Device dictionary

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Reference ID	String
0	BroadcastPrimaryVariableSelector 1
1	Off
2	Mass flow
3	BroadcastSecondVariableSelector 1
4	Volume flow
5	Density
6	Communication established
7	No
8	Yes
9	Bluetooth
10	Enable or disable Bluetooth.
11	Enable
12	Disable
13	Not available
14	A0
15	Displays the current calibration coefficients for viscosity.
16	.7f
17	A1
18	A2
19	A3
20	A4
21	Oscillation amplitude 0
22	Displays the oscillation amplitude of the sensor relative to the value under ideal conditions.
23	%
24	.1f
25	Oscillation amplitude 1
26	Application specific input source 0
27	Activate or deactivate application-specific input source.
28	External value
29	Application specific input source 1
30	Parameter 0
31	Enter application specific value 0 for application specific calculation
32	Parameter 1
33	Enter application specific value 1 for application specific calculation
34	Parameter 2
35	nter application specific value 2 for application specific calculation
36	Parameter 3
37	Enter application specific value 3 for application specific calculation
38	Parameter 4
39	Enter application specific value 4 for application specific calculation
40	Parameter 5
41	Enter application specific value 5 for application specific calculation
42	Parameter 6
43	Enter application specific value 6 for application specific calculation
44	Parameter 7
45	Enter application specific value 7 for application specific calculation
46	Parameter 8
47	Enter application specific value 8 for application specific calculation
48	Parameter 9
49	Enter application specific value 9 for application specific calculation
50	Signal asymmetry 0
51	Displays the relative difference between the signal amplitudes of the inlet sensor and the outlet sensor of the first oscillation mode.
52	C0
53	Displays the current coefficients for density.
54	C1
55	C2
56	C3
57	C4
58	C5
59	Calibration factor
60	Displays the current calibration factor for the flow rate measuring sensor. Additional information: The factory setting for the calibration factor can be found on the sensor's nameplate.
61	.5f
62	Oscillation damping 0
63	Displays the current oscillation damping. Oscillation damping is an indicator for the sensor's current demand for excitation power.
64	.2f
65	Oscillation damping 1
66	Maximum damping partial filled pipe det.
67	Density adjustment mode
68	Select the density adjustment mode. Additional information: Before performing the density adjustment, the following conditions must be met: - The density adjustment must be performed under operating conditions and there must be little variation in the operating conditions. - The reference media must be gas-free or pressurized so that any gas they contain is compressed. - The reference density measurements must be performed at the temperature of the medium in the process. Otherwise the density adjustment will be inaccurate. - The correction made can be undone by selecting the "Restore original" option in the "Execute density adjustment" parameter.
69	1 point adjustment
70	2 point adjustment
71	Density setpoint 1
72	Enter the density setpoint (1 point adjustment) or the first density setpoint (2 point adjustment).
73	.4f
74	Density setpoint 2
75	Enter the second density setpoint.
76	Density adjustment state
77	Shows the current state of the density adjustment
78	Ok
79	Alarm
80	Multi-frequency activation
81	Switch the dual mode of the sensor on and off
82	Sensor electronics temperature (ISEM)
83	Displays the current temperature inside the sensor electronic module.
84	Exciter current 0
85	Displays the actual excitation current.
86	A
87	.6f
88	Exciter current 1
89	Pressure value
90	Enter fixed value for the pressure compensation. Additional information: The applicable unit of measure is specified in the "System units" submenu.
91	Select medium
92	Select the medium type.
93	Liquid
94	Gas
95	Oscillation frequency 0
96	Displays the current oscillation frequency.
97	Hz
98	.3f
99	Oscillation frequency 1
100	Select gas type
101	Select the type of gas. Additional information: To achieve accurate measurements, it is necessary to specify the gas.
102	Air
103	Ammonia NH3
104	Argon Ar
105	Sulfur hexafluoride SF6
106	Oxygen O2
107	Ozone O3
108	Nitrogen oxide NOx
109	Nitrogen N2
110	Nitrous oxide N2O
111	Methane CH4
112	Hydrogen H2
113	Helium He
114	Hydrogen chloride HCl
115	Hydrogen sulfide H2S
116	Ethylene C2H4
117	Carbon dioxide CO2
118	Carbon monoxide CO
119	Chlorine Cl2
120	Butane C4H10
121	Propane C3H8
122	Propylene C3H6
123	Ethane C2H6
124	Others
125	HBSI fluctuation
126	Gives a measure for the fluctuation of the HBSI value if the HBSI status is "Good". If the HBSI status is "Uncertain" or "Bad", 0 % is displayed.
127	HBSI value reliability
128	Indicates the status of the HBSI value. When due to very unstable process conditions, it is not possible to determine a reliable HBSI value, the device temporarily freezes the last valid value determined.
129	Good
130	Uncertain
131	Bad
132	External pressure
133	Displays the pressure read from the external source.
134	Installation angle pitch
135	Enter the installation angle pitch in degrees.
136	°
137	Installation angle roll
138	Enter the installation roll angle in degrees.
139	MeasCarrTubeTemp
140	On
141	Limit value measuring tube damping
142	A/m
143	Temperature mode
144	Select the temperature mode for temperature compensation.
145	Internal measured value
146	Cut off inhomogeneous wet gas
147	Enter cut off value for inhomogeneous wet gas applications. Below this value the "Index inhomogeneous medium" is set to 0.
148	Cut off inhomogeneous liquid
149	Enter cut off value for inhomogeneous liquid applications. Below this value the "Index inhomogeneous medium" is set to 0. Additional information: This parameter is used for entrained gas in liquid applications or solids in liquid applications.
150	Index inhomogeneous medium
151	Indicates the severity of the second phase. For applications with entrained gas for example, the index describes the relative amount of entrained gas in the liquid. If there is no entrained gas in the liquid, the value is 0, and for very high levels of gas volume (associated with severe slug flow, for example), the value exceeds 10. Additional information: - The index increases with an increase in the second phase, such as gas volume in a liquid, but scaling is not linear (i.e. no 1:1 correlation of index to gas volume fraction), and with increased flow speed, which results in greater homogeneity, the index value decreases - The index will not saturate with excessive second phase. - The diagnostic is repeatable under the same conditions, and thus can be used to better understand process conditions and the relative severity of the second phase. - This index can also be used to determine the relative level of solids in a liquid or the relative level of a liquid phase in a wet gas.
152	Cut off suspended bubbles
153	Enter cut off value for suspended bubbles. Below this value the Index suspended bubbles is set to 0.
154	Mode2OscillationControl
155	Pressure compensation
156	Select the pressure compensation type.
157	Fixed value
158	Promass Q
159	Reference sound velocity
160	Enter sound velocity of the gas at 0 °C (32 °F).
161	m/s
162	Gas Fraction Handler
163	Activate the Gas Fraction Handler to improve measurement stability and repeatability of a two phase medium. The Gas Fraction Handler continuously tests for the presence of disturbances in single phase flow, i.e. for gas bubbles in liquids or for droplets in gas. In the presence of the second phase, when flow and density become increasingly unstable, the Gas Fraction Handler improves measurement stability with respect to the severity of the disturbances, with no effect under the condition of a single-phase flow. The Gas Fraction Handler stabilizes the output values and enables better readability for operators and interpretation by the process control system. The level of smoothing is adjusted according to the severity of disturbances introduced by the second phase. Additional information: The Gas Fraction Handler applies cumulatively to any fixed damping constants applied to flow and density set elsewhere in the device.
164	Moderate
165	Powerful
166	Oscillation damping fluctuation 0
167	Displays the current fluctuation in oscillation damping.
168	Oscillation damping fluctuation 1
169	Frequency fluctuation 0
170	Displays the current frequency fluctuation.
171	Frequency fluctuation 1
172	Temperature coefficient sound velocity
173	Enter the temperature coefficient for the gas sound velocity.
174	(m/s)/K
175	Calculation model
176	Select a formula for the temperature compensation of viscosity
177	Power law
178	Exponential
179	Polynomial
180	Temperature correction source
181	Select the temperature correction source.
182	Reference temperature
183	Enter reference temperature used to calculate the temperature compensated viscosity
184	Compensation coefficient X1
185	Enter compensation coefficient used to calculate the temperature compensated viscosity
186	Compensation coefficient X2
187	Zero point
188	Displays the zero point correction value for the sensor. NOTE Users logged on in the Service role have write access!
189	Zero point adjustment control
190	Start or cancel a zero point adjustment. Additional information: The following conditions must be met to perform a zero point adjustment successfully: - The actual flow rate must be 0. - The pressure must be at least 1.034 bar.
191	Cancel
192	Start
193	Zero point adjustment status
194	Displays the status of the zero point adjustment.
195	Busy
196	Zero point adjust failure
197	CorrGain 1
198	CorrOffset 1
199	mA
200	Failure behavior current output
201	Specify how the output should behave in the event of a device alarm.
202	Min.
203	Max.
204	Last valid value
205	Actual value
206	Failure current
207	Enter the value for the "Fixed value" option in the "Failure behavior current output @1" parameter.
208
209	°C
210	°F
211	°R
212	µm
213	µN
214	µs
215	1/K
216	1/K²
217	af
218	af/d
219	af/h
220	af/min
221	af/s
222	bar
223	bar g
224	bbl (imp;beer)
225	bbl (imp;oil)
226	bbl (us;beer)
227	bbl (us;liq.)
228	bbl (us;oil)
229	bbl (us;tank)
230	bbl/d (imp;beer)
231	bbl/d (imp;oil)
232	bbl/d (us;beer)
233	bbl/d (us;liq.)
234	bbl/d (us;oil)
235	bbl/d (us;tank)
236	bbl/h (imp;beer)
237	bbl/h (imp;oil)
238	bbl/h (us;beer)
239	bbl/h (us;liq.)
240	bbl/h (us;oil)
241	bbl/h (us;tank)
242	bbl/min (imp;beer)
243	bbl/min (imp;oil)
244	bbl/min (us;beer)
245	bbl/min (us;liq.)
246	bbl/min (us;oil)
247	bbl/min (us;tank)
248	bbl/s (imp;beer)
249	bbl/s (imp;oil)
250	bbl/s (us;beer)
251	bbl/s (us;liq.)
