Device dictionary

Loading…

Reference ID	String
0	2000 Mass flo
1	Tag
2	Date- Gregorian calendar date, entered as mm/dd/yy, that is stored in the Field Device. This date can be used by the user in any way. There is no specific recommended use.
3	No
4	4.1f
5	EEPROM Checksum - Core processor
6	RAM Error - Core Processor
7	Temperature out of range
8	Data loss possible
9	Burst mode enabled
10	Event 1 triggered
11	Event 2 triggered
12	Sensor/Xmtr Communication Error
13	Calibration Factor Unentered (Flocal)
14	EEPROM Checksum - 2000
15	RAM Error - 2000
16	Unrecognized/Unentered Sensor Type (K1)
17	EEPROM Config. Corrupt - Core Processor
18	EEPROM Totals Corrupt - Core Processor
19	EEPROM Program Corrupt - Core Processor
20	Line RTD Overrange
21	Case RTD Overrange
22	Flow is in reverse direction
23	Temp. Slope Cal in Progress
24	Temp. Zero Cal in Progress
25	Density FD Cal in Progress
26	Density 2nd Point Cal in Progress
27	Density 1st Point Cal in Progress
28	Mech. Zero Cal in Progress
29	Core Processor Boot Sector Fault
30	Series 2000 software upgrade recommended
31	Freq. Output Fixed
32	Density 3rd Point Cal in Progress
33	Density 4th Point Cal in Progress
34	PV is
35	SV is
36	TV is
37	QV is
38	Off
39	On
40	Scaled AO trim
41	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.
42	Mass flo
43	.1f
44	.2f
45	.3f
46	.4f
47	.5f
48	The mass flow rate below which the frequency/pulse output indicates zero flow, and below which totalizers stop counting.
49	4.2f
50	%
51	Determines whether the Event is activated when it goes above (High) or below (Low) the setpoint.
52	7d
53	8.2f
54	The number of cycles, in Hertz, that equal a proportional flow rate represented by the frequency/pulse output.
55	The flow rate that equals a set frequency if the frequency output represents mass or volume flow; or the mass or volume total that equals a set number of pulses if the frequency output represents mass or volume total.
56	This parameter allows you to scale the frequency output in terms of the number of pulses per unit of flow.
57
58	Pulses/Unit
59	8.3f
60	This parameter allows you to scale the frequency output in terms of the number of units of flow required to generate one pulse.
61	Units/Pulse
62	8.6f
63	Unit
64	AO cutoff
65	Temp
66	SGU
67	Dens
68	.6f
69	Vol flo
70	The volume flow rate below which the frequency/pulse output indicates zero flow, and below which totalizers stop counting.
71	10.4f
72	PV
73	QV
74	Configuration information identifying the flange material used with the sensor. Informational purposes only - does not affect flowmeter operation.
75	Flange
76	Configuration information identifying any liner material used with the sensor. Informational purposes only - does not affect flowmeter operation.
77	Halar
78	Configuration information identifying the sensor model installed. Informational purposes only - does not affect flowmeter operation.
79	Configuration information identifying the material of which the sensor is constructed. Informational purposes only - does not affect flowmeter operation.
80	A standard engineering unit that serves as the mass component in a special unit.
81	Base mass unit
82	A standard unit of time (seconds, minutes, hours, or days) that serves as the time component in a special unit.
83	Base mass time
84	A programmable multiplier for the base mass unit in a special unit.
85	Mass flo conv factr
86	A 1 to 8 character description of a special unit of flow.
87	Mass flo text
88	A 1 to 8 character description of a special unit of mass, which is based on the special unit of flow to represent total.
89	Mass totl text
90	This paramater enables the user to determine whether the outputs and totalizers will indicate forward, reverse, bi-directional or absolute value flow.
