Device dictionary

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Reference ID	String
0	Unsigned8
1	User lock
2	Servicemode
3	Digital output
4	Forced on
5	Force output
6	.1f
7	Pulse output
8	Pulse polarity
9	Positive
10	Negative
11	Relay output
12	Forced off
13	.4f
14	4.2f
15	.2f
16	mA
17	Flowrate %
18	Display the actual % of the 'Upper Value' (Qmax).
19	.6f
20	6.6f
21	Mass flow
22	No help available
23	Volume flow
24	Sensor temp.
25	Density
26	Flow direction
27	Selection of the main flow direction.
28	Mass flow Unit
29	4.6f
30	BS MFM Default
31	Volume flow Unit
32	bbl(31)/s
33	Barrel per second; 1 bbl = 31 US gallons
34	bbl(31)/min
35	Barrel per minute; 1 bbl = 31 US gallons
36	bbl(31)
37	Barrel per hour; 1 bbl = 31 US gallons
38	BS VFM Default
39	BS VFM Max
40	Density Unit
41	t/m3
42	BS DMax Max
43	BS DMax Min
44	BS STMax Max
45	BS STMax Min
46	A
47	Fraction A Help
48	B
49	Fraction B Help
50	Pct. fract. A min.
51	The measured procentage of media A in the fluid.Fraction is defined as a part of mixture.
52	%
53	Pct. fract. A max.
54	Totalizer 1 unit
55	Selects the unit of the totalizer 1. This unit is not updated in the keypad display unit of the device, only in the communication module of the device. To change the keypad display unit, use the parameter located in the 'Local Display' group.
56	Barrel; 1 bbl = 31 US gallons
57	Totalizer 2 unit
58	Selects the unit of the totalizer 2. This unit is not updated in the keypad display unit of the device, only in the communication module of the device. To change the keypad display unit, use the parameter located in the 'Local Display' group.
59	Total 1 function
60	Select the measurement function
61	Fraction A
62	Fraction B
63	Total 2 function
64	1
65	Total flow. Totalizer 1 and Totalizer 2 can be reset individually.
66	2
67	Totalizer 1 dir.
68	Selection of the direction of flow for Totalizer 1 : * Forward: Totalizer 1 only counts in forward direction of the measured flow. * Reverse: Totalizer 1 only counts in backwards direction of the measured flow. * Netto: Totalizer 1 counts in both directions of the measured netflow.
69	Forward
70	Reverse
71	net
72	Totalizer 2 dir.
73	Selection of the direction of flow for Totalizer 1 : * Forward: Totalizer 2 only counts in forward direction of the measured flow. * Reverse: Totalizer 2 only counts in backwards direction of the measured flow. * Netto: Totalizer 2 counts in both directions of the measured netflow.
74	Low flow cut-off
75	Here you select the cut-off between 0 and 10% of the maximum setting of the flow, equals the % value of the upper value. This parameter is used to filter noise in the installation. It influences the display and all outputs, because it is forced to zero, if the flow is below this limit.
76	Noise filter
77	The MASS 6000 carries out signal processing using digital filtering. This technology allows sensor signals encumbered with noise to be filtered with different intensities. This applies to the mass flow measurement only. Setting 5 represents the maximum possible filtration and setting 1 represents the minimum possible filtration. Low filtering (setting 1) gives fast response to changes in flow and low immunity to noise. High filtering (setting 5) gives slow response to changes in flow and high noise immunity.
78	1 * min
79	2 **
80	3 ***
81	4 ****
82	5 ***** max
83	Empty pipe
84	* On: The error message for empty pipe is set if the measured density value is lower than the Empty pipe limit. * Off: The error message for empty pipe is never set.
85	Empty pipe limit
86	If the measured density is lower than this limit, the pipe is said to be empty and a warning/information message issued.
87	g/Cucm
88	Error level
89	Sets the error level, which the flow meter will detect as an error. * Fatal: Fatal errors are registered as errors * Permanent: Fatal errors and permanent errors are registered as errors. * Warning: Fatal errors, permanent errors and error warnings are registered as errors.
90	Fatal
91	Permanent
92	Warning
93	CO function
94	Selects the measurement functionIt is not recommended to turn off the current output when communicating HART as it does not work with some masters.
