Device dictionary

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Reference ID	String
0	Optiflex 1300C
1	KROHNE
2	Polling Address
3	Any Hart address greater than 0 will enable Hart multidrop mode(current output fixed at 4 mA).
4	TAG Number
5	An individually assigned identification number of the instrument (TAG Number) can be seen and updated using this menu item.
6	Upper Current output1 has saturated
7	Upper Current output2 has saturated
8	Lower Current output1 has saturated
9	Lower Current output2 has saturated
10	Level measurement Low
11	Interface measurement Low
12	Layer measurement Low
13	Reference Pulse Low
14	Flange Pulse Lost
15	Level Pulse Lost
16	Interface Pulse Lost
17	Probe End Pulse Lost
18	Parasite Pulse Near Flange
19	Parasite Pulse Found
20	Epsilon R Out Of Range
21	Deposit Factor Out Of Range
22	Electronic Offset Out Of Range
23	Temperature Out Of Range
24	Level Measurement High
25	Interface Measurement High
26	Reference Pulse Lost
27	Not defined
28	Self Test Failed
29	Level Measurement Lost
30	Interface Measurement Lost
31	Time Out Measurement Cycle
32	Tank Overfill
33	Reference Pulse Lost Max Count
34	Front End Out Of Order
35	Time Base Faulty
36	5 Volts Faulty
37	Dependency failure
38	Access level failure
39	Max range failure
40	Min range failure
41	Config manager busy
42	Invalid config parameter
43	Update not possible
44	Device busy
45	Calculated Er Not Available
46	Access Restricted
47
48	<Process Variables>
49	<Measurements>
50	<Input/Outputs>
51	<Output1>
52	<Output2>
53	<Test>
54	<Information>
55	<Output 1>
56	<Output 2>
57	<Device ID>
58	<Quick Setup Summary>
59	<Installation Setup Summary>
60	<Application Setup Summary>
61	<Access Rights>
62	<HART Variables>
63	<Field Software Rev>
64	<Service Variables>
65	<Service Parameters>
66	<Pulse Search Area>
67	<Calibration Parameters>
68	<Maintenance Info>
69	<Configuration Variables>
70	<Installation Parameters>
71	<Units For Tables>
72	<Reset>
73	Application Setup
74	Probe Type is the mechanical design of the sensor.The factory installed Probe Type is displayed.Choice depends on the application{Refer product documentation}.
75	Write Measuring Mode
76	Write Output1 Range
77	Write Conversion Unit
78	Write Product Density
79	Customer Reset
80	All the configuration parameters with supervisor rights get set to their factory default values and your changes will be lost for all such parameters.
81	Device Restart
82	This is a warm start of the instrument. In case the device is not functioning properly, this command will restart the device.
83	Factory Reset
84	All the configuration parameters in the device will get set to their factory default values and your changes will be lost.
85	Supervisor Password
86	Service Password
87	Write Tertiary Function
88	Write Fourth Function
89	Internal Test
90	Initiates the hardware test. The instrument performs the self/hardware test and displays the results.
91	Volume/Mass Table
92	The number of value pairs for conversion needs to be specified and the values have to be entered here.
93	Linearisation Table
94	The number of value pairs for linearisation needs to be specified and the values have to be entered here. Can increase accuracy via on-site calibration.
95	Delete Tables
96	Deletes volume/mass and linearisation tables.
97	Set Output1
98	Sets present output 1 to a predefined value[mA]. Please select from the list. Output will change to selected value, independent of measurement value.
99	Set Output2
100	Sets present output 2 to a predefined value[mA]. Please select from the list. Output will change to selected value, independent of measurement value.
101	Output1 Calib. Lower
102	Output1 Calib. Upper
103	Output2 Calib. Lower
104	Output2 Calib. Upper
105	Calculated Er Value
106	Dielectric constant [Er] is a major parameter for TDR level measurement devices. This device can automatically calculate Er of the top product.