91	Absolute Value
92	A programmable high limit on density, which enables the transmitter to indicate slug flow (extremes in fluid density caused by slugs of gas or accumulation of solids in a liquid flow stream) if fluid density goes outside programmed slug flow limits.
93	Slug high limit
94	5.4f
95	A programmable low limit on density, which enables the transmitter to indicate slug flow (extremes in fluid density caused by slugs of gas or accumulation of solids in a liquid flow stream) if fluid density goes outside programmed slug flow limits.
96	Slug low limit
97	A programmable time period, from 0.00 to 60.00 seconds, during which outputs representing flow hold their last measured value before indicating slug flow.
98	Slug duration
99	5.2f
100	A 10-character factor that describes the sensitivity of the sensor to mass flow. The first 6 characters are the flow rate, in grams/second, per microsecond of time shift between velocity signals from the sensor. The 2nd four characters are the flow temperature coefficient.
101	FlowCal
102	FCF
103	The mass or volume flow rate below which a milliamp output representing flow indicates zero flow.
104	PV AO cutoff
105	A standard engineering unit that serves as the volume component in a special unit.
106	Base vol unit
107	Base vol time
108	A programmable multiplier for the base volume unit in a special unit.
109	Vol flo conv factr
110	A 1 to 8 character description of a special unit of flow.
111	Vol flo text
112	A 1 to 8 character description of a special unit of volume, which is based on the special unit of flow to represent total.
113	Vol totl text
114	A value (in Hertz) that will be indicated on the frequency output for the purpose of a loop test.
115	Allows the user to Reset, Stop, or Start all totalizers. NOTE - Inventory totals are NOT reset.
116	This parameter allows you to scale the frequency output by using freq=flow, pulses/unit, or units/pulse. This parameter must be sent to the device before you make scaling changes.
117	FO Scale Method
118	Freq=Flow
119	This parameter represents the Density Temperature Gradient Coefficient (DTG) that is on the T-series sensor tag.
120	DTG
121	6.2f
122	This parameter represents the Density Frequency Coefficient #1 (DFQ1) that is on the T-series sensor tag.
123	DFQ1
124	This parameter represents the Density Frequency Coefficient #2 (DFQ2) that is on the T-series sensor tag.
125	DFQ2
126	This parameter represents the Flow Temperature Gradient Coefficient (FTG) that is on the T-series sensor tag.
127	FTG
128	This parameter represents the Flow Frequency Coefficient (FFQ) that is on the T-series sensor tag.
129	FFQ
130	The number of readings collected from the sensor during an Auto Zero operation.
131	Zero time
132	5d
133	A programmable time period, in seconds, that defines the crossover frequency for the frequency output, where Crossover freq. = 1 / (2 x Pulse width). Below the crossover, the output has a constant ON state, and an OFF state that varies with frequency.
134	Max pulse width
135	5.3f
136	A 14-character factor that describes the slope and offset of the linear output representing flow tube temperature.
137	Temp cal factr
138	A value, in microseconds, representing the phase shift between velocity signals from the sensor when measuring zero flow.
139	uSec
140	Units for zero offset - always microseconds.
141	Zero units
142	1d
143	A unitless value which characterizes the amount of deviation between readings during an Auto Zero operation.
144	Std dev
145	Output Type
146	This parameter defines the number of seconds for which all outputs will hold their last measured value prior to going to the configured fault state. The default is zero seconds.
147	Fault Timeout
148	2d
149	AO Fault Setup
150	FO Fault Setup
151	Dig. Comm Fault Setup
152	Downscale: Milliamp outputs that indicate flow go to the configured limit, the frequency output equals 0 Hz. Upscale: Milliamp and frequency outputs go to the configured limit. Internal zero: Flow outputs indicate zero flow.
