Device dictionary

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Reference ID	String
0	ULM
1	ULM Radar Level Transmitter
2	LIMACO
3	LIMACO JSC
4	Serial Number
5	Dev. specific status 0
6	transient condition
7	Device is just powered on
8	Measuring unit fault
9	Measuring unit fault, further measurement is impossible. Repair is required.
10	Reflected signal too low
11	Reflected signal too low, An increased measurement error is possible. Check inclination from vertical axe and clear space between sensor and product surface
12	Short time instability
13	Long time instability
14	common instability
15	Vertical axis inclination
16	power supply voltage too low
17	Dev. specific status 1
18	Invalid inclinometer
19	Invalid temperature Readings
20	Temperature is out of range
21	Signal is lost
22	Device specific Event 12
23	Device specific Event 13
24	Device specific Event 14
25	Device specific Event 15
26	Dev. specific status 2
27	Device specific Event 16
28	Device specific Event 17
29	Device specific Event 18
30	Device specific Event 19
31	Device specific Event 20
32	Device specific Event 21
33	Device specific Event 22
34	Device specific Event 23
35	Hardware options 3
36	relay output optional Module is present
37	Real Time Clock is present
38	FRAM is present
39	SD card slot is present
40	FSK HART modem is present
41	wireless
42	IRDA module is present
43	BLUETOOTH Module is present
44	Hardware options 4
45	Inclinometer Module is present
46	Power Supply measuring Module is present
47	Internal Temperature measuring Module is present
48	optional Hardware Module 12 is present
49	optional Hardware Module 13 is present
50	optional Hardware Module 14 is present
51	optional Hardware Module 15 is present
52	optional Hardware Module 16 is present
53	Hardware options 5
54	optional Hardware Module 17 is present
55	optional Hardware Module 18 is present
56	optional Hardware Module 19 is present
57	optional Hardware Module 20 is present
58	type of measuring unit bit 0
59	type of measuring unit bit 1
60	type of measuring unit bit 2
61	type of measuring unit bit 3
62	Dummy sensor serial number
63	There is no sensor serial number, so this is dummy only
64	7d
65	Distance
66	Simulate
67	Update Period
68	Level
69	Level 2
70	Volume
71
72	Angle X
73	Angle Y
74	Temperature
75	Voltage
76	Distance Value
77	Measured Distance from Sensor to Product Surface
78	Level Value
79	Calculated Level from Tank bottom to Product Surface
80	Level2 Value
81	Volume Value
82	Calculated Volume of Product in Tank
83	Angle X Value
84	Measured Inclination between vertical Axis and Level Transmitter Axis in X Plane
85	Angle Y Value
86	Measured Inclination between vertical Axis and Level Transmitter Axis in Y Plane
87	Temperature Value
88	Measured Temperature inside the Level Transmitter
89	Voltage Value
90	Measured Power Supply Voltage
91	Distance units
92	Level units
93	Level_2_ units
94	Volume units
95	Angle units
96	Temperature units
97	Voltage units
98	Distance PDQ
99	Level PDQ
100	Level 2 PDQ
101	Volume PDQ
102	Angle X PDQ
103	Angle Y PDQ
104	Temperature PDQ
105	Voltage PDQ
106	Distance LS
107	Level LS
108	Level_2_ LS
109	Volume LS
110	Angle X LS
111	Angle Y LS
112	Temperature LS
113	Voltage LS
114	Distance classification
115	Level classification
116	Level 2 classification
117	Volume classification
118	Angle X classification
119	Angle Y classification
120	Temperature classification
121	Voltage classification
122	Distance upper sensor limit
123	Level upper sensor limit
124	Level 2 upper sensor limit
125	Volume upper sensor limit
126	Angle X upper sensor limit
127	Angle Y upper sensor limit
128	Temperature upper sensor limit
129	Voltage upper sensor limit
130	Distance lower sensor limit
131	Level lower sensor limit
132	Level_2_ lower sensor limit
133	Volume lower sensor limit
134	Angle X lower sensor limit
135	Angle Y lower sensor limit
136	Temperature lower sensor limit
137	Voltage lower sensor limit
138	Distance minimal span
139	Level minimal span
140	Level_2_ minimal span
141	Volume minimal span
142	Dummy minimal span
143	Distance damping Value
144	Level damping Value
145	Level_2_ damping Value
146	Volume damping Value
147	Dummy damping Value
148	Simulate Distance
149	Simulate Level