95	Pct. fraction A
96	CO direction
97	If unidirectional, only current output if flow is positive. If bidirectional, then current output in both direction.
98	Unidirectional
99	Bidirection
100	CO range
101	* 0-20 mA: This setting is in case of HART communication not possible. * 4-20 mA: Used for HART communication without alarm output. * 4-20 mA + Alarm: The current output gives following alarm signals: * Fatal: 1.3 mA * Permanent: 2 mA * Warning Error: 3 mA The error level, which the flow meter will detect as error, can be set in Error Level parameter in the Diagnostic group.
102	4-20 mA
103	4-20 mA+Alarm
104	CO timeconstant
105	Use to filter the output when having noise. This setting also influence the display and relay.
106	DO select:
107	Selection of digital output from the list: * Pulse: Output is active as pulse output. * Frequency: Output is active as frequency output. * Error level: Output is 'High' when error occurs. Error level is selected by Error Level parameter in Diagnostics group. * Error number: Output is 'High', when selected error occurs. * Direction/limit: Output is 'High', when selected flow value is achieved. * Batch: Digital Output is used for batch control: Batching a preset quantity is controlled by the flow meter. The output can be used to control i.e. a valve; the output is normally low and the valve is closed. Starting the batching process (from Digital Input, Keypads display or PDM) sets the output 'High' until the preset Batch quantity is reached. The digital- and relay-output cannot be set to batch at the same time. If the digital output is already used as batch output and the external input as batch input, the relay output will be set to OFF.
108	Pulse
109	Frequency
110	Error number
111	Direction/limit
112	Batch
113	Pulse function
114	Mass/pulse
115	Specifies the mass amount for each pulse.
116	.9f
117	6.9f
118	Os Do1 Mp Default
119	Os Do1 Mp Min
120	Quadrature
121	This is not recommended in a HART application. Quadrature set ON will set current output OFF.
122	Volume/pulse
123	Specifies the volume amount for each pulse.
124	Cum
125	Os Do1 Vp Default
126	Os Do1 Vp Min
127	Pulse flow dir.
128	Pulse width
129	Pulse width of Digital Output1.
130	64 µs
131	130 µs
132	260 µs
133	510 µs
134	1.0 ms
135	2.0 ms
136	4.1 ms
137	8.2 ms
138	16 ms
139	33 ms
140	66 ms
141	130 ms
142	260 ms
143	520 ms
144	1.0 s
145	2.1 s
146	4.2 s
147	Digital output pulse polarity. Can be set according to the specification of the pulse counter.
148	Frequency function
149	Frequency flow dir.
150	Fmax output
151	Maximum frequency
152	10 kHz
153	5 kHz
154	1 kHz
155	500 Hz
156	Freq. time const.
157	Use to filter the output when having noise. Normally allways set to 0.1. Only to be changed in very noisy enviroment.
158	DO limit function
159	DO limit mode
160	Selects one or two setpoints.
161	1 setpoint
162	2 setpoints
163	DO limit setp. 1
164	DO limit setpoint
165	Used only in case of two setpoints: Selection of the minimum % value (of the Upper Value of the range), above which the output shall be active.
166	To select the % of Upper Value, where the output shall be active. If 'Direction/limit' is selected for the Relay output, set this value to 0.00%
167	DO limit setp. 2
168	Used only in case of two setpoints: Selection of the maximum % value (of the Upper Value of the range), above which the output shall be inactive.
169	DO limit hyst.
170	To select % of Upper Value. This function is used to make a difference when the setpoint is switching from active to not active. When 1 setpoint is used for direction mode, Hysteresis should be set to 5 %.Hysteresis in % of the Upper Value: The relay will be active when the measurement is greater than the upper limit. The relay contains beeing active, until the output limis goes beyond the Alarm Limit minus hysteresis.
171	To select an error number on which the output will be active 'on'.
172	Batch function
173	Batch quantity
174	Amount to be batched. The batch quantity cannot be less than the batch compensation value.
175	Amount
176	The actual batch value, which has been reached during the batching process.
177	Batch direction
178	* Upwards: Batch starts to count from zero and up to batch quantity. * Downwards: Batch starts to count from batch quantity and down to zero.
179	Up
180	Down
181	Batch unit
182	This parameter defines the unit for the batch output.This unit is not updated in the keypad display unit of the device, only in the communication module of the device. To change the keypad display unit, use the parameter located in the 'Local Display' group.
