Device dictionary

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Reference ID	String
0	Device type
1	EDP300 - HART 5
2	Device serial no
3	Device revision
4	Position Measurement Failure
5	Possible Cause : Faulty position sensor Suggestion Action : Replace position sensor
6	Valve blocked
7	Possible Cause : Too high friction Suggested Action : Valve needs repair
8	Positioning Timeout - Check Valve Maintenance
9	Possible Cause : High friction Suggested Action : Valve maintenance
10	Positioning unstable
11	Possible Cause : Pneumatic leakage Suggested Actions : Run leakage test
12	Position out of travel range
13	Possible Cause : Bended mounting bracket Suggested Action : Check mounting situation
14	Zero-Point displacement
15	Possible Cause : Damaged valve seat Suggested Action : Valve maintenance
16	kp up exceeded
17	Possible Cause : Friction high Suggested Action : Valve maintenance
18	kp Down exceeded
19	Setpoint Failure Electronics
20	Possible Cause : Faulty electronic Suggested Action : Replace electronic
21	Setpoint out of Range
22	Possible Cause : Faulty DCS-card Suggested Action : Replace DCS-card
23	Device not calibrated
24	Possible Cause : Factory settings loaded or New Device Suggested Action : Run Auto adjust
25	Controller inactive
26	Possible Cause : Manual operation mode / test function active Suggested Action : change operation mode / wait until test ends
27	Stroke counter limit exceeded
28	Possible Cause : Many control cycles Suggested Action : Valve maintenance
29	Travel counter limit exceeded
30	Possible Cause : Many control cycles or oscillating valve Suggested Action : Valve maintenance
31	Electronic Temperature Measurement Failure
32	Electronic temperature out of limits
33	Possible Cause : Temperature too high or too low Suggested Action : Check mounting situation
34	Configuration Data failure
35	Possible Cause : Interchanged outputs pipes Suggested Action : Check mounting situation
36	Electronics - NV chip defect
37	Non Volatile Data defect
38	Leakage during operation
39	Possible Cause : leakage in actuator, pipes, air connections or positioner Suggested Action : Start leakage test
40	Leakage chamber 1
41	Possible Cause : Leakage in chamber 1 of actuator or pneumatic line 1 Suggested Action : Check chamber 1 of actuator or pneumatic line 1
42	Leakage chamber 2
43	Possible Cause : Leakage in chamber 2 of actuator or pneumatic line 2 Suggested Action : Check chamber 2 of actuator or pneumatic line 2
44	Leakage in actuator
45	Possible Cause : Leakage inside the actuator Suggested Action : Check Actuator membrane
46	Pressure NV Data defect
47	Possible Cause : Faulty pressure option Suggested Action : Change pressure sensor board
48	Pressure NV chip defect
49	Overpressure from supply
50	Possible Cause : Too high supply pressure/nSuggested Action : Check supply pressure
51	Supply pressure limit low exceeded
52	Possible Cause : Too low supply pressure or plugged Filter Suggested Action : Check supply air or change Filter
53	Supply pressure limit high exceeded
54	Possible Cause : Too high supply pressure Suggested Action : Check supply pressure
55	Pressure hammer from supply
56	TV up exceeded
57	Possible Cause : Stiction high Suggested Action : Valve maintenance
58	TV down exceeded
59	Y-Offset Up exceeded
60	Y-Offset Down exceeded
61	Possible Cause : Friction high/nSuggested Action : Valve maintenance
62	Friction limit exceeded
63	Possible Cause : Too high valve friction/nSuggested Action : Valve maintenance
64	Stiction limit exceeded
65	Universal Input out of Range
66	Possible Cause : Wrong scaled universal input signal or faulty universal input device Suggested Action : Check parameterize of universal Input or universal input device
67	Partial Stroke failed
68	Possible Cause : Partial stroke test failed Suggested Action : Check Valve
69	Option Module defect
70	Possible Cause : Faulty option module Suggested Action : change option module
71	Universal Input Limit exceeded
72	Possible Cause : Universal Input Limit exceeded Suggested Action : Depends on application
73	Analog output simulation active
74	Possible Cause : Simulated feedback current Suggested Action : Deactivate Simulation
75	Binary output simulation active
76	Possible Cause : Simulated alarm current Suggested Action : Deactivate Simulation
77	Fail Safe Active - via Device Error
78	Fail Safe Active - via User
79	Possible Cause : Fail Safe Active by User Suggested Action :Deaktivate Safety position
80	Binary Input active
81	Possible Cause : Binary input activated by user Suggested Action : Deaktivate binary input
82	Switchpoint 1 exceeded
83	Possible Cause : Valve has passed Switchpoint 1 position Suggested Action : Depends on application
84	Switchpoint 2 exceeded
85	Possible Cause : Valve has passed Switchpoint 2 position Suggested Action : Depends on application
86	Analog output supply fault
87	Possible Cause : No analog output supply voltage Suggested Action : Check power supply
88	Pressure measurement defect
89	Possible Cause : Faulty option module Suggested Action : Change pressure sensor board
90	Simulation status
91	Off
92	On
93
94	Slot 0
95	Slot 1
96	Slot 2
97	Slot 3
98	Slot 4
99	Slot 5
100	Slot 6
101	Slot 11
102	Diagnosis
103	Monitoring
104	Device status
105	Status Byte 0
106	Status Byte 1
107	Status Byte 2
108	Status Byte 3
109	Status Byte 4
110	Status Byte 5
111	Sensor
112	Operation
113	Actuator
114	Electronics
115	Configuration
116	Process
117	Simulation
118	Diag Simulation On/Off
119	Simulate byte 0
120	Simulate byte 1
121	Simulate byte 2
122	Simulate byte 3
123	Simulate byte 4
124	Simulate byte 5
125	Configure byte 0
126	Configure byte 1
127	Configure byte 2
128	Configure byte 3
129	Configure byte 4
130	Configure byte 5
131	Settings
132	Positioning loop monitoring
133	Friction alarm detection
134	KP Up
135	KP Down
136	Y Offset Up
137	Y Offset Down
138	Stiction alarm detection
139	TV Up
140	TV Down
141	Zero point displacment
142	General settings
143	NE107 configuration
144	Operation 1
145	Operation 2
146	Actuator group 1
147	Actuator group 2
148	Alarm mask
149	Alarm mapping
150	Analog feedback
151	Digital feedback
152	Simulation on/off
153	Simulation on
154	Simulation off
155	Edit
156	Simulate
157	Mask
158	Lock Device
159	Unlock Device
160	Digital Input Configuration
161	This method is intended to change the setting of Digital Input and Digital SP (When, Digital Input = Hold user configurable setpoint)
162	Setpoint Configuration
163	This Method is intended to configure Setpoint
164	Set input range
165	This is intended to set UAI scaling
166	Set damping ramp
167	This is intended to set UAI damping
168	Set input characteristic
169	This is intended to set UAI characteristics
170	Set Eng unit
171	This is intended to set UAI engineering unit
172	Set output scaling
173	This is intended to set UAI Out Scale
174	Config Analog FB Signal
175	This is intended to set Analog feedback signal
176	Config SW 1
177	This is intended to set SW 1 configuration
178	Config SW 2
179	This is intended to set SW 2 configuration
180	Set alarm O/P behaviour
181	This is intended to set Alarm output response
182	Set control parameters
183	This is intended to set KP range
184	Set Maintenance counters limit
185	This is intended to set maintenance counters limit
186	Config End Position 0%
187	This is intended to set shut-off valve position
188	Config End Position 100%
189	Config Basic setting
190	This is intended to set the basic setting
191	Set Valve range
192	Set Working range
193	This is intended to set the working range
194	Start simulation
195	This is intended to simulate Universal input current
196	Stop simulation
197	This is intended to stop performing analog feedback simulation
198	Simulate SW 1
199	This is intended to perform Switch point simulation
200	Simulate SW 2
201	This is intended to perform Alarm via analog feedback simulation
202	This is intended to perform Alarm simulation
203	Set target mode
204	Load curve from device
205	Save curve to device
206	Create a new curve and save it to device
207	Calibrate supply pressure
208	Calibrate Y1 pressure
209	Calibrate the pressure sensor in output Y1 to 0, the air in Y1 has to be ventilated before
210	Calibrate Y2 pressure
211	Calibrate the pressure sensor in output Y2 to 0, the air in Y2 has to be ventilated before
212	Adjust all sensors
213	Calibrate all sensor to 0, the supply pressure must be switched off and all air must have been exhausted from the pneumatic actuator
214	Ventilate Y1 pressure
215	Exhaust the actuatur via output Y1
216	Ventilate Y2 pressure
217	Exhaust the actuatur via output Y2
218	Finish calibration
219	Start auto adjust
220	Set auto adjust mode
221	This method is intended to perform Auto Adjust
222	Stop auto adjust
223	Easy setup
224	This method is intended to perform Easy setup
225	Reset Travel counter
226	Reset the travel counter to 0
227	Reset Movement counter
228	Reset the movement counter to 0
229	Factory Setting
230	This method will restore value of all parameters with factory default
231	Set limits
232	Set Limit
233	Set valve mounting date
234	Set Host Time
235	Reset diagnosis status
236	This method will reset all Diagnosis History
237	Reset Alarm History
238	This method will reset all Alarm History
239	Config RB Charecter
240	Write protection
241	Set Position timeout time
242	Switch HART Protocol Rev
243	This method will switch the Device from HART 5 to HART 7 and vice versa
244	Set FB Character
245	Set control mode
246	This is intended to set current controller operating mode
247	Set KP UP Limits
248	This is intended to set KP UP Limits
249	Set KP Down Limits
250	This is intended to set KP Down Limits
251	Set Offset Up Limits
252	This is intended to set Offset Up Limits
253	Set Offset Down Limits
254	This is intended to set Offset Down Limits
255	Set TV Up Limits
256	This is intended to set TV Up Limits
257	Set TV Down Limits
258	This is intended to set TV Down Limits
259	Set Zero Point Deviation
260	This is intended to set Zero Point Deviation Value
261	Set Time Latch
262	This is intended to set time latch for alarms
263	Save to archive
264	This method will save control parameter data in device
265	Load from archive
266	This method will upload archived control parameter data
267	Configuration Flag Reset
268	Commands reset the configuration flag.
269	Set KP Up (Ref)
270	Set KP Down (Ref)
271	Set Y Offset Up (Ref)
272	Set Y Offset Down (Ref)
273	Set TV Up (Ref)
274	Set TV Down (Ref)
275	Set parameters
276	Check/Uncheck UAI
277	Activate/Deactivate Y2
278	Position
279	%
280	Setpoint (%)
281	Setpoint
282	Setpoint (mA)
283	mA
284	Deviation
285	Temperature
286	Supply pressure
287	Pressure O/P 1
288	Pressure O/P 2
289	Differential Pressure
290	Differential Pressue
291	Universal input
292	Universal Output
293	Travel counter
294	Movement counter
295	Chart 1
296	Chart 2
297	Chart 3
298	User curve (UAI)
299	User curve (SP)
300	Setpoint [%]
301	Position [%]
302	Setpoint [mA]
303	Pressure Y1
304	Pressure Y2
305	Supply Pressure
306	Universal output
307	Friction stiction trend
308	Friction
309	Stiction
310	Position 0
311	Position 1
312	Position 2
313	EDP300 HART
314	Trend diagram
315	X Axis [Position]
316	Endless
317	Days
318	Hours
319	Trend histogram positioning timeout
320	Trend valve movement
321	Trend mainused valve
322	Trend valve cycle
323	Trend universal input
324	Trend friction
325	Trend stiction
326	Start test
327	When the valve signature starts, the entire valve operating range is covered for the open and closed directions. High-resolution plots are generated for the pressure patterns at the diagnostic pressure sensors. In addition, the signal waveform for the universal input is recorded. Once the signature has expired, the parameters selected by the user are loaded from the device and displayed. Depending on the quantity of data selected, it may take several minutes to transfer all the parameter values.
328	Stop test
329	Get trend
330	Valve signature trend
331	Universal AI
332	bar
333	Pressure supply
334	Set Steps
335	When the Speed in relation to position function is started,the entire valve operating range is covered for the valve's open and close directions at maximum speed. The positioning times for opening and closing the valves are displayed.
336	Value buffer 0
337	A buffer of 39 * 2/3 = 26 values in Q7_4, used for loading
338	Buffer slot
339	Slot selecting which of the buffer are indexed by ValueBuffer
340	X_BUFFER
341	Y1_BUFFER
342	Y2_BUFFER
343	Y3_BUFFER
344	Y4_BUFFER
345	Y5_BUFFER
346	Y6_BUFFER
347	Buffer index
348	Index selecting which 26 samples are selected in the valueBuffer, i.e.ValueBuffer represents all Values from [Index26 .. (Index+1)26]
349	Buffer num values
350	Number of samples in the value Buffer
351	Speed over position trend
352	Speed
353	%/sec
354	XY Trend
355	Step response trend
356	X axis max
357	Time
358	msec
359	During the valve fitting test, the actuator is moved in the direction of the 0% position with maximum force. If the user-defined tolerance window for the 0% position or the universal input signal is exceeded, this will be shown as an error. This error may be indicative of deposits or extreme wear on the valve fitting.If an ultrasonic sensor is usedat the universal input for the purpose of measuring noise at the valve fitting, even minor leakage at the valve fitting can be detected.At the end of the test, the positioner moves the valve to the last valid position and then reverts to the most recently active control mode.