252	bbl/s (us;oil)
253	bbl/s (us;tank)
254	cm³
255	cm³/d
256	cm³/h
257	cm³/min
258	cm³/s
259	cP
260	cSt
261	d
262	dm³
263	dm³/d
264	dm³/h
265	dm³/min
266	dm³/s
267	fl oz (us)
268	fl oz/d (us)
269	fl oz/h (us)
270	fl oz/min (us)
271	fl oz/s (us)
272	ft³
273	ft³/d
274	ft³/h
275	ft³/min
276	ft³/s
277	g
278	g/cm³
279	g/d
280	g/h
281	g/m³
282	g/min
283	g/ml
284	g/s
285	g/Scm³
286	gal (imp)
287	gal (us)
288	gal/d (imp)
289	gal/d (us)
290	gal/h (imp)
291	gal/h (us)
292	gal/min (imp)
293	gal/min (us)
294	gal/s (imp)
295	gal/s (us)
296	h
297	hl
298	hl/d
299	hl/h
300	hl/min
301	hl/s
302	in
303	J
304	J/Nm³
305	K
306	kg
307	kg/d
308	kg/dm³
309	kg/h
310	kg/l
311	kg/m³
312	kg/min
313	kg/Nl
314	kg/Nm³
315	kg/s
316	kg/Sm³
317	kgal (us)
318	kgal/d (us)
319	kgal/h (us)
320	kgal/min (us)
321	kgal/s (us)
322	kN
323	kPa a
324	kPa g
325	ks
326	l
327	l/d
328	l/h
329	l/min
330	l/s
331	lb
332	lb/bbl (imp;beer)
333	lb/bbl (imp;oil)
334	lb/bbl (us;beer)
335	lb/bbl (us;liq.)
336	lb/bbl (us;oil)
337	lb/bbl (us;tank)
338	lb/d
339	lb/ft³
340	lb/gal (imp)
341	lb/gal (us)
342	lb/h
343	lb/min
344	lb/s
345	lb/Sft³
346	m
347	m²/s
348	m³
349	m³/d
350	m³/h
351	m³/min
352	m³/s
353	mg/l
354	Mgal (imp)
355	Mgal (us)
356	Mgal/d (imp)
357	Mgal/d (us)
358	Mgal/h (imp)
359	Mgal/h (us)
360	Mgal/min (imp)
361	Mgal/min (us)
362	Mgal/s (imp)
363	Mgal/s (us)
364	min
365	ml
366	Ml
367	ml/d
368	Ml/d
369	ml/h
370	Ml/h
371	ml/min
372	Ml/min
373	ml/s
374	Ml/s
375	mm
376	mm²/s
377	MMft³
378	MMft³/d
379	MMft³/h
380	MMft³/min
381	MMft³/s
382	MMSft³
383	MMSft³/d
384	MMSft³/h
385	MMSft³/min
386	MMSft³/s
387	mN
388	MN
389	MPa a
390	MPa g
391	mPa s
392	ms
393	mV
394	N
395	Nhl
396	Nhl/d
397	Nhl/h
398	Nhl/min
399	Nhl/s
400	Nl
401	Nl/d
402	Nl/h
403	Nl/min
404	Nl/s
405	Nm³
406	Nm³/d
407	Nm³/h
408	Nm³/min
409	Nm³/s
410	None
411	nV
412	Ohm
413	oz
414	oz/d
415	oz/h
416	oz/min
417	oz/s
418	P
419	Pa a
420	Pa g
421	Pa s
422	ppm
423	psi a
424	psi g
425	rad
426	RD15°C
427	RD20°C
428	RD60°F
429	s
430	Sbbl (us;liq.)
431	Sbbl (us;oil)
432	Sbbl/d (us;liq.)
433	Sbbl/d (us;oil)
434	Sbbl/h (us;liq.)
435	Sbbl/h (us;oil)
436	Sbbl/min (us;liq.)
437	Sbbl/min (us;oil)
438	Sbbl/s (us;liq.)
439	Sbbl/s (us;oil)
440	Sft³
441	Sft³/d
442	Sft³/h
443	Sft³/min
444	Sft³/s
445	Sgal (imp)
446	Sgal (us)
447	Sgal/d (imp)
448	Sgal/d (us)
449	Sgal/h (imp)
450	Sgal/h (us)
451	Sgal/min (imp)
452	Sgal/min (us)
453	Sgal/s (imp)
454	Sgal/s (us)
455	Sl
456	Sl/d
457	Sl/h
458	Sl/min
459	Sl/s
460	Sm³
461	Sm³/d
462	Sm³/h
463	Sm³/min
464	Sm³/s
465	St
466	STon
467	STon/d
468	STon/h
469	STon/min
470	STon/s
471	t
472	t/d
473	t/h
474	t/min
475	t/s
476	UTC 00:00
477	UTC+01:00
478	UTC+02:00
479	UTC+03:00
480	UTC+03:30
481	UTC+04:00
482	UTC+04:30
483	UTC+05:00
484	UTC+05:30
485	UTC+05:45
486	UTC+06:00
487	UTC+06:30
488	UTC+07:00
489	UTC+08:00
490	UTC+08:45
491	UTC+09:00
492	UTC+09:30
493	UTC+10:00
494	UTC+10:30
495	UTC+11:00
496	UTC+12:00
497	UTC+12:45
498	UTC+13:00
499	UTC+14:00
500	UTC-01:00
501	UTC-02:00
502	UTC-03:00
503	UTC-03:30
504	UTC-04:00
505	UTC-05:00
506	UTC-06:00
507	UTC-07:00
508	UTC-08:00
509	UTC-09:00
510	UTC-09:30
511	UTC-10:00
512	UTC-11:00
513	UTC-12:00
514	V
515	W
516	Fixed current
517	Enter the value for the "Fixed value" option.
518	Lower range value output
519	Enter lower range value for the measured value range. Additional information: - Depending on the setting selected for the "Measuring mode current output @1" parameter, the value specified for this parameter and the "Upper range value output @1" parameter must have the same algebraic sign or not. - As a rule, the lower range value is scaled to be lower than the upper range value. As a result, the behavior of the current output is proportional to the process variable assigned. If the lower range value is scaled to be higher than the upper range value, then the behavior of the current output will be inversely proportional to the process variable assigend.
520	Upper range value output
521	Enter upper range value for the measured value range.
522	Process variable current output
523	Select process variable for current output
524	Corrected volume flow
525	Temperature
526	Signal asymmetry
527	HBSI
528	Electronics temperature
529	InputSelOffVisible 1
530	Measuring mode current output
531	Select the measuring mode for the output.
532	Forward flow
533	Forward/Reverse flow
534	Reverse flow compensation
535	Current range output
536	Select the current range for the measured value output and the upper and lower fault condition signal level. Additional information: - The measured value range is specified in the "Lower range value output @1" parameter and the "Upper range value output @1" parameter. - If the measured value lies outside the scaled measured value range, diagnostic message "441 Current output @1 faulty" is generated. - In the event of a device alarm, the current output adopts the behavior specified in the "Failure behavior current output @1" parameter.
537	4...20 mA NE (3.8...20.5 mA)
538	4...20 mA US (3.9...20.8 mA)
539	4...20 mA (4... 20.5 mA)
540	Output current 1
541	Displays the current value currently calculated.
542	Current output 1 simulation
543	Switch simulation of the current output on or off. Additional information: When simulation is on, the current output signal is set to the value specified in the "Current output @1 value" parameter.
544	Current output value
545	Enter the current value for the simulation. In this manner, it is possible to verify the current output is configured correctly and downstream processing units are functioning properly. Additional information: The valid input range is determined by the "Current range output @1" parameter.
546	Damping current output
547	Enter time constant (PT1 element) to set the reaction time of the output signal to fluctuations in the measured value caused by process conditions. Additional information: - The smaller the time constant the faster the output reacts to fluctuations in the measured value. - If the time constant is 0, damping is deactivated.
548	20mA trim value
549	Enter the actual current value measured for the 20 mA point.
550	4mA trim value
551	Enter the actual current value measured for the 4 mA point.
552	Altitude
553	Enter altitude
554	Calibration date/time
555	Shows date and time of the last calibration.
556	0
557	Plant operator
558	Enter the plant operator.The details provided are included on the verification report.
559	Time format
560	Select time format.
561	24 h
562	12 h AM/PM
563	Sensor type
564	--
565	:
566	C :
567	D :
568	E :
569	Definition is missing
570	G :
571	J :
572	K :
573	O :
574	P :
575	R :
576	S :
577	T :
578	U :
579	V :
580	W :
581	Y :
582	Z :
583	5 :
584	HasRealTimeClock 1
585	Latitude
586	Enter latitude
587	Date/time
588	Displays the date and time of the verification.
589	01.01.1970 00:00:00
590	Location description
591	Enter a description for the location
592	somewhere
593	Location method
594	Select the location method.
595	No fix
596	GPS or Standard Positioning Service fix
597	Differential GPS fix
598	Precise positioning service (PPS) fix
599	Real Time Kinetic (RTK) fixed solution
600	Real Time Kinetic (RTK) float solution
601	Estimated dead reckoning
602	Manual input mode
603	Simulation Mode
604	Longitude
605	Enter the longitude.
606	Maximum authorized temperature
607	Minimum authorized temperature
608	Nominal diameter
609	Shows the nominal diameter of the sensor.
610	--------------
611	Location
612	Enter the location where the measuring device is installed. The details provided are included on the verification report.
613	Progress
614	Shows the progress of the process.
615	u
616	Reset all totalizers
617	Reset all totalizers to "0" and restart the totaling process. All flow quantities thus far totalized are thereby deleted.
618	Reset + totalize
619	SDatImageAvailable
620	TDatImageAvailable
621	Time zone
622	Select the time zone. Every time the time zone is changed, a logbook entry is created.
623	Displays the currently calculated volume flow compensated for the reference density. Additional information: - The reference density can be calculated or fixed. - The applicable unit of measure is specified in the "System units" submenu.
624	Corrected volume flow offset
625	Enter the offset by which to shift the zero point for the corrected volume flow. Additional information: The applicable unit of measure is Nm3/s.
626	Corrected volume flow factor
627	Enter the multiplication factor to apply to the corrected volume flow value.
628	Displays the density currently measured. Additional information: The applicable unit of measure is specified in the "System units" submenu.