183	Batch compensation
184	Offset value to compensate for application delays. The maximum batch compensation cannot be set more than the batch quantity value. The batch quantity value has to be increased before batch compensation is increased.
185	Batch lead const.
186	Time constant is used to compensate the batch quantity. This compensation takes into account flow variations. How to set it: Start by setting all compensation to zero (Compensation and lead constant). Enter desired amount, M-wanted (ex. 25kg) and start batch. Observe the flow reading, Q-end (ex. 5000kg/h) just before the batch stops. Observe, what amount the meter totalizes (in the display) M-real (ex. 25.5kg). Calculate the lead constant as: LeadConst = (M-real - M-wanted) - Q-end Remember to get the correct units; LeadConst is in seconds. In our example: LeadConst = (25.5kg-25kg)/(5000kg/h) = 0.0001h x 3600sec/h = 0.36 seconds Enter this value as lead constant. This is a good starting point, only small adjustments can be necessary. Mass 6000 should now fill 25 kg, also if the flow changes (if the valve closing time also changes, this will not be the case! - The lead constant can only compensate for true flow changes). Remember to set the lead constant back to zero before leaving the batch menu, if using pulse or frequency output instead! Otherwise the output is still being compensated.
187
188	Batch time error
189	Specification of batch time error: * On: Sets a maximum time for the batch. If batch quantity is not achieved within the max batch time, the error will be indicated. * Off: No batch time error will be indicated.
190	Max. batch time
191	Sets a maximum time for the batch. If batch quantity is not achieved within the max batch time the error will be indicated.
192	Batch overrun err.
193	Specification of batch overrun error: * On: If the amount exceeds the maximum amount for the batch an error will be indicated. * Off: No batch overrun error will be indicated.
194	Max. batch overrun
195	Sets a maximum amount for the batch overrun. If amount exceeds the maximum an error will be indicated.
196	Mode:
197	Show the batch status (Batch active, Stopped, or Paused)
198	Stopped
199	Active
200	Paused
201	BATCH NOT ACTIVE!
202	Cycle cnt.
203	Number of started batches
204	RLO select:
205	Select relay output from the drop down list.
206	RLO limit function
207	RLO limit mode
208	RLO limit setp. 1
209	RLO limit setpoint
210	RLO limit setp. 2
211	RLO limit hyst.
212	DI Select
213	Selection of the external input from the list. The selected input will be active, when the external input (no. 77 and 78) is activated * Start Batch: Activates the batching process. * Hold/Continue: Batch will be paused while external input is activated. * Stop Batch: Stops the batching process. * Zero Adjust: Activates the Zero adjust process. * Totalizer Reset: Selected totalizer will be reset. Either totalizer 1, totalizer 2 or both can be selected. * Force output: Flow meter will be forced on x(selected) % of Upper Value (-125% to +125%). * Freeze output: Flow meter will be frozen on the actual flow. If the input is selected as Batch input, the digital output will be set to batch as default.
214	Start batch
215	Hold/continue batch
216	Stop batch
217	Zero adjustment
218	Totalizer reset
219	Freeze output
220	This parameter will force the flow meter to % of Upper Value (-125% to +125%).
221	.0f
222	Selects the totalizer to be reset by the external input
223	1 reset
224	2 reset
225	1+2 reset
226	Eis Ei Tmp1
227	Eis Ei Tmp2
228	SENSORPROM:
229	Indicates, if the Sensorprom is installed in the transmitter. If not, the sensor data must be programmed manually.
230	Suppress P40
231	* Yes: The device will not indicate an error, when the sensorprom is missing. * No: The device will indicate error, when the sensorprom is missing. This parameter is always set to 'No' after power on.
232	Sensor size
233	Sensor Diameter Di in mm. This information is written on the sensor label.
234	1.6f
235	Calibration factor
236	This calibration factor is used to calculate the flow rate e.g. in kg/s for the specific sensor, the unit is in ( micro sec / kg * sec ). This factor is sensor specific and calculated during manufactories wet calibration and is stored in the SENSORPROM and stated on the sensor label.
237	5.6f
238	µs²/kg
239	Correction factor
240	With this factor you are able to make a flow correction in % on the flowmeter. From factory the correction factor is set to 1.0000. Flow rate (kg/h) = Correction factor X flow rate (kg/h). If you want to change the flow on the flowmeter with +0,5 %, you have to change the correction factor to 1.005 in the device menu 'Sensor Characteristics'. After the change the flowmeter will now show a flow rate 0,5 % higher as before, on all flow - related values.
