Device dictionary

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Reference ID	String
0	Model
1	Model- References the type of field Device, usually an advertised mode number, that is unique to a single manufacturer.
2	HDLT
3	Manufacturer
4	Manufacturer Identification Code- References a specific manufacturer, which is usually a company name, that is responsible for the manufacture of this Field Device.
5	Masoneilan
6	Num resp preams
7	Number of Request Preambles- Number of Preambles required from the Host request by the Field Device.
8	Universal cmd rev
9	Universal Revision- Revision of the Universal Device Description, that the Field Device conforms to.
10	Transmit cmd rev
11	Field Device Revision- Revision of the Field Device Specific Device Description, that the Field Device conforms to.
12	Software rev
13	Field Device Software Revision- This revision corresponds to the software or firmware, that is embedded in the Field Device.
14	Hardware rev
15	Hardware Revision- Revision that corresponds to the electronics hardware of the Field Device.
16	Physicl signl code
17	Physical Signaling Code- The Physical Signaling Code describes the type of Physical Layer that has been implemented in the hardware that is responsible for the HART Communication port.
18	Device flags
19	Field Device Flags- Describes special features of the Field Device that affect the Data Link Layer.
20	Device id
21	Field Device Identification- Uniquely identifies the Field Device when combined with the Manufacturer Identification and Device Type. Therefore, this variable cannot be modified by the Host user.
22	Poll addr
23	Polling Address- Address used by the Host to identify a Field Device, and changeable by the User to control the Multidrop Mode.
24	Tag
25	Tag- Text that is associated with the Field Device installation. This text can be used by the user in any way. A recommended use is as a unique label to a plant that correlates to a Field Device label: a plant drawing, or on a Control System. This variable is also used as a type of data link layer address handle.
26	Message
27	Message- Text that is associated with the Field Device. This text can be used by the user in any way. There is no recommended use.
28	Descriptor
29	Descriptor- Text that is associated with the Field Device.This text can be used by the user in any way. There is no specific recommended use.
30	Date
31	Date- Gregorian calendar date that is stored in the Field Device. This date can be used by the user in any way. There is no specific recommended use. Enter MM/DD/YY
32	Final asmbly num
33	Final Assembly Number- Number that is used for identification purposes, and is associated with the overall Field Device.
34	Command number:
35	PV
36	Primary Variable: Level of liquide
37	% range - current
38	Percentage of range of the Primary Variable and Current output
39	Process Vars-current
40	All Dynamic Process Variables: Level of liquid, Temperature, Local Setpoint, and Current output.
41	Burst mode control:
42	.3f
43	.2f
44	Output current filtering. Value expressed in second and corresponding to T63% for a first order response step.
45	damping
46	s
47	.1f
48	4.1f
49	Value in engineering units for high level and corresponding to span calibration.
50	high level
51	6.1f
52	Value in engineering units for low level and corresponding to zero calibration.
53	low level
54	6.3f
55	Indicate the level of liquid in engineering unit.
56	level
57	Unit for level of liquid.
58	level unit
59	%
60	mm
61	cm
62	m
63	liter
64	m3
65	inch
66	feet
67	cu_inch
68	cu_feet
69	kg
70	gr
71	pound
72	Indicate the internal temperature inside the HDLT head.
73	head temperature
74
75	temp. unit
76	indicate the external temperature.
77	external temp.
78	ext temp unit
79	controller setpoint
80	Local SP
81	8.2f
82	Unit for the controller setpoint (SP) if the controller mode is selected.
83	SP unit
84	°C
85	°F
86	psi
87	bar
88	mbar
89	kPa
90	CF/min
91	Cubic Feet per minute
92	gal/min
93	l/min
94	m3/h
95	gal/s
96	l/s
97	CF/s
98	Cubic Feet per second
99	m3/s
100	SCF/min
101	standard Cubic Feet per minute
102	CF/h
103	Cubic Feet per hour
104	m3/min
105	gal/h
106	l/h
107	gal
108	l
109	bbl
110	CF
111	Cubic Feet
112	ft
113	in
114	min
115	h
116	day
117	gr/s
118	gr/min
119	gr/h
120	kg/s
121	kg/min
122	kg/h
123	kg/day
124	lb/s
125	lb/min
126	lb/h
127	lb/day
128	mV
129	V
130	mA
131	Ohm
132	Hz
133	Output signal and current loop in mA
134	current
135	Indicate the percentage of range of loop current , taking into account the corrections done for zero shift and reduce span.