107	Write Output2 Range
108	Level Threshold
109	This function enables distinction between disturbances in the measurement signal and the actual level signal.
110	Interface Threshold
111	This function enables distinction between disturbances in the measurement signal and the actual interface signal.
112	Probe End Threshold
113	This function enables distinction between disturbances in the measurement signal and the actual probe end signal.
114	Reference Threshold
115	Dependency Warning Message
116	Snapshot Recording
117	Auto Probe Length Calculation
118	Save Device Parameters
119	After modifying and sending the configuration, it is necessary to save these changes by performing this function.
120	<Write Variables>
121	Analog Output1 Unit
122	Displays present output 1 value[mA]
123	Level I1
124	Distance I1
125	Volume I1
126	Mass I1
127	Layer I1
128	Intr Vol I1
129	Intr Lev I1
130	Intr Dist I1
131	Layer Vol I1
132	Ullage Mass I1
133	Ullage Vol I1
134	.2f
135	%Level
136	%Distance
137	%Volume
138	%Mass
139	%Layer
140	%Intr Vol
141	%Intr Lev
142	%Intr Dist
143	%Layer Vol
144	%Ullage Mass
145	%Ullage Vol
146	Scale I max
147	mm
148	cm
149	m
150	in
151	ft
152	m3
153	L
154	US gal
155	GB gal
156	ft3
157	bbl
158	Kg
159	Tons
160	US Tons
161	GB Tons
162	0.6f
163	Scale I min
164	Analog Output1 Min Max Unit
165	Analog Output2 Unit
166	Displays present output 2 value[mA]
167	Level I2
168	Distance I2
169	Volume I2
170	Mass I2
171	Layer I2
172	Intr Vol I2
173	Intr Lev I2
174	Intr Dist I2
175	Layer Vol I2
176	Ullage Mass I2
177	Ullage Vol I2
178	Scale II max
179	Scale II min
180	Analog Output2 Min Max Unit
181	Time Constant
182	This function integrates several measurement readings, to filter out disturbances. Increasing the time constant[s] will smoothen the integrated readings, decreasing will roughen the readings.
183	Error Handling Delay
184	Length Unit
185	This function sets units for all measurements and
186	in(ft-in-1/16in)
187	in(ft-in-1/32in)
188	Distance Unit
189	Custom. Length Unit
190	This creates the name for the custom length unit. Select each character by scrolling down a list.
191	Custom. Conv Unit
192	This creates the name for the custom conversion unit. Select each character by scrolling down a list.
193	Custom. Length Ratio
194	Enter the factor between the length unit and the custom length unit set in previous functions.
195	5d
196	Length Display Format
197	Default (2 digits)
198	0 digs after point
199	1 dig after point
200	3 digs after point
201	4 digs after point
202	5 digs after point
203	Exponential format
204	Auto
205	Level
206	.1f
207	.4f
208	.5f
209	Mass
210	Ullage Mass
211	Distance
212	Volume Unit
213	Ullage Volume Unit
214	Mass Unit
215	Ullage Mass Unit
216	Volume Display Format
217	Volume
218	.3f
219	Ullage Volume
220	8u
221	Upper Limit
222	Lower Limit
223	Mass Span
224	Layer
225	Interface Level
226	Interface Distance
227	Interface Volume
228	Layer Volume
229	Ullage Mass Span
230	Min Span
231	Upper Sensor Limit
232	Lower Sensor Limit
233	Sensor Minimum Span
234	Current I
235	Current II
236	Parameter Address
237	Primary Variable Code
238	Secondary Variable Code
239	Tertiary Function
240	Fourth Function
241	Primary Variable Unit
242	Ftin32
243	Feet Inchs 32ths
244	Secondary Variable Unit
245	Tertiary Variable Unit
246	Fourth Variable Unit
247	Secondary Function
248	Tank Height
249	Tank Height is the distance from the tank connecting flanges top edge/thread stop down to the bottom of the tank.
250	Stillwell Height
251	Defines the height from the tank connecting flange's top edge/thread stop down to the end of the tube.
252	Stillwell Diameter
253	Defines the inner diameter of the tube.
254	Measuring Mode
255	The device is capable of detecting level readings utilizing different methods. Automatic mode selection is sufficient for most applications. Direct mode is suitable for Er=x.xx depending on probe type For products with Er less than x.xx, TBF mode is required.TBF Mode is not available for interface applications.