241	2.6f
242	Sensor TC
243	Temperature coefficient 'Sensor TC'(%/DegC) for the specific sensor is found under the flow calibration. On the MASS2100 sensor is mounted a PT1000 temperature sensor and on the MC1 a PT100. With this temperature, with which the sensors are mounted, the transmitter is able to compensate for temperature changes in the sensors.
244	%/DegC
245	Density parm. A
246	Density parameter A is a constant found under the density calibration. This constant is used in the formula to calculate the density of the fluid in the sensor. Density (kg/m3 ) = A + B (1 + Density TC x temp.) * (1/(fr)^2). A = Density parameter A (kg/m3). B = constant. Density TC = Sensor`s density temperature coefficient ( %/DegC). fr. = the sensors resonance freq(Hz). Standard sensors without density calibration have average values stored in the sensorprom to be able to monitor the density.
247	kg/Cum
248	Density parm. B
249	Density parameter B is a constant found under the density calibration. This constant is used in the formula to calculate the density of the fluid in the sensor. Density (kg/m3 ) = A + B (1 + Density TC x temp.) * (1/(fr)^2). A = Density parameter A (kg/m3). B = constant. Density TC = Sensor`s density temperature coefficient ( %/DegC). fr. = the sensors resonance freq(Hz). Standard sensors without density calibration have average values stored in the sensorprom to be able to monitor the density.
250	M
251	Density TC
252	Density TC the temperature coefficient ( %/DegC ) is found under the density calibration. This constant is going into the formula to calculate the density of the fluid in the sensor. Density ( kg/m3 ) = A + B ( 1 + Density TC x temp.) * (1/(fr)^2). A = Density parameter A ( kg/m3 ) B = constant Density TC = Sensor density temperature coefficient ( %/DegC) fr. = Sensor resonance frequency ( Hz ) Standard sensors without density calibration have average values stored in the sensorprom to be able to monitor the density.
253	Density offset
254	With this function you are able to make an offset on the measured density. From factory the density offset is set to 00,000 kg/m3. If you want the flowmeter to show + 2 kg/m3 more, then you can change the density offset to 02,000 Kg/m3 in the 'Sensor' menu.
255	Density factor
256	With this factor you are able to make a density correction in % on the flowmeter. From factory the correction factor is set to 1.0000. Density ( kg/m3 ) = Correction factor x density ( kg/m3 ). If you want to change the density on the flowmeter with +0,5 %, you have to change the correction factor to 1.005 in the device menu 'Sensor Characteristics' After the change the flowmeter will now show a density about 0,5 % higher as before.
257	Fraction offset
258	Fraction is defined as a part of a mixture. Mixtures consist of two components (A+B), which can be measured separately. If the flowmeter is ordered with fraction, e.g. °BRIX, the flowmeter is able to calculate the % concentration of sugar in a water (B) + sugar (A) mixture. With this fraction offset you are able to make an absolute offset on the measured concentration. Formula: % concentration = ( a / 3600 ) + bx % concentration = the concentration of media e.g. in °BRIX a = fraction offset in ( kg/h ) b = is a factor without dimension ( table slope ) x = is the concentration in % or e.g. °BRIX Example: If you want to make an offset on + 1 °BRIX you have to make following calculation: a/3600 has to be 1%. a/3600 =0,01 a = 0,01x3600 = 36 kg/h Fraction A is in this example the calculated flow rate of 100 % pure sugar, and Fraction B is the calculated flow rate of 100 % pure water.
259	Table slope
260	Fraction is defined as a part of mixture. These mixtures consist of two components (A+B), which can be measured separately. If the flowmeter is ordered with fraction, e.g. °BRIX, it is able to calculate the % concentration of sugar in a water (B) + sugar (A) mixture. From factory the table slope 'b' is set to 1.0000. Formula: % concentration = ( a / 3600 ) + bx % concentration = the concentration of media e.g. in °BRIX a = fraction offset in ( kg/h ) b = is a factor without dimension ( table slope ) x = is the concentration in % or e.g. °BRIX Example: If you want to change the concentration in % on the flowmeter with +0,5 %, you have to change the table slope 'b' to 1.005. Afterwards the flowmeter will show a concentration 0,5 % higher as before.