136	perc.
137	7d
138	temp
139	analog
140	Hot key menu
141	Offline Config.
142	NORMAL MODE
143	MANUAL MODE
144	CONFIG MODE
145	CALIBRATE MODE
146	DIAGNOSTIC MODE
147	FAILSAFE MODE
148	To control in manual the controller output
149	manual output
150	INFO
151	Read all the status coming from communication or device errors.
152	read fault(s)
153	Clear all the status coming from communication or device errors
154	clear fault(s)
155	read identifier
156	level config
157	level calibration
158	diagnostic data
159	data base
160	controller config.
161	Limits how fast the output can change. It is expressed as the percent of full output range per second. Maximum value is 500.0%/s .
162	Controller output
163	controller PID
164	Burst Option- Selects the variable(s) that will be Bursted if Burst Mode is enabled. Choice of three commands for burst mode : -CMD 1 : read primary variable, -CMD 2 : read current and percentage, -CMD 3 : read current and four variables. Burst Mode Select- Selects the mode for the Burst Mode functionality. If Burst is enabled the Field Device will generate HART messages on the Link without individual requests from the Host.
165	burst mode
166	TO MANUAL MODE
167	MANUAL MODE MENU
168	MANUAL MODE -->
169	NORMAL MODE -->
170	CONFIG MENU
171
172	Change tag, descriptor, message etc...reported by the HDLT.
173	tag
174	Change transmitter configuration reported by the HDLT like mounting sense, current action, level or interface use, buttons level use.
175	setup
176	Level alarms definition and corresponding values in engineering unit. Failsafe validation and corresponding current loop. Time 1 value before to set alarms or time 2 to go to failsafe mode.
177	alarms
178	Set HDLT data base concerning chamber type,torque tube material, displacer size etc...
179	set data base
180	Access to controller functions.Change setpoint startup, units for setpoint (SP) , direct or reverse action, additional parameters.
181	ctrl parameters
182	CALIBRATE MENU
183	This sub menu allow the user to calibrate the transmitter and the specific gravity meter. Don' t forget to set the specific gravity(ies) of calibration.
184	calibration
185	This sub dialog allows to change the specific gravity(ies) of service , to change the and lower values for the current output signal.The values typically are 4 and 20 mA but may be any values between 3.8 and 20.5 mA.This dialog also allows to change the upper and lower values for the level of liquid with a choice of engineering units , the damping , the zero shift and / or the reduce span.
186	parameters
187	Coupling function between the electronic head and the torque tube. A good coupling correspond to display 0.0% .Values between +5% and - 5% are acceptable. See instruction manual for more information on the procedure. This menu also allows to re-calibrate the current output but MUST BE DONE ONLY IF ABSOLUTLY NECESSARY. Current supply is also implemented to set different current loop to test or to calibrate other loop devices.
188	tools
189	DIAGNOSTIC MENU
190	Read continuous diagnostic data: total of filling up, time tank empty, time tank full, time transmitter working.
191	Reset continuous diagnostic data: total of filling up, time tank empty, time tank full, time transmitter working. These variables are set to 0.The previous data are lost and must be recorded to be used later.
192	reset continuous
193	Sensor check procedure. This test must be run ONLY IF THE LIQUID LEVEL IS STABLE to avoid to go to failsafe mode.
194	sensor test
195	This sub menu allow to change manually or automatically the smart filtering variables to suppress noise or waves in the tank.
196	smart filtering
197	The specific gravity meter allow the user to read the liquid specific gravity. Be sure the displacer is fully immersed to avoid wrong measurement.
198	SG meter
199	Read all the device tempory faults which have been cleared by the software if not remained.
200	fault historic
201	CONTROLLER MENU
202	Display controller parameters like : setpoint (SP) , process variable (PV) and controller output(OUT-C) .
203	controller view
204	To set tuning PID coefficients for controller mode.
205	PID setting
206	To change the local controller setpoint.
207	setpoint
208	This function perform a master reset to the device, causing it to go through its startup routine and re-initializing all of its operating parameters from non volatile memory.