360	During the leakage test, the positioner closes all pneumatic outputs. Then, if the valve position changes or there is a change in the pressure patterns at the diagnostic pressure sensors, the positioner will be able to detect leakage. In such an event, it will output a message indicating the area of the pneumatic piping or actuator that is leaking.At the end of the test, the positioner moves the valve to the last valid position and then reverts to the most recently active control mode.
361	Start test (Now)
362	Last test
363	Set test interval
364	Set vent amount
365	Start test (Interval)
366	Reset
367	Config time window
368	Reset hours
369	Reset days
370	Reset endless
371	Device setup
372	Parameterize
373	Process values
374	Universal Input
375	Alarm output
376	Extra
377	Resets
378	Special function
379	Identify
380	Additional device revision
381	Measurement Point
382	Positioner
383	Easy set-up
384	Auto adjust
385	Input
386	Setpoint range
387	Digital input
388	Universal input scaling
389	Input range
390	Damping
391	Characteristic curve
392	Engineering unit
393	Output scaling
394	User curve
395	X/Y values
396	Y values
397	Feedback
398	Switch 1
399	Switch 2
400	Control parameter
401	Control mode
402	Maintenance counter
403	Valve parameter
404	End position behaviour 0%
405	End position behaviour 100%
406	Device set-up
407	Basic setting
408	Valve range
409	Working range
410	General
411	Observe values
412	Trend values
413	Bar graphs
414	Chart values
415	Pressure values
416	Others
417	Bar graph (Processes)
418	Bar graph (Pressure)
419	Bar graph (Others)
420	Operation mode
421	Adjust set values
422	Ranges
423	Setpoint & Position
424	Calibration
425	Measured values
426	Calibrate to atmosphere
427	Valve signature test
428	Test
429	Graph
430	Speed over position test
431	Step response test
432	Valve seat test
433	Acceptable tolerance
434	Acceptable UAI tolerance
435	Leakage test
436	Partial stroke test
437	Partial stroke test
438	Test interval
439	Vent amount
440	Positioning timeout
441	Drag Indicators
442	Control deviation
443	Difference pressure
444	Average control deviation
445	Trend
446	Trend histogram
447	Positioning timeouts
448	EndLess
449	Valve movements
450	Main used valve position
451	Valve cycles
452	Friction stiction setting
453	Pressure output Y2
454	Friction limits
455	Stiction limits
456	Pressure sensor limits
457	Data and counters
458	Load counters
459	Movement counters
460	Power down cycles
461	Data
462	Production date
463	Valve mounting date
464	Host date
465	Offline
466	Parameterization
467	Digital Input DI
468	Analog Feedback
469	Control Parameter
470	Maintanance counter
471	Download to device
472	Upload from device
473	Type of device
474	Device ID
475	0x1a8d
476	Positioner dev famly
477	Device variable clssification
478	unit of position value
479	Position Unit
480	Setpoint value
481	Input value of setpoint in %
482	.2f
483	Setpoint status
484	SP LS
485	SP Fmly stat
486	Sensor Serial Number
487	1u
488	s
489	Valve setpoint
490	Setpoint [W]
491	Output value of setpoint in [%]
492	6.2f
493	Valve position in [%] (operating range) in external direction
494	Position status
495	Position sensor serial no
496	Pressure Y1 status
497	Pressure Range Hi
498	Pressure Range Lo
499	Pressure Y2 status
500	Differential pressure
501	Differential pressure status
502	Current value in engineering unit [%], 4mA = 0%, 20mA = 100%, not limited to 0% and 100%
503	Unit [%]
504	Engineering unit of percentValue [%]
505	Current status
506	Setpoint value in mA
507	.1f
508	Unit of current
509	Engineering unit of current
510	Valve Setpoint
511	Setpoint Out
512	Setpoint BK Out
513	DP Pressure
514	Setpoint In
515	Position [External]
516	Preassure Z set to zero
517	Preassure Y1 set to zero
518	Preassure Y2 set to zero
519	Reset Offline diagnosis
520	Reset offline diagnosis state
521	Reset histogram selection
522	POSITION_HOURS
523	POSITION_DAYS
524	POSITION_ENDLESS
525	UNIVERSAL_AI_HOURS
526	UNIVERSAL_AI_DAYS
527	UNIVERSAL_AI_ENDLESS
528	VALVE_CYC_POSITION_HOURS
529	VALVE_CYC_POSITION_DAYS
530	VALVE_CYC_POSITION_ENDLESS
531	VALVE_MOVEMENTS_POSITION_HOURS
532	VALVE_MOVEMENTS_POSITION_DAYS
533	VALVE_MOVEMENTS_POSITION_ENDLESS
534	POSITION_TIMEOUT_POSITION_HOURS
535	POSITION_TIMEOUT_POSITION_DAYS
536	POSITION_TIMEOUT_POSITION_ENDLESS
537	Stiction cntr pos hrs
538	Stiction cntr pos Days
539	Stiction cntr pos EL
540	Friction cntr pos hrs
541	Friction cntr pos Days
542	Friction cntr pos EL
543	Reset all Histogram
544	No Histogram reset
545	Reset data diagram selection
546	CONTROL_DEVIATION_HOURS
547	CONTROL_DEVIATION_DAYS
548	CONTROL_DEVIATION_ENDLESS
549	RESET_ALL_DIAGRAM
550	NO_DIAGRAM_RESET
551	Reset trend selection
552	TEMPERATURE_MAX_HOURS
553	TEMPERATURE_MAX_DAYS
554	TEMPERATURE_MAX_ENDLESS
555	Z_PRESSURE_MAX_HOURS
556	Z_PRESSURE_MAX_DAYS
557	Z_PRESSURE_MAX_ENDLESS
558	UNIVERSAL_AI_MAX_DAYS
559	UNIVERSAL_AI_MAX_ENDLESS
560	CONTROL_DEVIATION_MAX_HOURS
561	CONTROL_DEVIATION_MAX_DAYS
562	CONTROL_DEVIATION_MAX_ENDLESS
563	DIFFERENTIAL_PRESS_HOURS
564	DIFFERENTIAL_PRESS_DAYS
565	DIFFERENTIAL_PRESS_ENDLESS
566	RESET_ALL_TRENDS
567	NO_TREND_RESET
568	Min
569	Max
570	Average
571	Limit 0
572	4.1f
573	Limit 1
574	Limit 2
575	Limit 3
576	Limit 4
577	Limit 5
578	Limit 6
579	Limit 7
580	Limit 8
581	Limit 9
582	Limit 10
583	Limit 11
584	< 0 % [HRS]
585	0 - 10 % [HRS]
586	10 - 20 % [HRS]
587	20 - 30 % [HRS]
588	30 - 40 % [HRS]
589	40 - 50 % [HRS]
590	50 - 60 % [HRS]
591	60 - 70 % [HRS]
592	70 - 80 % [HRS]
593	80 - 90 % [HRS]
594	90 - 100 % [HRS]
595	> 100 % [HRS]
596	< 0 % [DAYS]
597	0 - 10 % [DAYS]
598	10 - 20 % [DAYS]
599	20 - 30 % [DAYS]
600	30 - 40 % [DAYS]
601	40 - 50 % [DAYS]
602	50 - 60 % [DAYS]
603	60 - 70 % [DAYS]
604	70 - 80 % [DAYS]
605	80 - 90 % [DAYS]
606	90 - 100 % [DAYS]
607	> 100 % [DAYS]
608	< 0 % [EL]
609	0 - 10 % [EL]
610	10 - 20 % [EL]
611	20 - 30 % [EL]
612	30 - 40 % [EL]
613	40 - 50 % [EL]
614	50 - 60 % [EL]
615	60 - 70 % [EL]
616	70 - 80 % [EL]
617	80 - 90 % [EL]
618	90 - 100 % [EL]
619	> 100 % [EL]
620	0 -10 % [HRS]
621	> 100 % [EL]
622	< 0 % [[DAYS]]
623	< 0 % [[EL]]
624	Clear alarm history
625	Coordinator reset to default
626	Clear alarm event fifo buffer
627	Reset alarm details
628	reset ScaledOut Extremum
629	clear Device Status
630	Position measurement Failure
631	None
632	Check function
633	Off specification
634	Maintenance
635	Failure
636	Positioning timeout - Check valve maintenance
637	Setpoint failure electronics
638	Setpoint out of range
639	Electronic temperature measurement failure
640	Configuration data failure
641	Non volatile data defect
642	Leakage in actuator
643	tv up exceeded
644	tv down exceeded
645	Universal input out of range
646	Partial stroke failed
647	Option module defect
648	Universal input limit exceeded
649	Fail safe active - via device error
650	Fail safe active - via user
651	Binary input active
652	forces the actual mode to go in one of the service modes
653	Coordinator service mode
654	Service mode off
655	Service setpoint
656	Directly set diameter
657	Used forced pwr loss mode
658	The setpoint range is the input current range as a percentage of the operating rangefor the valves and fittings (from 0 ... 100 %)Use this 0 parameter to specify the lower limitof the setpoint range. You can enter a value within the admissible value range of 4 ... 18.4 mA, with one decimal.
659	Setpoint range min
660	The setpoint range is the input current range as a percentage of the operating rangefor the valves and fittings (from 0 ... 100 %).Use this parameter to specify the upper limit of the setpoint range.You can enter a value within the admissible value range of 5.6 ... 20 mA, with one decimal.
661	Setpoint range max
662	Setpoint damping ramp up
663	Here the stroke time for the actuator can be increased.A setpoint change is not directly transferred to the positioner butrather the speed is reduced accordingly. The set value should alwaysbe greater than the shortest stroke time determined during Autoadjust.
664	5.1f
665	sec
666	Here the stroke time for the actuator can be increased.A setpoint change is not directly transferred to the positionerbut rather the speed is reduced accordingly. The set value should alwaysbe greater than the shortest stroke time determined during Autoadjust.
667	Setpoint damping ramp down
668	Use this parameter to set a damping value for the setpoint signal.
669	Setpoint filter
670	Software Revision
671	Software revision
672	String with software date
673	Software date
674	hardware revision
675	hardware Revision
676	Hardware revision
677	Set Diameter
678	Pneumatic type
679	IP-Type There is no influence to the output if the IP is single ordoubleacting. for Failesafe the current-range is 0 to 1500?A, 0?A is fullyopened to exhaust, 750?A is closed and 1500?A is fully opened to ventilate.For Fail-freeze the current-range is +-750?A. -750?A fully opened toexhaust, 750?A is fully opened to ventilate and 0 is closed.
680	Single acting, fail safe
681	Single acting,fail freeze
682	Double acting,fail safe
683	Double acting,fail freeze
684	Pneumatic type Device options
685	Device options
686	Analog feedback module
687	Digital feedback module
688	Pressure Sensors
689	Universal input module
690	HART Communication
691	Remote position sensor
692	Contactless position sensor
693	Shutdown Module
694	Sensor type
695	Slider potentiometer
696	MR Feldplatte
697	external sensor (option)
698	The KP value is the gain of the controller. The control speed and stability are influenced by the KP value. With higher KP values, the control speed increases.To compensate for existing dissymmetries in the controlled system, the KP value should be set separately for both directions (up/down). For most actuators, a satisfactory control response is achieved with a KP value between 2.0 and 10.0.Use this parameter to adjust the KP value for the positioning direction up (towards 100 %).
699	The KP value is the gain of the controller. The control speed and stability are influenced by the KP value. With higher KP values, the control speed increases.To compensate for existing dissymmetries in the controlled system, the KP value should be set separately for both directions (up/down). For most actuators, a satisfactory control response is achieved with a KP value between 2.0 and 10.0.Use this parameter to adjust the KP value for the positioning direction down (towards 0 %).
700	The TV value is the derivative time of the controller.Control speed and stability are affected by the TV value in terms of how this dynamically counteracts the KP value. The control speed decreases as the TV value increases.To compensate for existing dissymmetries in the controlled system, the TV value should be set separately for both directions (up/down).Use this parameter to adjust the TV value for the positioning direction up (towards 100 %).
701	Dead band
702	The dead band defines a +/- range around the position setpoint. Once the valves and fittings reach this range, the positioner maintains this position.
703	The offset for the output signal linearizes the behavior of the I/P module used and enables rapid compensation even in the case of small control deviations. The value is limited at the low end by a minimum value (neutral zone).The offset substantially affects the controlling speed for control deviations smaller than 5 %.To compensate for existing dissymmetries in the controlled system, the offset should be set separately for both directions (up/down).For most actuators, a satisfactory control response is achieved with offset values between 40 and 80 %. If, in the event of setpoint changes, the control response demonstrates an overshoot of less than 2 %, both offset values should be decreased.Both offset values should be increased when the actuator stops outside the tolerance band.Use this parameter to adjust the Y offset for the positioning direction down (towards 0 %)
704	The offset for the output signal linearizes the behavior of the I/P module used and enables rapid compensation even in the case of small control deviations. The value is limited at the low end by a minimum value (neutral zone).The offset substantially affects the controlling speed for control deviations smaller than 5 %.To compensate for existing dissymmetries in the controlled system, the offset should be set separately for both directions (up/down).For most actuators, a satisfactory control response is achieved with offset values between 40 and 80 %. If, in the event of setpoint changes, the control response demonstrates an overshoot of less than 2 %, both offset values should be decreased.Both offset values should be increased when the actuator stops outside the tolerance band.Use this parameter to adjust the Y offset for the positioning direction up (towards 100 %).
705	Zone
706	This parameter specifies the point at which the control structure is switched over when the dead band is being approached.
707	Dead band approach
708	This parameter specifies the speed at which the dead band is approached.In rare cases, overshooting can occur when the valve position is being compensated. This can be prevented by reducing the speed of the dead-band approach.