629	.0e
630	Density damping
631	Enter time constant for damping (PT1 element) of the measured value for density: - Value = 0: No damping - Value > 0: Damping increases Additional information: Damping is implemented by means of a proportional transmission behavior with first order delay (PT1 element).
632	Density calculation
633	Fixed reference density
634	Calculated reference density
635	Density offset
636	Enter the offset by which to shift the zero point for density. Additional information: The applicable unit of measure is kg/m3.
637	Density factor
638	Enter the multiplication factor to apply to the density value.
639	Density status
640	Flow damping time
641	Enter time constant for flow damping (PT1 element). - Value = 0: No damping - Value > 0: Damping increases Additional information: Damping is implemented by means of a proportional transmission behavior with first order delay (PT1 element).
642	Low flow cut off
643	Select process variable for low flow cut off to activate low flow cut off.
644	Enter a fixed value for the reference density.
645	Installation direction
646	Select sign of flow direction
647	Reverse flow
648	Linear expansion coefficient
649	Enter a linear, medium-specific expansion coefficient to calculate the reference density. Additional information: For a medium with a non-linear expansion pattern, use the "Square expansion coefficient" parameter instead.
650	Off value low flow cutoff
651	Enter off value to switch off low flow cut off. The off value is entered as a positive hysteresis with respect to the on value.
652	.0f
653	On value low flow cutoff
654	Enter on value to switch on low flow cut off. Value = 0: No low flow cut off Value > 0: Low flow cut off is activated
655	Displays the mass flow currently measured. Additional information: The applicable unit of measure is specified in the "System units" submenu.
656	Mass flow offset
657	Enter the offset by which to shift the zero point for mass flow. Additional information: The applicable unit of measure is kg/s.
658	Mass flow factor
659	Enter the multiplication factor to apply to the mass flow value.
660	Mass flow status
661	High value partial filled pipe detection
662	Enter the upper limit value for the selected process variable. If the measured value exceeds the limit value, diagnostic message "862 Partly filled pipe" is generated. Additional information: This setting applies only if the "Density unit" parameter is set to °API.
663	Partially filled pipe detection
664	Select process variable for detection of an empty or partially filled pipe. NOTE Due to low density, deactivate partially filled pipe detection for a gas!
665	Low value partial filled pipe detection
666	Enter the lower limit value for the selected process variable. If the measured value drops below the limit value, diagnostic message "862 Partly filled pipe" is generated. Additional information: - This setting applies only if the "Density unit" parameter is not set to °API. - The lower limit value must be lower than the upper limit value ("High value partial filled pipe detection" parameter).
667	Flow override
668	Stops the measuring process. Can be used for example when cleaning the pipeline.
669	Pressure shock suppression
670	Enter time frame for signal suppression (= pressure shock suppression active), for example to prevent the device from registering flow movements in the pipe when a valve is closed. Additional information: Pressure schock suppression is activated when the flow rate drops below the on value for low flow cutoff. Output values when pressure shock suppression is active: - Flow: 0 - Totalizer: Last valid value Pressure shock suppression is deactivated when: - The time frame specified has elapsed and - Flow exceeds the off value for low flow cutoff
671	Displays the reference density currently calculated. Additional information: The applicable unit of measure is specified in the "System units" submenu.
672	Select reference density
673	Select the reference density to use to calculate the corrected volume flow.
674	Enter a reference temperature to calculate the reference density.
675	Assign simulation process variable
676	Select a process variable for the simulation, thereby activating it.
677	Process variable value
678	Enter the simulation value for the selected process variable. Processing of measured values downstream as well as the signal ouput follow this value. In this way, it is possibe to verify whether the measuring device has been configured correctly. Additional information: The applicable unit of measure is specified in the "System units" submenu.
679	Square expansion coefficient
680	Enter a quadratic, medium-specific expansion coefficient to calculate the reference density. Additional information: For a medium with a linear expansion pattern, use the "Linear expansion coefficient" parameter instead.
681	Displays the medium temperature currently measured. Additional information: The applicable unit of measure is specified in the "System units" submenu.
682	Temperature damping
683	Enter time constant for temperature damping (PT1 element). - Value = 0: No damping - Value > 0: Damping increases Additional information: Damping is implemented by means of a proportional transmission behavior with first order delay (PT1 element).
684	Temperature offset
685	Enter the offset by which to shift the zero point for temperature. Additional information: The applicable unit of measure is K.
686	Temperature factor
687	Enter the multiplication factor to apply to the temperature value.
688	Displays the volume flow currently measured. Additional information: The applicable unit of measure is specified in the "System units" submenu.
689	Volume flow offset
690	Enter the offset by which to shift the zero point for volume flow. Additional information: The applicable unit of measure is m3/s.
691	Volume flow factor
692	Enter the multiplication factor to apply to the volume flow.
693	Volume flow status
694	Burst command 1
695	Select the HART command that is sent to the HART master
696	Command 1
697	Command 2
698	Command 3
699	Command 9
700	Command 33
701	Command 48
702	Burst command 2
703	Burst command 3
704	Burst mode 1
705	Switch HART burst mode for burst message on
706	Burst mode 2
707	Burst mode 3
708	Burst variable 0
709	For HART command 9 and 33, assign a HART device variable or process variable to burst variable
710	Totalizer 1
711	Totalizer 2
712	Totalizer 3
713	Percent of range
714	Measured current
715	Primary variable (PV)
716	Secondary variable (SV)
717	Tertiary variable (TV)
718	Quaternary variable (QV)
719	Not used
720	Burst variable 1
721	Burst variable 2
722	Burst variable 3
723	Burst variable 4
724	For HART command 33, assign a HART device variable or process variable to burst variable
725	Burst variable 5
726	Burst variable 6
727	Burst variable 7
728	Max. update period
729	Enter the maximum time span between two burst responses of one burst message
730	Min. update period
731	Enter the minimum time span between two burst responses of one burst message
732	Burst trigger level
733	Enter the burst trigger value that determines together with the option selected in 'Burst trigger mode' parameter the time of burst message
734	Burst trigger mode
735	Select the event that triggers the burst message
736	Continuous
737	Window
738	Rising
739	Falling
740	On change
741	Configuration counter
742	Displays the counter for changes to the device parameters. Additional information: - If the value for a static parameter is changed when optimizing or configuring the parameter, the counter is incremented by 1. This is to enable tracking different parameter versions. - When multiple parameters are changed simultaneously, e.g. when loading parameters into the device from an external source such as FieldCare, the counter may display a higher value. The counter cannot be reset, nor is it reset to a default value on performing a device reset. - Once the counter has reached the value 65535, it restarts at 0.
743	HART date code
744	Enter date for individual use.
745	2021-03-01
746	HART descriptor
747	Enter description for the measuring point
748	PROMASS10
749	Device ID
750	Displays the device ID to identify the measuring device.
751	#.8x
752	Event category 230
753	Select event category (status signal) for diagnostic event "230 Date/time incorrect".
754	Failure (F)
755	Function check (C)
756	Out of specification (S)
757	Maintenance required (M)
758	No effect (N)
759	Event category 231
760	Select event category (status signal) for diagnostic event "231 Date/time not available".
761	Event category 862
762	Select event category (status signal) for diagnostic event "862 Partly filled pipe".
763	Event category 140
764	Select category for diagnostic message
765	Event category 832
766	Select event category (status signal) for diagnostic event "832 Electronics temperature too high".
767	Event category 833
768	Select event category (status signal) for diagnostic event "833 Electronics temperature too low".
769	Event category 842
770	Select event category (status signal) for diagnostic event "842 Process value above limit".
771	Event category 912
772	Select event category (status signal) for diagnostic event "912 Medium inhomogeneous".
773	Event category 834
774	Select event category (status signal) for diagnostic event "834 Process temperature too high".
775	Event category 835
776	Select event category (status signal) for diagnostic event "835 Process temperature too low".
777	Event category 046
778	Select event category (status signal) for diagnostic event "046 Sensor build-up detected".
779	Event category 944
780	Select event category (status signal) for diagnostic event "944 Monitoring failed".
781	Event category 144
782	Event category 948
783	Select event category (status signal) for diagnostic event "948 Oscillation damping too high".
784	Event category 913
785	Select event category (status signal) for diagnostic event "913 Medium unsuitable".
786	Event category 441
787	Select event category (status signal) for diagnostic event "441 Current output @1 faulty".
788	Event category 442
789	Select event category (status signal) for diagnostic event "442 Frequency output faulty".
790	Event category 443
791	Select event category (status signal) for diagnostic event "443 Pulse output @1 faulty".
792	Event category 302
793	Select event category (status signal) for diagnostic event "302 Device verification active".
794	Event category 374
795	Select event category (status signal) for diagnostic event "374 Sensor electronics (ISEM) faulty".
796	Device type
797	Displays the device type registered with the HART Communication Foundation.
798	#.4x
799	Manufacturer ID
800	Displays the manufacturer ID registered with the HART Communication Foundation.
801	Fieldbus writing access
802	Select access method to the measuring device via fieldbus
803	Read + write
804	Read only
805	Final assembly number
806	Locking status
807	Device tag
808	Enter a unique name for the measuring point to identify the device quickly within the plant.
809	Promass
810	HART message
811	Enter HART message to be sent via HART protocol when requested by the master.
812	PROMASS10
813	No. of preambles
814	Defines the number of preambles in the HART telegram
815	HART address
816	Enter the address to exchange data via the HART protocol.
817	Process Unit Tag
818	Process Unit Tag
819	Assign PV
820	Assign a measured variable to the primary dynamic variable (PV). Additional information: The assigned measured variable is also used by the current output.
821	Displays the value currently measured for the primary dynamic variable.
822	Assign QV
823	Assign a measured variable to the quaternary dynamic variable (QV).
824	Displays the value currently measured for the quaternary dynamic variable.
825	Device revision
826	Displays device revision.
827	#.2x
828	HART revision
829	Displays the HART protocol revision of the measuring device.
830	Hardware revision
831	Displays the hardware revision of the measuring device.
832	Software revision
833	Displays software revision of the measuring device.
834	Assign SV
835	Assign a measured variable to the second dynamic variable (SV).
836	Displays the value currently measured for the secondary dynamic variable.
837	HART short tag
838	Enter a brief description for the measuring point.
839	PROMASS
840	Assign TV
841	Assign a measured variable to the tertiary dynamic variable (TV).
842	Displays the value currently measured for the tertiary dynamic variable.
843	External verification flags
844	External verification output 1
845	External verification output 2
846	External verification output 3
847	Verification result
848	Not supported
849	Passed
850	Not done
851	Failed
852	Operating time
853	Indicates how long the device has been in operation
854	External device information
855	Enter a unique identifier for the measuring equipment that is used for extended verification. Example: The measuring equipment's serial number.