209	HDLT RESET
210	return to manual
211	special return to normal
212	device busy
213	wrong mode
214	command not implemented
215	HDLT mode can be normal,manual,calibrate, configuration,diagnostic or failsafe.
216	mode
217	1d
218	HDLT configuration information.
219	interface
220	OFF=level use ON=interface use
221	right
222	OFF=left mouting ON=right mounting
223	reverse acting
224	OFF=direct acting ON=reverse acting
225	controller
226	OFF=controller not actived ON=controller actived
227	define lock level for HDLT buttons to avoid unintended modifications.
228	buttons
229	Lock level
230	Define level use: OFF = no restriction. All menus available. ON = Use limited to INFO menu.
231	Status and limits for low/high level alarms and fail mode.
232	FAIL
233	Status for fail mode: OFF=not set / ON=set
234	LOW ALARM
235	Status for low level: OFF=not set / ON=set
236	HIGH ALARM
237	Status for high level: OFF=not set / ON=set
238	Status for low/high level and fail mode.
239	alarms values
240	Choice of different languages displayed on the HDLT LCD.
241	language
242	English
243	Possibility of different languages display on the HDLT LCD
244	French
245	The controller can process the setpoint and the process variable data every 0.2 s to 10.0 s. For a first order process, this value must be 10 times greater than the T63% (T63%= time for a first order step response ).
246	Controller rate
247	5.2f
248	When power is applied to the HDLT, this parameter determines the controller setpoint value.
249	Initial local SP
250	Current value for failsafe mode.This value must be between 3.6 mA and 23.0 mA.
251	fail current
252	Alarm threshold in the same engineering units as the level of liquid corresponding to the level value under which the transmitter set a low alarm or to go to failsafe mode regarding Time1 and Time 2
253	Low alarm level
254	Alarm threshold in the same engineering units as level of liquid corresponding to the level value above which the transmitter set a high alarm or to go to failsafe mode regarding Time1 and Time 2
255	High alarm level
256	Time before to set an alarm : this time must be >= -1 s and below 1000 s
257	time 1
258	.0d
259	Time before to go to failsafe mode : this time must be >= -1 s and below 1000 s.
260	time 2
261	Low output current for low level (direct acting) or low output current for high level (reverse acting). Must be between 3.8 mA and 14 mA.
262	low signal
263	High output current for high level (direct acting) or high output current for low level (reverse acting). Must be between 8 mA et 20.5 mA.
264	high signal
265	Value in percentage of calibration scale (zero/span) to shift the ZERO in an other position . The current output is automatically re-ajusted at this new ZERO position.
266	zero shift
267	Value in percentage of calibration scale (zero/span) to reduce the SPAN .The current output is automatically re-ajusted to take into account this new SPAN.
268	reduce span
269	Temperature in Celcius for the electronic head during the ZERO and SPAN calibration .
270	hall temp cal
271	val
272	Temperature in Celcius for the torque tube during the ZERO and SPAN calibration .
273	tube temp cal
274	Actual torque tube temperatue in Celcius.
275	tube temp
276	Specific gravity specified during the calibration procedure, and corresponding to the liquid specific gravity. This specific gravity is used only in LEVEL transmitter.
277	SG CAL
278	This specific gravity is normally the same as the specific gravity of calibration but need to be change if the liquid specific gravity of the process is not the same as which one used during the transmitter calibration . This specific gravity is used only in LEVEL transmitter.
279	SG SER
280	Specific gravity specified during the calibration procedure, and corresponding to the LOWER liquid specific gravity. This specific gravity is used only in INTERFACE transmitter.
281	SG Lower CAL
282	Specific gravity specified during the calibration procedure, and corresponding to the UPPER liquid specific gravity. This specific gravity is used only in INTERFACE transmitter.
283	SG upper CAL
284	This specific gravity is normally the same as the LOWER specific gravity of calibration but need to be change if the LOWER liquid specific gravity of the process is not the same as which one used during the transmitter calibration . This specific gravity is used only in INTERFACE transmitter.
285	SG Lower SER
286	This specific gravity is normally the same as the UPPER specific gravity of calibration but need to be change if the UPPER liquid specific gravity of the process is not the same as which one used during the transmitter calibration . This specific gravity is used only in INTERFACE transmitter.