709	Fast
710	Medium
711	Slow
712	This parameter specifies the controller's current operating mode
713	Fixed
714	Adaptive
715	forces the actual mode to go in out of service
716	User mode
717	User mode off
718	Manual adjust
719	target mode of the device
720	Target mode
721	Out of Service
722	controller is out of service
723	Control Mode
724	position follows setpoint
725	Manual Setpoint Remote
726	position follows hart setpoint
727	Manual Local Adjust
728	direct drive via hmi
729	Manual Local Setpoint
730	position follows hmi setpoint
731	actual mode of the device
732	Actual mode
733	Access channel
734	Access permission for different communication subsystems
735	Access unlocked
736	HART
737	Access HART
738	Local/HMI
739	Access HMI
740	Service
741	Access service
742	Lock function DI
743	Return lock function of binary input (if any)
744	No Function
745	Binary in starts no function
746	Disable local configuration
747	configuration could not be changed via HMI
748	Disable local panel
749	HMI is completly locked
750	Disable any access
751	HMI and HART are locked
752	Control at 100%
753	Behaviour for ventilate position
754	Control at 0%
755	Behaviour for exhaust limit position
756	Movement counter limit
757	You can use the movement counter function to measure the positioner's movements. Any movement that exceeds the defined hysteresis will be counted.Limit values in the range 0 ... 200,000,000 can be configured for the movement counter. Once the counter reaches its limit value, a message can be output.
758	Total travel counter limit
759	You can use the travel counter function to measure how far the positioner travels. The counter adds up the distance travelled as a % of the set operating range.Limit values in the range 0 ... 200,000,000 can be configured for the counter. Once the travel counter reaches the limit value, a message can be output.
760	Min movement Value
761	Here, you can define the range that you want the counter to interpret as a movement. You can configure the hysteresis within the range of 1...100%.The factory setting for the hysteresis is 1.0%.
762	Min travel value
763	counter for valve cycles
764	Valve travel counter
765	Power down counter
766	Access rights management hart requests access
767	Passive
768	Active
769	Tight shut [End Position 0%]
770	The shut-off value 0% is a percentage of the operating range (with one decimal place) from which 0% position is driven to. Once the specified position limit value is reached, the actuator moves into the 0% end position. As a result, the valve is moved in control mode into the 0% end position through full evacuation or ventilation. In the 0% end position, it continues to be adjusted to the position setpoint.
771	Tight shut [End Position 100%]
772	The shut-off value 100% is a percentage of the operating range (with one decimal place) from which the 100% position is driven to Once the specified position limit value is reached, the actuator moves into the 100% mechanical end position. Input value: 80.0 ... 99.9 Factory setting: OFF In the 100% end position, it continues to be adjusted to the position setpoint. When a value is entered, the valve is moved into the mechanical 100% end position in control mode as a result of full evacuation or ventilation. Settings for Autoadjust: Rotary actuators = 99 When the limit value is reached, the actuator is fully ventilated. Linear actuators = 100 Controlling continues in the 100% position.
773	Dead angle [End Position 100%]
774	With this parameter you can cut off the unusable range of the valve flow flow action during positioning. The dead angle is a percentage of the operating range to which the valve is moved if the input signal is 19.84 mA.
775	Dead angle [End Position 0%]
776	With this parameter you can cut off the unusable range of the valve flow action during positioning. The dead angle is a percentage of the operating range to which the valve is moved if the input signal is 4.16 mA.
777	Vent position
778	End position when the chamber at pneumatic output 1 is fully exhausted. 0% or 100%
779	Position 0%
780	Position 100%
781	Actuator type
782	With this parameter, you can configure the EDP300 PositionMaster positioner for operation on a linear actuator or on a rotary Actuator. No mechanical changes on the positioner are required
783	Linear
784	Rotary
785	Setpoint direction
786	The parameter describes the relation between analog setpoint and pneumatic output OUT1. Rising: Setpoint 0 … 100 % -> Output 0 … 100 % Decreasing: Setpoint 0 … 100 % -> Output 100 … 0 % Selection: DIRECT Rising Setpoint signal 4 … 20 mA = Position 0 … 100 % REVERSE Decreasing Setpoint signal 20 … 4 mA = Position 0 … 100 % Factory setting: DIRECT
787	Direct
788	Reverse
789	Sensor range
790	Defines the lever range
791	Working lower range
792	The operating range can be configured to be smaller than the maximum mechanical operating range. The setpoint range always refers to the configured operating range. Use this parameter to determine the lower limit of the operating range.
793	Working upper range
794	The operating range can be configured to be smaller than the maximum mechanical operating range. The setpoint range always refers to the configured operating range. Use this parameter to determine the upper limit of the operating range.
795	Setpoint characteristic curve
796	This parameter enables you to select a function that adjusts the behavior of the positioner to the analog input signal in accordance with a predefined characteristic. This linearizes the action of the valves and fittings and improves the response of the overall control loop.Besides five predefined curves you can also select a user-configurable curve, which can be defined via a PC with the appropriate configuration software and saved in the device.
797	Equal percentage 1:25
798	Equal percentage 1:50
799	Equal percentage 25:1
800	Equal percentage 50:1
801	User configurable
802	Dispaly value
803	Value to be displayed in HMI
804	Position %
805	Position °
806	Setpoint %
807	Setpoint mA
808	Deviation %
809	Electronic Temperature
810	Pressure Output 1
811	Pressure Output 2
812	Engineering unit of electronic temperature
813	Engineering unit (Temperature)
814	Pressure unit
815	Unit of pressure
816	psi
817	kPA
818	MPA
819	Auto adjust mode
820	Configurable scope of auto adjustment
821	Full
822	Controller
823	Zero
824	Locked
825	Auto adjust status
826	State of auto adjustment procedure
827	Ready
828	Terminated
829	Running
830	Exhaust
831	Ventilate
832	Positioning time prepare
833	Positioning time dn
834	Positioning time up
835	I/P Converter prepare
836	I/P Converter prepare2
837	I/P Converter
838	Finished
839	Error Adjust error
840	Error Unexpected Error not specified
841	Error Position sensor is defect during auto adjust
842	Error Span too small
843	Error Out of range
844	Error Timeout
845	Error No movement, Valve doesn't move
846	Error I/P converter adjustment
847	Error CTRL parameter, invalid ctrl parameters
848	Error Locked
849	Error I/P converter is in fail safe mode during auto adjust
850	Progress
851	Progress of auto adjustment procedure
852	3.2f
853	Lower Universal AI input Scaling
854	Upper Universal AI input Scaling
855	Lower Universal AI output Scaling
856	5.2f
857	Upper Universal AI output Scaling
858	Damping ramp
859	Universal AI filter time constant
860	Input characteristic
861	Characteristic selected
862	User configurable curve
863	True current (Input)
864	Universal AI universal AI input Current
865	Calculated value (Output)
866	Universal AI universal AI output Value
867	Scaled out min
868	Scaled out max
869	Scaled out extream min
870	Scaled out extream max
871	Digital input function
872	The selected function is activated when the 24V signal is no longer connected to the digital output (< 10 VDC).
873	Hold last setpoint
874	Hold last useable setpoint at setpoint-in
875	Hold user setpoint
876	Set setpoint-in to user-defined value
877	Hold last position
878	Pressurize output 1
879	Ventilate output 1
880	Ventilate Y1 exhaust Y2
881	Freeze outputs
882	Partial Stroke Test
883	Safety position
884	Service required
885	Set diagnosis bit
886	Local configuration locked
887	Lock panel
888	Lock all
889	Digital input logic
890	Use this parameter to select the level at which the digital input function should be executed.
891	Active high
892	Active low
893	DI default setpoint
894	Here, you can enter the setpoint substitute value that you want the valve to move,when the Soft failsafe function is activated.
895	FB current min
896	Use this parameter to specify the lower current range limit for the analog position feedback. The current range corresponds to the configured stroke range.
897	FB current max
898	With this parameter you determine the upper current range limit for the analog position feedback.
899	FB characteristic
900	With this parameter you determine the valve action for the analog position feedback.(Rising = Position 0 ... 100 % = Signal 4 ... 20 mA),(Falling = Position 0 ... 100 % = Signal 20 ... 4 mA)
901	Rising
902	Falling
903	Alarm logic
904	When an alarm/message is generated in the EDP300 PositionMaster positioner, it is signaled via the digital and analog outputs. Use this parameter to select a higher or lower alarm current for analog feedback.
905	Low alarm
906	High alarm
907	Unknown
908	Position feedback
909	Selected for readback value linear or characteristics
910	readback position is linear
911	Recalculated
912	readback value follows the characteristcs table
913	Low
914	High
915	Tab entry
916	Setpoint Tab Entry
917	setpoint tabXYvalue
918	X0
919	Setpoint Tab XYValue 0
920	X1
921	X2
922	X3
923	X4
924	X5
925	X6
926	X7
927	X8
928	X9
929	X10
930	X11
931	X12
932	X13
933	X14
934	X15
935	X16
936	X17
937	X18
938	X19
939	X20
940	X21
941	Y0
942	Y1
943	Y2
944	Y3
945	Y4
946	Y5
947	Y6
948	Y7
949	Y8
950	Y9
951	Y10
952	Y11
953	Y12
954	Y13
955	Y14
956	Y15
957	Y16
958	Y17
959	Y18
960	Y19
961	Y20
962	Y21
963	Switch 1 value
964	With this parameter you can define the switching point SW1 as a percentage of the operating range.If the position exceeds or falls below SW1, the corresponding signal output on the plug-in module is activated.
965	Switch 1 active
966	With this parameter you define whether a message is to be triggered for exceeding or falling below switching point SW1.Message triggered when switching point SW1 is overshot.Message triggered when switching point SW1 is undershot.Factory setting: Undershot
967	Fall below
968	Exceeding
969	Switch 1 logic
970	Use this parameter to specify the active level for switching output 1,(ACTIV_HI active = Output current I > 2 mA)(ACTIV_LO active = Output current I < 1 mA)
971	Switch 1 function
972	Use this parameter to specify whether the digital feedback should function as a limit switch or as a diagnostic message.
973	Position information
974	Diagnosis state
975	Switch 2 value
976	With this parameter you can define the switching point SW2 as a percentage of the operating range.If the position exceeds or falls below SW2, the corresponding signal output on the plug-in module is activated.
977	Switch 2 active
978	With this parameter you define whether a message is to be triggered for exceeding or falling below switching point SW2.Message triggered when switching point SW2 is overshot.Message triggered when switching point SW2 is undershot.Factory setting: Overshot
979	Switch 2 logic
980	Use this parameter to specify the active level for switching output 2.
981	Switch 2 function
982	Use this parameter to specify whether the digital feedback should function as a limit switch or as a diagnostic message
983	Switch hysteresis
984	Switch Hysteresis
985	Setpoint TabOpCode
986	The modification of a table in a device influences the measurement or actuation algorithms of the device.Therefore an indication of a starting and an end point is necessary. TabOpCode controls the transaction of the table
987	TAB_OPCODE_NOT_INITIALIZED
988	not initialized
989	NEW_OP_CHARACTERISTICS
990	new operation characteristic, first value (TAB_ENTRY=1)
991	LAST_VALUE
992	last value, end of transmission, check table, swap the old curve with the new curve, update TAB_ACTUAL_NUMBER.
993	DELETE_POINT
994	delete point of table with actual ENTRY (optional), sort records with increasing Charact-Input-Value, assign new ENTRIES,crement CHARACT_NUMBER.
995	INSERT_POINT
996	insert point (Charact-Input-Value relevant) (optional),sort records with increasing Charact-Input-Value, assign new ENTRIES.Increment CHARACT_NUMBER.
997	REPLACE_POINT
998	replace point of table with actual ENTRY (optional)
999	RESTORE_CURRENT_TABLE
1000	restore the Table to the currently used one
1001	UniversalAI TabOpCode
1002	Manual Setpoint
1003	Setpoint value written via HART
1004	Universal AI tab entry
1005	Universal AI Tab Entry
1006	tabXvalue
1007	tabYvalue
1008	Universal AI Tab XYValue 0
1009	Output Characteristic of Output 1
1010	.4f
1011	Y1 pressure in BAR (Output 1)
1012	UI Tab Status
1013	It is common to provide a plausibility check in the device. The result of this check is indicated in the TabStatus parameter.
1014	good (new table is valid)
1015	not monotonous increasing (old table is valid)
1016	not enough values transmitted (old table is valid)
1017	too many values transmitted (old table is valid)
1018	gradient of edge too high (old table is valid)
1019	Values not excepted (old values are valid)
1020	Table is currently loaded, set after TAB_OP_CODE = 1 and before TAB_OP_CODE = 3 (Additional access to table not valid, old values are valid)
1021	sorting and checking of Table (Additional access to table not valid, old
1022	not monotonous increasing (table is not initialized)
1023	not enough values transmitted (table is not initialized)
1024	too many values transmitted (table is not initialized)
1025	gradient of edge too high (table is not initialized)
1026	Values not excepted (table is not initialized)
1027	Table is currently loaded, set after TAB_OP_CODE = 1 and before TAB_OP_CODE = 3 (Additional access to table not valid, table is not initialized)
1028	sorting and checking of Table (Additional access to table not valid, table is not
1029	Setpoint Tab Status
1030	It is common to provide a plausibility check in the device. The result of this check is indicated in the TabStatus parameter.
1031	current value in engineering unit
1032	Position [X][%]
1033	Setpoint readback value in %
1034	Valve upper range
1035	Normally, the valve range is determined automatically during Autoadjust. A partial run of Autoadjust that is limited to the control parameters or valves and fittings without end stops, however, requires manual adjustment of the valve range.