256	Automatic
257	Direct
258	TBF
259	Output Range
260	4-20mA
261	3.8-20.5mA-Namur
262	Length Unit
263	Pick the length unit to be displayed from the list.
264	Pick the volume unit to be displayed from the list.
265	Pick the mass unit to be displayed from the list.
266	Table Length Unit
267	Conversion Unit
268	Pick the conversion unit to be displayed from the list. The device can perform volume & mass conversion operations. If a mass conversion unit is directly selected here, a mass conversion table will be created (volume conversion will then not be possible). If a volume conversion unit is selected here, a volume conversion table will be created. This volume conversion table together with a product density greater than 0, could also be used to calculate mass.
269	Primary Function
270	You can set the output function for output 1 (HART), scale the current values and change HART settings.
271	Blocking Distance
272	The blocking distance defines the non-measuring range at the top of the probe.It depends on the installed probe type and installation type.
273	Reference Offset
274	Offset relating to a reference location (distance). This value shifts the reference point of the device to an external reference location. This value is positive when the reference location is above the device flange face and negative if below.
275	Tank Bottom Offset
276	Offset relating to a reference location (level). This value shifts the reference point of the device to an external reference location. The device reference point for this parameter is the bottom of the tank, related to xxxxx 'Tank height'. This value is positive when the reference location is below the tank bottom and negative if above.
277	Product Density
278	The device can perform volume and mass conversion operations. A volume conversion table together with a product density greater than 0, could be used to calculate mass. If a mass conversion unit has already been directly selected, this menu is disabled. A density of 0 disables the mass calculation.
279	Kg/m3
280	sec
281	d
282	Distance 4 mA
283	Assigns a measurement value to 4 mA.
284	Distance 20 mA
285	Assigns a measurement value to 20 mA.
286	Volume 4 mA
287	Volume 20 mA
288	Level 4 mA
289	Level 20 mA
290	Ullage Volume 4 mA
291	Ullage Volume 20 mA
292	Mass 4 mA
293	Mass 20 mA
294	Ullage Mass 4 mA
295	Ullage Mass 20 mA
296	Error Handling
297	Defines the behavior of the current output in case an error occurs. Various possibilities can be picked.
298	22.0 mA
299	3.6 mA
300	22.0mA
301	Hold
302	Language
303	Sets the language for readings and configuration.
304	ENGLISH
305	FRENCH
306	SPANISH
307	PORTUGUESE
308	GERMAN
309	ITALIAN
310	JAPANESE
311	MANDARIN
312	RUSSIAN
313	Order Number
314	Ex Approval
315	Version Number
316	Service Number
317	Main CPU Version
318	Comp. CPU Version
319	DSP Active Firmware Version
320	Offset Converter
321	Service Date
322	Operator Name
323	Par Address
324	4d
325	Level,1
326	Volume,1
327	Level,2
328	Volume,2
329	Level,3
330	Volume,3
331	Level,4
332	Volume,4
333	Level,5
334	Volume,5
335	Level,6
336	Volume,6
337	Level,7
338	Volume,7
339	Level,8
340	Volume,8
341	Level,9
342	Volume,9
343	Level,10
344	Volume,10
345	Level,11
346	Volume,11
347	Level,12
348	Volume,12
349	Level,13
350	Volume,13
351	Level,14
352	Volume,14
353	Level,15
354	Volume,15
355	Level,16
356	Volume,16
357	Level,17
358	Volume,17
359	Level,18
360	Volume,18
361	Level,19
362	Volume,19
363	Level,20
364	Volume,20
365	Level,21
366	Volume,21
367	Level,22
368	Volume,22
369	Level,23
370	Volume,23
371	Level,24
372	Volume,24
373	Level,25
374	Volume,25
375	Level,26
376	Volume,26
377	Level,27
378	Volume,27
379	Level,28
380	Volume,28
381	Level,29
382	Volume,29
383	Level,30
384	Volume,30
385	Level,31
386	Volume,31
387	Level,32
388	Volume,32
389	Level,33
390	Volume,33
391	Level,34
392	Volume,34
393	Level,35
394	Volume,35
395	Level,36
396	Volume,36
397	Level,37
398	Volume,37
399	Level,38
400	Volume,38
401	Level,39
402	Volume,39
403	Level,40
404	Volume,40
405	Level,41
406	Volume,41
407	Level,42
408	Volume,42
409	Level,43
410	Volume,43
411	Level,44
412	Volume,44
413	Level,45
414	Volume,45
415	Level,46
416	Volume,46
417	Level,47
418	Volume,47
419	Level,48
420	Volume,48
421	Level,49
422	Volume,49
423	Level,50
424	Volume,50
425	First two bytes In response
426	Last two bytes In response
427	Command Sequence no
428	Data Size To Transfer
429	Table ID
430	Table Type
431	Data Size
432	Linearisation Point
433	Probe Type
434	Single Cable 4
435	Single Cable 8
436	Single Rod 8
437	Double Cable 4
438	Double Rod 8
439	Coaxial
440	Probe Length
441	Probe length is the distance from the flange face/thread stop of the device down to the bottom end of the probe (including counterweight for cable versions). If probe length has been modified, enter the new value here.