150	Simulate Level 2
151	Simulate Volume
152	Simulate Angle X
153	Simulate Angle Y
154	Simulate Temperature
155	Simulate Voltage
156	Distance Family status
157	Level Family status
158	Level 2 Family status
159	Volume Family status
160	Dummy Family status
161	Distance Update Period
162	Level Update Period
163	Level 2 Update Period
164	Volume Update Period
165	Dummy Update Period
166	internal variable index
167	internal variable Value
168	Device settings
169	Diagnostics
170	Operate
171	Analogue Output
172	Advanced Configuration
173	Advanced configuration for Device Start up and Commissioning
174	Advanced Configuration of Level Transmitter
175	Configuration
176	Configuration of Level Transmitter
177	Internal Array
178	View or change internal Array Values
179	Alarm Mask
180	Alarm Bit Mask. If any of selected bits is set, Alarm Bit will be set.
181	08X
182	More St. av. Mask
183	More Status avialable Bit Mask. If any of selected bits is set, More Status avialable Bit will be set.
184	Status
185	Status Masks
186	Ajust Status Masks
187	Hardware options
188	There are some hardware options, shown in that menu,that may present or absent in particular device.
189	Hart
190	Readings
191	Device identification
192	Device properties
193	Ack. more status
194	This Method allows to reset the more Status available Flag (bit 4 of dev. status byte)
195	Reset Configuration Changed Flag
196	This command resets the Configuration Changed Flag (bit 6 of dev. status byte), associated with the device issuing this command
197	Reset device
198	This command performs device reset
199	Array of internal Variables
200	Compressed Spectrum
201	View Values
202	Method to view Internal Array Values
203	Edit Value
204	Method to change Internal Array Values
205	Base Height
206	"Base Height" determines sensor Z value relative to the Tank lowest point. It is used in level calculation
207	Encode meters
208	Encode meters into the internal sensor representation
209	Decode meters
210	Decode meters from the internal sensor representation
211	Change Base Height
212	Base Height is a Distance between a sensor base plane and Tank Bottom
213	L min
214	L min is a Minimal Distance, taken into Account for Distance Measuring
215	.2f
216	5.2f
217	Change L min
218	L max
219	L max is a Maximal Distance, taken into Account for Distance Measuring
220	Change L max
221	Jump Timeout
222	Protective Timeout against abrupt change in level readings because of occasional loss of or change in echo signal
223	Set Jump Timeout
224	Minimum Signal
225	Minimum Signal Amplitude for level calculations
226	ADC Units
227	show Echo Amplitude Value
228	Amplitude of the Echo Signal, received by the Level Transmitter
229	PLL Errors
230	PLL Errors count during single measuring cycle in HF Unit of the Level Transmitter
231	Application
232	Sensor Application is one of: Water solution, acid - Agitator; Water solution, acid; Petrochemical, oil; Solid product - Crusher; Solid product;
233	Leave as is
234	Leave as is without changes
235	Water + Agitator
236	Water solution, acid - Agitator
237	Water, acid
238	Still Water solution, acid
239	Petrochemical
240	Petrochemical, oil
241	Solids + Crusher
242	Solid product + Crusher
243	Solid product
244	Select Application
245	Distance for MAL
246	Distance for Minimum Amplitude Line Calculation
247	2.2f
248	Level for MAL
249	Level for Minimum Amplitude Aine Calculation
250	Minimum Amplitude Line Calcutation
251	Semi Automatical Minimum Echo Signal Amplitude Line Calcutation
252	Calculate Minimum Amplitude Line
253	Recalculate Minimum Echo Amlitude Line in semiautomatic mode
254	Return to Factory Default Minimum Amplitude Line
255	Return to Factory Default Minimum Amplitude Line in the Case of inappropriate Minimum Amplitude Line
256	Return to previous Minimum Amplitude Line
257	Return to previous Minimum Amplitude Line in case of mistakes during Minimum Amplitude Line calculations
258	Vessel Type
259	Vessel Geometry, used in volume calculation
260	Level/Volume Table
261	Level/Volume Table is used to interpolate level between nearest points
262	Round Tank
263	Vertical cylindrical Tank with a flat bottom
264	Rectangular Tank
265	Vertical rectangular Tank with a flat bottom
266	Round cone Tank