153	AO Fault indicator
154	Upscale
155	Downscale
156	FO Fault indicator
157	This fault setting applies to Modbus on RS485. Downscale: Hold process variables at values that are less than the Lower Sensor Limits and stop totalizing. Upscale: Hold process variables at values that are greater than the Upper Sensor Limits and stop totalizing. Not-a-Number: Set all process variables to IEEE NaN. IntZero-All 0: Set all process variables to 0. IntZero-Flow 0: Set flow rate to 0. None: Process variables displayed as measured (NOTE: Use alternative method to detect fault conditions when NONE is selected)
158	Comm Fault ind.
159	IntZero-All 0
160	Not-a-Number
161	IntZero-Flow 0
162	This parameter allows you to select the lower or upper mA output level that will indicate a fault condition. The range is 1.0 to 3.6 mA for downscale or 21.0 to 24.0 for upscale.
163	mA Fault Value
164	This parameter allows you to select the upper frequency output level that will indicate a fault condition. The maximum value is 15000 Hz.
165	FO Fault Value
166	6.5f
167	User-entered temperature for the purpose of performing an on-line temperature calibration.
168	Ref temperature
169	The density, in g/cc, of the air or other low-density fluid used during a 2-point density calibration.
170	D1
171	The density, in g/cc, of the water or other high-density fluid used during a 2-point density calibration.
172	D2
173	The density, in g/cc, of the water or other high-density fluid that is used during a 4-point density calibration with Micro Motion T-series sensors. D3 can represent the D3 value for a Micro Motion T-series sensor.
174	D3
175	The density, in g/cc, of the water or other high-density fluid that is used during a 4-point density calibration with Micro Motion T-series sensors. D4 can represent the D4 value for a Micro Motion T-series sensor.
176	D4
177	The tube period, in microseconds, corresponding to a density equal to D1.
178	K1
179	The tube period, in microseconds, corresponding to a density equal to D2.
180	K2
181	The tube period, in microseconds, corresponding to a density equal to D3.
182	K3
183	The tube period, in microseconds, corresponding to a density equal to D4.
184	K4
185	The percent change in the elasticity of the flow tubes around the bending axis per 100 degrees Celsius.
186	Temp coeff
187	DT
188	Event 1
189	Event 2
190	Value
191	Event num
192	Event1 type
193	High Alarm
194	Low Alarm
195	Event2 type
196	A programmable value of a process variable at which an output set to represent event 1 or event 2 switches states.
197	Event1 setpoint
198	Event2 setpoint
199	Assigns a process variable to event 1 or event 2.
200	Event1 var
201	Event2 var
202	The frequency, in Hertz, presently being indicated on the frequency output.
203	Pres freq
204	6.1f
205	A value, between 0.8 and 1.2, that will act as a multiplier for the mass flow rate.
206	Mass factor
207	A value, between 0.8 and 1.2, that will act as a multiplier for the volume flow rate.
208	Vol factor
209	A value, between 0.8 and 1.2, that will act as a multiplier for the density.
210	Dens factor
211	The tube frequency of the sensor measured in Hertz.
212	Tube
213	The pickoff voltage of the sensor measured in Voltage.
214	V
215	LPO
216	RPO
217	The drive gain of the transmitter.
218	Drive
219	This flow value is not effected by the flow cutoff and is damped at 8 seconds. It is to be used for diagnostic purposes only and is not used in ANY flow calculations or totalization.
220	Live zero flow
221	The board temperature of the core processor.
222	Board Temperature
223	The case temperature of the T-Series sensor.
224	Case Temp: T-Series
225	A calibration constant generated during a flowing density calibration.
226	FD
227	7.2f
228	When this parameter is enabled, you can use the display to reset the totalizer.
229	Disp. Total Reset
230	Disabled
231	Enabled
232	When this parameter is enabled, you do not need to press the scroll button to scroll through the configured process variables.
233	Disp. Auto Scroll
234	This paramater allows you to set the rate at which the display will scroll from one process variable to the next. Display Auto Scroll must be enabled.
