Device dictionary

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Reference ID	String
0	4301
1	Write protect Mode- Indicates whether variables can be written the Field Device, or whether commands that cause actions, to be performed in the Field Device, can or cannot occur.
2	Not Write Protected
3	Write Protected
4	Not Used
5	None
6	Special
7	Tag:
8	Descriptor:
9	Date (MM/DD/YY):
10	Message:
11	Circuit serial number
12	ASSEMBLY
13	The number that is written on the iden- tification plate of the transmitter. This number must be altered every time that the main board is changed, in order to avoid digital communication pro- blems
14	DEV_ID
15	4mA
16	20mA
17	Is very similar to Lower trim, but it assumes that the applied pressure is zero.The user does not have to enter any value
18	Zero Pressure
19	PV
20	.3f
21	.2f
22	.1f
23	.f
24	.4g
25	.3g
26	.4f
27	.5f
28	.6f
29	.7f
30	URL
31	LRL
32	Lo=
33	Up=
34	Damp. =
35	4.2f
36	PV%
37	Remote Seal Quant:
38	One
39	Two
40	Press.Unit=
41	Function =
42	Linear
43	Sqr
44	Sqr**3
45	Sqr**5
46	Table
47	Sqr&Table
48	Sqr**3&Table
49	Sqr**5&Table
50	Flange Type:
51	Conventional
52	Coplanar
53	Remote_Seal
54	Lvl_3in_150lb
55	Lvl_4in_150lb
56	Lvl_3in_300lb
57	Lvl_4in_300lb
58	Lvl_DN80_PN25/40
59	Lvl_DN100_PN25/40
60	Lvl_DN100_PN10/16
61	Lvl_2in_150lb
62	Lvl_2in_300lb
63	Lvl_DN50_PN10/16
64	Lvl_DN50_PN25/40
65	Lvl_DN80_PN10/16
66	O_Ring Material:
67	PTFE
68	Viton
69	Buna-N
70	Ethyl-Prop
71	Integral Meter:
72	Installed
73	Remote Seal Type:
74	Chemical_Tee
75	Flanged_Extend
76	Pancake
77	Flanged
78	Threaded
79	Sanitary
80	Sanitary_Tank_Spud
81	Union_Connection
82	Sensor Fluid:
83	Silicone
84	Inert
85	Fluorolube
86	OUT
87	Is used to trim the reading at the lower range.The user informs the transmit -ter the correct rea -ding for the apllied pressure via HTT.
88	Lower Pressure
89	Is used to trim the reading at the upper range.The user informs the transmitter the correct reading for the apllied pressure via HTT.
90	Upper Pressure
91	Lo Point
92	Up Point
93	The serial number of the sensor connected to 4301 and can not be changed
94	SENSOR
95	Sensor Type:
96	Differential (D)
97	Gauge (M)
98	Absolute (A)
99	High Line Pressure (H)
100	Liquid Level (L)
101	Draft Range
102	H.T.G (T)
103	Flange Material:
104	Carbon_Steel
105	Undefined
106	316_Stainless_Steel
107	Hastelloy_C
108	Monel
109	Tantalum
110	Drain/Vent Mtrl:
111	Remote Seal Diaphr:
112	Sensor Iso Diaphr:
113	Gold/Monel
114	Local Adj.
115	Enable
116	Disable
117	UpScale
118	DownScale
119	Fail_Safe
120	INFO
121	CONF
122	Range...
123	MONIT
124	TEST
125	Remote Seal Fill Fluid- Fluid that transmitts the pres- sure from the remote seal diaphragm to the transmitter dia- phragm.