261	Operating time
262	Counts the days, during which the device has been in operation.
263	5d
264	Zero adjust
265	Select between manual and auto zero adjustment
266	Auto
267	Manual
268	Zero adjust state
269	Sensor zero
270	The sensor can be set manually or automatically during the Zero adjustment.
271	rm zasz min
272	rm zasz max
273	Zero adjust time
274	Sets the zero adjust time: The time it takes to perform a zero adjustment
275	zero adjust error state
276	Zero sigma
277	set the zero sigma:
278	Sigma limit
279	Sets the limit for the sigma value.
280	Transmitter type
281	The type of the Transmitter (e.g. MASS6000).
282	Type
283	Transmitter MLFB
284	This is the order number (MLFB) of the product. This information is written on the product label.
285	Transm. serial no
286	This number is the serial number of the product . When the MFLB number and the serial number are known, it is possible to find the data for the specific product e.g. the calibration data.
287	Transmitter FW ver.
288	Firmware version of the Transmitter
289	Sensor MLFB no
290	This is the MLFB number, ordering -/ article number of the product. This information is written on the sensor label.
291	Sensor serial no
292	This number is the serial number of the product. When the MLFB number and the serial number are known, it is possible to find the data for the specific product e.g. the calibration data.
293	Customer code no
294	Text string that can be used for additional information.
295	HART FW version
296	Firmware version of the HART module (communication module)
297	HART HW version
298	Hardware version of the HART module (communication module)
299	CANAPP
300	attr
301	Qualifier
302	Save parameter
303	data unit
304	string length
305	Octet string byte 1
306	Octet string byte 2
307	LD language
308	All the text on the keypad display appears in the chosen language.
309	English
310	German
311	French
312	Danish
313	Swedish
314	Finnish
315	Russian
316	Spanish
317	Italian
318	Portuguese
319	Write Select
320	Sensor size (text)
321	Sensor Size Mass Help
322	Sensor type
323	Sigma limit min
324	Sigma limit min Help
325	Sigma limit max
326	Sigma limit max Help
327	LD sens temp. unit
328	Units Dislay Help
329	LD density unit
330	kg/Cuft
331	kg/Cuin
332	kg/Cucm
333	ton/Cum
334	ton/Cuft
335	ton/Cuin
336	ton/Cucm
337	lb/Cum
338	lb/Cuft
339	lb/Cuin
340	lb/Cucm
341	mg/Cum
342	mg/Cuft
343	mg/Cuin
344	mg/Cucm
345	g/Cum
346	g/Cuft
347	g/Cuin
348	LD pulse Unit
349	kg
350	ton
351	lb
352	mg
353	g
354	ml
355	l
356	hl
357	kl
358	Ml
359	US BBL
360	Cuft
361	Cuin
362	US G
363	US kG
364	US MG
365	UK G
366	UK kG
367	UK MG
368	LD batch unit
369	LD total. 2 unit
370	LD total. 1 unit
371	LD vol. flow unit
372	Volumeflow Units Dislay Help
373	Cum/s
374	Cum/min
375	Cum/h
376	Cum/d
377	ml/s
378	ml/min
379	ml/h
380	ml/d
381	l/s
382	l/min
383	l/h
384	l/d
385	hl/s
386	hl/min
387	hl/h
388	hl/d
389	kl/s
390	kl/min
391	kl/h
392	kl/d
393	Ml/s
394	Ml/min
395	Ml/h
396	Ml/d
397	US BBL P S
398	US BBL P M
399	US BBL P H
400	US BBL P D
401	Cuft/s
402	Cuft/min
403	Cuft/h
404	Cuft/d
405	Cuin/s
406	Cuin/min
407	Cuin/h
408	Cuin/d
409	US G P S
410	US G P M
411	US G P H
412	US G P D
413	US MG P S
414	US MG P M
415	US MG P H
416	US MG P D
417	UK G P S
418	UK G P M
419	UK G P H
420	UK G P D
421	UK MG P S
422	UK MG P M
423	UK MG P H
424	UK MG P D
425	US kG P S
426	US kG P M
427	US kG P H
428	US kG P D
429	UK kG P S
430	LD mass flow unit
431	kg/s
432	kg/min
433	kg/h
434	kg/d
435	ton/s
436	ton/min
437	ton/h
438	ton/d
439	lb/s
440	lb/min
441	lb/h
442	lb/d
443	mg/s
444	mg/min
445	mg/h
446	mg/d
447	g/s
448	g/min
449	g/h
450	g/d
451	Fraction A max.
452	Defines the maximum value of fraction A in flow unit.
453	Fraction B max.
454	Defines the maximum value of fraction B in flow unit.
455	Totalizer 2..
456	Totalizer 2 is controlled by batch.
457	Driver signal
458	Sensor 1 amplitude
459	mV
460	Sensor 2 amplitude
461	Sensor frequency
462	Hz
463	Fraction Unit
464	pi_swv_integer16
465	sm_rlo_pol
466	Positive
467	Negative
468	Pct. A.
469	The measured percentage of media A in the fluid. Fraction is defined as a part of mixture. Mixtures consisting of two components ( A+ B) which can be measured separately.If the flowmeter is ordered with fraction, e.g °BRIX,the flowmeter is able to calculate the % concentration of sugar in a water (B) + sugar (A) mixture.From factory the table slope 'b' is set to 1.0000. Formula: % concentration = (a / 3600) + bx % concentration = the concentration of media e.g. in °BRIX a = fraction offset in (kg/h) b = is a factor without dimension (table slope) x = is the concentration in % or e.g. °BRIX Example: If you want to change the concentration in % on the flowmeter with +0,5 %, you have to change the table slope 'b' to 1.005. After the change the flowmeter will now show a concentration 0,5 % higher as before.