267	Vertical cylindrical Tank with a cone bottom
268	Rect. cone Tank
269	Vertical rectangular Tank with a cone bottom
270	Spherical Tank
271	Ball-shaped Tank
272	Horiz. round Tank
273	Horizontal cylinder
274	Sensor Type
275	Sensor Type, used in volume calculation
276	Single Beam
277	24 or 130 GHz Single Beam Radar
278	Dual Frequency
279	Dual Width Beam Radar
280	Multi Beam
281	Multi Beam Radar
282	Scanner
283	Scanning Radar
284	Unsupported
285	Type unsupported
286	Tank Height
287	Total height of the Tank
288	Height 2
289	The height of the cone/truncated part of the Tank
290	Diameter 1
291	Diameter of cylindrical part of the Tank or Diameter of the Sphere
292	Diameter 2
293	Diameter of the cone bottom
294	Length X1
295	The length of the Tank X side or the length of the Horizontal round Tank
296	Length Y1
297	The length of the Tank Y side
298	Length X2
299	The length of the tapered bottom lower end X side
300	Length Y2
301	The length of the tapered bottom lower end Y side
302	L_to_x
303	Distance between Sensor and X Side of rectangular roof
304	L_to_y
305	Distance between Sensor and Y Side of rectangular roof
306	Beam Inclination
307	Sensor Beam Inclination from vertical axis. It is used for Distance Compensation at big beam inclinations from vertical axis
308	4.1f
309	Configuration of Volume calculation
310	Vol.: Cylindrical Tank
311	Vol.: Rectangular Tank
312	Vol.: Cyl. cone Tank
313	Vol.: Rect. cone Tank
314	Vol.: Spherical Tank
315	Vol.: Horiz. round Tank
316	Sensor Positioning
317	Sensor Position and Related Settings
318	Select Vessel Type
319	Volume computation setup
320	Set vessel geometry, dimensions and sensor reference point
321	Method encode
322	Encode big numbers into the internal sensor representation
323	Method decode
324	Decode big numbers from the internal sensor representation
325	Relay Setpoint 1
326	Setpoint for relay switching, corresponds to Level or Distance, depending on selection
327	Relay Setpoint 2
328	Setpoint for relay switching, corresponds to Level or Distance, depending on selection for PV
329	Relay Hysteresis
330	Hysteresis for relay switching, corresponds to Setpoints
331	Relay 1 Control Value
332	Encoded Value for Relay commutation control, determines Relays work logics.
333	Relay 2 Control Value
334	Relay 1 Status Mask
335	Encoded Mask for Device specific Status, determines Relays work logics, if Relay is affected by the Sensor Status
336	Relay 2 Status Mask
337	Relay Outputs setup
338	Setpoints, Hysteresis and logics setup for Relays
339	Relay Output setup
340	Set vessel geometry and dimensions
341	l min
342	l_min read
343	Method to read l_min (minimum distance taken into account for distance calculation) from the Device
344	l max
345	l_max read
346	Method to read l_max (maximum distance taken into account for distance calculation) from the Device
347	Distance for Spectrum Graph
348	Distance between sensor and Product Surface
349	Base Height is a Distance between sensor and Vessel BottomLevel is calculated with respect to Base Height
350	Base Height read
351	Method to read Base Height from the Device
352	Base Height write
353	Method to write Base Height into the Device
354	zl0
355	Distance Offset due to Antenn
356	zl0 read
357	Method to read Distance Offset due to Antenn
358	One coefficient
359	Length of one spectrum coefficient
360	One coefficient read
361	Method to read Length of one spectrum coefficient
362	Spectrum of Echo Signal
363	Spectrum of Echo Signal, received by Sensor
364	Refresh Graph Data
365	spectrum_read
366	Decode Spectrum
367	Vessel whole height
368	Upper part diameter
369	Lower part diameter
370	Dist. to Wall
371	Dist. to X Wall
372	The shortest distance between Sensor and Tank Wall
373	The Shortest distance between Sensor and X Tank Wall along Tank Y axis
374	Dist. to Y Wall
375	The Shortest distance between Sensor and Y Tank Wall along Tank X axis
376	Beams Count
377	Beams Count in Measuring Unit
378	dX bottom
379	The displacement of the Tank bottom center along the axis X of the Tank relative to the central axis of the Tank. The Tank X axis direction is direction from sensor to central axis of the round Tank. It is nessesary only if bottom part of the Tank is not coaxially with top part.