126	Remote Seal Fluid:
127	Syltherm_800
128	Glycerin/H2O
129	Prop_Gly/H2O
130	Neobee-M20
131	Module Range Code- code that tells the measurement range of the transmitter.
132	Sensor Range:
133	R1
134	20 inH2O 5kPa
135	R2
136	200 inH2O 50 kPa
137	R3
138	1000 inH2O 250 kPa
139	R4
140	360 psi 2.5 MPa
141	R5
142	3600 psi 25 MPa
143	R6
144	5800 psi 40 MPa
145	Sensor temperature- temperature of the pressure sensor.
146	TEMP
147	degC
148	Sensor temperature -engineering unit associated with the sensor temperature.
149	Snsr temp unit
150	Sensor temperature
151	unit associated with the sensor temperature
152	value
153	value associated with the sensor temperature
154	Dynamic variables- Primary variable: Pressure. Secondary Variable- secondary variable: Sensor Temperature.
155	Input coordinate -percent pressure measured
156	X(1)=
157	6.2f
158	%
159	X(2)=
160	X(3)=
161	X(4)=
162	X(5)=
163	X(6)=
164	X(7)=
165	X(8)=
166	X(9)=
167	X(10)=
168	X(11)=
169	X(12)=
170	X(13)=
171	X(14)=
172	X(15)=
173	X(16)=
174	Output coordinate -percent reading of indirect measurement corresponding to percent measured.
175	Y(1)=
176	Y(2)=
177	Y(3)=
178	Y(4)=
179	Y(5)=
180	Y(6)=
181	Y(7)=
182	Y(8)=
183	Y(9)=
184	Y(10)=
185	Y(11)=
186	Y(12)=
187	Y(13)=
188	Y(14)=
189	Y(15)=
190	Y(16)=
191	X(1)
192	Table point 1, percent pressure.
193	X(2)
194	Table point 2, percent pressure.
195	X(3)
196	Table point 3, percent pressure.
197	X(4)
198	Table point 4, percent pressure.
199	X(5)
200	Table point 5, percent pressure.
201	X(6)
202	Table point 6, percent pressure.
203	X(7)
204	Table point 7, percent pressure.
205	X(8)
206	Table point 8, percent pressure.
207	X(9)
208	Table point 9, percent pressure.
209	X(10)
210	Table point 10, percent pressure.
211	X(11)
212	Table point 11, percent pressure.
213	X(12)
214	Table point 12, percent pressure.
215	X(13)
216	Table point 13, percent pressure.
217	X(14)
218	Table point 14, percent pressure.
219	X(15)
220	Table point 15, percent pressure.
221	X(16)
222	Table point 16, percent pressure.
223	Y(1)
224	Table point 1, percent reading.
225	Y(2)
226	Table point 2, percent reading.
227	Y(3)
228	Table point 3, percent reading.
229	Y(4)
230	Table point 4, percent reading.
231	Y(5)
232	Table point 5, percent reading.
233	Y(6)
234	Table point 6, percent reading.
235	Y(7)
236	Table point 7, percent reading.
237	Y(8)
238	Table point 8, percent reading.
239	Y(9)
240	Table point 9, percent reading.
241	Y(10)
242	Table point 10, percent reading.
243	Y(11)
244	Table point 11, percent reading.
245	Y(12)
246	Table point 12, percent reading.
247	Y(13)
248	Table point 13, percent reading.
249	Y(14)
250	Table point 14, percent reading.
251	Y(15)
252	Table point 15, percent reading.
253	Y(16)
254	Table point 16, percent reading.
255	CONTROLLER TYPE -The type of control al- gorithm determines if proportional, in- tegral and derivati- ve contribution act on error or on the process variable
256	PID type
257	PID
258	P,I and D act on error
259	PI.D
260	P and I act on error, D acts on PV
261	P.ID
262	P acts on error, I and D act on PV
263	POWER-UP MODE -The mode in which the controller will be when power once a- gain is applied af- ter a power inter- ruption
264	Power_On is
265	AUTOMATIC
266	LAST
267	The last mode A or M before power-off
268	MANUAL
269	CONTROL ACTION -The direction of the ac- tion that the con- troller takes on the output: Direct -a decreasing PV gives a decreasing MV, Re- verse -an increasing PV gives decreasing MV
270	Output Action
271	REVERSE
272	DIRECT
273	Not in Controller Mode
274	DEVICE MODE -The op- eration mode of the device, essentially the function of the 4-20 mA output: Transmitter mode -the output responds directly to the ap- plied process. Con- troller mode -the output responds to the PID control al- gorithm.