856	Unknown device
857	Measured values
858	Enter the displayed value of the external measuring equipment.
859	HBSI deviation
860	Displays the current HBSI value. The HBSI value expresses the relative change of the sensor, including all components built into the sensor housing (the measuring tube, the electrodynamic sensors, the excitation system, cables, etc.) as a % of the reference value.
861	HBSI cycle time
862	Enter the number of hours per HBSI cycle.
863	Activate monitoring
864	Activate/deactivate Heartbeat Monitoring to enable/disable transmission of the HBSI value.
865	Continuous HBSI
866	Indicates how long the device has been in operation.
867
868	Start verification
869	Start verification. Additional information: If the selected verification mode is "Extended verification", the next step before starting the verification process is to select each of the output parameters displayed one by one and enter the respective external measured value in the "Measured values @1" parameter. Once all external measured values have been entered, the verification process is started by selecting the "Start" option.
870	Output 1 low value
871	Output 1 high value
872	Frequency output 1
873	Pulse output 1
874	Record application reference data
875	Record current device values as reference data for Heartbeat Monitoring and verification.
876	Status
877	Indicates the status of the save operation for the reference values.
878	Done
879	Failed
880	Select reference data
881	Select the reference data to use for the HBSI test.
882	Application data
883	Factory air calibration
884	Factory water calibration
885	No reference data available
886	Output values
887	Displays the simulated value for the selected output.
888	Verification ID
889	Displays the verification ID of the verification report for identification purposes.
890	Displays the overall result for the HBSI verification. Additional information: In addition to the overall result, the verification report also provides details on the individual tests performed.
891	I/O module
892	Displays the overall result for the verification of the I/O module. Additional information: In addition to the overall result, the verification report also provides details on the individual tests performed.
893	Verification mode
894	Select verification mode.
895	Standard verification
896	Extended verification
897	Displays the overall result of the verification. Depending on the result, various, application-specific measures may need to be taken as indicated by system routines, e.g. a "Maintenance Required" alert will be triggered if the result of the verfication is "Failed". Additional information: Detailed information on the result of the verification (test groups and test status) is additionally provided on the verification report.
898	Sensor electronic module (ISEM)
899	Displays the overall result for the verification of the sensor electronic module (ISEM). Additional information: In addition to the overall result, the verification report also provides details on the individual tests performed.
900	Sensor
901	Displays the overall result for the verification of the sensor. Additional information: In addition to the overall result, the verification report also provides details on the individual tests performed.
902	Displays the current verification status.
903	System status
904	Displays the result for the verification of the system condition.
905	Resource available
906	Bootloader revision
907	Displays the bootloader revision of the module firmware.
908	Build no. software
909	Displays the build number of the module firmware.
910	Firmware version
911	Displays the firmware version of the module.
912	Hardware version
913	Displays the hardware version of the module.
914	- none -
915	Module name
916	Displays the name of the module.
917	Serial number
918	Displays the serial number of the module.
919	AAFFFFAAFFF
920	Assign flow direction check
921	Select process variable for flow direction monitoring.
922	Damping output 1
923	Failure mode
924	Specify how the output should behave in the event of a device alarm. Additional information: For safety reasons, it is recommended that the behavior of the output in the event of a device alarm be predefined.
925	Defined value
926	0 Hz
927	Failure frequency
928	Enter the value for the "Defined value" option in the "Failure mode" parameter.
929	Assign frequency output
930	Select process variable for frequency output.
931	Maximum frequency value
932	Enter the maximum frequency for the measured value output. Additional information: The upper range value for the measured value range that corresponds to the maximum frequency is specified in the "Measuring value at maximum frequency" parameter.
933	Measuring value at maximum frequency
934	Measuring mode
935	Select measuring mode for frequency output.
936	Minimum frequency value
937	Enter the minimum frequency for the frequency range. Additional information: The lower range value for the measured value range is specified in the "Measuring value at minimum frequency" parameter.
938	Measuring value at minimum frequency
939	Enter lower range value for the measured value range. Additional information: - Depending on the setting selected for the "Measuring mode" parameter, the value specified for this parameter and the "Measuring value at maximum frequency" parameter must have the same algebraic sign or not. - As a rule, the lower range value is scaled to be lower than the upper range value. As a result, the behavior of the frequency output is proportional to the process variable assigned. If the lower range value is scaled to be higher than the upper range value, then the behavior of the frequency output will be inversely proportional to the process variable assigend.
940	Output frequency 1
941	Displays the pulse frequency currently output.
942	Frequency output 1 simulation
943	Switch simulation of the frequency output on or off.
944	Frequency output 1 value
945	Enter the frequency value for the simulation. In this manner, it is possible to verify the frequency output is configured correctly and downstream processing units are functioning properly.
946	Assign limit
947	Select the process variable to monitor in case the specified limit value is exceeded. If a limit value for the selected process variable is exceeded, the output is switched on.
948	Oscillation damping
949	Assign diagnostic behavior
950	The switch output is switched on (closed, conductive), if there is a pending diagnostic event of the assigned behavioral category.
951	Alarm or warning
952	Warning
953	Operating mode
954	Select the operating mode for the output.
955	Pulse
956	Frequency
957	Switch
958	Invert output signal
959	Indicate whether to invert the output signal (Yes/No). Additional information: - If the output signal is inverted, the output behavior is the reverse of its configuration. - This setting does not apply to the frequency output.
960	No pulses
961	Assign pulse output 1
962	Select process variable for pulse output.
963	Select measuring mode for pulse output.
964	Displays the pulse frequency currently output. Additional information: - The output behavior can be inverted in the "Invert output signal" parameter, i.e. in this case the transistor will be non-conductive for the duration of a pulse. - The "Invert output signal" parameter is not available for all devices.
965	Pulse output simulation 1
966	Switch simulation of the pulse output on or off.
967	Down-counting value
968	Pulse value 1
969	Enter the number of pulses to simulate the pulse output. In this manner, it is possible to verify the pulse output is configured correctly and downstream processing units are functioning properly.
970	Value per pulse
971	Enter the measured value to which a pulse corresponds. Additional information: Weighting of the pulse output with a quantity. The lower the pulse value, the - better the resolution. - higher the frequency of the pulse response.
972	Pulse width
973	Specify the duration of the output pulse. Additional information: The maximum pulse rate is defined by fmax = 1 / (2 × pulse width). The interval between two pulses (P) is at least as long as the specified pulse width (B). The maximum flow is defined by Qmax = fmax × pulse value. If the flow exceeds these limit values, the measuring device displays the diagnostic message "443 Pulse output @1 faulty". Example: - Pulse value: 0.1 g - Pulse width: 0.1 ms - fmax: 1 / (2 × 0.1 ms) = 5 kHz - Qmax: 5 kHz × 0.1 g = 0.5 kg/s
974	Actual status
975	Open
976	Closed
977	Switch output function
978	Assign a function to the switch output. Additional information: - The state of the switch output (on or off) when the assigned function is triggered can be inverted in the "Invert output signal" parameter - The "Invert output signal" parameter is not available for all devices.
979	Diagnostic behavior
980	Limit
981	Flow direction check
982	Switch state 1
983	Indicates the current switch output status.
984	Switch output simulation 1
985	Switch simulation of the switch output on or off. Additional information: When simulation is on, the switch output is set to the state specified in the "Switch state @1" parameter.
986	Select a switch state. In this manner, it is possible to verify the switch output is configured correctly and downstream processing units are functioning properly.
987	Switch-off delay
988	Enter delay before the switch output is switched off.
989	Switch-off value
990	Enter limit value for the switch-off point (process variable < switch-off value = open, non-conductive). Additional information: To use a hysteresis: Switch-on point > Switch-off point.
991	Switch-on delay
992	Enter delay before the switch output is switched on.
993	Switch-on value
994	Enter limit value for the switch-on point (process variable > switch-on value = closed, conductive). Additional information: To use a hysteresis: Switch-on point > Switch-off point.
995	Assign status
996	Select the device status to display for the switch output. Additional information: If the switch on point for the selected detection method is reached, the output is conductive. Otherwise, the switch output is non-conductive.
997	Enter access code
998	For users logged on in the Operator role, enter the Maintenance code to change the access status to Maintenance and disable write protection of parameters. For users logged on in the Maintenance role, enter the Service code to change the access status to Service and enable read and write access to Service parameters.
999	ChangeLoginPasswordState 1
1000	CurrentLoginCodeValid
1001	LoginCodeFirstValid
1002	LoginCodeSecondvalid
1003	Customized
1004	Displays the device firmware version installed.
1005	01.00
1006	Device name
1007	Displays the name of the transmitter. Additional information: The name can also be found on the transmitter's nameplate.
1008	Promass10
1009	Extended order code 1
1010	Displays the first, second and/or third part of the extended order code. Due to character length restrictions, the extended order code is split into a maximum of 3 parameters. The extended order code indicates for each feature in the product structure the selected option, thereby uniquely identifying the device model. Additional information: The extended order code can also be found on the nameplate.
1011	--------------------
1012	Extended order code 2
1013	Extended order code 3
1014	Order code
1015	Displays the device order code. Additional information: The order code can be used for instance to order a replacement or spare device or to verify that the device features specified on the order form match the shipping note.
1016	- none -
1017	Displays the serial number of the measuring device. The serial number can be used to identify the measuring device and to retrieve further information on the measuring device, such as the related documentation, via the Device Viewer or Operations app. Additional information: The serial number can also be found on the nameplate of the sensor and transmitter.