442	Sensor Length
443	Probe length is the distance from the flange face/thread stop of the device down to the bottom end of the probe (including counterweight for cable versions). The factory set value for probe length is displayed. If probe length has been modified, the new value will be displayed here, after entering it in xxxxxxx.
444	Calculated Er
445	Gas Er
446	Dielectric constant [Er] is a major parameter for TDR level measurement devices. This manually sets the Er value of the air/gas inside the tank.
447	Detection Delay
448	Length Attenuation
449	dB/m
450	Mech Attenuation
451	Intr Min Layer
452	Global Search Cycles
453	cycles
454	Peak Detect Count
455	Pulse Loss Tolerance
456	Empty Area
457	Full Area
458	Elect Calib Ratio
459	us/m
460	Mech Calib Ratio
461	Nozzle Height
462	Nozzle Diameter
463	Product Er
464	Dielectric constant [Er] is a major parameter for TDR level measurement devices. This manually sets the Er value of the product for interface applications or when using TBF mode.
465	Layer 4 mA
466	Layer 20 mA
467	Intr Level 4 mA
468	Intr Level 20 mA
469	Intr Volume 4 mA
470	Intr Volume 20 mA
471	Intr Distance 4 mA
472	Intr Distance 20 mA
473	Layer Vol 4 mA
474	Layer Vol 20 mA
475	Counterweight Type
476	Counterweight type is the mechanical design of cable probes' end. The device will not measure below the top of the counterweight. The factory installed counterweight type is displayed. Choice depends on the application (see product documentation for further details).
477	None
478	20X100
479	Chuck
480	12X100
481	38X60
482	38X245
483	Turnbuckle
484	Threaded End
485	Crimped End
486	Open End
487	Application Mode
488	Depending on the actual application conditions and the required measurement functionality, the device will apply the optimal measurement algorithm.