275	Operation Mode
276	Controller
277	Transmitter
278	SETPOINT -The con- trol target for the process variable, which is reached by the controller's ma- nipulation of the output
279	SP
280	5.2f
281	PROCESS VARIABLE -The controlled var- iable of the con- troller. It may rep- resent measurements like level, flow and volume, indirectly obtained by convert- ing measured pres- sure by means of the transfer function.
282	MANIPULATED VARIABLE -The output of the controller in per- cent. It is limited according to the configuration of MV low limit and MV high limit.
283	MV
284	SETPOINT TRACKING mode -The state of the setpoint track- ing: On the setpoint tracks the process variable, control must be in manual mode. Off -setpoint remains at the value adjustable by the user.
285	SP tracking is
286	On
287	Off
288	Control mode -The state of the con- troller: Automatic -MV is manipulated by the controller. Manual -MV remains at the value adjust- able by the user.
289	A/M
290	Automatic
291	Manual
292	Error -The deviation between the setpoint and the process var- iable in percentage of range
293	ER%
294	Set Point Tracking is ON and Controller Mode is Manual
295	in Automatic Mode
296	PROPORTIONAL GAIN -The gain of the proportional contri- bution of the con- trol algorithm.
297	Kp =
298
299	INTEGRAL TIME -The gain of the integral contribution of the control algorithm.
300	Tr =
301	min/rep
302	DERIVATIVE TIME -The gain of the deriva- tive contribution of the control algo- rithm.
303	Td =
304	s
305	MV HIGH LIMIT -The maximum value to which MV should be allowed to go. This range is physically limited: 0% (4 mA) to 106.25% (21 mA)
306	High limit
307	MV LOW LIMIT -The minimum value to which MV should be allowed to go. This range is physically limited: -0.625% (3.9 mA) to 100.00% (20 mA)
308	Low limit
309	MV RATE-OF-CHANGE LIMIT -the maximum (absolute) rate of change of the MV
310	Out Chg/s
311	POWER-UP SETPOINT -the value in per- cent which the set- point will assume when power once a- gain is applied af- ter a power inter- ruption
312	Power-up SP%
313	POWER-UP MV -the value in percent which the manipu- lated variable will assume when a device failure is detected or when power once again is applied af- ter a power inter- ruption
314	Safety out
315	Set Point is On and PID Mode is Manual
316	Cutoff point -used in flow applications with square-root transfer function to disable the square root extraction for values below this low flow cutoff point
317	Cutoff=
318	3.2f
319	Cutoff mode -The mode by which the flow between 0% and the cutoff point is calculated: Hard -flow is 0%, Bumpless -flow is linearily inter- polated
320	Cutoff mode
321	Hard
322	Bumpless
323	Not in Square Root Function
324	sensor char trim mode -The mode in which the character- ization is enabled or disabled
325	char_mode
326	Enabled
327	Disabled
328	P1=
329	P2=
330	P3=
331	P4=
332	P5=
333	Characterization trim mode -the mode of the user charac- terization trim function. Enabled -the user character- ization trim comple- ments the sensor characterization. Disabled -only the sensor characteriza- tion is used.
334	Char. Trim Mode
335	Pm(1)
336	Trim point , measured pressure.
337	Pa(1)
338	Trim point , actual applied pressure.
339	Pm(2)
340	Pa(2)
341	Pm(3)
342	Pa(3)
343	Pm(4)
344	Pa(4)
345	Pm(5)
346	Pa(5)
347	Characterization Curve Disable
348	None Characterization Curve Configured
349	First indication -the first of the two variables that are indicated in the local display.
350	First Var.=
351	MV%
352	PRES
353	SP%
354	TOT
355	Second indication -the first of the two variables that are indicated in the local display.
356	Second Var.=
357	NONE
358	Change counter range -counts the number of changes made to the range (Lower or upper value).
359	LRV/URV
360	3u
361	Change counter func- tion -counts the number of changes made to the transfer function.
362	Function
363	Change counter, trim 4 mA -counts the number of trims made to the 4 mA point of the output current.
364	Trim 4mA
365	Change counter, trim 20 mA -counts the number of trims made to the 20 mA point of the output cur- rent.
366	Trim 20mA
367	Change counter, trim lower -counts the number of trims made to the lower point of the pressure in- put (lower or zero trim).