1018	79AFFF16000
1019	Displays the name for the measuring point.
1020	Promass
1021	ENP version
1022	Displays the version of the electronic nameplate (ENP).
1023	2.02.00
1024	XML build number
1025	Languages supported
1026	English
1027	Deutsch
1028	Arabic
1029	Chinese
1030	Czech
1031	Nederlands
1032	Français
1033	Bahasa Indonesia
1034	Italiano
1035	Japanese
1036	Korean
1037	Polski
1038	Portuguesa
1039	Russian
1040	Español
1041	Svenska
1042	Thai
1043	Türkçe
1044	Vietnamese
1045	Activate SW option
1046	Enter application package code or code of the functionality ordered separately to activate it. Additional information: - If a measuring device was ordered with an add-on software option, the activation code is programmed into the measuring device ex factory. - After entering the activation code: Check whether the new software option is displayed in the "Software option overview" parameter and therefore active. NOTE If an an invalid code is entered the software options that have already been activated are invalidated! Before entering a new activation code: Create a record of the existing activation code.
1047	Indicates the write protection with the highest priority that is currently active.
1048	Hardware locked
1049	Temporarily locked
1050	Manufacturer
1051	Displays the manufacturer.
1052	Endress+Hauser
1053	Confirm Maintenance code
1054	Confirm the access code entered for the Maintenance role.
1055	Define Maintenance code
1056	Specify an access code that is required to obtain the access rights for the Maintenance role.
1057	Device reset
1058	Reset the device configuration - either entirely or in part - to a defined state.
1059	To delivery settings
1060	Restart device
1061	Restore S-DAT backup
1062	Create T-DAT backup
1063	Restore T-DAT backup
1064	Reset Maintenance code
1065	Enter the code provided by Endress+Hauser Technical Support to reset the Maintenance code.
1066	0x00
1067	Software option overview
1068	Displays all software options included in the order ex factory or ordered at a later date that have been enabled via the operating interface. Additional information: If a new software option is not displayed after entering the activation code, the code entered was inaccurate or invalid. In this case, contact the appropriate Endress+Hauser sales organization to activate the software option.
1069	Heartbeat Verification
1070	Heartbeat Monitoring
1071	SW option enabled overview
1072	UDL features
1073	Upload support
1074	Download support
1075	Multibuffer support
1076	UDL operation
1077	Initiate upload
1078	Download to different device
1079	Download to identical device
1080	Abort up-/download
1081	Terminate up-/download
1082	Confirm download status
1083	UDL status
1084	Up-/download inactive
1085	Download temporary impossible
1086	Upload active
1087	Download active
1088	Up-/Download verification active
1089	Download succeeded
1090	Download terminated with warnings
1091	Download failed
1092	User role
1093	Displays the role the user is currently logged on in. The role determines the user's access rights for the parameters. Additional information: - Until a Maintenance code has been set in the "Define Maintenance code" parameter, all users are automatically logged on in the Maintenance role. Once the Maintenance code has been set, all users are automatically logged on in the Operator role. - The access rights can be changed via the "Enter access code" parameter.
1094	Operator
1095	Maintenance
1096	Service
1097	Production
1098	Development
1099	Alarm delay
1100	Enter a duration for the alarm delay. When a diagnostic event of the "Alarm" category occurs, the diagnostic message is not generated until the delay has elapsed.
1101	Clear event list
1102	Deletes all entries from the events list. Once this function has been executed, the events list is empty and all the events are deleted.
1103	Clear data
1104	Timestamp
1105	Displays the timestamp for the currently active diagnostic message.
1106
1107	Status signal
1108	Indicates the current device status. Additional information: The F, C, S and M status signals are categorized in accordance with VDI/VDE 2650 and NAMUR Recommendation NE 107.
1109	OK
1110	---
1111	Indicates the current device status in accordance with VDI/VDE 2650 and NAMUR Recommendation NE 107
1112	Actual diagnostics
1113	Displays the currently active diagnostic message. If there is more than one pending diagnostic event, the message for the diagnostic event with the highest priority is displayed.