489	Level Air 1 Liquid
490	Level Air >1 Liquids
491	Level Air Solid
492	Interface 2 Liquids
493	Interface >2 Liquids
494	Interface Air 2 Liquids
495	Interface Air >2 Liquids
496	Interface Inverted Er
497	Level + Interface Air 2 Liquids
498	Level + Interface Air >2 Liquids
499	Product Separation
500	Yes
501	No
502	Probe Coating
503	None
504	FEP
505	PVDF
506	PVC
507	Probe End Pulse
508	0
509	-1
510	1
511	Snapshot Activation
512	Auto Calc Er
513	Linearity Activation
514	Air Flag
515	No Air Gap
516	Air Gap
517	Product Type
518	Solid
519	Liquid
520	Product
521	Acids
522	Alcohol
523	Base
524	Hydrocarbon
525	Liquid Gas
526	Mineral Oil
527	Solvent
528	Aqueous Solution
529	Other
530	Cereals
531	Mineral
532	Plastic
533	Application Type
534	Interface
535	Level + Interface
536	Installation Type
537	Defines the type of tank mounting for the device.
538	Socket
539	Nozzle
540	Stillwell
541	Entire Tank Full
542	Entire Tank Empty
543	Probe End (No Pulse)
544	Mix Flag
545	Unmixed
546	Mixed
547	Number Of Products
548	2
549	>2
550	Interface Enable
551	Output2 Status
552	This Parameter indicates the presence of the Passive Output.
553	Absent
554	Present
555	Defines the behavior of the current output in case error occurs.Various possibilities can be picked.
556	Current Threshold Parameter
557	Current Gain Parameter
558	Current Distance
559	Amplitude
560	Threshold Gain Int Value
561	Threshold Gain h
562	Threshold Gain l
563	Gain
564	Current Measurand
565	Pulse Status
566	Lost
567	Measured
568	Small Amplitude
569	Output2 Index
570	Default
571	Conversion Flag
572	This Parameter decides the enumerated list available for Output Functions
573	Volume
574	Mass
575	Density + Mass
576	Free Unit
577	Password Status
578	Service Or Super
579	Snapshot Valid
580	FMU860
581	DT
582	DVC
583	FCX
584	AS800
585	340T
586	340C
587	344
588	Siemens Micro K
589	SITRANS L
590	SIPAN PH
591	SITRANS P
592	75SMT
593	UNIDELTA
594	8320
595	SX5100
596	TSV175
597	DMU
598	3780
599	BM70
600	Probe Type = %{0}
601	Which application do you have?
602	Solid;Liquid
603	Do You have air or gas above the product?
604	No Air Gap;Air Gap
605	How many different products do you have in your tank?
606	1;2;>2
607	2;>2
608	Top product
609	Acids;Alcohol;Base;Hydrocarbon;Liquid Gas;Mineral Oil;Solvent;Aqueous Solution;Other
610	What do you want to measure?
611	Level;Interface;Level+Interface
612	Are the products mixed or unmixed?
613	Unmixed;Mixed
614	Cereals;Minerals;Plastic;Other
615	Are you sure
616	No;Yes
617	Customer Reset Successful
618	Device Restarted
619	Factory Reset Successful
620	Enter Only Six Digit Password
621	Enter Password
622	password
623	Grater than six digits entered
624	Supervisor Password OK
625	Supervisor Password Invalid
626	Service Password OK
627	Service Password Invalid
628	Please press OK to continue Limited Self Test.....
629	Performing Self Test......
630	Device maybe stuck in Self Test.
631	Sensor Module ERROR
632	Self Not Started
633	Sensor Module OK
634	Current output Manager Error
635	Current Output Manager OK
636	HART Manager Error
637	HART Manager OK
638	LOG Manager Error
639	LOG Manager OK
640	HMI Manager Error
641	HMI Manager OK
642	GDC Bus Manager Error
643	GDC Bus Manager OK
644	Configuration Manager Error
645	Configuration Manager OK
646	GDC Telegram Error
647	Telegram Manager/Sys.Con. OK
648	Upgrade Manager Error
649	Upgrade Manager OK
650	Sensor Module OK HART Manager OK Configuration Manager OK
651	Upgrade Manager OK GDC Bus Manager OK Telegram Manager/Sys.Con OK
652	HMI Module OK Log Manager OK Current Output Manager OK
653	Reading data from device
654	Volume/Mass Table contains %{n} entries
655	-Volume/Mass Table- S.No. %{0} %{1} %{l_p1}. %{lf_Olevel} %{lf_Ovol}
656	-Volume/Mass Table- S.No. %{0} %{1} %{l_p1}. %{lf_Olevel} %{lf_Ovol} %{l_p2}. %{f_outl2} %{f_outv2}
657	Edit table
658	View/Edit
659	Next Entry;Previous Entry;Entry Number;Complete
660	Entry number
661	l_point_number
662	Enter value 1...50
663	Enter level%{l_point_number}(%{0})
664	lf_Olevel
665	Enter Volume/Mass%{l_point_number}(%{1})
666	lf_Ovol
667	Level must be greater than previous entry level
668	Volume/Mass must be greater than previous entry volume/mass
669	Length entered is more than tank height
670	Store table
671	Table entries are not in ascending order/nThe entries are not saved into device
672	Linearisation table contains %{n} entries
673	Linearisation(distance %{0}) S.No. Device Real %{l_p1}. %{lf_Olevel} %{lf_Ovol}
674	Linearisation(distance %{0}) S.No. Device Real %{l_p1}. %{lf_Olevel} %{lf_Ovol} %{l_p2}. %{f_outl2} %{f_outv2}
675	Enter distance: device%{l_point_number}(%{0})
676	Enter distance: real[%{l_point_number}](Unit: %{0})
677	Distance device must be greater than previous entry distance
678	Distance real must be greater than previous entry distance
679	Device Length entered is more than tank height / measuring range
680	Real Length entered is more than tank height / measuring range
681	Select from the list
682	Volume/Mass Table;Linearisation Table;Both Tables
683	Table selection error
684	Enter Current Output
685	3.6mA;4.0mA;6.0mA;8.0mA;10.0mA;12.0mA;14.0mA;16.0mA;18.0mA;20.0mA;22.0mA;Exit