368	Trim lower
369	Change counter, trim upper -counts the number of trims made to the upper point of the pressure in- put.
370	Trim upper
371	Change counter, mode -counts the number of changes made to the operation mode (transmitter / con- troller).
372	XMTR/PID
373	Change counter, characterization -counts the number of trims made to the characterization of the pressure input.
374	Trim Char.
375	Change counter, lo- cal adjustment -counts the number of times the commu- nication write pro- tection has been changed
376	Write Protect
377	Change counter, multidrop -counts the number of changes made to the communication mode (multidrop / single unit).
378	Multidrop
379	Change counter, password -counts the number of changes made to the pass- words or password configuration levels
380	Pswd/C.Level
381	Change counter, to- tal -counts the num- ber of changes made to the totalizer configuration, or resets; manual or power-off.
382	Totalization
383	Ordering code -the ordering code of the device, should be maintained to match the current hardware configuration
384	CODE#
385	password for level_1
386	LEVEL_1
387	password for level_2
388	LEVEL_2
389	password for level_3
390	LEVEL_3
391	password
392	password
393	level password
394	LEVEL_PASSWORD
395	Process variable unit -The engineer- ing unit associated with the controller process variable and setpoint
396	User unit string
397	User unit
398	User unit mode -The state of the func- tion that generates a user configured engineering unit process variable from the percentage value obtained when the transfer func- tion is applied to the measured pres- sure.
399	User unit is
400	ON
401	OFF
402	user value lower -Lower range of the process variable. The value which is desired for PV when the applied pres- sure is 0% of the pressure range
403	0%
404	user value upper -Upper range of the process variable. The value which is desired for PV when the applied pressure is 100% of the pres- sure range
405	100%
406	Totalizer mode -The state of the func- tion that generates a total integrated from the value ob- tained when the transfer function is applied to the meas- ured pressure.
407	Total is
408	Total Unit
409	Total -The value in- tegrated from the value obtained when the transfer func- tion is applied to the measured pres- sure.
410	Total
411	u
412	Max flow -The flow value corresponding to 100% measured pressure. Used to obtain the total. In units of volume or mass per second.
413	Max flow =
414	Total conversion factor -a devision factor for the to- talized value Used to obtain the total, for a desierd period without over-run
