHealthStatus
346	Invalid flange type
347	Invalid liner material code
348	Invalid sensor material code
349	Invalid base mass time unit
350	Invalid base flow unit
351	Invalid selection
352	Invalid base volume time unit
353	Invalid base volume flow unit
354	Incorrect format
355	Temperature correction factor out of range
356	Zero Pressure Correction Point too low
357	Online
358	Overview
359	Configure
360	Service Tools
361	Routine Maintenance
362	Variables
363	Totalizers
364	Totalizer
365	All Totalizers
366	Volume
367	Inputs/Outputs Fault Actions
368	Alert Severity
369	GSV
370	Special Units
371	Mass Special Units
372	Volume Special Units
373	Density Parameters
374	Sensor
375	Electronics
376	Zero
377	Identification
378	Revisions
379	Display
380	Specify the number of decimal places to be shown on the display.
381	Process Variables
382	Totalizer Variables
383	Diagnostic Variables
384	Perform a zero calibration which sets a zero reference for a no-flow condition.
385	Display Variable Menu Features
386	mA Output Fault Settings
387	Hot key
388	F: EEPROM Error (CP)
389	F: RAM Error (CP)
390	F: No Sensor Response
391	F: Temperature Overrange
392	Additional Information
393	F: Mass Flow Rate Overrange
394	F: Characterization Required
395	F: Density Overrange
396	View Density Characterization
397	F: Transmitter Initializing/Warming Up
398	F: Calibration Failure
399	F: Zero Calibration Failed: Low
400	F: Zero Calibration Failed: High
401	F: Zero Calibration Failed: Unstable
402	F: Transmitter Failure
403	F: Sensor RTD Failure
404	F: T-Series RTD Failure
405	F: No Flow Calibration Value
406	F: No K1 Value
407	F: PIC/Daughterboard Communication Failure
408	F: Incorrect Board Type
409	F: Low Power
410	F: No Right/Left Pickoff Signal
411	View Slug Flow Condition
412	A: mA Output Saturated
413	A: mA Output Fixed
414	M: Drive Overrange
415	A: Calibration In Progress
416	M: Slug Flow
417	View Diagnostic Variables
418	Additional
419	A: Burst Mode Enabled
420	M: Power Reset Occurred
421	A: Sensor Simulation Active
422	M: EEPROM Error (Display)
423	M: Primary Variable Out of Limits
424	M: Non-Primary Variable Out of Limits
425	M: Primary Variable mA Output Saturated
426	M: Primary Variable mA Output Fixed
427	M: Cold Start
428	M: Field Device Malfunction
429	Security
430	Reset/Restore
431	Calibration
432	Process Var Charts
433	Primary Variable
434	3rd Variable
435	4th Variable
436
437	GSV Flow Rate
438	Current (Adapter-Barrier)
439	Secondary Variable
440	Tertiary Variable
441	Quarternary Variable
442	Enable or Disable write protect mode
443	Configures the transmitter for sensor characteristics.
444	Configures map variables and primary output settings.
445	Sets fixed output value for the mA output.
446	Performs digital to analog trim of mA output.
447	Performs auto zero or restore factory zero.
448	The DensCal Factor field on the old style sensor tag contains the K1, K2 and TC values. The first 5 characters are K1, the second 5 characters are K2 and the remaining characters are TC.
449	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.
450	The 'First Miliamp Output' uses the 'Primary Variable' as its source.
451	The 'Secondary Variable' is only used in HART communications.
452	The 'Third Variable' is only used in HART communications.
453	The 'Fourth Variable' is only used in HART communications.
454	Advisory
455	Analog Output Information
456	Sensor Model
457	Diagnostics
458	Enters an Alert number and change the Alert's severity to Fault, Information or Ignore.
459	Enters an Alert number and view the current severity of the alert.
460	Configures the Process Monitor Screens by selecting the desired process variables for each screen.
461	Configures the number of decimal places for each process variable.
462	Assigns a variable to the mA output, define upper and lower range values, cutoff and damping.
463	Sets up Bell-202 port settings.
464	Assigns variables to primary (PV), secondary (SV), third (TV) and fourth (4V) variables.
465	Set Up Bell 202 Port
466	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.