287	SG upper SER
288	Unit for the displacer volume.
289	volume unit
290	CuIn
291	Cubic Inch
292	Value for the displacer volume.
293	displacer volume
294	.5f
295	Unit for the displacer weight.
296	weight unit
297	Value for the displacer weight.
298	displacer weight
299	Unit for the displacer height.
300	height unit
301	Value for the displacer height.
302	displacer height
303	Value for the displacer diameter.
304	displacer diameter
305	HDLT data base information.
306	chamber type
307	no chamber
308	12300
309	12301
310	12302
311	12303
312	12304
313	12305
314	12306
315	12307
316	12308
317	12309
318	torque tube
319	no torque tube
320	inconel/carbon
321	inconel/stainless
322	inconel/special
323	stainless/carbon
324	stainless/stainless
325	stainless/special
326	monel K500/carbon
327	monel K500/stainless
328	monel K500/special
329	special/carbon
330	special/stainless
331	special/special
332	force
333	not standard
334	1 force
335	2 force
336	4 force
337	arm lenght
338	arm 4 in
339	arm 8 in
340	arm 16 in
341	displacer options
342	with diplacer
343	stainless steel
344	extension rod
345	general options
346	extension HT/LT
347	intrinsic safety
348	flameproof
349	weatherproof
350	chamber options
351	special steel
352	carbon steel
353	drain
354	vent
355	Specific gravity of the liquid. Value available only if the specific gravity meter has been calibrated previously and if the displacer is fully immersed in the liquid.
356	Specific gravity of calibration for the specific gravity meter.
357	SGM SG CAL
358	B2Head
359	bFaultCode1Hist
360	Reports fugitive device faults
361	bFaultCode2His
362	bFaultCode3His
363	bFaultCode4His
364	Process setpoint value in its engineering unit that corresponds to the value for low level (low level).
365	Low SP value
366	Process setpoint value in its engineering unit that corresponds to the value for high level (high level).
367	High SP value
368	Proportional gain P is the ratio of proportional action of controller (output) to error.Value between 0 and 50.
369	P
370	Integal time or reset time, is the time constant of integral control.Value between 0 and 1000s.
371	I
372	Derivative time or rate time. Value between 0 and 5000 ms.
373	D
374	ms
375	4d
376	Derivative gain is a parameter of derivative control. Value between 0 and 100.
377	Kd
378	Beta is nonlinear gain factor, ranging from -9 to 9. When beta is 0, the controller gain is linear. Otherwise the gain is a function of error. The larger the beta, the smaller the gain for small error.
379	Beta
380	The setpoint is constrained to be between the low and high limits. Both local and remote setpoints are limited. The limits are entered in the same engineering units as the process variable.The low SP limit must be lower than high SP limit.
381	Low SP limit
382	The setpoint is constrained to be between the low and high limits. Both local and remote setpoints are limited. The limits are entered in the same engineering units as the process variable.The high SP limit must be upper than low SP limit.
383	High SP limit
384	Define the high alarm for the controller mode. Alarm are absolute or deviation. The alarm limits are entered in the same units as the process variable .
385	Low alarm limit
386	Define the high alarm for the controller mode. Alarm are absolute or deviation. The alarm limits are entered in the same units as the process variable .
387	High alarm limit
388	%/s
389	6.2f
390	Only applies to P or PD control. It is the process controller output at a typical operating steady state. If the controller outputs range from 30 to 50 % at normal operation, the manual reset bias should be set at 40% in order to minimize steady state error. Value between 0 and 100% .
391	Manu. reset bias
392	5.1f
393	Controller configuration: options.
394	Select
395	Error mode
396	Determines if derivative action (D) use a change in process variable (PV) or a change in error (setpoint - process variable). OFF=on PV ON=on error.
397	Deviation alarm
398	Determines if controller alarms use the process variable (absolute) or the error=setpoint - process variable (deviation). OFF=absolute ON=deviation
399	Direct acting
400	Controller acting selection : OFF=reverse ON=direct
401	Ratio control
402	Ratio control is used in case of different units between PV and L_SP. OFF=not actived ON=actived
403	When the difference between the setpoint and the process variable is less than the dead zone, the controller will take no action to change the output.Must be between 0 and 20%.