380	dY bottom
381	The displacement of the lower central point of the cone along the axis Y of the Tank relative to the axis of the Tank. It is nessesary only if bottom part of the Tank is not coaxially with top part.
382	Inclination Source
383	"Inclination Source" determines what to be used for sensor orientation in space: 0 - user input 1 - builtin inclinometer
384	XZ inclination
385	Sensor's Z axis inclination from Tank Z axis in XZ plane
386	YZ inclination
387	Sensor's Z axis inclination from Tank Z axis in YZ plane
388	Horiz. inclination
389	Sensor's X axis inclination from Tank X axis in XY plane. Direction - counterclockwise
390	ограничительная линия включает kk01,kr,kr3_1,kr3_user,kr_pomehaвозвращает сигнальные числаn-номер коэф.fl=0 - полное ограничение(kk01 и kr3,kr3_1,kr3_user,kr_pomeha)fl=1 - только kk01fl=2 - только kr3,kr3_1,kr_pomeha,kr3_user
391	Min. Ampl. Line
392	Minimum Amplitude Line
393	mal_read
394	mal_decode
395	graph_prepare
396	Echo Spectrum
397	Minimum Amlitude Line Actions
398	Show spectrum, reset to factory default Line, recalculate Minimum Echo Amlitude Line, return to previous Minimum Amplitude Line
399	Amplitude
400	Echo Signal Amplitude
401	PV Analog Channel Saturated
402	PV Analog Channel Fixed
403	Wireless
404	WirelessHART Device
405	IEEE 802.15.4 2.4GHz DSSS with O-QPSK Modulation
406	Primary
407	Primary Analog Channel
408	Secondary
409	Secondary Analog Channel
410	Tertiary
411	Tertiary Analog Channel
412	Quaternary
413	Quaternary Analog Channel
414	Quinary
415	Quinary Analog Channel
416	Critical Power Failure
417	Lock all
418	Trim not supported
419	Configuration cannot be changed
420	Locked by gateway
421	Analog Input Channel
422	Analog Output Channel
423	Secondary Analog Channel Saturated
424	Tertiary Analog Channel Saturated
425	Quaternary Analog Channel Saturated
426	Quinary Analog Channel Saturated
427	Secondary Analog Channel Fixed
428	Tertiary Analog Channel Fixed
429	Quaternary Analog Channel Fixed
430	Quinary Analog Channel Fixed
431	Simulation active
432	The device is in simulation mode and the level output is not representative of the process.
433	Non-Volatile memory failure
434	The Non-Volatile memory check is invalid or maybe corrupt, or the battery of a battery-backed memory has failed.
435	Volatile memory error
436	The RAM memory check is invalid or maybe corrupt
437	Watchdog reset executed
438	A watchdog reset has been performed
439	Voltage conditions out of range
440	A voltage condition is outside its allowable range
441	Environmental conditions out of range
442	An internal or environmental condition is beyond acceptable limits.
443	Electronic failure
444	A hardware problem not related to the sensor has been detected.
445	Subdevice list changed
446	Duplicate master detected
447	Capacity Denied
448	The device was unable to acquire the communication bandwidth required to support the Burst Messaging specified
449	Bandwidth allocation pending
450	Block transfer pending
451	Battery life
452	Percent range
453	Loop current
454	Primary variable
455	Secondary variable
456	Tertiary variable
457	Quaternary variable
458	Read receive time
459	Write date and time
460	Non-Volatile Clock
461	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.
462	Clock Uninitialized
463	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.