235	Disp. scroll rate
236	When this parameter is enabled, you can use the display to access the offline maintenance menu.
237	Disp. Offline Menu
238	When this parameter is enabled, you can use the display to acknowledge and view the specific alarm conditions that are present. When this parameter is disabled, all alarms will be automatically acknowledged without user intervention.
239	Disp. Alarm Menu
240	When this parameter is enabled, an option in the alarm menu allows you to acknowledge all of the alarms at once.
241	Disp. ACK All
242	When this parameter is enabled you must enter a password to gain access to the offline menu.
243	Disp. Offline Pswd
244	This parameter defines the password that you must enter to gain access to the offline menu. The valid range is 0 to 9999.
245	Offline Password
246	4d
247	This parameter allows you to select the process variables that will appear on the display. Up to 15 process variables can be configured to appear on the display. They can be accessed by using the scroll button.
248	Disp. Var #1 is
249	Tube Frequency
250	Drive Gain
251	Input Voltage
252	Disp. Var #2 is
253	Disp. Var #3 is
254	Disp. Var #4 is
255	Disp. Var #5 is
256	Disp. Var #6 is
257	Disp. Var #7 is
258	Disp. Var #8 is
259	Disp. Var #9 is
260	Disp. Var #10 is
261	Disp. Var #11 is
262	Disp. Var #12 is
263	Disp. Var #13 is
264	Disp. Var #14 is
265	Disp. Var #15 is
266	This parameter defines the protocol that will be used on the RS485 physical layer.
267	RS485 Protocol
268	HART
269	Modbus RTU
270	Modbus ASCII
271	This parameter defines the baud rate for the protocol that will be used on the RS485 physical layer.
272	RS485 Baudrate
273	1200
274	2400
275	4800
276	9600
277	19200
278	38400
279	This parameter defines the parity for the protocol that will be used on the RS485 physical layer.
280	RS485 Parity
281	Odd
282	Even
283	This parameter defines the number of stop bits for the protocol that will be used on the RS485 physical layer.
284	RS485 Stop Bits
285	This paramater indicates which type of sensor is being used for process measurement.
286	Sensor Type
287	Other
288	T-Series
289	This parameter represents the various types of output option boards that are available.
290	Output Opt. Brd.
291	Analog I/O
292	Fieldbus (H1)
293	Anlog 1 range vals
294	View fld dev vars
295	View output vars
296	Test/Status
297	Test Points
298	Freq scaling
299	Charize sensor
300	Config fld dev vars
301	Config outputs
302	Config events
303	Display Setup
304	View PV-Analog 1
305	View SV
306	View TV-Frequency
307	View QV
308	View event 1
309	View event 2
310	Auto zero
311	Density cal
312	FO Scaling
313	Flow
314	Density
315	Meter factors
316	Flow
317	Density
318	Temperature
319	Analog output 1
320	Frequency output
321	RS485 Setup
322	Event 1
323	Event 2
324	Enable/Disable
325	Dens Pt1 (Air)
326	Dens Pt2 (Water)
327	Dens Pt3 T-series
328	Dens Pt4 T-series
329	Flowing Dens (FD)
330	Spcl mass units
331	Spcl vol units
332	Device info
333	Fld dev vars
334	Outputs
335	Write variables
336	Sensor Selection
337	This selection must be made to enable calibration parameters to be visible for the selected sensor type.
338	Perform auto zero
339	Please refer to manual for complete calibration instructions.
340	Perform Cal
341	Please refer to manual for complete calibration instructions.
342	Fix frequency out
343	Outputs a user-programmed frequency to the frequency output.
344	Fix Analog Out 1
345	Trim Analog Out 1
346	Instructs transmitter to perform internal self test.
347	Start totalizer
348	Enables the internal totalizers to begin counting.
349	Stop totalizer
350	Prevents the internal totalizers from counting.
351	Reset all totals
352	Resets internal totalizers.
353	Reset mass total
354	Reset volume total