404	Dead zone
405	In ratio control, the setpoint and process variable may be in different engineering units or on different scales. The relationship between the setpoint in process variable units and the raw setpoint is given by: SP(in PV unit)=ratio gain * SP + ratio bias.
406	Ratio gain
407	In ratio control, the setpoint and process variable may be in different engineering units or on different scales. The relationship between the setpoint in process variable units and the raw setpoint is given by: SP(in PV)=ratio gain * SP + ratio bias.
408	Ratio bias
409	Local controller setpoint
410	local CTRL SP
411	current level
412	Total number of filling tanks.
413	nbr of filling up
414	tanks
415	Time in day for low level.
416	time tank empty
417	Day
418	Time in day for high level.
419	time tank full
420	Time in day for HDLT working.
421	time working
422	integration window in second.
423	I_window
424	8.1f
425	Dead Zone in % for window integration.
426	dead zone
427	.1d
428	8.1d
429	Window validation in seconde.
430	window validation
431	bFaultCode1
432	Reports Device Errors
433	bFaultCode2
434	Reports Device Errors
435	bFaultCode3
436	bFaultCode4
437	Reserved for future use
438	A/D value for level of liquid.
439	lLevelRaw
440	pts
441	level of liquid after advanced filtering function.
442	lLevelSmooth
443	A/D value for low level of liquid after calibration.
444	lLLevelCal
445	A/D value for high level of liquid after calibration.
446	lULevelCal
447	NO ALARM
448	ABSOLUTE: HIGH ALARM
449	ABSOLUTE: LOW ALARM
450	DEVIATION: HIGH ALARM
451	DEVIATION: LOW ALARM
452	CTRL IN AUTO MODE
453	CTRL IN MANUAL MODE
454	FMU860
455	DT
456	DVC
457	FCX
458	AS800
459	340T
460	340C
461	344
462	Siemens Micro K
463	SITRANS L
464	SIPAN PH
465	SITRANS P
466	75SMT
467	UNIDELTA
468	8320
469	SX5100
470	TSV175
471	DMU
472	3780
473	BM70
474	8u
475	controller output: in mA :
476	fCurrent
477	The current loop range is between 3.6 mA to 23.0 mA.
478	Procedure aborted TRY AGAIN.
479	NO FAULT
480	sensor disconnect
481	sensor fault
482	current sensor
483	voltage reference
484	sensor out of range
485	Eeprom write failed
486	data overrun
487	watchdog timeout
488	circuit temperature out of range
489	sensor temperature error
490	software error
491	no refresh data
492	PC low alarm set
493	PC high alarm set
494	displacer height error
495	mounting error:left / right
496	specific gravity out of range
497	interface displacer error
498	calibration failed
499	low alarm level set
500	high alarm level set
501	stack reset occurred
502	abort
503	factory error
504	reset occurred
505	PLEASE WAIT...
506	Clear Fault(s) NOT Completed
507	Clear Fault(s) Completed
508	Controller output = %{0}%/s
509	Command number:
510	Burst mode control
511	Going to MANUAL MODE do not refresh the current loop for some called functions !Are you sure you want to go to MANUAL ?