467	Optional Setup
468	Standard Gas Volume
469
470	All Variables
471	Input/Output
472	T-Series Config
473	HART Burst Mode
474	Field Device Variables
475	The Temperature Calibration Factor is a 14 character string that contains two real numbers. The first number, before the "T", is the slope. The slope must be a positive real number containing 7 characters (including the decimal point). The "T" is a delimiter and must be present. The second number, after the "T", is the offset. The offset must be a real number containing 7 characters (including the decimal point and negative sign if present). The offset must be between -10 and +10.
476	Performs first point (air) calibration.
477	Performs second point (water) calibration.
478	Performs third point (user's choice) calibration.
479	Performs fourth point (user's choice) calibration.
480	Performs flowing density calibration.
481	Status
482	Tag, model code, revision, security, and related data.
483	Control and configure totalizers and inventories.
484	Trend charts for process and diagnostic variables.
485	Revision Numbers
486	Displays values of process variables and outputs.
487	Note:-Fault Level range for Direct (12-20mA) :Downscale 11.5mA to 11.8mA : Upscale 20.5mA to 22.0mA
488	Note:-Fault Level range for Adapter-Barrier (4-20mA) :Downscale 3.0mA to 3.6mA :Upscale 21.0mA to 24.0mA
489	Reads modbus register values.
490	Writes modbus register values.
491	Displays a trend chart for mass flow rate.
492	Displays a trend chart for volume flow rate.
493	Displays a trend chart for gas standard volume flow rate.
494	Simulation Configuration
495	Mass Flow Rate Simulation Settings
496	Density Simulation Settings
497	Temperature Simulation Settings
498	Simulation Settings
499	2nd Variable Information
500	Continuity failure of drive circuit Left PickOff,Right PickOff or Left PickOff-Right PickOff mismatch when driving.
501	Recommended Actions: 1. Check for 'Slug Flow'. 2.View the diagnostic vaiables 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.
502	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.
503	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.
504	Recommended Actions: 1. Check the characterization. Specifically, verify the 'Flow Cal' and 'K1' values with the 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.
505	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.
506	The measured 'Density' is below 0 g/cm3 or above 10 g/cm3.
507	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.
508	Recommended Actions: 1. If 'A26' also appears, resolve the 'A26' first. 2. Allow the flowmeter to warm up (approximately 30 seconds). The error should disappear once the flowmeter is ready for normal operation. 3. Make sure the transmitter is receiving sufficient power. 4. If alert does not clear, make sure that the sensor is completely full or completely empty. 5. Check the sensor circuitry. 6. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
509	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.
510	Mechanical Zero: The resulting zero was greater than 3 microseconds.
511	Internal memory or program fault has been detected.
512	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.
513	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.
514	The 'Flow Calibration Factor' and/or 'K1' has not been entered since the last master reset.
515	Recommended Actions: 1. Check the characterization against the sensor tag. Specifically, verify the 'Flow Cal','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.
516	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.
517	The sensor is recognized as a straight tube but the 'K1' value indicates a curved tube,or vice versa.
518	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.
519	Recommended Actions: 1. Verify the core processor input voltage is at least 12V. 2. Check the power supply and all power wiring.
520	No signal from 'Left Pickoff' or 'Right Pickoff',suggesting that sensor tubes are not vibrating.
521	Recommended Actions: 1. Check for 'Slug 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.
522	Recommended Actions: 1. Verify that Lower Range Value and Upper Range Value are set correctly for the process variable and the process. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
523	Non-zero 'HART Address' configured,or user has set the mA output to a fixed value.
524	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.
525	Recommended Actions: 1. Check the drive gain and pickoff voltage.. 2. Check for foreign material in the process gas or fluid,coating,or other problems. 3. Check for fluid sepearation by monitoring the density value and comparing the results against expected density values. 4.Ensure that the sensor orientation is appropriate for your application.Settling from a two-phase or three-phase fluid can cause this alert. 5.Check the sensor circuitry. 6.If this is the only active alarm, it can be ignored. If desired, reconfigure the alarm severity to Ignore. 7.If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
526	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.
527	The 'Density' has exceeded the user-defined 'Slug Flow'(density) limits.
528	Recommended Actions: 1. Check that sensor tubes are completely filled. 2. Check that 'Slug 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.
529	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.
530	Recommended Actions: 1. No action required. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
531	Recommended Actions: 1. Disable output simulation. 2. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
532	Recommended Actions: 1. Verify process and check for 'Slug 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.
533	Recommended Actions: 1. Verify process and check for 'Slug 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.
534	Recommended Actions: 1. Verify that mA output range values are set to appropriate values.
535	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.