1036	°
1037	Valve lower range
1038	electronic temperature
1039	Unit Universal input
1040	Production time
1041	Hrs
1042	Valve mounting time
1043	Host time
1044	Total time since production
1045	Total time since valve mounted
1046	Total time since start
1047	Dead band timeout
1048	Limit for positioning time in sec,when the positioning time exceeds the limit. 0 meansthat the function is disabled
1049	Supply pressure limit low
1050	Limits for signalling the pressure Alarm bit
1051	Supply pressure limit high
1052	Time latch
1053	Timer, Time latch for alarms
1054	Sec
1055	Dead Time
1056	Deadtime for startup surveillance in partial stroke [ms] (0 = inactive)
1057	Zero Point Deviation Value
1058	Switch Point 1
1059	simulation for switch 1 on DO option card
1060	Switch Point 2
1061	Alarm via analog feedback
1062	Current
1063	HW Alarm current
1064	Alarm Output
1065	Universal input current simulated value
1066	.3f
1067	7.3f
1068	binaryOutputActiveLevel
1069	ACTIVE_HIGH
1070	ACTIVE_LOW
1071	SIM_BO_OFF
1072	SIM_BO_Low
1073	SIM_BO_High
1074	Dead band control time
1075	Deadband control time
1076	Diagnosis condition no
1077	Diagnosis Condition Details Class
1078	Diagnosis Condition Details group
1079	diagnosisConditionDetailsPriority
1080	diagnosisConditionDetailsAlarmCounter
1081	diagnosisConditionDetailsAlarmTimeCounterDay
1082	diagnosisConditionDetailsAlarmTimeCounterMsec
1083	diagnosisConditionDetailsTimeStampLastAlarmDay
1084	diagnosisConditionDetailsTimeStampLastAlarmMsec
1085	diagnosisConditionDetailsAlarmTimeDateday
1086	diagnosisConditionDetailsAlarmTimeDatemonth
1087	diagnosisConditionDetailsAlarmTimeDateyear
1088	diagnosisConditionDetailsAlarmTimeDateyeartime
1089	diagnosisConditionDetailsAlarmValidation
1090	diagnosisConditionDetailsCodes0
1091	diagnosisConditionDetailsCodes1
1092	diagnosisConditionDetailsCodes2
1093	diagnosisConditionDetailsCodes3
1094	diagnosisConditionDetailsCodes4
1095	diagnosisConditionDetailsCodes5
1096	Byte 0
1097	Byte 1
1098	Byte 2
1099	Byte 3
1100	Byte 4
1101	Byte 5
1102	Diag simulation status
1103	Value action
1104	Idle
1105	Start sampling
1106	Stop sampling
1107	Stop when buffer full
1108	Clear buffer
1109	State of the ring buffer of multiple shots
1110	Mode On/Off
1111	Mode Error
1112	Read_out Error
1113	Empty
1114	Overflow
1115	Read Out complete
1116	Function stop initiated
1117	Total operating time
1118	Filling level of the buffer
1119	Time stamp of oldest shot in ring buffer
1120	Minimum difference between two values to take the next shot
1121	Start time for reading the buffer
1122	start time for reading the buffer starting at this time until now,by writing this value monitroing is turned off and the buffer is swtichedto the state READ_OUT, until all values are read or it is explicitly set toanother state by the action object. the operations during the READ_OUTstate do not influence the contends of the buffer.
1123	Diagnosis event Buffer Action
1124	Diagnosis mode
1125	Control loop test
1126	Partial stroke
1127	Step response
1128	Valve signature
1129	Speed over position
1130	Zero point test
1131	Offline initial
1132	Move to setpoint (last action in offline diagnosis)
1133	Wait until setpoint reached
1134	Offline Diagnosis done, internal failure
1135	Test selection
1136	for seri chart test
1137	air liquide one million cycle test
1138	similar to auto adjustment
1139	some test cases of iec 61514
1140	Square-pulse slow
1141	Square-pulse middle
1142	Square-pulse fast
1143	Triangle-pulse slow
1144	Triangle-pulse middle
1145	Triangle-pulse fast
1146	Sinus sweep slow
1147	Sinus sweep middle
1148	Sinus sweep fas
1149	Valve diagnosis test profile EL
1150	Test status
1151	Offline valve diagnosis state
1152	Valve diagnosis offline progress
1153	Test result
1154	Offline valve diagnosis
1155	No diagnosis available
1156	Offline diagnosis failed
1157	Zero position test passed
1158	Zero position test failed
1159	Leakage test passed (No leakage)
1160	Leakage test failed (Leak in...)
1161	Valve Diagnosis flag
1162	Signals a leckage if set
1163	Cyclecounter active and limit reached
1164	Travelcounter active and limit reached
1165	Positioning timeout detected
1166	Last partial stroke has failed
1167	Busy loading/storing archive
1168	Error during NV loading/storing
1169	Pressure hammer on supply line
1170	Valve diagnosis flag byte 2
1171	stiction limit exceeded
1172	friction limit exceeded
1173	universal input limit exceeded
1174	supply pressure below user limit
1175	supply pressure above user limit
1176	supply pressure > 10bar
1177	supply pressure too low (limit detected during autoadjust)
1178	Valve diagnosis flag byte 3
1179	valve is not moving any more
1180	valve is oscillating
1181	Valve diagnosis flag byte 4
1182	Value buffer full but additional value requested
1183	Number of archives
1184	Number of archive in NV(when requesting to load archive from NV storage)
1185	archiveRequestedData
1186	Req description only
1187	Req all
1188	Load archive
1189	Date
1190	Store Archive
1191	Positioning time during Speed Over Position test
1192	Interval
1193	SampleTime of the ValueBuffer used for Step response
1194	x 20 ms
1195	Start position
1196	Positioning time during Speed Over Position test(Start test position)
1197	Stop position
1198	Positioning time during Speed Over Position test(End test position)
1199	Acceptable position value in %
1200	3.1f
1201	Air Capacity
1202	Scaling factor
1203	Steps
1204	Steps of X-axis for valve signature, steps in one direction
1205	Check UAI
1206	No
1207	do not check uai during zero point test
1208	Yes
1209	check uai during zero point test
1210	Y-offset up
1211	Y-offset down
1212	Timeout value
1213	Partial Stroke interval
1214	Start test every
1215	Value of position change
1216	PS Vent amount
1217	timeToPartialStroke
1218	Partial stroke state
1219	No partial stroke
1220	Partial stroke interval
1221	Partial stroke HMI/DTM/EDD
1222	Last partial stroke passed
1223	Last partial stroke failed time out
1224	Last partial stroke failed out of range
1225	Last partial stroke failed user abort
1226	Last partial stroke failed something else
1227	valveCycleCounterHidden
1228	valveTravelCounterHidden
1229	cutoffFrequency
1230	2.3f
1231	ControlParameterArchive 0
1232	ControlParameterArchive 1
1233	ControlParameterArchive 2
1234	ControlParameterArchive 3
1235	ControlParameterArchive 4
1236	ControlParameterArchive 5
1237	ControlParameterArchive 6
1238	ControlParameterArchive 7
1239	ControlParameterArchive 8
1240	ControlParameterArchive 9
1241	ControlParameterArchive 17
1242	ControlParameterArchive 26
1243	ControlParameterArchive 35
1244	ControlParameterArchive 44
1245	LocVarCommand230
1246	CrtlParamArchiveDate
1247	CrtlParamArchiveTime 0
1248	CrtlParamArchiveDate 1
1249	CrtlParamArchiveTime 1
1250	LocCrtlParDateTime
1251	Histogram TW Hrs
1252	Histogram TW Days
1253	Diagram TW Hrs
1254	Diagram TW Days
1255	Trend TW Hrs
1256	Trend TW Days
1257	Limit low (KP Up)
1258	Limit-valus for upKp
1259	Limit high (KP Up)
1260	Switch hysteresis (KP Up)
1261	Limit low (KP Dn)
1262	Limit high (KP Dn)
1263	Switch hysteresis (KP Dn)
1264	Limit low (Tv Up)
1265	Limit-valus for upTv
1266	Limit high (Tv Up)
1267	Switch hysteresis (Tv Up)
1268	Limit low (Tv Dn)
1269	Limit high (Tv Dn)
1270	Switch hysteresis (Tv Dn)
1271	Limit low (Offset Up)
1272	Limit-valus for upOffset
1273	Limit high (Offset Up)
1274	Switch hysteresis (Offset Up)
1275	Limit low (Offset Dn)
1276	Limit high (Offset Dn)
1277	Switch hysteresis (Offset Dn)
1278	KP Up (Ref)
1279	KP Down (Ref)
1280	TV Up (Ref)
1281	TV Down (Ref)
1282	Y Offset Up (Ref)
1283	Y Offset Down (Ref)
1284	Determinated stroke time up
1285	Time needed to travel from 0% to 100%-position
1286	Determinated stroke time down
1287	Time needed to travel from 100% to 0%-position
1288	KP up (Alarm & Diagnosis)
1289	Alarm and Warning-flags for each adaption-parameter.
1290	Alarm high
1291	help
1292	Alarm low
1293	Warning high
1294	Warning low
1295	KP down (Alarm & Diagnosis)
1296	HART Cmd Rev
1297	HART Revision 5
1298	HART Revision 7
1299	PV Analog Channel Saturated
1300	PV Analog Channel Fixed
1301	Wireless
1302	WirelessHART Device
1303	IEEE 802.15.4 2.4GHz DSSS with O-QPSK Modulation
1304	Primary
1305	Primary Analog Channel
1306	Secondary
1307	Secondary Analog Channel
1308	Tertiary
1309	Tertiary Analog Channel
1310	Quaternary
1311	Quaternary Analog Channel
1312	Quinary
1313	Quinary Analog Channel
1314	Critical Power Failure
1315	Trim not supported
1316	Configuration cannot be changed
1317	Locked by gateway
1318	Analog Input Channel
1319	Analog Output Channel
1320	Secondary Analog Channel Saturated
1321	Tertiary Analog Channel Saturated
1322	Quaternary Analog Channel Saturated
1323	Quinary Analog Channel Saturated
1324	Secondary Analog Channel Fixed
1325	Tertiary Analog Channel Fixed
1326	Quaternary Analog Channel Fixed
1327	Quinary Analog Channel Fixed
1328	Simulation active
1329	The device is in simulation mode and the level output is not representative of the process.
1330	Non-Volatile memory failure
1331	The Non-Volatile memory check is invalid or maybe corrupt, or the battery of a battery-backed memory has failed.
1332	Volatile memory error
1333	The RAM memory check is invalid or maybe corrupt
1334	Watchdog reset executed
1335	A watchdog reset has been performed
1336	Voltage conditions out of range
1337	A voltage condition is outside its allowable range
1338	Environmental conditions out of range
1339	An internal or environmental condition is beyond acceptable limits.
1340	Electronic failure
1341	A hardware problem not related to the sensor has been detected.
1342	Subdevice list changed
1343	Duplicate master detected
1344	Capacity Denied
1345	The device was unable to acquire the communication bandwidth required to support the Burst Messaging specified
1346	Bandwidth allocation pending
1347	Block transfer pending
1348	Battery life
1349	Percent range
1350	Loop current
1351	Primary variable
1352	Secondary variable
1353	Tertiary variable
1354	Quaternary variable
1355	Read receive time
1356	Write date and time
1357	Non-Volatile Clock
1358	When set the device contains a battery-backed clock. In this case, the clock does not need to be reset if there is a power failure.
1359	Clock Uninitialized
1360	The real-time clock has never been set with the date and time. For example, the clock is volatile and power was removed from and restored to the device.