470	set
471	check_valid_mfm_unit
472	check_valid_vfm_unit
473	check_valid_t2_unit_m
474	check_valid_t2_unit_v
475	check_valid_t1_unit_m
476	check_valid_t1_unit_v
477	check_valid_bat_unit_m
478	check_valid_bat_unit_v
479	EI Selection Adjustment
480	Digital Input Reset Digital output
481	Relay output Reset Digital output
482	Digital output Reset Relay output
483	Digital output pulse pre write
484	Frequensy output pulse pre write
485	os_do1_lim_select_pre_write
486	os_rlo1_lim_select_pre_write
487	Totalizer 1 reset
488	Resets the totalizer 1
489	Totalizer 2 reset
490	Resets the totalizer 2
491	Batch start
492	Activates the batching process.
493	Batch pause
494	Pauses the batching process.
495	Batch stop
496	Stops the batching process.
497	Batch resume
498	Resumes the batching process.
499	Reset cycle cnt.
500	Resets the cycle counter.
501	check_valid_ffm_unit
502	Relay output simulation
503	Digital output simulation
504	Zero adjust manual
505	Zero adjust auto
506	Reset to default
507	Exit service mode
508	Release user lock
509	DD Version
510	Version number of the device description according to NAMUR specification.
511	Select current output
512	Device setup..
513	Identification..
514	Device..
515	Sensor..
516	Transmitter..
517	Input..
518	Digital input DI..
519	Output..
520	Process variables..
521	Mass flow..
522	Volume flow..
523	Density..
524	Sensor temp..
525	Fraction..
526	Totalizer 1..
527	Current output CO..
528	Digital output DO..
529	Relay output RLO..
530	Diagnostic..
531	Local display LD..
532	Operation..
533	Totalizer..
534	Simulation..
535	Batch..
536	Batch setup..
537	Hot key
538	SITRANS FC MASSFLO
539	SIEMENS
540	Warning Errors
541	Permanent Errors
542	Fatal Errors
543	Reserved
544	Field Device Status 1 Help
545	Fatal F60 CAN comm. error Converter/AOM
546	Fatal F61 SENSORPROM err. Replace
547	Fatal F62 SENSORPROM ID Replace
548	Fatal F63 SENSORPROM Replace
549	Fatal F70 Coil current Check cables
550	Fatal F71 Driver phase Check cables/pol.
551	Fatal F80 Internal error Restart or replace
552	Fatal F81 Internal error Restart or replace
553	Field Device Status 2 Help
554	Fatal F82 Internal error Restart or replace
555	Fatal F83 Internal error Restart or replace
556	Fatal F84 Sensor level Sensor jammed
557	Fatal F96 Inst. module Restart or replace
558	Fatal F97 AOM to old Replace
559	F64 CONV.PROM err.,Replace
560	Field Device Status 3 Help
561	Field Device Status 4 Help
562	Field Device Status 5 Help
563	Field Device Status 14 Help
564	Permanent P40 SENSORPROM Insert/change
565	Permanent P41 Parameter range Switch off and on
566	Permanent P42 Current output Check cables
567	Permanent P43 Internal error Switch off and on
568	Permanent P44 CT SENSORPROM Replace
569	Field Device Status 15 Help
570	Permanent P49 Protect. viol. Switch off and on
571	Permanent P50 Temp. cable Check cables.
572	Permanent P51 ASIC overflow Check installation
573	Permanent P52 ASIC overflow Check installation
574	Permanent P53 ASIC overflow Check installation
575	Field Device Status 16 Help
576	Permanent P54 ASIC overflow Check installation
577	Permanent P55 ASIC overflow Check installation
578	Permanent P56 ASIC overflow Check installation