536	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.
537	Density Characterization
538	Slug Flow Condition
539	Electronic Conditions
540	Recommended Actions: 1. Cycle power to the flow meter. 2. The flow meter might need service. Contact Micro Motion.
541	Sensor Conditions
542	Process Conditions
543	Configuration Conditions
544	Recommended Actions: 1. Cycle power to the flowmeter. 2. Contact Micro Motion.
545	Recommended Actions: 1. Contact Micro Motion.
546	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.
547	Classic View
548	Power-cycle the device without affecting device configuration.
549	Overwrite the existing device configuration with the configuration set at the factory.
550	Manually resets the configuration changed flag if the host is not able to reset the flag automatically.
551	Performs a zero calibration.
552	Performs a density calibration.
553	Performs a temperature calibration.
554	Offline
555	FMU860
556	DT
557	DVC
558	FCX
559	AS800
560	340T
561	340C
562	344
563	Siemens Micro K
564	SITRANS L
565	SIPAN PH
566	SITRANS P
567	75SMT
568	UNIDELTA
569	8320
570	SX5100
571	TSV175
572	DMU
573	3780
574	BM70
575	8u
576	low
577	high
578	tmp_av
579	'Configuration Changed Flag' is being reset, please wait...
580	'Configuration Changed Flag' has been reset.
581	Changing configuration can affect transmitter operation. Ensure that the control loop is set for manual operation before continuing.
582	Warning- Take the device out of process control loop.
583	Device is in process control loop.;Device is out of process control loop.
584	Enter 'Zero Time':
585	Zero calibration is starting...
586	Auto Zero failed. Zero: %{0} Standard Deviation: %{1}
587	Factory zero has been restored.
588	Enter Density:
589	NOTE- Flow rate must be greater than 50% of the nominal flow for the meter.
590	Specify 'mA Output Level (Adapter-Barrier)':
591	Specify 'mA Output Level (Direct)':
592	Output Value (mA):
593	fixedValue
594	'mA Output (Adapter-Barrier)' is fixed at %0 mA.
595	'mA output (Direct)' is fixed at %0 mA.
596	Connect reference meter to the 'mA Output' of the Adapter-Barrier.
597	About to set 'mA Output' at Adapter-Barrier to 4.00 mA. Note: The 'mA Output' at the transmitter will be set to 12.00 mA.
598	Connect reference meter to the 'mA Output' of the transmitter.
599	About to set 'mA Output' at transmitter to 12.00 mA.
600	Enter 'Meter Value':
601	Is 'mA Output' from the Adapter-Barrier equal to reference meter?
602	Yes;No
603	Is 'mA Output' directly from transmitter equal to reference meter?
604	All totalizers have been started.
605	All totalizers have been stopped.
606	All totalizers have been reset.
607	'Mass Total' has been reset.
608	'Volume Total' has been reset.
609	'Gas Standard Volume Total' has been reset.
610	Event 1 Triggered: Yes
611	Event 1 Triggered: No
612	Event 2 Triggered: Yes
613	Event 2 Triggered: No
614	alarmNum
615	All alerts are acknowledged.
616	Selection for data type:
617	Enter 'Coil Number':
618	number
619	Enter 'Register Number':
620	'Coil Mode' is %0 and 'Exception Code' is %1.
621	'Unsigned 16 Value' is %0 and 'Exception Code' is %1.
622	'Unsigned 32 Value' is %0 and 'Exception Code' is %1.
623	'Floating Point Value' is %[f]{0} and 'Exception Code' is %1.
624	Coil Mode:
625	Enter 'Unsigned 16 Value:'
626	uValue
627	Enter 'Unsigned 32 Value:'
628	Enter 'Floating Point Value':
629	fValue
630	Select the 'Simulation Mode':
631	select
632	'Simulation Mode' is %0.
633	Parameters are being updated, please wait...
634	Current sensor type selection is Other (Curved Tube). Select 'Sensor Type':
635	Current sensor type selection is T-Series (Straight Tube). Select 'Sensor Type':
636	Current Primary Variable Selection is %0 Select Primary Variable:
637	View 'Alert Severity' of:
638	Priority: Failed - Fix Now Description: 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.
639	No Additional Information Available
640	Priority: Failed - Fix Now Description: ROM checksum error or a RAM location cannot be written to the transmitter. Recommended Actions: 1. Cycle power to the flowmeter. 2. The flow meter might need service. Contact Micro Motion.