512	WAIT ...
513	RETURN TO NORMAL MODE ?
514	NO;YES
515	WAIT WORK IN PROGRESS
516	tag
517	descriptor
518	message
519	final assembly number
520	date
521	polling address
522	Record values ? Press: OK for YES ABORT for NO
523	Setup
524	Buttons:use level
525	Password
526	nPassword
527	This value must be between 1 to 255.
528	This number must be ODD.
529	Display language
530	Alarms
531	fail current
532	Time1
533	time1
534	Time2
535	time2
536	Time 2 must be greater than Time 1.
537	volume unit
538	weight unit
539	height unit
540	displacer diameter
541	general options
542	Controller mode not set.
543	Local SP unit
544	Ratio control is ON.
545	Ratio control: YES
546	no change;NO;YES
547	Ratio control: NO
548	Initial local SP in %{0} unit
549	spinit
550	Low SP value in %{0} unit
551	High SP value in %{0} unit
552	Set point Low Range must be less than Hight Range.
553	Low SP Limit in %{0} unit
554	High SP Limit in %{0} unit
555	Set point Low Limit must be less than Hight Limit.
556	Alarm: DEVIATION
557	no change;absolute;deviation
558	Alarm: ABSOLUTE
559	Low Alarm Limit
560	High Alarm Limit
561	Low Alarm Limit must be less than High Alarm Limit.
562	Controller action: direct
563	no change;direct;reverse
564	Controller action: reverse
565	Derivative source on: ERROR
566	no change;ERROR;PV
567	Derivative source on: PV
568	Controller rate
569	The nearest value allowed is: %{0}s
570	Output Rate Limit in %/s:
571	a
572	Maximum value allowed is: %[5.1f]{fK}%/s using controller rate : %{0}s
573	The nearest value allowed is: %[5.1f]{a}%/s
574	Dead zone
575	Manual Reset Bias :
576	Ratio Gain
577	Ratio Bias
578	WAIT ...
579	make your choice zero / span for :
580	TRANSMITTER;S.G. METER
581	make your choice :
582	SG CAL;ZERO;SPAN;OUT
583	LOW SG CAL
584	HIGH SG CAL
585	High SG must be greater than Low SG.
586	Fill the tank with Lower SG before to press OK
587	Empty the tank before to press OK
588	PROCEDURE CORRECTLY EXECUTED
589	Fill the tank with Upper SG before to press OK
590	Fill the tank before to press OK
591	ZERO;SPAN;RESET TO FACTORY;OUT
592	Empty the tank before to press OK
593	SG CAL
594	PROCEDURE ABORT. SG METER NOT FACTORY CALIBRATED.
595	make your choice:
596	CHG SG SER;SET VARIABLES
597	LOW SG SER
598	HIGH SG SER
599	Damping
600	Low current
601	High Current
602	Low and high signals must differ by at least 5mA.
603	Low Level
604	High Level
605	High Level must be greater than Low Level.
606	Units
607	Zero Shift
608	Reduce Span
609	make your choice
610	COUPLING;4-20mA CAL
611	coupling= %[.2f]{buff} %
612	make your choice:
613	SET CURRENT;4mA ADJ;20mA ADJ;OUT
614	Set current loop in mA:
615	Enter the value of the current loop:
616	nbr of filling up = %{0} tank time tank empty = %{1} day time tank full = %{2} day
617	time working = %{3} day internal temp = %{4} °C
618	After resetting , the current values will be lost. Press ABORT if you need these values.
619	RESET CONTINUOUS DATA CORRECTLY EXECUTED
620	WAIT SENSOR TEST IN PROGRESS
621	PROCEDURE STOPPED
622	TEST PASS
623	TEST FAIL
624	manual tune;auto tune
625	W INTG =%{0}s DZ INTG =%{fDB}% W VAL =%{fCount}s
626	W INTG (s)
627	DZ INTG (%)
628	fDB
629	The Dead Zone Integration range is between 0.01 % to 10.0 %.
630	W VAL (s)
631	fCount
632	The Window Validation range is between 0.1 s to 32.0 s.
633	WAIT AUTO TUNE IN PROGRESS
634	AUTO TUNE CORRECTLY EXECUTED
635	SPECIFIC GRAVITY METER NOT CALIBRATED
636	Be sure that the displacer is fully immersed.
637	SG =%{0}
638	no fault code
639	watchdog timeout
640	specific gravity meter error
641	RTD span error
642	RTD zero error
643	RTD error
644	%{6} %{5} PV =%{0} %{3} L-SP =%{1} %{4} =%[.1f]{t1} %{3} OUT-C =%{2} mA
645	%{6} %{5} PV =%{0} %{3} L-SP =%{1} %{4} OUT-C =%{2} mA
646	P =%{0} I =%{1}s D =%{2}ms Kd =%{3} Beta =%{4}
647	setpoint
648	A reset may cause the current loop to change ! Perform RESET ???
649	WAIT WORK IN PROGRESS
650	Reset on HDLT NOT correctly executed
651	Reset on HDLT correctly executed
652	fail current= %{2} mA
653	low alarm level= %{0} %{3}
654	high alarm level= %{1} %{3}
655	time 1 =%{time1}s time 2 =%{time2}s
Reference ID	String