415	U_Total =
416	Totalization Function is Enable
417	Totalization Function is Enabled
418	Total unit -The en- gineering unit asso- ciate with the total obtained by the to- talizer
419	Unit String
420	Polynomial Version Incorrect
421	Sensor EEPROM Write Failure
422	ONLINE SINGLE UNIT
423	ON LINE MULTIDROP
424	Sensor Range
425	Lo
426	Up
427	Table Points...
428	Display
429	User Unit...
430	CNTRL
431	INDIC.
432	TUNING
433	SAF_LIMIT
434	OP_MODE
435	TRIM
436	PRESSURE
437	CURRENT
438	Characteriz.Points
439	MAINT
440	CONF_LEVEL
441	Password level required for access to info
442	LEVEL_OF_INFO
443	Password level required for access to conf
444	LEVEL_OF_CONF
445	Password level required for access to monit
446	LEVEL_OF_MONIT
447	Password level required for access to cntrl
448	LEVEL_OF_CNTRL
449	Password level required for access to trim
450	LEVEL_OF_TRIM
451	Password level required for access to maint
452	LEVEL_OF_MAINT
453	Password level required for access to total
454	LEVEL_OF_TOTAL
455	Password level required for access to load
456	LEVEL_OF_LOAD
457	PASSWORD
458	FORMAT
459	SERIAL#
460	OP_COUNT
461	BACKUP
462	WRITE_PROTECT
463	TOTAL
464	Total unit
465	Change total unit
466	Change User unit
467	Write variables
468	Commands the 4301 electronics to per- form a selftest. Re- ports any errors that occured.
469	Master reset
470	Commands the 4301 electronics to reset and perform a self- test. Reports any errors that occured.
471	Reset_Totalization
472	Commands the Total- ization to reset.
473	Read_from_Sensor
474	Read the sensor mem- ory data to the op- erating memory.
475	Write_on_Sensor
476	Write the operating memory data in the sensor memory.
477	Full_Read_Sensor
478	Transfer data from sensor to operating memory
479	Characteriz._Trim
480	Characterization of the sensor curve.
481	Abort Characterization
482	WITHOUT_REFERENCE
483	WITH_REFERENCE
484	Return loop to auto
485	NEW
486	EDIT
487	SP_Tracking is
488	Totalization is
489	Damp.
490	FLOW
491	SPEED
492	VOLUME
493	LEVEL
494	MASS
495	MASS_FLOW
496	DENSITY
497	MISC.
498	NO_UNIT
499	SPECIAL
500	Select address
501	FMU860
502	DT
503	DVC
504	FCX
505	AS800
506	340T
507	340C
508	344
509	Siemens Micro K
510	SITRANS L
511	SIPAN PH
512	SITRANS P
513	75SMT
514	UNIDELTA
515	8320
516	SX5100
517	TSV175
518	DMU
519	3780
520	BM70
521	8u
522	low
523	high
524	tmp_av
525	Field Device Variable Unit- Engineering unit to be displayed with the Digital Value representation, Minimum Span, Upper Range Value, Lower Range Value, Lower Sensor Limit, and Upper Sensor Limit. Pressure- Pressure of the process measured with respect to a reference pressure.
526	Field Device Variable Value- Digital value that changes magnitude with respect to time with no user intervention. Pressure- Pressure of the process measured with respect to a reference pressure.
527	Percent of Range- Variable that tracks the Digital Value representation with respect to the range defined by the Lower Range Value and Upper Range Value, for normal operating modes. The units of this variable are always in percent. Pressure- Pressure of the process measured with respect to a reference pressure.
528	Sensor Limit Units and Minimum Span Units- Engineering unit to be displayed with the Upper Sensor Limit, Lower Sensor Limit, and Minimum Span. Pressure- Pressure of the process measured with respect to a reference pressure.
529	Upper Sensor Limit Value- Defines the maximum useable value for the Upper Range Value. Pressure- Pressure of the process measured with respect to a reference pressure.
530	Lower Sensor Limit Value- Defines the minimum useable value for the Lower Range Value. Pressure- Pressure of the process measured with respect to a reference pressure.
531	Minimum Span Value- Defines the smallest allowable difference between the Upper Range Value and the Lower Range Value. Pressure- Pressure of the process measured with respect to a reference pressure.
532	Pres xfer fnctn
533	Transfer Function- Defines the transformation function that will be applied from the Field Device Variable to the Analog Output, and Percent Range. The Transfer Function does not affect the Digital Value representation. Pressure- Pressure of the process measured with respect to a reference pressure.
534	Range Unit- Engineering unit to be displayed with the Upper Range Value and Lower Range Value. Pressure- Pressure of the process measured with respect to a reference pressure.
535	Upper Range Value- Defines the operational endpoint from which the Analog Value, and the 100% point of the Percent Range are derived. In addition, the Upper Range Value defines an operational endpoint which the alarms associated with the Analog Value, and the alarms associated with the Digital Value representation are derived. Pressure- Pressure of the process measured with respect to a reference pressure.
536	Lower Range Value- Defines the operational endpoint from which the Analog Value, and the 0% point of the Percent Range are derived. In addition, the Lower Range Value defines an operational endpoint which the alarms associated with the Analog Value, and the alarms associated with the Digital Value representation are derived. Pressure- Pressure of the process measured with respect to a reference pressure.
537	Damping Value- Damping time constant applied to both the Digital Value representation and Analog Value of the respective Analog Output. The units of this variable are always in seconds. Pressure- Pressure of the process measured with respect to a reference pressure.
538	Flange Type- Hardware, adjacent to the sensor, that physically connects the process to the sensor. Pressure- Pressure of the process measured with respect to a reference pressure.
539	O Ring Material- Construction material of a seal that exists between the module and flange.
540	Meter Installation- Defines whether there is a meter installed or not and possibly what information the meter will display.
541	Remote Seal Type- Type of device that is capable of detecting and passing on the process pressure on to the module. This is only unambiguous if 1 remote seal is installed.