464	None
465	No restrictions
466	SI Only
467	Restricted to SI Unit codes only
468	Process automation device
469	Discrete device
470	Hybrid:Process automation+discrete
471	I/O System
472	WirelessHART Process automation device
473	WirelessHART Discrete device
474	WirelessHART Process automation+discrete
475	WirelessHART Gateway
476	WirelessHART Access point
477	WirelessHART Process adapter
478	WirelessHART Discrete adapter
479	WirelessHART enabled handheld/portable maintenance tool
480	Device Profile
481	US
482	United States of America
483	JP
484	Japan
485	DE
486	Germany
487	FR
488	France
489	ES
490	Spain
491	RU
492	Russian Federation
493	CN
494	People's Republic of China
495	Secondary Master
496	Primary Master
497	Device Diagnostic Status 0
498	Device Diagnostic Status 1
499	I/O and Subdevice Status
500	WirelessHART Status
501	Time Set Option
502	Real Time Clock Flags
503	Country
504	Country of intended device installation
505	SI Unit Control
506	Indicates if device should only display SI unit codes
507	Time Stamp
508	Relative time value on network
509	8u
510	Dynamic Variables Returned for Device Variables
511	Command Response Truncated
512	Configuration Change Counter Mismatch
513	Status bytes mismatch
514	8.3f
515	.3f
516	Device Variable
517	Getting %[L]{base_height}...
518	Getting %[L]{l_min}...
519	Getting %[L]{l_max}...
520	Getting %[L]{inclination}...
521	Getting %[L]{kr3_user}...
522	Getting %[L]{tim_stab}...
523	Getting Damping Value...
524	OK
525	Writing %[L]{l_min}...
526	%[L]{l_min} is changed to %{l_min} %[U]{l_min}
527	Writing %[L]{l_max}...
528	%[L]{l_max} is changed to %{l_max} %[U]{l_max}
529	Writing %[L]{base_height}...
530	%[L]{base_height} is changed to %{base_height} %[U]{base_height}
531	Writing %[L]{inclination}...
532	%[L]{inclination} is changed to %{inclination} %[U]{inclination}
533	Writing %[L]{kr3_user}...
534	%[L]{kr3_user} is changed to %{kr3_user} %[U]{kr3_user}
535	Writing %[L]{tim_stab}...
536	%[L]{tim_stab} is changed to %{tim_stab} %[U]{tim_stab}
537	Writing Damping Value...
538	Damping Value is changed to %{damping} sec
539	Getting Alarm Mask...
540	Getting More Status avialable Bit Mask...
541	Saving Alarm Mask...
542	Alarm Mask: was: %[08X]{alarm_mask_old} requested: %[08X]{alarm_mask_req} readen: %[08X]{alarm_mask_new}
543	Saving More Status avialable Bit Mask...
544	---------------
545	More Status avialable Bit Mask: was: %[08X]{more_status_mask_old} requested: %[08X]{more_status_mask_req} readen: %[08X]{more_status_mask_new}
546	More Status available Flag will be reset
547	More Status available Flag is already "0"
548	Configuration Changed Flag will be reset
549	Configuration Changed Flag is already 0
550	Device will be reset
551	Enter Internal Array Index
552	adr
553	Internal Array[%{adr}] = %{oldValue} View other Internal Array Value?
554	Yes;No
555	Enter Internal Array[%{adr}] Value
556	requestedValue
557	Internal Array[%{adr}]: old Value: %{oldValue}; requested Value: %{requestedValue}; read Value: %{newValue};
558	%[L]{base_height}, %[U]{base_height}
559	tempFloat
560	Base Height was: %[3.3f]{oldValue} m; Requested Value: %[3.3f]{base_height} m; Base Height is changed to: %[3.3f]{newValue} m;
561	m
562	%{varName}, %{varUnit}
563	%{varName} was: %[2.2f]{oldValue} %{varUnit}; requested Value %[2.5f]{requestedValue} %{varUnit}; %{varName} is changed to %[2.5f]{newValue} %{varUnit};
564	tim_stab
565	s
566	%{varName} was: %{oldValue} %{varUnit}; requested Value %{requestedValue} %{varUnit}; %{varName} is changed to %{newValue} %{varUnit};
567	kr3_user
568	Echo Amplitude Value
569	ADC units
570	%{varName} is: %{input_value} %{varUnit};
571	PLL Errors count
572	%{varName} is: %{input_value};
573	Getting enabled applications...
574	Getting %[L]{application}...
575	Current %[L]{application} is %{application} Select new %[L]{application}:
576	Leave as is;Water or acid + Agitator;Still Water solution, acid;Petrochemical, oil;Solid product + Crusher;Solid product
577	"Water or acid + Agitator"
578	"Still Water solution, acid"
579	"Petrochemical, oil"
580	"Solid product + Crusher"
581	"Solid product"
582	this
583	This sensor is not suitable for %{msg} application!
584	Writing %[L]{application}...
585	Get additional data.
586	Get additional data..
587	%[L]{application} is changed to %{application}
588	Get additional data...
589	Get additional data....
590	%[L]{application} is changed to "%{application}". !!!!! WARNING !!!!! Max measured distance for "%{application}" is limited to %[.3f]{_Lmax} m
591	%[L]{application} is not changed.