641	Priority: Failed - Fix Now Description: Continuity failure of drive circuit Left Pickoff ,Right Pickoff or Left Pickoff-Right Pickoff mismatch when driving. Recommended Actions: 1. Check for 'Slug 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.
642	Drive Gain: Value %0
643	Priority: Failed - Fix Now Description: 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
644	Temperature: Value %0
645	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.
646	Priority: Failed - Fix Now Description: One or more required characterization parameters have not been entered or incorrect. Recommended Actions: 1. Check the characterization. Specifically, verify the 'Flow Cal' and 'K1' values with the 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.
647	Flow Cal: Value %0 K1: Value %1 uSec K2: Value %2 uSec
648	Priority: Failed - Fix Now Description: One or more required characterization parameters have not been entered or incorrect. Recommended Actions: 1. Check the characterization. Specifically, verify the 'Flow FCF' and 'K1' values with the 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.
649	Flow FCF: Value %0 K1: Value %1 uSec K2: Value %2 uSec
650	Priority: Failed - Fix Now Description: The measured 'Density' is below 0g/cm3 or above 10 g/cm3. 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 circuitary. 4. Verify 'Density'characterization and verify configuration matches sensor tag. 5. View diagnostic variables to verify raw tubes 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
651	Priority: Failed - Fix Now Description: Transmitter in power-up mode. Recommended Actions: 1. If'A26' also appears,resolve the 'A26' first. 2. Allow the flowmeter to warm up (approximately 30 seconds). The error should disappear once the flowmeter is ready for normal operation. 3. Make sure the transmitter is receiving sufficient power. 4. If alert does not clear, make sure that the sensor is completely full or completely empty. 5. Check the sensor circuitry. 6. If you want to change the alert severity, go to the Configure-> Alert Setup-> Alert Severity screen.
652	Priority: Failed - Fix Now Description: 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 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.
653	Priority: Failed - Fix Now Description: 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.
654	Priority: Failed - Fix Now Description: 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.
655	Priority: Failed - Fix Now Description: 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.
656	Priority: Failed - Fix Now Description: Internal memory or program fault has been detected. Recommended Actions: 1. Resolve the other active alerts first. 2. Cycle power to the flowmeter. 3. If alert persists,The transmitter might need service. Contact Micro Motion.
657	Priority: Failed - Fix Now Description: 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.
658	Priority: Failed - Fix Now Description: 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.
659	Priority: Failed - Fix Now Description: 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 Cal', '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.
660	Priority: Failed - Fix Now Description: 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.
661	Priority: Failed - Fix Now Description: 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. Specifically, verify the 'Flow FCF' and 'K1' values. 3. Check the sensor RTD circuitry. 4. If the problem persists, contact Micro Motion.
662	Flow FCF: Value %0 K1: Value %1 uSec K2: Value %2 uSec
663	Priority: Failed - Fix Now Description: Transmitter electronics failure has occurred. Recommended Actions: 1. Cycle power to the flowmeter. 2. Contact Micro Motion.
664	Priority: Failed - Fix Now Description: The loaded software is not compatible with the programmed board type. Recommended Actions: 1. Contact Micro Motion.
665	Priority: Failed - Fix Now Description: 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.
666	Priority: Failed - Fix Now Description: No signal from 'Left Pickoff' or 'Right Pickoff', suggesting that sensor tubes are not vibrating. Recommended Actions: 1. Check for 'Slug 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 tube 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.
667	Priority: Advisory Description: The calculated amount of current output is outside of the linear range. Recommended Actions: 1. Verify that Upper Range Value and Lower Range Value are set correctly for the process variable and the process. 2. If you want to change the alert severity,go to the Configure-> Alert Setup-> Alert Severity screen.
668	Primary Variable: %0 %0: Value %1 %2
669	PV Lower Range Value: Value %0 %1 PV Upper Range Value: Value %2 %3
670	Priority: Advisory Description: 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.
671	HART Address: %0 mA Output Fault Action: %1
672	Priority: Maintenance - Fix Soon Description: 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.
673	Priority: Advisory Description: 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 sverity,go to the Configure-> Alert Setup-> Alert Severity screen.