542	Sensor Fill Fluid- Fluid material in the module.
543	Number of Remote Seals- Physical quantity of the seals for the remote seal that is installed.
544	Send warning
545	Send Warning- Yields a units code notice to the User.
546	Variables which use this as the units code will be in the previous units until this value is sent to the device.
547	Analog Output Value- Value that tracks the Digital Value representation, under normal operating modes. Analog Output- Measureable physical output which changes with respect to time, without user intervention.
548	5.3f
549	Analog Output Alarm Type- Defines how the Analog Output will respond when the Field Device detects that the Analog Output may not be tracking the associated Field Device Variable. NOTE- The Digital Value representation may not be determinate. Analog Output- Measureable physical output which changes with respect to time, without user intervention.
550	Sensor Serial Number- Uniquely identifies the sensor from which the Digital Value representation or Field Device variable is primarily derived. Pressure Sensor- Pressure hardware that measures pressure with respect to a reference pressure.
551	Measurement Type- Type of measurement application this Field Device is intended to be used with.
552	Lower Sensor Trim Point- Applied process pressure at which the last low sensor trim was performed. Pressure Sensor- Pressure hardware that measures pressure with respect to a reference pressure.
553	6.4f
554	Upper Sensor Trim Point- Applied process pressure at which the last upper sensor trim was performed. Pressure Sensor- Pressure hardware that measures pressure with respect to a reference pressure.
555	Flange Material- Construction material of flange type.
556	Remote Seal Isolator Material- Construction material of a part of the remote seal type that comes in contact with the process material. This is only unambiguous if 1 remote seal is installed.
557	Sensor Isolator Material- Construction material of a part of the module type that comes in contact with the process material.
558	Local Keys Control Mode- Controls the mode of the User Interface keys on the Field Device.
559	Drain Vent Material- Construction material of a removable plug that exists on the flange type that can be opened temporarily to remove unwanted process from the sensor area.