579	Permanent P57 ASIC overflow Check density
580	Permanent P58 ASIC overflow Check installation
581	Field Device Status 17 Help
582	Field Device Status 18 Help
583	Warning W20 Totalizer Reset manually
584	Warning W21 Pulse overflow Adj. pulse settings
585	Warning W22 Batch timeout Check installation
586	Warning W23 Batch overrun Check installation
587	Warning W24 Batch neg. flow Check flowdirection
588	Warning W30 Flow saturated Check installation
589	Warning W31 Empty pipe Check density
590	Field Device Status 19 Help
591	Field Device Status 20 Help
592	Warning W32 Temp. too high Adjust temperature
593	Warning W33 Temp. too low Adjust temperature
594	Warning W34 Zero adj. fail Check flow = zero
595	Warning W35 Current out 1 Check max. settings
596	Warning W36 Frequency out 1 Check max. settings
597	Field Device Status 21 Help
598	Field Device Status 22 Help
599	Field Device Status 23 Help
600	Field Device Status 24 Help
601	unit
602	FMU860
603	DT
604	DVC
605	FCX
606	AS800
607	340T
608	340C
609	344
610	Siemens Micro K
611	SITRANS L
612	SIPAN PH
613	SITRANS P
614	75SMT
615	UNIDELTA
616	8320
617	SX5100
618	TSV175
619	DMU
620	3780
621	BM70
622	8u
623	This operation sets the relay output to fixed mode. It does not correspond to the process value anymore.
624	Please wait...
625	Simulation relay is active and in normal mode - press OK to terminate.
626	Simulation relay is active and forced to %{local_sm_rlo_rlofv} (Press OK to terminate)
627	This operation sets the digital output to fixed mode. It does not correspond to the process value anymore.
628	Digital output is set to frequency.
629	Frequency value (min %{fMin} ... max %{fMax} Hz)
630	The entered frequency value was invalid!Frequency (min %{fMin} ... max %{fMax} Hz)
631	loc_sm_do_dofv
632	Simulation digital output with frequency %{loc_sm_do_dofv} Hz is active (Press OK to terminate)
633	Digital output is set to pulse.
634	Forced value (High or Low)
635	Simulation digital output pulse is active and forced to %{loc_sm_do_dopv} (Press OK to terminate)
636	Simulation digital output pulse is active in normal mode - press OK to terminate.
637	This operation sets the output current to fixed mode.It does not
638	Current (%{fMin} .. 24.0 mA)
639	fCurrentToSimulate
640	The entered current value was invalid! Current (%{fMin} .. 23.0 mA)
641	Simulation analog output %{fCurrentToSimulate} mA active (Press OK
642	Zero adjust point has been set - press OK to continue.
643	Do you wish to perform zero adjustment?
644	Zero adjust in process - Please wait...
645	Zero adjust auto has finished successfully.
646	Zero adjust auto has finished with error. Sigma limit exceeded maximum.
647	Zero adjust auto has finished with error. Zero adjust exceeded maximum.
648	Zero adjust auto has finished with error. Zero adjust status could not be evaluated, try again.
649	Reset to factory settings? - This will take approx. 30 sec.
650	Setting factory defaults! - Please wait...
651	Saving factory defaults!. - Please wait...
652	The device has been reset successfully.
653	DD Version 01.01.02
654	* Off: It is not recommended to turn Off the current output, please turn On.
Reference ID	String