1114	--------
1115	C431 Trim 1 required
1116	C491 Current output 1 simulation active
1117	I1079 Sensor changed
1118	F910 Tubes not oscillating
1119	I1089 Power on
1120	I1090 Configuration reset
1121	I1091 Configuration changed
1122	F437 Configuration incompatible
1123	F242 Firmware incompatible
1124	M438 Dataset different
1125	F252 Module incompatible
1126	I1111 Density adjust failure
1127	I1137 Display module replaced
1128	F442 Frequency output faulty
1129	442 Frequency output faulty
1130	M442 Frequency output faulty
1131	C442 Frequency output faulty
1132	S442 Frequency output faulty
1133	F410 Data transfer failed
1134	F443 Pulse output 1 faulty
1135	443 Pulse output 1 faulty
1136	M443 Pulse output 1 faulty
1137	C443 Pulse output 1 faulty
1138	S443 Pulse output 1 faulty
1139	C492 Frequency output simulation active
1140	C493 Pulse output simulation active
1141	C494 Switch output simulation active
1142	C484 Failure mode simulation active
1143	F842 Process value above limit
1144	842 Process value above limit
1145	M842 Process value above limit
1146	C842 Process value above limit
1147	S842 Process value above limit
1148	F862 Partly filled pipe
1149	862 Partly filled pipe
1150	M862 Partly filled pipe
1151	C862 Partly filled pipe
1152	S862 Partly filled pipe
1153	C485 Process variable simulation active
1154	C453 Flow override active
1155	I1151 History reset
1156	F441 Current output faulty
1157	441 Current output faulty
1158	M441 Current output faulty
1159	C441 Current output faulty
1160	S441 Current output faulty
1161	I1155 Sensor electronics temperature reset
1162	I1157 Memory error event list
1163	F083 Memory content inconsistent
1164	F372 Sensor electronics (ISEM) faulty
1165	F833 Sensor electronics temperature too low
1166	833 Sensor electronics temperature too low
1167	M833 Sensor electronics temperature too low
1168	C833 Sensor electronics temperature too low
1169	S833 Sensor electronics temperature too low
1170	F832 Sensor electronics temperature too high
1171	832 Sensor electronics temperature too high
1172	M832 Sensor electronics temperature too high
1173	C832 Sensor electronics temperature too high
1174	S832 Sensor electronics temperature too high
1175	F912 Medium inhomogeneous
1176	912 Medium inhomogeneous
1177	M912 Medium inhomogeneous
1178	C912 Medium inhomogeneous
1179	S912 Medium inhomogeneous
1180	F834 Process temperature too high
1181	834 Process temperature too high
1182	M834 Process temperature too high
1183	C834 Process temperature too high
1184	S834 Process temperature too high
1185	F835 Process temperature too low
1186	835 Process temperature too low
1187	M835 Process temperature too low
1188	C835 Process temperature too low
1189	S835 Process temperature too low
1190	F046 Sensor limit exceeded
1191	046 Sensor limit exceeded
1192	M046 Sensor limit exceeded
1193	C046 Sensor limit exceeded
1194	S046 Sensor limit exceeded
1195	F140 Sensor signal asymmetrical
1196	140 Sensor signal asymmetrical
1197	M140 Sensor signal asymmetrical
1198	C140 Sensor signal asymmetrical
1199	S140 Sensor signal asymmetrical
1200	F913 Medium unsuitable
1201	913 Medium unsuitable
1202	M913 Medium unsuitable
1203	C913 Medium unsuitable
1204	S913 Medium unsuitable
1205	F374 Sensor electronics (ISEM) faulty
1206	374 Sensor electronics (ISEM) faulty
1207	M374 Sensor electronics (ISEM) faulty
1208	C374 Sensor electronics (ISEM) faulty
1209	S374 Sensor electronics (ISEM) faulty
1210	I1209 Density adjustment ok
1211	F022 Temperature sensor defective
1212	F062 Sensor connection faulty
1213	I1221 Zero point adjust failure
1214	I1222 Zero point adjustment ok
1215	M311 Sensor electronics (ISEM) faulty
1216	F082 Data storage inconsistent
1217	I1256 Display: access status changed
1218	F222 Voltage drift detected
1219	F201 Electronics faulty
1220	I1335 Firmware changed
1221	C495 Diagnostic event simulation active
1222	I1351 Empty pipe detection adjustment failure
1223	I1353 Empty pipe detection adjustment ok
1224	F948 Oscillation damping too high
1225	948 Oscillation damping too high
1226	M948 Oscillation damping too high
1227	C948 Oscillation damping too high
1228	S948 Oscillation damping too high
1229	F270 Electronic module defective
1230	F383 Memory content
1231	F283 Memory content inconsistent
1232	I1397 Fieldbus: access status changed
1233	I1398 CDI: access status changed
1234	I1444 Device verification passed
1235	I1445 Device verification failed
1236	I1448 Application reference data recorded
1237	I1449 Recording application ref. data failed
1238	F944 Monitoring failed
1239	944 Monitoring failed
1240	M944 Monitoring failed
1241	C944 Monitoring failed
1242	S944 Monitoring failed
1243	F144 Measurement error too high
1244	144 Measurement error too high
1245	M144 Measurement error too high
1246	C144 Measurement error too high
1247	S144 Measurement error too high
1248	I1459 I/O module verification failed
1249	I1461 Sensor verification failed
1250	I1462 Sensor electronic module verific. failed
1251	F302 Device verification active
1252	302 Device verification active
1253	M302 Device verification active
1254	C302 Device verification active
1255	S302 Device verification active
1256	I1512 Download started
1257	I1513 Download finished
1258	I1514 Upload started
1259	I1515 Upload finished
1260	C412 Processing download
1261	I1622 Calibration changed
1262	I1624 All totalizers reset
1263	I1625 Write protection activated
1264	I1626 Write protection deactivated
1265	I1629 CDI: login successful
1266	I1632 Display: login failed
1267	I1633 CDI: login failed
1268	I1634 Reset to factory settings
1269	I1635 Reset to delivery settings
1270	F387 HistoROM data faulty
1271	I1649 Hardware write protection activated
1272	I1650 Hardware write protection deactivated
1273	F063 Exciter current faulty
1274	I1712 New flash file received
1275	F331 Firmware update failed in module 1
1276	F331 Firmware update failed in module 2
1277	F331 Firmware update failed in module 3
1278	F373 Sensor electronics (ISEM) faulty
1279	I1725 Sensor electronic module (ISEM) changed
1280	F378 Electronic module supply voltage faulty
1281	I2036 Date/time set successfully
1282	F230 Date/time incorrect
1283	230 Date/time incorrect
1284	M230 Date/time incorrect
1285	C230 Date/time incorrect
1286	S230 Date/time incorrect
1287	F231 Date/time not available
1288	231 Date/time not available
1289	M231 Date/time not available
1290	C231 Date/time not available
1291	S231 Date/time not available
1292	I2167 Date/time resynchronized
1293	F278 Display module defective
1294	Event category 1
1295	Event category 2
1296	Event category 3
1297	Event category 4
1298	Event category 5
1299	Diagnostics 1
1300	Displays the currently active diagnostic message with the highest priority.
1301	Diagnostics 2
1302	Displays the currently active diagnostic message with the second highest priority.
1303	Diagnostics 3
1304	Displays the currently active diagnostic message with the third highest priority.
1305	Diagnostics 4
1306	Displays the currently active diagnostic message with the fourth highest priority.
1307	Diagnostics 5
1308	Displays the currently active diagnostic message with the fifth-highest priority.
1309	Update Event
1310	Displays the timestamp for the diagnostic message with the highest priority.
1311	Displays the timestamp for the diagnostic message with the second highest priority.
1312	Displays the timestamp for the diagnostic message with the third highest priority.
1313	Displays the timestamp for the diagnostic message with the fourth highest priority.
1314	Displays the timestamp for the diagnostic message with the fifth highest priority.
1315	Assign behavior of diagnostic no. 230
1316	Select behavior for diagnostic event "230 Date/time incorrect".
1317	Logbook entry only
1318	Assign behavior of diagnostic no. 231
1319	Select behavior for diagnostic event "231 Date/time not available".
1320	Assign behavior of diagnostic no. 862
1321	Select behavior for diagnostic event "862 Partly filled pipe".
1322	Assign behavior of diagnostic no. 140
1323	Select behavior for diagnostic event "140 Sensor signal asymmetrical".
1324	Assign behavior of diagnostic no. 832
1325	Select behavior for diagnostic event "832 Electronics temperature too high".
1326	Assign behavior of diagnostic no. 833
1327	Select behavior for diagnostic event "833 Electronics temperature too low".
1328	Assign behavior of diagnostic no. 842
1329	Select behavior for diagnostic event "842 Process value above limit".
1330	Assign behavior of diagnostic no. 912
1331	Select behavior for diagnostic event "912 Medium inhomogeneous".
1332	Assign behavior of diagnostic no. 834
1333	Assign behavior of diagnostic no. 835
1334	Select behavior for diagnostic event "835 Process temperature too low".
1335	Assign behavior of diagnostic no. 046
1336	Select behavior for diagnostic event "046 Sensor limit exceeded".
1337	Assign behavior of diagnostic no. 944
1338	Select behavior for diagnostic event "944 Monitoring failed".
1339	Assign behavior of diagnostic no. 144
1340	Select diagnostic behavior for the selected diagnostic number
1341	Assign behavior of diagnostic no. 948
1342	Select behavior for diagnostic event "948 Oscillation damping too high".
1343	Assign behavior of diagnostic no. 913
1344	Select behavior for diagnostic event "913 Medium unsuitable".
1345	Assign behavior of diagnostic no. 441
1346	Select behavior for diagnostic event "441 Current output @1 faulty".
1347	Assign behavior of diagnostic no. 442
1348	Select behavior for diagnostic event "442 Frequency output faulty".
1349	Assign behavior of diagnostic no. 443
1350	Select behavior for diagnostic event "443 Pulse output @1 faulty".
1351	Assign behavior of diagnostic no. 302
1352	Select behavior for diagnostic event "302 Device verification active".
1353	Assign behavior of diagnostic no. 374
1354	Select behavior for diagnostic event "374 Sensor electronics (ISEM) faulty".
1355	Prepare state
1356	Filter options
1357	Select the category of event notification to display in the event list. Additional information: The status signals F, C, S and M are categorized in accordance with VDI/VDE 2650 and NAMUR Recommendation NE 107.
1358	All
1359	Out of specification (S)
1360	Information (I)
1361	PE_method_read_event
1362	Entries list
1363	Operating time from restart
1364	Indicates how long the device has been in operation since the last time the device was restarted.
1365	Displays the timestamp of the diagnostic message generated for the last diagnostic event that has ended.
1366	Event category
1367	Previous diagnostics
1368	Displays the diagnostic message for the last diagnostic event that has ended.
1369	Diagnostic event simulation
1370	Select the diagnostic event to simulate.
1371	022 Temperature sensor defective
1372	062 Sensor connection faulty
1373	063 Exciter current faulty
1374	082 Data storage inconsistent
1375	083 Memory content inconsistent
1376	201 Electronics faulty
1377	222 Voltage drift detected
1378	242 Firmware incompatible
1379	252 Module incompatible
1380	270 Electronic module defective
1381	278 Display module defective
1382	283 Memory content inconsistent
1383	311 Sensor electronics (ISEM) faulty
1384	331 Firmware update failed in module 1
1385	331 Firmware update failed in module 2
1386	331 Firmware update failed in module 3
1387	372 Sensor electronics (ISEM) faulty
1388	373 Sensor electronics (ISEM) faulty
1389	378 Electronic module supply voltage faulty
1390	383 Memory content
1391	387 HistoROM data faulty
1392	410 Data transfer failed
1393	412 Processing download
1394	431 Trim 1 required
1395	437 Configuration incompatible
1396	438 Dataset different
1397	453 Flow override active
1398	484 Failure mode simulation active
1399	485 Process variable simulation active
1400	491 Current output 1 simulation active
1401	492 Frequency output simulation active
1402	493 Pulse output simulation active
1403	494 Switch output simulation active
1404	910 Tubes not oscillating
1405	Device alarm simulation
1406	Switch the device alarm simulation on or off. While simulation is in progress, the display alternates between the measured value and a diagnostic message of the Function Check (C) category.
1407	None
1408	Corrected volume unit
1409	Select corrected volume unit.
1410	Corrected volume flow unit
1411	Select corrected volume flow unit.
1412	Density unit
1413	Select density unit.
1414	Mass unit
1415	Select mass unit.
1416	Mass flow unit
1417	Select mass flow unit.
1418	Pressure unit
1419	Select pressure unit.
1420	Reference density unit
1421	Select reference density unit.
1422	Temperature unit
1423	Select temperature unit.
1424	Volume unit
1425	Select volume unit.
1426	Volume flow unit
1427	Select volume flow unit.
1428	Assign process variable
1429	Select process variable for totalizer. Additional information: If the option selected is changed, the device resets the totalizer to "0".
1430	method_update_TIC_TotUnit_1
1431	method_update_TIC_TotUnit_2
1432	method_update_TIC_TotUnit_3
1433	Control Totalizer 1
1434	Operate the totalizer.
1435	Totalize
1436	Reset + hold
1437	Preset + hold
1438	Hold
1439	Control Totalizer 2
1440	Control Totalizer 3
1441	Specify how the totalizer should behave in the event of a device alarm. Additional information: The failsafe mode that applies to any other totalizers or outputs is specified separately in other parameters and is not impacted by this setting.
1442	Stop
1443	Limit hysteresis
1444	Totalizer overflow 1
1445	Displays the current totalizer overflow. Additional information: If the current totalizer counter exceeds the operating tool's maximum numerical display range of 7 digits, the amount above this range is expressed as an overflow. The current totalizer counter therefore equals the sum of the overflow and the totalizer value displayed in the "Totalizer value @1" parameter. Example of how to calculate the current totalizer counter when the value exceeds the 7 digit display limit of the operating tool: - Value of "Totalizer value @1" parameter: 1,968,457 m³ - Value of "Totalizer overflow @1" parameter: 1 × 10^7 m³ = 10,000,000 m³ - Current totalizer reading: 11,968,457 m³
1446	Totalizer overflow 2
1447	Totalizer overflow 3
1448	Preset value 1
1449	Specify start value for totalizer.
1450	Preset value 2
1451	Preset value 3
1452	Totalizer operation mode
1453	Select totalizer calculation mode.
1454	Net flow total
1455	Forward flow total
1456	Reverse flow total
1457	Unit totalizer 1
1458	Select process variable totalizer unit.
1459	Unit totalizer 2
1460	Unit totalizer 3
1461	Totalizer value 1
1462	Displays the current totalizer counter. Additional information: Since the operating tool cannot display figures with more than 7 digits, the current counter above this range equals the sum of the totalizer counter plus the overflow displayed for the "Totalizer overflow @1" parameter. Example for how to calculate the current totalizer counter when the value exceeds the 7 digit display range limit of the operating tool: - Value of "Totalizer value @1" parameter: 1,968,457 m³ - Value of "Totalizer overflow @1" parameter: 1 × 107 m³ = 10,000,000 m³ - Current totalizer reading: 11,968,457 m³ In the event of an error, the totalizer behaves as specified in the "Failure mode" parameter.
1463	Totalizer value 2
1464	Totalizer value 3
1465	Brightness
1466	Adjust brightness.
1467	Color scheme
1468	Select preferred color scheme.
1469	Light
1470	Dark
1471	Display damping
1472	Enter time constant (PT1 element) to set reaction time of the display to fluctuations in the measured value. Additional information: - The smaller the time constant the faster the display reacts to fluctuations in the measured value. - If the time constant is set to 0, damping is deactivated.
1473	Value 1 display
1474	Select the measured value that is displayed first on the local display. Additional information: The applicable unit of measure is specified in the "System units" submenu.
1475	Value 2 display
1476	Select the measured value that is shown second on the local display. Additional information: The applicable unit of measure is specified in the "System units" submenu.
1477	Value 3 display
1478	Select the measured value that is shown third on the local display. Additional information: The applicable unit of measure is specified in the "System units" submenu.
1479	Value 4 display
1480	Select the measured value that is shown fourth on the local display. Additional information: The applicable unit of measure is specified in the "System units" submenu.