1361	No restrictions
1362	SI Only
1363	Restricted to SI Unit codes only
1364	Process automation device
1365	Discrete device
1366	Hybrid:Process automation+discrete
1367	I/O System
1368	WirelessHART Process automation device
1369	WirelessHART Discrete device
1370	WirelessHART Process automation+discrete
1371	WirelessHART Gateway
1372	WirelessHART Access point
1373	WirelessHART Process adapter
1374	WirelessHART Discrete adapter
1375	WirelessHART enabled handheld/portable maintenance tool
1376	Device Profile
1377	US
1378	United States of America
1379	JP
1380	Japan
1381	DE
1382	Germany
1383	FR
1384	France
1385	ES
1386	Spain
1387	RU
1388	Russian Federation
1389	CN
1390	People's Republic of China
1391	Secondary Master
1392	Primary Master
1393	Device Diagnostic Status 0
1394	Device Diagnostic Status 1
1395	I/O and Subdevice Status
1396	WirelessHART Status
1397	Time Set Option
1398	Real Time Clock Flags
1399	Country
1400	Country of intended device installation
1401	SI Unit Control
1402	Indicates if device should only display SI unit codes
1403	8u
1404	8.3f
1405	Device Variable
1406	%[L]{diagnosisSimulationStatus} is %{diagnosisSimulationStatus}/Select
1407	On;Off
1408	%[L]{diagnosisSimulationStatus} is %{diagnosisSimulationStatus}
1409	Bit Position Measurement Failure have been masked, NAMUR 107 configuration not possible !
1410	Select NE107 Configuration of %[L]{alarmNamurConfiguration_0}
1411	Bit Valve blocked bit have been masked, NAMUR 107 configuration not possible !
1412	Select NE107 Configuration of %[L]{alarmNamurConfiguration_1}
1413	Bit Positioning Timeout - Check Valve Maintenance have been masked, NAMUR 107 configuration not possible !
1414	Select NE107 Configuration of %[L]{alarmNamurConfiguration_2}
1415	Bit Positioning unstable have been masked, NAMUR 107 configuration not possible !
1416	Select NE107 Configuration of %[L]{alarmNamurConfiguration_3}
1417	Bit Position out of travel range have been masked, NAMUR 107 configuration not possible !
1418	Select NE107 Configuration of %[L]{alarmNamurConfiguration_4}
1419	Bit Zero-Point displacement have been masked, NAMUR 107 configuration not possible !
1420	Select NE107 Configuration of %[L]{alarmNamurConfiguration_5}
1421	Bit kp up exceeded have been masked, NAMUR 107 configuration not possible !
1422	Select NE107 Configuration of %[L]{alarmNamurConfiguration_6}
1423	Bit kp Down exceeded have been masked, NAMUR 107 configuration not possible !
1424	Select NE107 Configuration of %[L]{alarmNamurConfiguration_7}
1425	Bit Setpoint Failure Electronics have been masked, NAMUR 107 configuration not possible !
1426	Select NE107 Configuration of %[L]{alarmNamurConfiguration_8}
1427	Bit Setpoint out of Range have been masked, NAMUR 107 configuration not possible !
1428	Select NE107 Configuration of %[L]{alarmNamurConfiguration_9}
1429	Bit Device not calibrated have been masked, NAMUR 107 configuration not possible !
1430	Select NE107 Configuration of %[L]{alarmNamurConfiguration_10}
1431	Bit Controller inactive have been masked, NAMUR 107 configuration not possible !
1432	Select NE107 Configuration of %[L]{alarmNamurConfiguration_11}
1433	Bit Stroke counter limit exceeded have been masked, NAMUR 107 configuration not possible !
1434	Select NE107 Configuration of %[L]{alarmNamurConfiguration_12}
1435	Bit Travel counter limit exceeded have been masked, NAMUR 107 configuration not possible !
1436	Select NE107 Configuration of %[L]{alarmNamurConfiguration_13}
1437	Bit Electronic Temperature Measurement Failure have been masked, NAMUR 107 configuration not possible !
1438	Select NE107 Configuration of %[L]{alarmNamurConfiguration_14}
1439	Bit Electronic temperature out of limits have been masked, NAMUR 107 configuration not possible !
1440	Select NE107 Configuration of %[L]{alarmNamurConfiguration_15}
1441	Bit Configuration Data failure have been masked, NAMUR 107 configuration not possible !
1442	Select NE107 Configuration of %[L]{alarmNamurConfiguration_16}
1443	Bit Electronics - NV chip defect have been masked, NAMUR 107 configuration not possible !
1444	Select NE107 Configuration of %[L]{alarmNamurConfiguration_17}
1445	Bit Non Volatile Data defect have been masked, NAMUR 107 configuration not possible !
1446	Select NE107 Configuration of %[L]{alarmNamurConfiguration_18}
1447	Bit Leakage during operation have been masked, NAMUR 107 configuration not possible !
1448	Select NE107 Configuration of %[L]{alarmNamurConfiguration_19}
1449	Bit Leakage chamber 1 have been masked, NAMUR 107 configuration not possible !
1450	Select NE107 Configuration of %[L]{alarmNamurConfiguration_20}
1451	Bit Leakage chamber 2 have been masked, NAMUR 107 configuration not possible !
1452	Select NE107 Configuration of %[L]{alarmNamurConfiguration_21}
1453	Bit Leakage in actuator have been masked, NAMUR 107 configuration not possible !
1454	Select NE107 Configuration of %[L]{alarmNamurConfiguration_22}
1455	Bit Pressure NV Data defect have been masked, NAMUR 107 configuration not possible !
1456	Select NE107 Configuration of %[L]{alarmNamurConfiguration_23}
1457	Bit Pressure NV chip defect have been masked, NAMUR 107 configuration not possible !
1458	Select NE107 Configuration of %[L]{alarmNamurConfiguration_24}
1459	Bit Overpressure from supply have been masked, NAMUR 107 configuration not possible !
1460	Select NE107 Configuration of %[L]{alarmNamurConfiguration_25}
1461	Bit Supply pressure limit low exceeded have been masked, NAMUR 107 configuration not possible !
1462	Select NE107 Configuration of %[L]{alarmNamurConfiguration_26}
1463	Bit Supply pressure limit high exceeded have been masked, NAMUR 107 configuration not possible !
1464	Select NE107 Configuration of %[L]{alarmNamurConfiguration_27}
1465	Bit Pressure hammer from supply have been masked, NAMUR 107 configuration not possible !
1466	Select NE107 Configuration of %[L]{alarmNamurConfiguration_28}
1467	Bit TV up exceeded have been masked, NAMUR 107 configuration not possible !
1468	Select NE107 Configuration of %[L]{alarmNamurConfiguration_29}
1469	Bit TV down exceeded have been masked, NAMUR 107 configuration not possible !
1470	Select NE107 Configuration of %[L]{alarmNamurConfiguration_30}
1471	Bit Y-Offset Up exceeded have been masked, NAMUR 107 configuration not possible !
1472	Select NE107 Configuration of %[L]{alarmNamurConfiguration_31}
1473	Bit Y-Offset Down exceeded have been masked, NAMUR 107 configuration not possible !
1474	Select NE107 Configuration of %[L]{alarmNamurConfiguration_32}
1475	Bit Friction limit exceeded have been masked, NAMUR 107 configuration not possible !
1476	Select NE107 Configuration of %[L]{alarmNamurConfiguration_33}
1477	Bit Stiction limit exceeded have been masked, NAMUR 107 configuration not possible !
1478	Select NE107 Configuration of %[L]{alarmNamurConfiguration_34}
1479	Bit Universal Input out of Range have been masked, NAMUR 107 configuration not possible !
1480	Select NE107 Configuration of %[L]{alarmNamurConfiguration_35}
1481	Bit Partial Stroke failed have been masked, NAMUR 107 configuration not possible !
1482	Select NE107 Configuration of %[L]{alarmNamurConfiguration_36}
1483	Bit Option Module defect have been masked, NAMUR 107 configuration not possible !
1484	Select NE107 Configuration of %[L]{alarmNamurConfiguration_37}
1485	Bit Universal Input Limit exceeded have been masked, NAMUR 107 configuration not possible !
1486	Select NE107 Configuration of %[L]{alarmNamurConfiguration_38}
1487	Bit Analog output simulation active have been masked, NAMUR 107 configuration not possible !
1488	Select NE107 Configuration of %[L]{alarmNamurConfiguration_39}
1489	Bit Binary output simulation active have been masked, NAMUR 107 configuration not possible !
1490	Select NE107 Configuration of %[L]{alarmNamurConfiguration_40}
1491	Bit Fail Safe Active - via Device Error have been masked, NAMUR 107 configuration not possible !
1492	Select NE107 Configuration of %[L]{alarmNamurConfiguration_41}
1493	Bit Fail Safe Active - via User have been masked, NAMUR 107 configuration not possible !
1494	Select NE107 Configuration of %[L]{alarmNamurConfiguration_42}
1495	Bit Binary Input active have been masked, NAMUR 107 configuration not possible !
1496	Select NE107 Configuration of %[L]{alarmNamurConfiguration_43}
1497	Bit Switchpoint 1 exceeded have been masked, NAMUR 107 configuration not possible !
1498	Select NE107 Configuration of %[L]{alarmNamurConfiguration_44}
1499	Bit Switchpoint 2 exceeded have been masked, NAMUR 107 configuration not possible !
1500	Select NE107 Configuration of %[L]{alarmNamurConfiguration_45}
1501	Bit Analog output supply fault have been masked, NAMUR 107 configuration not possible !
1502	Select NE107 Configuration of %[L]{alarmNamurConfiguration_46}
1503	Bit Pressure measurement defect have been masked, NAMUR 107 configuration not possible !
1504	Select NE107 Configuration of %[L]{alarmNamurConfiguration_47}
1505	Select NE107 Configuration of %[L]{binaryOutputDiagnosisMask}
1506	Select NE107 Configuration of %[L]{aoAlarmMapping_0}
1507	Select NE107 Configuration of %[L]{aoAlarmMapping_1}
1508	Select NE107 Configuration of %[L]{aoAlarmMapping_2}
1509	Select NE107 Configuration of %[L]{aoAlarmMapping_3}
1510	Select NE107 Configuration of %[L]{switchingPoint_0}
1511	Select NE107 Configuration of %[L]{switchingPoint_1}
1512	%[L]{diagnosisSimulationStatus} is %{diagnosisSimulationStatus}, please turn on Diagnosis simulation ?
1513	Yes;No
1514	Simulate %[L]{diagnosisservices_diagnosissimulation_0}
1515	Simulate %[L]{diagnosisservices_diagnosissimulation_1}
1516	Since %[L]{diagnosisSimulationStatus} is %{diagnosisSimulationStatus} diagnosis simulation is not possible
1517	Simulate %[L]{diagnosisservices_diagnosissimulation_2}
1518	Simulate %[L]{diagnosisSimulationStatus} is %{diagnosisSimulationStatus}, please turn on Diagnosis simulation ?
1519	Simulate %[L]{diagnosisservices_diagnosissimulation_3}
1520	Simulate %[L]{diagnosisservices_diagnosissimulation_4}
1521	Simulate %[L]{diagnosisservices_diagnosissimulation_5}
1522	Mask %[L]{DiagnosisServices_alarmMasking_0}
1523	Mask %[L]{DiagnosisServices_alarmMasking_1}
1524	Mask %[L]{DiagnosisServices_alarmMasking_2}
1525	Mask %[L]{DiagnosisServices_alarmMasking_3}
1526	Mask %[L]{DiagnosisServices_alarmMasking_4}
1527	Mask %[L]{DiagnosisServices_alarmMasking_5}
1528	Set %[L]{ProcessIO_binaryInputFunction}
1529	Set %[L]{ProcessIO_binaryInputActiveLevel}
1530	Set %[L]{ProcessIO_binaryInputSetpoint}
1531	Review Digital Input DI values : %[L]{ProcessIO_binaryInputFunction} -> %{ProcessIO_binaryInputFunction} %[L]{ProcessIO_binaryInputActiveLevel} -> %{ProcessIO_binaryInputActiveLevel} %[L]{ProcessIO_binaryInputSetpoint} -> %{ProcessIO_binaryInputSetpoint} %
1532	Continue;Re-enter
1533	Review Digital Input DI values : %[L]{ProcessIO_binaryInputFunction} -> %{ProcessIO_binaryInputFunction} %[L]{ProcessIO_binaryInputActiveLevel} -> %{ProcessIO_binaryInputActiveLevel}
1534	Set %[L]{Setpoint_inputScaling_min}
1535	Set %[L]{Setpoint_inputScaling_max}
1536	Setpoint range max is out of range, value must be within %[4.1f]{SPMinValue} mA to 20.00 mA !
1537	Set %[L]{Setpoint_rampClose}
1538	Set %[L]{Setpoint_rampOpen}
1539	Set %[L]{Setpoint_t1}
1540	Review SP Range values : %[L]{Setpoint_inputScaling_min} -> %{Setpoint_inputScaling_min} mA %[L]{Setpoint_inputScaling_max} -> %{Setpoint_inputScaling_max} mA %[L]{Setpoint_rampClose} -> %{Setpoint_rampClose} sec %[L]{Setpoint_rampOpen} -> %{Setpoint_rampOpen} sec %[L]{Setpoint_t1} -> %{Setpoint_t1} sec
1541	Set %[L]{UniversalAI_inputScaling_min}
1542	Set %[L]{UniversalAI_inputScaling_max}
1543	Universal input max is out of range, value must be within %[4.1f]{UAIMaxScale} mA to 20.00 mA !
1544	Review input range : %[L]{UniversalAI_inputScaling_min} -> %{UniversalAI_inputScaling_min} mA %[L]{UniversalAI_inputScaling_max} -> %{UniversalAI_inputScaling_max} mA
1545	Set %[L]{UniversalAI_inputDamping}
1546	Review damping value : %[L]{UniversalAI_inputDamping} -> %{UniversalAI_inputDamping} Sec
1547	Set %[L]{UniversalAI_characteristics}
1548	Review Input characteristic curve : %[L]{UniversalAI_characteristics} -> %{UniversalAI_characteristics}
1549	Set %[L]{UniversalAI_EngineeringUnit}
1550	Review engineering unit : %[L]{UniversalAI_EngineeringUnit} -> %{UniversalAI_EngineeringUnit}
1551	Set %[L]{UniversalAI_outputScaling_min}
1552	Set %[L]{UniversalAI_outputScaling_max}
1553	Review Out Sealing : %[L]{UniversalAI_outputScaling_min} -> %{UniversalAI_outputScaling_min} %[L]{UniversalAI_outputScaling_max} -> %{UniversalAI_outputScaling_max}
1554	Set %[L]{ProcessIO_aoCurrentRange_lolim}
1555	Set %[L]{ProcessIO_aoCurrentRange_hilim}
1556	%[L]{ProcessIO_aoCurrentRange_hilim} is out of range, value must be within %[4.1f]{UAIMaxScale} mA to 20.00 mA !