686	Field device output is fixed to %[.1f]{fixed_current}mA
687	Setting Field Device to 5.7mA
688	Output1 Lower Calibration Point. Range [3-8]mA
689	Output1_Analog_Value_Local
690	Entered current is out of range.
691	Setting Field Device to 17.0mA
692	Output1 Upper Calibration Point. Range [14-20]mA
693	Output2 Lower Calibration Point. Range [3-8]mA
694	Output2_Analog_Value_Local
695	Output2 Upper Calibration Point. Range [14-20]mA
696	Calculated Er : %{Current_Calculated_Er}
697	Would you like to Edit 'Level Threshold' : %{amplitude1} V
698	Edit 'Level Threshold' :
699	amplitude1
700	Amp Out of Range: [%{amplitude1}] Range : [%{amplitude_range_l} - %{amplitude_range_h}] V Would you like to Exit?
701	Would you like to Edit 'Level Threshold Gain' : %{gain1}
702	Edit 'Level Threshold Gain' :
703	gain1
704	Gain Out of Range: [%{gain1}] Range : [%{gain_range_l} - %{gain_range_h}] Would you like to Exit?
705	Level Threshold Amplitude : %{amplitude1} V Gain : %{gain1}
706	Distance : %{distance} %{1} Amplitude : %{amplitude2} V Gain : %{gain2} Pulse Status : %{0}
707	Would you like to Edit 'Interface Threshold' : %{amplitude1} V
708	Edit 'Interface Threshold' :
709	Would you like to Edit 'Interface Threshold Gain' : %{gain1}
710	Edit 'Interface Threshold Gain' :
711	Interface Threshold Amplitude : %{amplitude1} V Gain : %{gain1}
712	Would you like to Edit 'Probe End Threshold' : %{amplitude1} V
713	Edit 'Probe End Threshold' :
714	Would you like to Edit 'Probe End Threshold Gain' : %{gain1}
715	Edit 'Probe End Threshold Gain' :
716	Probe End Threshold Amplitude : %{amplitude1} V Gain : %{gain1}
717	Amplitude : %{amplitude2} V Gain : %{gain2} Pulse Status : %{0}
718	Would you like to Edit 'Reference Threshold' : %{amplitude1} V
719	Edit 'Reference Threshold' :
720	Would you like to Edit 'Reference Threshold Gain' : %{gain1}
721	Edit 'Reference Threshold Gain' :
722	Reference Threshold Amplitude : %{amplitude1} V Gain : %{gain1}
723	Amplitude : %{amplitude2} V Gain : %{gain2} Pulse Status : %{0}
724	After editing,it's value & all dependent parameters will be set to default. To continue press Next or OK
725	Warning: The Snapshot function must be used only when the tank is empty.
726	Snapshot Start (Unit = Millimeters)
727	lSnapshotStart
728	Snapshot End (Unit = Millimeters)
729	lSnapshotEnd
730	Success
731	Snapshot Gain = %{0}
732	Do not forget to use the Snapshot Activation parameter.
733	Failure
734	Running...
735	This function has to be used when the probe length has been modified (probe shortened). Only use this function when the tank is empty, then the instrument will be able to measure its probe length automatically.
736	Calculated Probe Length = %{lval} mm
737	Save as new probe length ?
738	No ; Yes
739	Save parameters changes ?
Reference ID	String