592	Select Value for Minimum Amplitude Line Calcutation:
593	Distance between Sensor and product;Level of product
594	Please enter Distance between Sensor and product surface in m
595	temp_float
596	Are You sure, that the Distance is more than %{temp_float} m?
597	Please enter Level of product in m (%[L]{base_height} is %{base_height} %[U]{base_height})
598	Are You sure, that the Level is less than %{temp_float} m?
599	Executing
600	.
601	Recapture Useful Signal...
602	Getting Distance and Level...
603	Getting Status...
604	Reflected signal too low!
605	Signal is lost!
606	%[L]{LevelValue} was %{old_level} %[U]{LevelValue}, has become %{LevelValue} %[U]{LevelValue}, increased by %{temp_float} %[U]{LevelValue}
607	%[L]{LevelValue} was %{old_level} %[U]{LevelValue}, has become %{LevelValue} %[U]{LevelValue}, decreased by %{temp_float} %[U]{LevelValue}
608	%[L]{LevelValue} is %{LevelValue} %[U]{LevelValue} and hasn't change
609	%[L]{DistanceValue} was %{old_distance} %[U]{DistanceValue}, has become %{DistanceValue} %[U]{DistanceValue}, increased by %{temp_float} %[U]{DistanceValue}
610	%[L]{DistanceValue} was %{old_distance} %[U]{DistanceValue}, has become %{DistanceValue} %[U]{DistanceValue}, decreased by %{temp_float} %[U]{DistanceValue}
611	The Distance hasn't change
612	Save new Minimum Amplitude Line;Return to previous Minimum Amplitude Line
613	Saving new Minimum Amplitude Line
614	Unable to save, FLASH error
615	Unable to save, the firmware of the sensor is corrupt
616	Successfully saved
617	Something went wrong!!! Minimum Amplitude Line could not be Calculated
618	Minimum Signal Line will be reset to Factory Default, User Adjustments will be lost!
619	Minimum Signal Line is successfully resetted to Factory Default
620	Something went wrong. Minimum Signal Line does not resetted to Factory Default
621	Returning to previous Minimum Amplitude Line
622	Sensor returned to previous Minimum Amplitude Line Successfully
623	Something went wrong!!! Return to previous Minimum Amplitude Line fail
624	Getting %[L]{vessel_type}...
625	Current %[L]{vessel_type} is "%{vessel_type}" Select new %[L]{vessel_type}:
626	Leave as is;Level/Volume Table;Round Tank;Rectangular Tank;Round Cone Tank;Rect. Cone Tank;Spherical Tank;Horiz. round Tank
627	Writing %[L]{vessel_type}...
628	%[L]{vessel_type} is changed to %{vessel_type}
629	%[L]{vessel_type} is not changed.
630	Read sensor type and settings...
631	Read %[L]{base_height}...
632	Read dimensions...
633	This Menu is not implemented for used measuring Unit in current DD Release
634	Vessel Type Unknown.
635	Getting %[L]{vol_height1_float}...
636	Getting %[L]{vol_d1_float}...
637	Getting %[L]{vol_l_x1_float}...
638	Getting %[L]{vol_l_y1_float}...
639	Getting %[L]{vol_height2_float}...
640	Getting %[L]{vol_d2_float}...
641	Getting %[L]{vol_l_x2_float}...
642	Getting %[L]{vol_l_y2_float}...
643	Writing %[L]{vol_height1_float}...
644	%[L]{vol_height1_float} is changed to %{vol_height1_float} %[U]{vol_height1_float}
645	Writing %[L]{vol_height2_float}...
646	%[L]{vol_height2_float} is changed to %{vol_height2_float} %[U]{vol_height2_float}