1557	Set %[L]{ProcessIO_aoActing}
1558	Set %[L]{ProcessIO_aoConnectionLostAlarm}
1559	Set %[L]{readbackCharacteristics}
1560	Review Analog feedback signal values : %[L]{ProcessIO_aoCurrentRange_lolim} -> %{ProcessIO_aoCurrentRange_lolim} mA %[L]{ProcessIO_aoCurrentRange_hilim} -> %{ProcessIO_aoCurrentRange_hilim} mA %[L]{ProcessIO_aoActing} -> %{ProcessIO_aoActing} %[L]{ProcessIO_aoConnectionLostAlarm} -> %{ProcessIO_aoConnectionLostAlarm} %[L]{readbackCharacteristics} -> %{readbackCharacteristics}
1561	Set %[L]{ProcessIO_switch1Function}
1562	Set %[L]{ProcessIO_switchingPoint1}
1563	Set %[L]{ProcessIO_switch1ActiveLevel}
1564	Set %[L]{ProcessIO_switch1Trigger}
1565	Review Switch 1 settings : %[L]{ProcessIO_switch1Function} -> %{ProcessIO_switch1Function} %[L]{ProcessIO_switchingPoint1} -> %{ProcessIO_switchingPoint1} %[L]{ProcessIO_switch1ActiveLevel} -> %{ProcessIO_switch1ActiveLevel} %[L]{ProcessIO_switch1Trigger} -> %{ProcessIO_switch1Trigger}
1566	Review Switch 1 settings : %[L]{ProcessIO_switch1Function} -> %{ProcessIO_switch1Function} %[L]{ProcessIO_switch1ActiveLevel} -> %{ProcessIO_switch1ActiveLevel}
1567	Set %[L]{ProcessIO_switch2Function}
1568	Set %[L]{ProcessIO_switchingPoint2}
1569	Set %[L]{ProcessIO_switch2ActiveLevel}
1570	Set %[L]{ProcessIO_switch2Trigger}
1571	Review Switch 2 settings : %[L]{ProcessIO_switch2Function} -> %{ProcessIO_switch2Function} %[L]{ProcessIO_switchingPoint2} -> %{ProcessIO_switchingPoint2} %[L]{ProcessIO_switch2ActiveLevel} -> %{ProcessIO_switch2ActiveLevel} %[L]{ProcessIO_switch2Trigger} -> %{ProcessIO_switch2Trigger}
1572	Review Switch 2 settings : %[L]{ProcessIO_switch2Function} -> %{ProcessIO_switch2Function} %[L]{ProcessIO_switch2ActiveLevel} -> %{ProcessIO_switch2ActiveLevel}
1573	Review Alarm Output value : %[L]{ProcessIO_aoConnectionLostAlarm} -> %{ProcessIO_aoConnectionLostAlarm}
1574	Set %[L]{Controller_pidParKPup}
1575	Set %[L]{Controller_pidParKPdown}
1576	Set %[L]{Controller_pidParTVup}
1577	Set %[L]{Controller_pidParTVdown}
1578	Set %[L]{IpConverter_ipOffsetVenting}
1579	Set %[L]{IpConverter_ipOffsetExhaust}
1580	Set %[L]{Controller_deadband}
1581	Set %[L]{Controller_parN}
1582	Set %[L]{ValveDiagnosis_positioningTimeLimit}
1583	Set %[L]{deadbandCtrlTime}
1584	Set %[L]{Controller_parS0}
1585	Review Control parameter values : %[L]{Controller_pidParKPup} -> %{Controller_pidParKPup} %[L]{Controller_pidParKPdown} -> %{Controller_pidParKPdown} %[L]{Controller_pidParTVup} -> %{Controller_pidParTVup} msec %[L]{Controller_pidParTVdown} -> %{Controller_pidParTVdown} msec %[L]{IpConverter_ipOffsetVenting} -> %{IpConverter_ipOffsetVenting} % %[L]{IpConverter_ipOffsetExhaust} -> %{IpConverter_ipOffsetExhaust} % %[L]{Controller_deadband} -> %{Controller_deadband} % %[L]{Controller_parN} -> %{Controller_parN} %[L]{ValveDiagnosis_positioningTimeLimit} -> %{ValveDiagnosis_positioningTimeLimit} sec %[L]{deadbandCtrlTime} -> %{deadbandCtrlTime} sec %[L]{Controller_parS0} -> %{Controller_parS0} %
1586	Set %[L]{ValveDiagnosis_valveTravelCounterLimit}
1587	Set %[L]{ValveDiagnosis_valveCycleCounterLimit}
1588	Set %[L]{ValveDiagnosis_valveCycleCounterHysteresis}
1589	Set %[L]{valveTravelCounterHysteresis}
1590	Review Matainence counter values : %[L]{ValveDiagnosis_valveTravelCounterLimit} -> %{ValveDiagnosis_valveTravelCounterLimit} %[L]{ValveDiagnosis_valveCycleCounterLimit} -> %{ValveDiagnosis_valveCycleCounterLimit} %[L]{ValveDiagnosis_valveCycleCounterHysteresis} -> %{ValveDiagnosis_valveCycleCounterHysteresis} % %[L]{valveTravelCounterHysteresis} -> %{valveTravelCounterHysteresis} %
1591	Set %[L]{Setpoint_lowCutOff}
1592	Set %[L]{Setpoint_deadAngleClose}
1593	Set %[L]{limitPositionBehaviourSwitchDn}
1594	Review End Position 0% parameters : %[L]{Setpoint_lowCutOff} -> %{Setpoint_lowCutOff} % %[L]{Setpoint_deadAngleClose} -> %{Setpoint_deadAngleClose} % %[L]{limitPositionBehaviourSwitchDn} -> %{limitPositionBehaviourSwitchDn}
1595	Set %[L]{Setpoint_highCutOff}
1596	Set %[L]{Setpoint_deadAngleOpen}
1597	Set %[L]{limitPositionBehaviourSwitchUp}
1598	Review End Position 100% parameters : %[L]{Setpoint_highCutOff} -> %{Setpoint_highCutOff} % %[L]{Setpoint_deadAngleOpen} -> %{Setpoint_deadAngleOpen} % %[L]{limitPositionBehaviourSwitchUp} -> %{limitPositionBehaviourSwitchUp}
1599	Set %[L]{out1ExhaustPosition}
1600	Set %[L]{PositionProcessing_actuatorType}
1601	Set %[L]{Setpoint_effectiveDirection}
1602	Set %[L]{setpoint_characteristics}
1603	Review basic setting parameters : %[L]{out1ExhaustPosition} -> %{out1ExhaustPosition} %[L]{PositionProcessing_actuatorType} -> %{PositionProcessing_actuatorType} %[L]{Setpoint_effectiveDirection} -> %{Setpoint_effectiveDirection} %[L]{setpoint_characteristics} -> %{setpoint_characteristics}
1604	Set %[L]{operatingRangePercent_min}
1605	Set %[L]{operatingRangePercent_max}
1606	Review valve range : %[L]{operatingRangePercent_min} -> %{operatingRangePercent_min} ° %[L]{operatingRangePercent_max} -> %{operatingRangePercent_max} °
1607	Set %[L]{Setpoint_outputScaling_min}
1608	Set %[L]{Setpoint_outputScaling_max}
1609	Review working range : %[L]{Setpoint_outputScaling_min} -> %{Setpoint_outputScaling_min} % %[L]{Setpoint_outputScaling_max} -> %{Setpoint_outputScaling_max} %
1610	Universal input simulation is active, further simulation is not possible. To deactivate Simulation, pressing button Stop simulation
1611	Simulate %[L]{UniversalAI_simulationValue}
1612	Value should be within 4-20 mA limit
1613	Simulate %[L]{ProcessIO_switchSimulation_0}
1614	Simulate %[L]{ProcessIO_switchSimulation_1}
1615	Simulate %[L]{ProcessIO_binaryOutputSimulation}
1616	Select the Target Mode
1617	Control Mode;Manual Setpoint Remote;Manual Local Adjust;Manual Local Setpoint
1618	Upload in progress, it may take time based on parameters...
1619	All X-Y values read from device !!
1620	We are about to create a new user curve. Please take care of following points to save a new curve successfully in the device 1) X/Y value pair must be monotonously incremented 2) First value of X/Y pair must be 0/0 3) Last value of X/Y pair must be 100/100 Continue ?
1621	Select no of points (X/Y pairs) to be entered
1622	2;3;4;5;6;7;8;9;10;11;12;13;14;15;16;17;18;19;20;21;22
1623	X0 Value
1624	x0
1625	Y0 Value
1626	y0
1627	X1 Value
1628	x1
1629	Y1 Value
1630	y1
1631	X2 Value
1632	x2
1633	Y2 Value
1634	y2
1635	X3 Value
1636	x3
1637	Y3 Value
1638	y3
1639	X4 Value
1640	x4
1641	Y4 Value
1642	y4
1643	X5 Value
1644	x5
1645	Y5 Value
1646	y5
1647	X6 Value
1648	x6
1649	Y6 Value
1650	y6
1651	X7 Value
1652	x7
1653	Y7 Value
1654	y7
1655	X8 Value
1656	x8
1657	Y8 Value
1658	y8
1659	X9 Value
1660	x9
1661	Y9 Value
1662	y9
1663	X10 Value
1664	x10
1665	Y10 Value
1666	y10
1667	X11 Value
1668	x11
1669	Y11 Value
1670	y11
1671	X12 Value
1672	x12
1673	Y12 Value
1674	y12
1675	X13 Value
1676	x13
1677	Y13 Value
1678	y13
1679	X14 Value
1680	x14
1681	Y14 Value
1682	y14
1683	X15 Value
1684	x15
1685	Y15 Value
1686	y15
1687	X16 Value
1688	x16
1689	Y16 Value
1690	y16
1691	X17 Value
1692	x17
1693	Y17 Value
1694	y17
1695	X18 Value
1696	x18
1697	Y18 Value
1698	y18
1699	X19 Value
1700	x19
1701	Y19 Value
1702	y19
1703	X20 Value
1704	x20
1705	Y20 Value
1706	y20
1707	X21 Value
1708	x21
1709	Y21 Value
1710	y21
1711	Select
1712	Continue;Re-enter no of x/y pairs
1713	Device failed to accept Setpoint TabOpCode == 1 (New characteristic)
1714	Device failed to accept UniversalAI tabOpCode == 3 (End of transmission) Please check the x/y pair value, either not incremented monotonusly incremented or last point of x/y pair has value different than 100/100
1715	Result :%[L]{UniversalAItabStatus} -> %{UniversalAItabStatus}
1716	Please wait upload in progress, it may take time based on parameters...
1717	Device failed to accept Setpoint TabOpCode == 3 (End of transmission) Please check the x/y pair value, either not incremented monotonusly incremented or last point of x/y pair has value different than 100/100
1718	Result :%[L]{SetpointtabStatus} -> %{SetpointtabStatus}
1719	Calibration is not being successfully executed !
1720	Caution ! Adjust supply pressure ?
1721	Please wait calibration is running...
1722	Supply pressure has been calibrated successfully !
1723	Caution ! Adjust Y1 pressure ?
1724	Y1 pressure has been calibrated successfully !
1725	Caution ! Adjust Y2 pressure ?
1726	Y2 pressure has been calibrated successfully !
1727	Caution ! This method will set all sensors to zero, The supply pressure has to be switchted off before,and the actuator has to be empty. Continue ?
1728	All sensors have been adjusted successfully !!
1729	Caution ! Ventilate pressure Y1 ?
1730	Please wait ventilation of pressure Y1 is running...
1731	Ventilation of pressure Y1 done successfully !!
1732	Caution ! Ventilate pressure Y2 ?
1733	Please wait ventilation of pressure Y2 is running...
1734	Ventilation of pressure Y2 done successfully !!
1735	Caution ! We are about to exit calibration, Continue ?
1736	Please wait, Device is performing Auto Adjust...
1737	Failed to set the User Mode to Auto Adjust !
1738	Failed to set the User mode to OFF !
1739	Exiting Auto Adjust...
1740	Please wait Easy Setup parameters are uploading...
1741	Select Actuator type
1742	Select Dispaly value
1743	Select Engineering unit of Electronic temperature
1744	Select Pressure unit
1745	Set Engineering Unit of Universal input
1746	Select Autoadjust mode
1747	Review Easy setup parameters : %[L]{PositionProcessing_actuatorType} -> %{PositionProcessing_actuatorType} %[L]{out1ExhaustPosition} -> %{out1ExhaustPosition} Dispaly value -> %{selectedPV} Electronic temperature unit -> %{ElectronicServices_electronicTemperatureUnit} Pressure unit -> %{Pressure_pressureUnit} Engineering Unit Universal input -> %{UniversalAI_EngineeringUnit} Auto Adjust mode -> %{Coordinator_autoAdjustScope}
1748	Review Easy setup parameters : %[L]{PositionProcessing_actuatorType} -> %{PositionProcessing_actuatorType} %[L]{out1ExhaustPosition} -> %{out1ExhaustPosition} Dispaly value -> %{selectedPV} Electronic temperature unit -> %{ElectronicServices_electronicTemperatureUnit} Pressure unit -> %{Pressure_pressureUnit} Auto Adjust mode -> %{Coordinator_autoAdjustScope}
1749	Review Easy setup parameters : %[L]{PositionProcessing_actuatorType} -> %{PositionProcessing_actuatorType} %[L]{out1ExhaustPosition} -> %{out1ExhaustPosition} Dispaly value -> %{selectedPV} Electronic temperature unit -> %{ElectronicServices_electronicTemperatureUnit} Engineering Unit Universal input -> %{UniversalAI_EngineeringUnit} Auto Adjust mode -> %{Coordinator_autoAdjustScope}
1750	Review Easy setup parameters : %[L]{PositionProcessing_actuatorType} -> %{PositionProcessing_actuatorType} %[L]{out1ExhaustPosition} -> %{out1ExhaustPosition} Dispaly value -> %{selectedPV} Electronic temperature unit -> %{ElectronicServices_electronicTemperatureUnit} Auto Adjust mode -> %{Coordinator_autoAdjustScope}