560	Pressure Sensor Lower Trim- Calibrate the pressure sensor.
561	Apply low pressure
562	Press OK when pressure is stable
563	Enter applied pressure value
564	trim_point
565	Remove pressure
566	Pressure Sensor Upper Trim- Calibrate the pressure sensor.
567	Apply hi pressure
568	Exit Trim Mode- Notifies the User that the trim is finished.
569	Trim was not done
570	Device maybe stuck in selftest.
571	Self test OK
572	Master reset OK
573	Transfer data from sensor to operating memory ?
574	Yes;No
575	Transfer data from operating memory to sensor ?
576	This Function alters XMTR characteristics. Proceed ? Y/N
577	Is XMTR connected to accurate pressure standard ? Y/N
578	Apply pressure on sensor & wait 15s.
579	P1 = %{0} %{1} Is Press Stable ? Y/N
580	YES;NO-READ AGAIN
581	Enter LINE PRESSURE P1
582	p_actual
583	P2 = %{0} %{1} Is Press Stable ? Y/N
584	Enter LINE PRESSURE P2
585	P2 < P1, Invalid value!
586	More Points ? Y/N
587	P3 = %{0} %{1} Is Press Stable ? Y/N
588	Enter LINE PRESSURE P3
589	P3 < P2, Invalid value!
590	P4 = %{0} %{1} Is Press Stable ? Y/N
591	Enter LINE PRESSURE P4
592	P4 < P3, Invalid value!
593	P5 = %{0} %{1} Is Press Stable ? Y/N
594	Enter LINE PRESSURE P5
595	P5 < P4, Invalid value!
596	Activate ? Y/N
597	Activate? Y/N
598	Control Loop should be in manual !
599	Range Limits: Lo= %0 %2 Up= %1 %2
600	Enter Lower
601	lower
602	Invalid value !
603	Loop may be returned to Auto !
604	Apply lower range pressure and wait few seconds
605	Set line pressure as lower range ? Y/N
606	Enter Upper
607	upper
608	Apply upper range pressure and wait few seconds
609	Set line pressure as upper range ? Y/N
610	Do you want to configure more points?
611	Do you want to configure more points?
612	Save these points?
613	They will be lost. Proceed?
614	Do you want to edit more points?
615	SP_Tracking is On.Turn it Off?Y/N
616	SP_Tracking is Off.Turn it On?Y/N
617	Function= Linear. Change it?Y/N
618	Function= Sqr. Change it?Y/N
619	Function= Sqr**3. Change it?Y/N
620	Function= Sqr**5. Change it?Y/N
621	Function= Table. Change it?Y/N
622	Function= Sqr&Table. Change it?Y/N
623	Function= Sqr**3&Table. Change it?Y/N
624	Function= Sqr**5&Table. Change it?Y/N
625	Function= Const. Change it?Y/N
626	Control Loop should be in Manual !
627	Select from list:
628	Linear;SQR;SQR3;SQR5;TABLE;SQR&TABLE;SQR3&TABLE;SQR5&TABLE;CONST
629	Enter current value 3.9 =< I(mA) =< 21
630	Enter current value I(mA):
631	current
632	Exit const curr?Y/N
633	Control Loop may be in Auto!
634	Totalization is ON.Turn it OFF?Y/N
635	YES;NO
636	Totalization is OFF.Turn it ON?Y/N
637	Damp.(s)= %{0}
638	Change it?Y/N
639	Valid Range 0 =< Damp =< 32 s
640	Damp.(s) =
641	new_value
642	Select from list.
643	inH20;inHg;ftH20;mmH20;mmHg;psi;bar;mbar;g/cm2;K/cm2;Pa;KPa;Torr;atm;MPa;inH20 @ 4 DegC;mmH20 @ 4 DegC
644	ft3/m;gal/m;l/min;Gal/min;m3/h;ft/s;m/s;gal/s;l/s;Ml/d;ft3/s;ft3/d;m3/s;m3/d;Gal/h;Gal/d;
645	ft/s;m/s;m/h
646	gal;liter;Gal;m3;bbl;in;cm;mm;bush;Yd3;ft3;In3;ht
647	ft;meter;in;cm;mm
648	g;Kg;ton;lb;ShTon;LTon
649	g/s;g/min;g/h;Kg/s;Kg/m;Kg/h;Kg/d;Ton/m;Ton/h;Ton/d;lb/s;lb/m;lb/h;lb/d
650	SGU;g/cm3;Kg/m3;g/ml;Kg/l;g/l;Twad;Brix;Baumh;BauhL;API;%solW;%solV;Ball;%plaT
651	cSo;cPo;%
652	Enter password:
653	No other transmitter on the same line - regardless of range, model and type - should have the same address.
654	Before changing the address to a transmitter, select Configure Communic., on Utility menu, and after, Polling.
655	After the HCF-275 has identified the transmitters on the line, select again this menu and change the desired address.
656	After select ON LINE MULTIDROP menu.
657	Proceed? Y/N
658	When in PID Operation Mode, the current output will not be sent to 4mA as soon as the transmitter address is changed.
659	Choose new address:
660	AD_0;AD_1;AD_2;AD_3;AD_4;AD_5;AD_6;AD_7;AD_8;AD_9;AD_10;AD_11;AD_12;AD_13;AD_14;AD_15
661	Control Loop should be in MANUAL!
662	Remove pressure from sensor & wait 15s
663	Pressure Applied: P(inH2O)= %{0}
664	Pressure Applied: P(inHg)= %{0}
665	Pressure Applied: P(ftH2O)= %{0}
666	Pressure Applied: P(mmH2O)= %{0}
667	Pressure Applied: P(mmHg)= %{0}
668	Pressure Applied: P(psi)= %{0}
669	Pressure Applied: P(bar)= %{0}
670	Pressure Applied: P(mbar)= %{0}
671	Pressure Applied: P(g/cm2)= %{0}
672	Pressure Applied: P(K/cm2)= %{0}
673	Pressure Applied: P(Pa)= %{0}
674	Pressure Applied: P(Kpa)= %{0}
675	Pressure Applied: P(Torr)= %{0}
676	Pressure Applied: P(atm)= %{0}
677	Is it correct?
678	Control Loop may be in AUTO!
679	Control loop should be in MANUAL !
680	Insert multimeter on line / test point
681	Is the line current 4.00 mA?
682	Enter line current I(mA)=
683	Is the line current 20.00 mA?
684	Loop may be returned to AUTO !
685	Apply pressure on sensor & wait 15s
686	Enter pressure value
Reference ID	String