1481	Rotation display
1482	Select rotation angle of the display text to optimize local display readability.
1483	Auto
1484	0 degree
1485	90 degree
1486	180 degree
1487	270 degree
1488	Language
1489	Set display language.
1490	German
1491	French
1492	Spanish
1493	Italian
1494	Dutch
1495	Portuguese
1496	Polish
1497	Swedish
1498	Turkish
1499	Indonesian
1500	Edit: Zero point adjustment control
1501	Edit: Select medium
1502	Edit: Reset all totalizers
1503	Edit: Record application reference data
1504	Edit: Start verification
1505	Edit: Device reset
1506	Edit: Clear event list
1507	Response_Code_msg
1508	BCT_request
1509	Blocktransfer DWORD(4)_1
1510	Blocktransfer DWORD(4)_2
1511	Blocktransfer DWORD(4)_3
1512	Blocktransfer DWORD(4)_4
1513	Blocktransfer DWORD(4)_5
1514	Blocktransfer DWORD(4)_6
1515	Blocktransfer DWORD(4)_7
1516	Blocktransfer DWORD(4)_8
1517	Blocktransfer DWORD(4)_9
1518	Blocktransfer DWORD(4)_10
1519	Blocktransfer DWORD(4)_11
1520	Blocktransfer DWORD(4)_12
1521	Blocktransfer DWORD(4)_13
1522	Blocktransfer DWORD(4)_14
1523	Blocktransfer DWORD(4)_15
1524	Blocktransfer DWORD(4)_16
1525	Blocktransfer DWORD(4)_17
1526	Blocktransfer DWORD(4)_18
1527	Blocktransfer DWORD(4)_19
1528	Blocktransfer DWORD(4)_20
1529	Blocktransfer DWORD(4)_21
1530	Blocktransfer DWORD(4)_22
1531	Blocktransfer DWORD(4)_23
1532	Blocktransfer DWORD(4)_24
1533	Blocktransfer DWORD(4)_25
1534	CorrGain
1535	CorrOffset
1536	BroadcastPrimaryVariableSelector
1537	BroadcastSecondVariableSelector
1538	HARTOutput
1539	Pulse/frequency/switch output 1
1540	Process
1541	Current output 1
1542	Unit
1543	Diagnostics
1544	Device
1545	TouchDisplay
1546	Heartbeat
1547	HARTBurstMessage
1548	BlueConnect
1549	port
1550	Sensor number
1551	Sensor 1
1552	Sensor 2
1553	Curve ID
1554	Data transfer finished
1555	X minimum value
1556	X maximum value
1557	X decimation value
1558	Preparation status
1559	X engineering unit
1560	UNITS_CODE(45)
1561	Y engineering unit
1562	Transmission length
1563	Number of data points
1564	Compression state
1565	success
1566	inefficient (nur geräteintern)
1567	Dst2Small
1568	WrIntoRd
1569	Fail (schwerer interner Fehler)
1570	Corrected Xmin
1571	Device corrected starting point in engineering unit
1572	Corrected Xmax
1573	Device corrected ending point in engineering unit
1574	function_code
1575	Master Byte Count
1576	Device Byte Count
1577	Segment Length Changed
1578	Port not Found
1579	Port in Use
1580	Maximum Ports In Use
1581	Segment Length Too Small
1582	Blocktransfer Float_1
1583	Blocktransfer Float_2
1584	Blocktransfer Float_3
1585	Blocktransfer Float_4
1586	Blocktransfer Float_5
1587	Blocktransfer Float_6
1588	Blocktransfer Float_7
1589	Blocktransfer Float_8
1590	Blocktransfer Float_9
1591	Blocktransfer Float_10
1592	Blocktransfer Float_11
1593	Blocktransfer Float_12
1594	Blocktransfer Float_13
1595	Blocktransfer Float_14
1596	Blocktransfer Float_15
1597	Blocktransfer Float_16
1598	number_bytes_message
1599	Port not Open
1600	Close port
1601	End of transfer
1602	Progress
1603	Device Settings
1604	Maintenance
1605	Feature not supported
1606	Offline
1607	Diagnostics
1608	Active diagnostics
1609	Application
1610	Bluetooth configuration
1611	Calibration
1612	Communication
1613	Connectivity
1614	Corrected volume flow calculation
1615	Device
1616	Device management
1617	Diagnostic list
1618	Diagnostics
1619	Diagnostic settings
1620	Configuration
1621	Electronics
1622	Display
1623	Event logbook
1624	External compensation
1625	Guidance
1626	Commissioning
1627	Complete this wizard to commission the device. For each parameter, enter the appropriate value or select the appropriate option. NOTE If you exit the wizard before completing all required parameters, the changes you made will be saved. For this reason, the device may be in an undefined state! In this case, a reset to the default settings is recommended.
1628	HART configuration
1629	Information
1630	Output
1631	Heartbeat Technology
1632	Performing verification
1633	Verification results
1634	Measured values
1635	Medium settings
1636	Medium temperature
1637	Display module
1638	Oscillation amplitude
1639	Oscillation frequency
1640	Process parameters
1641	Process variable adjustment
1642	Properties
1643	Sensor adjustment
1644	Simulation
1645	Software configuration
1646	System
1647	Totalizer
1648	Totalizers
1649	Totalizer handling
1650	Two phase flow
1651	System units
1652	User management
1653	Zero point adjustment
1654	Process variables
1655	Access rights
1656	Viewing active diagnostics
1657	Configuring Bluetooth
1658	Viewing details of the last calibration performed
1659	Setting up the device for corrected volume flow calculation
1660	Current output
1661	Configuring the current output
1662	Setting the date and time formats
1663	Squawk command is used for identifying devices in Field. This command enables the device to respond with a visible response on the display.
1664	Managing the device
1665	Viewing device identification details
1666	Extended order code
1667	Viewing currently active diagnostic messages If there are more than five pending diagnostic events, the messages for the events with the highest priority are displayed.
1668	Changing diagnostic settings
1669	Changing the diagnostic behavior or event category (status signal) assigned to a configuration-related diagnostic event (Events No. 400-599) NOTE It is not possible to change the diagnostic behavior for all diagnostic events! Only diagnostic events for which the default diagnostic behavior can be changed are displayed.
1670	Changing the diagnostic behavior or event category (status signal) assigned to an electronics-related diagnostic event (Events No. 200-399) NOTE It is not possible to change the diagnostic behavior for all diagnostic events! Only diagnostic events for which the default diagnostic behavior can be changed are displayed.
1671	Changing the diagnostic behavior or event category (status signal) assigned to a process-related diagnostic event (Events No. 800-999) NOTE It is not possible to change the diagnostic behavior for all diagnostic events! Only diagnostic events for which the default diagnostic behavior can be changed are displayed.
1672	Changing the diagnostic behavior or event category (status signal) assigned to a sensor-related diagnostic event (Events No. 0-199) NOTE It is not possible to change the diagnostic behavior for all diagnostic events! Only diagnostic events for which the default diagnostic behavior can be changed are displayed.
1673	Configuring the local display
1674	Configuring partially filled pipe detection Partially filled pipe detection monitors the pipe fill level. If an empty or partially filled pipe is detected, diagnostic message "862 Partly filled pipe" is generated.
1675	Viewing event messages Event messages are displayed in chronological order. The event history includes both diagnostic events and information events. The symbol in front of the timestamp indicates whether the event has started or ended.
1676	Setting up the medium for external or internal compensation of the measured value
1677	Configuring the HART interface
1678	HART information
1679	Viewing device details for the HART interface
1680	HART output
1681	Assigning measured variables to HART dynamic variables
1682	Setting up Heartbeat Monitoring for HBSI (Heartbeat Sensor Integrity)
1683	Performing a verification There are two verification modes available: standard verification (without verification of external measured variables) and extended verification (with verification of external measured variables).
1684	Viewing the verification results and generating the verification report
1685	Configuring low flow cut off Low flow cut off prevents the detection of flow rates that drop below the specified low flow cut off.
1686	Viewing the lowest and highest sensor electronics temperature measured since the last reset
1687	Selecting the medium and if applicable configuring the sound velocity
1688	Viewing the lowest and highest medium temperature measured since the last reset
1689	Reset minimum/maximum values
1690	Resetting the minimum and the maximum value measured for the respective measuring variable to the currently measured value
1691	Viewing details to identify the display module
1692	Viewing details to identify the sensor electronic module
1693	Viewing the lowest and highest oscillation amplitude measured since the last reset
1694	Viewing the lowest and highest oscillation damping measured since the last reset
1695	Viewing the lowest and highest oscillation frequency measured since the last reset
1696	Configuring the pulse/frequency/switch output
1697	Configuring the process parameters
1698	Viewing the measured or calculated value for each process variable
1699	Setting up the details to perform a zero point adjustment For each process variable, the corrected value = (Factor x Value) + Offset
1700	Configuring the measuring functionality of the sensor
1701	Viewing the lowest and highest signal asymmetry measured since the last reset
1702	Diagnostic simulation
1703	Simulating an alarm condition or a diagnostic event
1704	Output simulation
1705	Simulating the outputs While simulation is in progress, the display alternates between the measured value and a diagnostic message of the Function check (C) category.
1706	Process value simulation
1707	Simulating a process variable While simulation is in progress, the display alternates between the measured value and a diagnostic message of the Function check (C) category.
1708	Updates, activation, and overview of the software
1709	Setting up the system units for the process variables
1710	Viewing the totalizer counter and overflow
1711	Configuring and operating the totalizer
1712	Performing a reset and restart of all totalizers
1713	Configuring a two phase medium (gas in liquid, droplets in gas, or solid in liquid) and viewing related diagnostics
1714	Managing user access rights
1715	Performing a zero point adjustment Performing a zero point adjustment may be required for applications with low flow and stringent accuracy requirements. A measuring device in good condition has a maximum zero point deviation of ± 100 compared to the factory setting (calibration report). Additional information: The new zero point correction value is displayed in the "Zero point" parameter in the "Calibration" menu.