1751	Failed to send Easy setup parameters to device !
1752	Failed to send the Universal input unit to device !
1753	Would You like to perform Auto Adjust
1754	Select %[L]{out1ExhaustPosition}
1755	Reset travel counter ?
1756	Travel counter reseted !
1757	Reset Movement Counter ?
1758	Movement counter reseted !
1759	CAUTION !! - All device parameters are set to the factory settings, User specific settings are lost
1760	Continue;Exit
1761	Factory setting is in progress...
1762	Set %[L]{Pressure_pressureAlarmLimits_0}
1763	Set %[L]{Pressure_pressureAlarmLimits_1}
1764	Review Pressure limits : %[L]{Pressure_pressureAlarmLimits_0} -> %{Pressure_pressureAlarmLimits_0} %{Pressure_pressureUnit} %[L]{Pressure_pressureAlarmLimits_1} -> %{Pressure_pressureAlarmLimits_1} %{Pressure_pressureUnit}
1765	Review %[L]{ValveDiagnosis_valveTravelCounterLimit} : %[L]{ValveDiagnosis_valveTravelCounterLimit} -> %{ValveDiagnosis_valveTravelCounterLimit}
1766	Review %[L]{ValveDiagnosis_valveCycleCounterLimit} : %[L]{ValveDiagnosis_valveCycleCounterLimit} -> %{ValveDiagnosis_valveCycleCounterLimit}
1767	Set Valve mounting Time Hours (0~24)(HH)
1768	hh_0
1769	Set Valve mounting Time Minutes(MM)
1770	mm_0
1771	Set Valve mounting Time Seconds(SS)
1772	ss_0
1773	Review Valve mounting date : Valve mounting date -> %{DiagnosisServices_valveMountingTimeStamp_day} Valve mounting time -> %[02d]{hh_0}:%[02d]{mm_0}:%[02d]{ss_0}
1774	Set Host date
1775	Set Host Time Hours (0~24)(HH)
1776	Set Host Time Minutes(MM)
1777	Set Host Time Seconds(SS)
1778	Review Host Time : Host date -> %{DiagnosisServices_hostTimeStamp_day} Host time -> %[02d]{hh_0}:%[02d]{mm_0}:%[02d]{ss_0}
1779	Reset Diagnosis History ?
1780	Reset Alarm History ?
1781	Review Readback Characteristic values : %[L]{readbackCharacteristics} -> %{readbackCharacteristics}
1782	Set %[L]{lock_device_code}
1783	Review %[L]{ValveDiagnosis_positioningTimeLimit} : %[L]{ValveDiagnosis_positioningTimeLimit} -> %{ValveDiagnosis_positioningTimeLimit} sec
1784	Do you want to switch the HART Protocol Revision ?
1785	Currently the HART Protocol Revision support by Device is %{hartCmdRev}
1786	Only posibility to Switch the Device to HART Prtocol Revision is 7 Continue ?
1787	Failed to change the HART Protocol Revision to 7
1788	You have successfully changes the HART Protocol Revision to 7, but changes will only be affected when you perform a Power recycle (Device reset), Press OK/Next button to perform the Device Reset Reopen the Application to work further !
1789	Only posibility to Switch the Device to HART Prtocol Revision is 5 Continue ?
1790	Failed to change the HART Protocol Revision to 5
1791	You have successfully changes the HART Protocol Revision to 5, but changes will only be affected when you perform a Power recycle (Device reset), Press OK/Next button to perform the Device Reset Reopen the Application to work further !
1792	Review %[L]{ProcessIO_aoActing} : %[L]{ProcessIO_aoActing} -> %{ProcessIO_aoActing}
1793	Set %[L]{Controller_adaptionSwitch}
1794	Review control mode setting : %[L]{Controller_adaptionSwitch} -> %{Controller_adaptionSwitch}
1795	Set %[L]{ipvmUpKpLimits_0}
1796	Set %[L]{ipvmUpKpLimits_1}
1797	Review KP UP Limit values : %[L]{ipvmUpKpLimits_0} -> %{ipvmUpKpLimits_0} %[L]{ipvmUpKpLimits_1} -> %{ipvmUpKpLimits_1}
1798	Set %[L]{ipvmDnKpLimits_0}
1799	Set %[L]{ipvmDnKpLimits_1}
1800	Review KP Down Limit values : %[L]{ipvmDnKpLimits_0} -> %{ipvmDnKpLimits_0} %[L]{ipvmDnKpLimits_1} -> %{ipvmDnKpLimits_1}
1801	Set %[L]{ipvmUpOffsetLimits_0}
1802	Set %[L]{ipvmUpOffsetLimits_1}
1803	Review Offset Up Limit values : %[L]{ipvmUpOffsetLimits_0} -> %{ipvmUpOffsetLimits_0} %[L]{ipvmUpOffsetLimits_1} -> %{ipvmUpOffsetLimits_1}
1804	Set %[L]{ipvmDnOffsetLimits_0}
1805	Set %[L]{ipvmDnOffsetLimits_1}
1806	Review Offset Down Limit values : %[L]{ipvmDnOffsetLimits_0} -> %{ipvmDnOffsetLimits_0} %[L]{ipvmDnOffsetLimits_1} -> %{ipvmDnOffsetLimits_1}
1807	Set %[L]{ipvmUpTvLimits_0}
1808	Set %[L]{ipvmUpTvLimits_1}
1809	Review TV Up Limit values : %[L]{ipvmUpTvLimits_0} -> %{ipvmUpTvLimits_0} %[L]{ipvmUpTvLimits_1} -> %{ipvmUpTvLimits_1}
1810	Set %[L]{ipvmDnTvLimits_0}
1811	Set %[L]{ipvmDnTvLimits_1}
1812	Review TV Down Limit values : %[L]{ipvmDnTvLimits_0} -> %{ipvmDnTvLimits_0} %[L]{ipvmDnTvLimits_1} -> %{ipvmDnTvLimits_1}
1813	Set %[L]{zeroPositionLimit}
1814	Review Zero Point Deviation : %[L]{zeroPositionLimit} -> %{zeroPositionLimit}
1815	Set %[L]{DiagnosisServices_diagnosisTimeLatch}
1816	Review Time Latch time : %[L]{DiagnosisServices_diagnosisTimeLatch} -> %{DiagnosisServices_diagnosisTimeLatch}
1817	Find Control Parameters to be saved in Device : %[L]{Controller_pidParKPup} -> %{Controller_pidParKPup} %[L]{Controller_pidParKPdown} -> %{Controller_pidParKPdown} %[L]{Controller_pidParTVup} -> %{Controller_pidParTVup} %[L]{Controller_pidParTVdown} -> %{Controller_pidParTVdown} %[L]{IpConverter_ipOffsetVenting} -> %{IpConverter_ipOffsetVenting} %[L]{IpConverter_ipOffsetExhaust} -> %{IpConverter_ipOffsetExhaust} %[L]{Controller_deadband} -> %{Controller_deadband} %[L]{Controller_parS0} -> %{Controller_parS0} %[L]{Controller_parN} -> %{Controller_parN}
1818	Select archive no, where you want to save this dataset...
1819	Archive 1;Archive 2;Archive 3;Archive 4;Archive 5
1820	Set PC Date
1821	Set PC Time Hours (0~24)(HH)
1822	Set PC Time Minutes(MM)
1823	Set PC Time Seconds(SS)
1824	hh_1
1825	mm_1
1826	ss_1
1827	hh_2
1828	mm_2
1829	ss_2
1830	hh_3
1831	mm_3
1832	ss_3
1833	hh_4
1834	mm_4
1835	ss_4
1836	Please wait data is saving to Device...
1837	Data has been successfully saved into Device !!
1838	Please wait, data is retrieving from device archived database!
1839	Select from list to retrieve archived control parameter data : Archive 1 -> %{CrtlParamArchiveDate_0} %[02d]{hh_0}:%[02d]{mm_0}:%[02d]{ss_0} Archive 2 -> %{CrtlParamArchiveDate_1} %[02d]{hh_1}:%[02d]{mm_1}:%[02d]{ss_1} Archive 3 -> %{CrtlParamArchiveDate_2} %[02d]{hh_2}:%[02d]{mm_2}:%[02d]{ss_2} Archive 4 -> %{CrtlParamArchiveDate_3} %[02d]{hh_3}:%[02d]{mm_3}:%[02d]{ss_3} Archive 5 -> %{CrtlParamArchiveDate_4} %[02d]{hh_4}:%[02d]{mm_4}:%[02d]{ss_4}
1840	Find all archived values for Archive 1 %[L]{Controller_pidParKPup} -> %{ControlParameterArchive_0} %[L]{Controller_pidParKPdown} -> %{ControlParameterArchive_1} %[L]{Controller_pidParTVup} -> %{ControlParameterArchive_2} %[L]{Controller_pidParTVdown} -> %{ControlParameterArchive_3} %[L]{IpConverter_ipOffsetVenting} -> %{ControlParameterArchive_4} %[L]{IpConverter_ipOffsetExhaust} -> %{ControlParameterArchive_5} %[L]{Controller_deadband} -> %{ControlParameterArchive_6} %[L]{Controller_parS0} -> %{ControlParameterArchive_7} %[L]{Controller_parN} -> %{ControlParameterArchive_8} Want to apply this archived value
1841	Find all archived values for Archive 2 %[L]{Controller_pidParKPup} -> %{ControlParameterArchive_9} %[L]{Controller_pidParKPdown} -> %{ControlParameterArchive_10} %[L]{Controller_pidParTVup} -> %{ControlParameterArchive_11} %[L]{Controller_pidParTVdown} -> %{ControlParameterArchive_12} %[L]{IpConverter_ipOffsetVenting} -> %{ControlParameterArchive_13} %[L]{IpConverter_ipOffsetExhaust} -> %{ControlParameterArchive_14} %[L]{Controller_deadband} -> %{ControlParameterArchive_15} %[L]{Controller_parS0} -> %{ControlParameterArchive_16} %[L]{Controller_parN} -> %{ControlParameterArchive_17} Want to apply this archived value
1842	Find all archived values for Archive 3 %[L]{Controller_pidParKPup} -> %{ControlParameterArchive_18} %[L]{Controller_pidParKPdown} -> %{ControlParameterArchive_19} %[L]{Controller_pidParTVup} -> %{ControlParameterArchive_20} %[L]{Controller_pidParTVdown} -> %{ControlParameterArchive_21} %[L]{IpConverter_ipOffsetVenting} -> %{ControlParameterArchive_22} %[L]{IpConverter_ipOffsetExhaust} -> %{ControlParameterArchive_23} %[L]{Controller_deadband} -> %{ControlParameterArchive_24} %[L]{Controller_parS0} -> %{ControlParameterArchive_25} %[L]{Controller_parN} -> %{ControlParameterArchive_26} Want to apply this archived value
1843	Find all archived values for Archive 4 %[L]{Controller_pidParKPup} -> %{ControlParameterArchive_27} %[L]{Controller_pidParKPdown} -> %{ControlParameterArchive_28} %[L]{Controller_pidParTVup} -> %{ControlParameterArchive_29} %[L]{Controller_pidParTVdown} -> %{ControlParameterArchive_30} %[L]{IpConverter_ipOffsetVenting} -> %{ControlParameterArchive_31} %[L]{IpConverter_ipOffsetExhaust} -> %{ControlParameterArchive_32} %[L]{Controller_deadband} -> %{ControlParameterArchive_33} %[L]{Controller_parS0} -> %{ControlParameterArchive_34} %[L]{Controller_parN} -> %{ControlParameterArchive_35} Want to apply this archived value
1844	Find all archived values for Archive 5 %[L]{Controller_pidParKPup} -> %{ControlParameterArchive_36} %[L]{Controller_pidParKPdown} -> %{ControlParameterArchive_37} %[L]{Controller_pidParTVup} -> %{ControlParameterArchive_38} %[L]{Controller_pidParTVdown} -> %{ControlParameterArchive_39} %[L]{IpConverter_ipOffsetVenting} -> %{ControlParameterArchive_40} %[L]{IpConverter_ipOffsetExhaust} -> %{ControlParameterArchive_41} %[L]{Controller_deadband} -> %{ControlParameterArchive_42} %[L]{Controller_parS0} -> %{ControlParameterArchive_43} %[L]{Controller_parN} -> %{ControlParameterArchive_44} Want to apply this archived value