647	Writing %[L]{vol_d1_float}...
648	%[L]{vol_d1_float} is changed to %{vol_d1_float} %[U]{vol_d1_float}
649	Writing %[L]{vol_d2_float}...
650	%[L]{vol_d2_float} is changed to %{vol_d2_float} %[U]{vol_d2_float}
651	Writing %[L]{vol_l_x1_float}...
652	%[L]{vol_l_x1_float} is changed to %{vol_l_x1_float} %[U]{vol_l_x1_float}
653	Writing %[L]{vol_l_y1_float}...
654	%[L]{vol_l_y1_float} is changed to %{vol_l_y1_float} %[U]{vol_l_y1_float}
655	Writing %[L]{vol_l_x2_float}...
656	%[L]{vol_l_x2_float} is changed to %{vol_l_x2_float} %[U]{vol_l_x2_float}
657	Writing %[L]{vol_l_y2_float}...
658	%[L]{vol_l_y2_float} is changed to %{vol_l_y2_float} %[U]{vol_l_y2_float}
659	Writing %[L]{sensor_l_to_x_float}...
660	%[L]{sensor_l_to_x_float} is changed to %{mo.l_to_x} %[U]{sensor_l_to_x_float}
661	Writing %[L]{sensor_l_to_y_float}...
662	%[L]{sensor_l_to_y_float} is changed to %{mo.l_to_y} %[U]{sensor_l_to_y_float}
663	Writing %[L]{dx_bottom_float}...
664	%[L]{dx_bottom_float} is changed to %{mo.dx_bottom} %[U]{dx_bottom_float}
665	Writing %[L]{dy_bottom_float}...
666	%[L]{dy_bottom_float} is changed to %{mo.dy_bottom} %[U]{dy_bottom_float}
667	Writing %[L]{mo.fl_useinclin}...
668	%[L]{mo.fl_useinclin} is changed to %{mo.fl_useinclin} %[U]{mo.fl_useinclin}
669	Writing %[L]{mo.angle_x}...
670	%[L]{mo.angle_x} is changed to %{mo.angle_x} %[U]{mo.angle_x}
671	Writing %[L]{mo.angle_y}...
672	%[L]{mo.angle_y} is changed to %{mo.angle_y} %[U]{mo.angle_y}
673	Writing %[L]{mo.angle_horiz}...
674	%[L]{mo.angle_horiz} is changed to %{mo.angle_horiz} %[U]{mo.angle_horiz}
675	%[L]{vessel_type} is %{vessel_type}
676	Getting %[L]{relay_setpoint_1}...
677	Getting %[L]{relay_setpoint_2}...
678	Getting %[L]{relay_hysteresis}...
679	Getting %[L]{relay_1_control_value}...
680	Getting %[L]{relay_1_status_mask}...
681	Getting %[L]{relay_2_control_value}...
682	Getting %[L]{relay_2_status_mask}...
683	Writing %[L]{relay_setpoint_1}...
684	%[L]{relay_setpoint_1} is changed to %{relay_setpoint_1} %[U]{relay_setpoint_1}
685	Writing %[L]{relay_setpoint_2}...
686	%[L]{relay_setpoint_2} is changed to %{relay_setpoint_2} %[U]{relay_setpoint_2}
687	Writing %[L]{relay_hysteresis}...
688	%[L]{relay_hysteresis} is changed to %{relay_hysteresis} %[U]{relay_hysteresis}
689	Writing %[L]{relay_1_control_value}...
690	%[L]{relay_1_control_value} is changed to %{relay_1_control_value}
691	Writing %[L]{relay_1_status_mask}...
692	%[L]{relay_1_status_mask} is changed to %{relay_1_status_mask}
693	Writing %[L]{relay_2_control_value}...
694	%[L]{relay_2_control_value} is changed to %{relay_2_control_value}
695	Writing %[L]{relay_2_status_mask}...
696	%[L]{relay_2_status_mask} is changed to %{relay_2_status_mask}
697	Relay Module absent
698	Getting %[L]{zl0}...
699	Getting %[L]{one_coef_length}...
700	Read compressed spectrum...
701	Parsing Main Header...
702	Error: main Header is to long
703	Decode spectrum...
704	Error: First Coefficient Number in current Block is less than last Coefficient Number in previous Block
705	Error: 1 Current Source Index out of Range (%{current_src_index})
706	Error: 2 Current Source Index out of Range (%{current_src_index})
707	Decoded %{i} points of Spectrum...
708	Read Minimum Amplitude Line...
709	Decode Minimum Amplitude Line...
710	Decoded %{mal_points} points of Minimum Amplitude Line...
Reference ID	String