355	Status Event1
356	When set, indicates that Event 1 has reached its programmed setpoint.
357	Status Event2
358	When set, indicates that Event 2 has reached its programmed setpoint.
359	View status
360	Reports any currently active device status information.
361	Aborts Auto Zero operation and continues to use previous zero offset value.
362	Exits fixed mode and returns the frequency output to its active state.
363	Invalid sensor type code
364	Special units mass conversion number out of range
365	Frequency out of range
366	Flow rate factor out of range
367	Pulses/Unit out of range
368	Units/Pulse out of range
369	Special units volume conversion number out of range
370	Density high limit out of range
371	Density low limit out of range
372	Slug duration out of range
373	Density Temp. Gradient out-of-range
374	Density Frequency Constant 1 out-of-range
375	Density Frequency Constant 2 out-of-range
376	Flow Temperature Constant out-of-range
377	Flow Frequency Constant out-of-range
378	Maximum zeroing time out of range
379	Maximum pulse width out of range
380	Analog fault level out of range
381	Fault timeout out of range
382	Invalid Output Code
383	Density for calibration out of range
384	FD correction factor out of range
385	D3 out of range
386	D4 out of range
387	K3 out of range
388	K4 out of range
389	Low flow cutoff out of range
390	Invalid Cutoff Type Code
391	D1 out of range
392	D2 out of range
393	K1 out of range
394	K2 out of range
395	Temp correction factor out of range
396	Setpoint out of range
397	Mass rate flow factor out of range
398	Density factor out of range
399	Volume rate flow factor out of range
400	FMU860
401	DVC
402	FCX
403	AS800
404	340T
405	340C
406	344
407	Siemens Micro K
408	SITRANS L
409	SIPAN PH
410	SITRANS P
411	75SMT
412	UNIDELTA
413	8320
414	SX5100
415	TSV175
416	DMU
417	3780
418	BM70
419	8u
420	low
421	high
422	tmp_av
423	Sensor type:
424	T-Series;Other
425	Aborting due to field device error
426	WARN-Loop should be removed from automatic control
427	Flow must be zero Perform calibration?
428	A problem was detected
429	Abort;Fix and Retry
430	NOTE-Loop may be returned to automatic control
431	Calibration in Progress Zero: %{0} Std dev: %{1}
432	Auto Zero Failed
433	Auto Zero Complete Zero: %{0} Std dev: %{1}
434	Enter Density
435	Perform calibration?
436	Calibration in Progress...
437	Density Calibration Complete
438	NOTE: Flow rate must be greater than 50% of the nominal flow for the meter.
439	Offset Calibration Enter Temp in %{0}
440	Temperature Offset Calibration Complete
441	Slope Calibration Enter Temp in %{0}
442	Temperature Slope Calibration Complete
443	Choose frequency output level
444	10 kHz;Other;End
445	Output
446	Frequency output is fixed at %0 Hz
447	Choose analog output level
448	4 mA;20 mA;Other;End
449	Output value:
450	Analog Output 1 is fixed at %0
451	Connect reference meter
452	About to set analog output 1 to %0 mA
453	Enter meter value
454	Is fld dev 4.00 mA output equal to reference meter?
455	Yes;No
456	Is fld dev 20.00 mA output equal to reference meter?
457	Selftest complete
458	No Device Problems seen during Selftest
459	Ev1 Triggered: Yes
460	Ev1 Triggered: No
461	Ev2 Triggered: Yes
462	Ev2 Triggered: No
463	Transmitter status complete
464	Transmitter status OK
465	Returning fld dev to original output
466	NOTE-Send PV assignment before modifying range values.
467	NOTE-Send SV assignment before modifying range values.
468	NOTE-Send TV assignment before modifying frequency scaling.
469	NOTE-Variables which use this as the units code will be in the previous units until this value is sent to the device
470	NOTE-Send scaling method selection to the device prior to performing frequency output scaling.
Reference ID	String