1845	You are about to reset configuration flag.
1846	Aborting method due to last error.
1847	Configuration flag removed.
1848	Would you like to Perform Squawk ?
1849	Squawk;Exit
1850	Please wait squawking is in process...
1851	Set %[L]{ValveDiagnosis_PressFrictLimit_0}
1852	Set %[L]{ValveDiagnosis_PressFrictLimit_1}
1853	Set %[L]{ValveDiagnosis_PressFrictLimit_2}
1854	Set %[L]{ValveDiagnosis_PressFrictLimit_3}
1855	Set %[L]{ValveDiagnosis_PressFrictLimit_4}
1856	Set %[L]{ValveDiagnosis_PressFrictLimit_5}
1857	Set %[L]{ValveDiagnosis_PressFrictLimit_6}
1858	Set %[L]{ValveDiagnosis_PressFrictLimit_7}
1859	Set %[L]{ValveDiagnosis_PressFrictLimit_8}
1860	Set %[L]{ValveDiagnosis_PressFrictLimit_9}
1861	Set %[L]{ValveDiagnosis_PressFrictLimit_10}
1862	Review friction alarm limits : %[L]{ValveDiagnosis_PressFrictLimit_0} -> %{ValveDiagnosis_PressFrictLimit_0} %[L]{ValveDiagnosis_PressFrictLimit_1} -> %{ValveDiagnosis_PressFrictLimit_1} %[L]{ValveDiagnosis_PressFrictLimit_2} -> %{ValveDiagnosis_PressFrictLimit_2} %[L]{ValveDiagnosis_PressFrictLimit_3} -> %{ValveDiagnosis_PressFrictLimit_3} %[L]{ValveDiagnosis_PressFrictLimit_4} -> %{ValveDiagnosis_PressFrictLimit_4} %[L]{ValveDiagnosis_PressFrictLimit_5} -> %{ValveDiagnosis_PressFrictLimit_5} %[L]{ValveDiagnosis_PressFrictLimit_6} -> %{ValveDiagnosis_PressFrictLimit_6} %[L]{ValveDiagnosis_PressFrictLimit_7} -> %{ValveDiagnosis_PressFrictLimit_7} %[L]{ValveDiagnosis_PressFrictLimit_8} -> %{ValveDiagnosis_PressFrictLimit_8} %[L]{ValveDiagnosis_PressFrictLimit_9} -> %{ValveDiagnosis_PressFrictLimit_9} %[L]{ValveDiagnosis_PressFrictLimit_10} -> %{ValveDiagnosis_PressFrictLimit_10}
1863	Set %[L]{ValveDiagnosis_PressStictLimit_0}
1864	Set %[L]{ValveDiagnosis_PressStictLimit_1}
1865	Set %[L]{ValveDiagnosis_PressStictLimit_2}
1866	Set %[L]{ValveDiagnosis_PressStictLimit_3}
1867	Set %[L]{ValveDiagnosis_PressStictLimit_4}
1868	Set %[L]{ValveDiagnosis_PressStictLimit_5}
1869	Set %[L]{ValveDiagnosis_PressStictLimit_6}
1870	Set %[L]{ValveDiagnosis_PressStictLimit_7}
1871	Set %[L]{ValveDiagnosis_PressStictLimit_8}
1872	Set %[L]{ValveDiagnosis_PressStictLimit_9}
1873	Set %[L]{ValveDiagnosis_PressStictLimit_10}
1874	Review friction alarm limits : %[L]{ValveDiagnosis_PressStictLimit_0} -> %{ValveDiagnosis_PressStictLimit_0} %[L]{ValveDiagnosis_PressStictLimit_1} -> %{ValveDiagnosis_PressStictLimit_1} %[L]{ValveDiagnosis_PressStictLimit_2} -> %{ValveDiagnosis_PressStictLimit_2} %[L]{ValveDiagnosis_PressStictLimit_3} -> %{ValveDiagnosis_PressStictLimit_3} %[L]{ValveDiagnosis_PressStictLimit_4} -> %{ValveDiagnosis_PressStictLimit_4} %[L]{ValveDiagnosis_PressStictLimit_5} -> %{ValveDiagnosis_PressStictLimit_5} %[L]{ValveDiagnosis_PressStictLimit_6} -> %{ValveDiagnosis_PressStictLimit_6} %[L]{ValveDiagnosis_PressStictLimit_7} -> %{ValveDiagnosis_PressStictLimit_7} %[L]{ValveDiagnosis_PressStictLimit_8} -> %{ValveDiagnosis_PressStictLimit_8} %[L]{ValveDiagnosis_PressStictLimit_9} -> %{ValveDiagnosis_PressStictLimit_9} %[L]{ValveDiagnosis_PressStictLimit_10} -> %{ValveDiagnosis_PressStictLimit_10}
1875	Find values of KP Up KP Up (Actual) -> %{Controller_pidParKPup} KP Up (Ref) -> %{ipvmReference_0}
1876	Copy from KP Up (Actual);Set manually
1877	Set %[L]{ipvmReference_0}
1878	Find values of KP Down KP Down (Actual) -> %{Controller_pidParKPdown} KP Down (Ref) -> %{ipvmReference_1}
1879	Copy from KP Down (Actual);Set manually
1880	Set %[L]{ipvmReference_1}
1881	Find values of Y Offset Up Y Offset Up (Actual) -> %{IpConverter_ipOffsetVenting} Y Offset Up (Ref) -> %{ipvmReference_4}
1882	Copy from Y offset up (Aactual);Set manually
1883	Set %[L]{ipvmReference_4}
1884	Find values of Y Offset Down Y Offset Down (Actual) -> %{IpConverter_ipOffsetExhaust} Y Offset Down (Ref) -> %{ipvmReference_5}
1885	Copy from Y offset down (Actual);Set manually
1886	Set %[L]{ipvmReference_5}
1887	Find values of TV Up Y TV Up (Actual) -> %{Controller_pidParTVup} Y TV Up (Ref) -> %{ipvmReference_2}
1888	Copy from TV Up (Actual);Set manually
1889	Set %[L]{ipvmReference_2}
1890	Find values of TV Down Y TV Down (Actual) -> %{Controller_pidParTVdown} Y TV Down (Ref) -> %{ipvmReference_3}
1891	Copy from TV Down (Actual);Set manually
1892	Set %[L]{ipvmReference_3}
1893	Set %[L]{ValveDiagnosis_stepResponseRange_0}
1894	Set %[L]{ValveDiagnosis_stepResponseRange_1}
1895	Set %[L]{ValveDiagnosis_valueBufferSampleTime}
1896	Review step response parameter settings %[L]{ValveDiagnosis_stepResponseRange_0} -> %{ValveDiagnosis_stepResponseRange_0} %[L]{ValveDiagnosis_stepResponseRange_1} -> %{ValveDiagnosis_stepResponseRange_1} %[L]{ValveDiagnosis_valueBufferSampleTime} -> %{ValveDiagnosis_valueBufferSampleTime}
1897	Review Switch 1 settings : %[L]{ProcessIO_switchingPoint1} -> %{ProcessIO_switchingPoint1} %[L]{ProcessIO_switch1Trigger} -> %{ProcessIO_switch1Trigger}
1898	Review Switch 2 settings : %[L]{ProcessIO_switchingPoint2} -> %{ProcessIO_switchingPoint2} %[L]{ProcessIO_switch2Trigger} -> %{ProcessIO_switch2Trigger}
1899	Configure UAI during Zero point test ?
1900	Configure Pressure Y2 ?
1901	Device Status : OK
1902	Device Status : Check function
1903	Device Status : Off Specification
1904	Device Status : Maintenance Required
1905	Device Status : Failure
1906	C A U T I O N !! - This function should not be started during normal system operation, as it can interfere with the process. Please wait until progress reached 100 % and Test status is Ready, Stop test button have been provided to stop this operation.
1907	Please wait test is running...
1908	Please wait test is exiting...
1909	Please wait, it may take several minutes to transfer all parameter values
1910	Set %[L]{valveSignatureSteps}
1911	Review steps setting; %[L]{valveSignatureSteps} -> %{valveSignatureSteps}
1912	Please wait data is retrieving from device...
1913	Select from list to retrieve archived data : Archive 1 -> %{ArrlocvalueBufferDateDate[0]} %[02d]{hh_0}:%[02d]{mm_0}:%[02d]{ss_0} Archive 2 -> %{ArrlocvalueBufferDateDate[1]} %[02d]{hh_1}:%[02d]{mm_1}:%[02d]{ss_1} Archive 3 -> %{ArrlocvalueBufferDateDate[2]} %[02d]{hh_2}:%[02d]{mm_2}:%[02d]{ss_2} Archive 4 -> %{ArrlocvalueBufferDateDate[3]} %[02d]{hh_3}:%[02d]{mm_3}:%[02d]{ss_3} Archive 5 -> %{ArrlocvalueBufferDateDate[4]} %[02d]{hh_4}:%[02d]{mm_4}:%[02d]{ss_4}
1914	This archived is empty, no trend will be drawn
1915	Select archived position, where you want to save data
1916	Set the PC date
1917	Please wait data is storing into device...
1918	Find Air capacity settings %[L]{valueBufferIPFactor} -> %{valueBufferIPFactor} %[L]{valueBufferVelocityScale} -> %{valueBufferVelocityScale}
1919	Continue;Modify
1920	Set %[L]{valueBufferIPFactor}
1921	Set %[L]{valueBufferVelocityScale}
1922	Review settings %[L]{valueBufferIPFactor} -> %{valueBufferIPFactor} %[L]{valueBufferVelocityScale} -> %{valueBufferVelocityScale}
1923	Ok;Re-enter
1924	Failed to set the Offline diagnosis mode of device to Valve seat test !
1925	Failed to set the User mode of device to Diagnosis procedure !
1926	Test result -> %{ValveDiagnosis_offlineDiagnosis}
1927	Set %[L]{ValveDiagnosis_zeroPointPositionTolerance_0}
1928	Set %[L]{ValveDiagnosis_zeroPointPositionTolerance_1}
1929	Review Acceptable Tolerance : Acceptable tolerance Min %{ValveDiagnosis_zeroPointPositionTolerance_0} % Max%{ValveDiagnosis_zeroPointPositionTolerance_1} % Select
1930	Set %[L]{ValveDiagnosis_zeroPointUAITolerance_0}
1931	Set %[L]{ValveDiagnosis_zeroPointUAITolerance_1}
1932	Review Acceptable Tolerance : Acceptable Universal Input Min %{ValveDiagnosis_zeroPointUAITolerance_0} % Max%{ValveDiagnosis_zeroPointUAITolerance_1} % Select
1933	C A U T I O N !! - This function should only be started during normal system operation if you are completely sure that immobilization of the valve or slight valve movements cannot interfere with the process.
1934	Failed to set the offline diagnosis mode to lekage test !
1935	C A U T I O N ! This function should only be started during normal system operation if you are completely sure that the step change being executed cannot interfere with the process.
1936	Review Existing Partial Stroke Configuration data : %[L]{ValveDiagnosis_partialStrokeInterval} -> %{ValveDiagnosis_partialStrokeInterval} days %[L]{ValveDiagnosis_partialStrokeMovement} -> %{ValveDiagnosis_partialStrokeMovement} % %[L]{partialStrokeDeadTime} -> %{partialStrokeDeadTime} Sec
1937	Re-configure;Continue
1938	%[L]{ValveDiagnosis_partialStrokeInterval}
1939	%[L]{ValveDiagnosis_partialStrokeMovement}
1940	%[L]{partialStrokeDeadTime}
1941	Failed to start the Partial stroke via EDD !
1942	Last test result : Last test -> %{ojbLastTest} days Test result -> %{partialStrokeState} Next test in -> %{objNextTestIn} days
1943	Review Test Interval : %[L]{ValveDiagnosis_partialStrokeInterval} -> %{ValveDiagnosis_partialStrokeInterval} Select to
1944	Review Vent Amount : %[L]{ValveDiagnosis_partialStrokeMovement} -> %{ValveDiagnosis_partialStrokeMovement} Select to
1945	Continue;Re-Enter
1946	Set %[L]{partialStrokeTimeOut}
1947	Set %[L]{partialStrokeDeadTime}
1948	Review Positioning Timeout Parameters : %[L]{partialStrokeTimeOut} -> %{partialStrokeTimeOut} %[L]{partialStrokeDeadTime} -> %{partialStrokeDeadTime} Select to
1949	C A U T I O N ! This function should only be started during normal system operationif you are completely sure that the step change being executed cannot interfere with the process.
1950	Review Existing Partial Stroke Configuration data : %[L]{ValveDiagnosis_partialStrokeInterval} -> %{ValveDiagnosis_partialStrokeInterval} days %[L]{ValveDiagnosis_partialStrokeMovement} -> %{ValveDiagnosis_partialStrokeMovement} % %[L]{partialStrokeTimeOut} -> %{partialStrokeTimeOut} Sec
1951	%[L]{partialStrokeTimeOut}
1952	Partial Stroke Test is exiting...
1953	Partial stroke test result : %[L]{partialStrokeState} -> %{partialStrokeState} Time to complete test (Days) -> %{PSTDays}
1954	Temperature endless values are reseted !!
1955	Temperature days values are reseted !!
1956	Temperature hours values are reseted !!
1957	Supply pressure hours values are reseted !!
1958	Universal input hours values are reseted !!
1959	Control deviation hours values are reseted !!
1960	Differential pressure hours values are reseted !!
1961	Time window set : Days -> %{CalDays} Days Hours -> %{CalHrs} Hours
1962	Change;Reset;Exit
1963	Are You sure ? all data will be deleted !!
1964	Edit time window (days)
1965	CalDays
1966	Edit time window (hours)
1967	CalHrs
1968	Review time window configuration : Days -> %{CalDays} Hours -> %{CalHrs}
1969	Are You sure ? all histogram data will be deleted !!
1970	Successfully Executed All histogram data will be deleted !
1971	Time window setings for average control deviation : Days -> %{CalDaysdiag} Days Hours -> %{CalHrsdiag} Hours Time window settings for rest of all trends : Days -> %{CalDays} Days Hours -> %{CalHrs} Hours
1972	Change time window (Average control dev);Change time window (Rest all);Reset (Average control dev);Reset (Rest all);Exit
1973	CalDaysdiag
1974	CalHrsdiag
1975	Review time window configuration Days -> %{CalDaysdiag} Hours -> %{CalHrsdiag}
1976	Review time window configuration Days -> %{CalDays} Hours -> %{CalHrs}
1977	Are You sure ? all average control deviation data will be deleted !!
1978	Are You sure ? all trend data (except average control deviation) will be deleted !!
1979	Are You sure ? Hours trend data will be deleted !!
1980	Are You sure ? days trend data will be deleted !!
1981	Are You sure ? endless trend data will be deleted !!
Reference ID	String