674	Priority: Maintenance - Fix Soon Description: The 'Density' has exceeded the user-defined 'Slug Flow'(density) limits. Recommended Actions: 1. Check that sensor tubes are completely filled. 2. Check that 'Slug Flow' limits are set to appropriate values. 3.Verify density cutoff is at least 0.2g/cc. 4. If you want to change the alert sverity,go to the Configure-> Alert Setup-> Alert Severity screen.
675	Slug High Limit: Value %0 g/Cucm Slug Low Limit: Value %1 g/Cucm Slug Duration: Value %2 sec
676	Priority: Advisory Description: Device is in HART burst mode. Recommended Actions: 1. No action required. 2. If desired, reconfigure the alarm severity to Ignore 3. If you want to change the alert sverity,go to the Configure-> Alert Setup-> Alert Severity screen.
677	Priority: Maintenance - Fix Soon Description: Transmitter has been restarted. Recommended Actions: 1. No action required. 2. If you want to change the alert sverity,go to the Configure-> Alert Setup-> Alert Severity screen.
678	Priority: Advisory Description: Simulation mode is enabled. Recommended Actions: 1. Disable output simulation. 2. If you want to change the alert sverity,go to the Configure-> Alert Setup-> Alert Severity screen.
679	Priority: Maintenance - Fix Soon Description: 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.
680	Priority: Maintenance - Fix Soon Description: Primary variable has exceeded sensor limits. Recommended Actions: 1. Verify process and check for 'Slug 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.
681	Priority: Maintenance - Fix Soon Description: Non-primary variable has exceeded sensor limits. Recommended Actions: 1. Verify process and check for 'Slug 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.
682	Priority: Maintenance - Fix Soon Description: 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.
683	Priority: Maintenance - Fix Soon Description: 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.
684	Priority: Maintenance - Fix Soon Description: 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.
685	Priority: Maintenance - Fix Soon Description: A write or set command has been executed. Recommended Actions: 1. No action required.
686	Priority: Maintenance - Fix Soon Description: 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.
687	Select 'Alert Number':
688	Current severity is '%0'.
689	Select 'Alert Severity':
690	'%{1}' is set to '%{0}'.
691	A001: EEPROM Error (CP) is set to %0.
692	A002: RAM Error (CP) is set to %0.
693	A003: No Sensor Response is set to %0.
694	A004: Temperature Overrange is set to %0.
695	A005: Mass Flow Rate Overrange is set to %0.
696	A006: Characterization Required is set to %0.
697	A008: Density Overrange is set to %0.
698	A009: Transmitter Initializing Warming Up is set to %0.
699	A010: Calibration Failure is set to %0.
700	A011: Zero Calibration Failed: Low is set to %0.
701	A012: Zero Calibration Failed: High is set to %0.
702	A013: Zero Calibration Failed: Unstable is set to %0.
703	A014: Transmitter Failure is set to %0.
704	A016: Sensor RTD Failure is set to %0.
705	A017: T-Series RTD Failure is set to %0.
706	A020: No Flow Cal Value is set to %0.
707	A021: No K1 Value is set to %0.
708	A022: Config DB Corrupt (CP) is set to %0.
709	A023: Internal Totals Corrupt (CP) is set to %0.
710	A025: Boot Sector Fault (CP) is set to %0.
711	A029: PIC Daughterboard Comm Failure is set to %0.
712	A030: Incorrect Board Type is set to %0.
713	A031: Low Power is set to %0.
714	A033: No LPO RPO Signal is set to %0.
715	A100: MAO1 Saturated is set to %0.
716	A101: MAO1 Fixed is set to %0.
717	A102: Drive Overrange is set to %0.
718	A104: Calibration-In-Progress is set to %0.
719	A105: Slug Flow is set to %0.
720	A106: Burst Mode Enabled is set to %0.
721	A107: Power Reset Occurred is set to %0.
722	A132: Sensor Simulation Active is set to %0.
723	'Write Protect' is Enabled.
724	'Write Protect' is Disabled.
725	Select 'Write Protect' Action:
726	Enable;Disable
727	Access Restricted
728	Resetting device. Please wait.
729	Device reset completed successfully.
730	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. Proceed?
731	Aborting due to field device error.
732	Factory values are restored successfully.
733	1f3a0105device_advisory.gif
734	Proceed;Change
735	Set scale- Low output value
736	Set scale- High output value
737	measured_low
738	Setting field device output to 20mA
739	measured_high
Reference ID	String