1716	Remedy information
1717	Carry out trim
1718	1. Check electronics 2. Inspect sensor
1719	1. Restart device 2. Contact service
1720	1. Check firmware version 2. Flash or replace electronic module
1721	1. Check data set file 2. Check device configuration 3. Up- and download new configuration
1722	1. Check electronic modules 2. Check if correct modules are available (e.g. NEx, Ex) 3. Replace electronic modules
1723	1. Check process 2. Check frequency output settings
1724	1. Check connection 2. Retry data transfer
1725	1. Check process 2. Check pulse output settings
1726	Deactivate simulation frequency output
1727	Deactivate simulation pulse output
1728	Deactivate simulation switch output
1729	1. Decrease process value 2. Check application 3. Check sensor
1730	1.Check for gas in process 2. Adjust detection limits
1731	Deactivate flow override
1732	1. Check process 2. Check current output settings
1733	1. Restart device 2. Restore HistoROM S-DAT backup ('Device reset' parameter) 3. Replace HistoROM S-DAT
1734	1. Restart device 2. Check if failure recurs 3. Replace sensor electronic module (ISEM)
1735	Increase ambient temperature
1736	Reduce ambient temperature
1737	1. Check process cond. 2. Increase system pressure
1738	Reduce process temperature
1739	Increase process temperature
1740	1. Check sensor 2. Check process conditions
1741	1. Check or replace sensor electronic module (ISEM) 2. If available: Check connection cable between sensor and transmitter 3. Replace sensor
1742	1. Check process conditions 2. Check electronic modules or sensor
1743	1. Do not reset device 2. Contact service
1744	1. Check module connections 2. Contact service
1745	Change main electronic module
1746	Check process conditions
1747	Replace electronic module
1748	1. Restart device 2. Delete T-DAT via 'Reset device' parameter 3. Replace T-DAT
1749	1. Reset device 2. Contact service
1750	Check process conditions for Heartbeat Monitoring
1751	1. Check or change sensor 2. Check process conditions
1752	Device verification active, please wait.
1753	Download active, please wait
1754	Contact service organization
1755	1. Update firmware of device 2. Restart device
1756	Contact service
1757	Check supply voltage to the ISEM
1758	1. Replace RTC buffer battery 2. Set date and time
1759	1. Replace display module or its cable 2. Set date and time
1760	Replace display module
1761	-
1762	Deactivate simulation
1763	Service ID
1764	4
1765	80
1766	96
1767	103
1768	106
1769	107
1770	138
1771	139
1772	140
1773	141
1774	142
1775	143
1776	145
1777	146
1778	148
1779	153
1780	160
1781	161
1782	182
1783	193
1784	195
1785	196
1786	197
1787	198
1788	199
1789	200
1790	201
1791	202
1792	204
1793	205
1794	206
1795	212
1796	213
1797	214
1798	218
1799	219
1800	220
1801	223
1802	226
1803	231
1804	275
1805	276
1806	277
1807	281
1808	288
1809	289
1810	290
1811	331
1812	354
1813	360
1814	362
1815	366
1816	367
1817	454
1818	455
1819	494
1820	516
1821	648
1822	691
1823	704
1824	714
1825	715
1826	716
1827	717
1828	719
1829	720
1830	721
1831	1008
1832	1057
1833	1165
1834	1166
1835	1192
1836	1193
1837	Details
1838	Actual details
1839	Previous details
1840	Commissioning20_Page_Number_Validity
1841	Device identification
1842	Identifying the device
1843	Medium
1844	Selecting and setting up the medium
1845	Configuring the totalizer
1846	Measuring conditions
1847	Setting up the conditions for flow measurement and display of measured values
1848	Finish
1849	The device is ready for use.
1850	Additional settings
1851	<<Cancel>>
1852	<<Finish>>
1853	<<Previous
1854	>>Next
1855	Upload variables
1856	Operate
1857	Promass 10
1858	Device overview
1859
1860	Indicates the write protection with the highest priority that is currently active
1861	The commissioning for this device has not yet taken place. It is recommended to use the commissioning wizard.
1862	Process-/Measured values
1863	Output current
1864	HART Diagnostics
1865	Extended Device Status
1866	Device standardized status 0
1867	Device Status
1868	Status Byte 0
1869	Status Byte 1
1870	Status Byte 2
1871	Status Byte 3
1872	Status Byte 4
1873	Status Byte 5
1874	Status Byte 14
1875	Status Byte 15
1876	Status Byte 16
1877	Status Byte 17
1878	Status Byte 18
1879	Status Byte 19
1880	Status Byte 21
1881	Status Byte 22
1882	Status Byte 23
1883	Hart diagnosis
1884	HartLogo
1885	Configuration Flag Reset
1886	Commands reset the configuration flag.
1887	Failure
1888	Out of Specification
1889	Function Check
1890	231 Date/time not available -> Remedy information: 1. Replace display module or its cable 2. Set date and time
1891	C431 Trim 1 required -> Remedy information: Carry out trim
1892	C491 Current output 1 simulation active -> Remedy information: Deactivate simulation
1893	C485 Process variable simulation active -> Remedy information: Deactivate simulation
1894	F022 Temperature sensor defective -> Remedy information: 1. Check or replace sensor electronic module (ISEM) 2. If available: Check connection cable between sensor and transmitter 3. Replace sensor
1895	046 Sensor limit exceeded -> Remedy information: 1. Check sensor 2. Check process conditions
1896	F910 Tubes not oscillating -> Remedy information: 1. Check electronics 2. Inspect sensor
1897	C453 Flow override active -> Remedy information: Deactivate flow override
1898	842 Process value above limit -> Remedy information: 1. Decrease process value 2. Check application 3. Check sensor
1899	F083 Memory content inconsistent -> Remedy information: 1. Restart device 2. Restore HistoROM S-DAT backup ('Device reset' parameter) 3. Replace HistoROM S-DAT
1900	F242 Firmware incompatible -> Remedy information: 1. Check firmware version 2. Flash or replace electronic module
1901	F437 Configuration incompatible -> Remedy information: 1. Restart device 2. Contact service
1902	M438 Dataset different -> Remedy information: 1. Check data set file 2. Check device configuration 3. Up- and download new configuration
1903	C484 Failure mode simulation active -> Remedy information: Deactivate simulation
1904	833 Sensor electronics temperature too low -> Remedy information: Increase ambient temperature
1905	M311 Sensor electronics (ISEM) faulty -> Remedy information: 1. Do not reset device 2. Contact service
1906	F410 Data transfer failed -> Remedy information: 1. Check connection 2. Retry data transfer
1907	441 Current output faulty -> Remedy information: 1. Check process 2. Check current output settings
1908	442 Frequency output faulty -> Remedy information: 1. Check process 2. Check frequency output settings
1909	443 Pulse output 1 faulty -> Remedy information: 1. Check process 2. Check pulse output settings
1910	C492 Frequency output simulation active -> Remedy information: Deactivate simulation frequency output
1911	C493 Pulse output simulation active -> Remedy information: Deactivate simulation pulse output
1912	C494 Switch output simulation active -> Remedy information: Deactivate simulation switch output
1913	C495 Diagnostic event simulation active -> Remedy information: Deactivate simulation
1914	140 Sensor signal asymmetrical -> Remedy information: 1. Check or replace sensor electronic module (ISEM) 2. If available: Check connection cable between sensor and transmitter 3. Replace sensor
1915	F082 Data storage inconsistent -> Remedy information: 1. Check module connections 2. Contact service
1916	C412 Processing download -> Remedy information: Download active, please wait
1917	913 Medium unsuitable -> Remedy information: 1. Check process conditions 2. Check electronic modules or sensor
1918	834 Process temperature too high -> Remedy information: Reduce process temperature
1919	835 Process temperature too low -> Remedy information: Increase process temperature
1920	912 Medium inhomogeneous -> Remedy information: 1. Check process cond. 2. Increase system pressure
1921	F278 Display module defective -> Remedy information: Replace display module
1922	F252 Module incompatible -> Remedy information: 1. Check electronic modules 2. Check if correct modules are available (e.g. NEx, Ex) 3. Replace electronic modules
1923	F270 Electronic module defective -> Remedy information: Replace electronic module
1924	F201 Electronics faulty -> Remedy information: 1. Restart device 2. Contact service
1925	F062 Sensor connection faulty -> Remedy information: 1. Check or replace sensor electronic module (ISEM) 2. If available: Check connection cable between sensor and transmitter 3. Replace sensor
1926	F222 Voltage drift detected -> Remedy information: Change main electronic module
1927	144 Measurement error too high -> Remedy information: 1. Check or change sensor 2. Check process conditions
1928	944 Monitoring failed -> Remedy information: Check process conditions for Heartbeat Monitoring
1929	F283 Memory content inconsistent -> Remedy information: 1. Reset device 2. Contact service
1930	F383 Memory content -> Remedy information: 1. Restart device 2. Delete T-DAT via 'Reset device' parameter 3. Replace T-DAT
1931	302 Device verification active -> Remedy information: Device verification active, please wait.
1932	948 Oscillation damping too high -> Remedy information: Check process conditions
1933	F378 Electronic module supply voltage faulty -> Remedy information: Check supply voltage to the ISEM
1934	F387 HistoROM data faulty -> Remedy information: Contact service organization
1935	F331 Firmware update failed in module X Remedy information 1. Update firmware of device 2. Restart device
1936	230 Date/time incorrect -> Remedy information: 1. Replace RTC buffer battery 2. Set date and time
1937	F063 Exciter current faulty -> Remedy information: 1. Check or replace sensor electronic module (ISEM) 2. If available: Check connection cable between sensor and transmitter 3. Replace sensor
1938	F372 Sensor electronics (ISEM) faulty -> Remedy information: 1. Restart device 2. Check if failure recurs 3. Replace sensor electronic module (ISEM)
1939	F373 Sensor electronics (ISEM) faulty -> Remedy information: Contact service
1940	374 Sensor electronics (ISEM) faulty -> Remedy information: 1. Restart device 2. Check if failure recurs 3. Replace sensor electronic module (ISEM)
1941	862 Partly filled pipe -> Remedy information: 1.Check for gas in process 2. Adjust detection limits
1942	Update Time Period
1943	LOW RANGE VALUE (dummy)
1944	UP RANGE VALUE (dummy)
1945	MIN SPAN VALUE (dummy)
1946	Device family
1947	Classification
1948	Device family status
1949	Process data quality
1950	Limit status
1951	Lower trim
1952	Upper trim
1953	Trim support
1954	Level Min lower trim
1955	Level Max lower trim
1956	Level Min upper trim
1957	Level Max upper trim
1958	Level Min trim diff
1959	Dummy
1960	Update Period
1961	0x80
1962	0x04
1963	0x84
1964	0x01
1965	0x81
1966	0x08
1967	0x88
1968	0x02
1969	0x82
1970	0x10
1971	0x20
1972	0xA0
1973	Event buffer selection
1974	Event buffer selection : 1-10
1975	Event buffer selection : 11-20
1976	Event buffer selection : 21-30
1977	Event buffer selection : 31-40
1978	Event buffer selection : 41-50
1979	Event buffer selection : 51-60
1980	Event buffer selection : 61-70
1981	Event buffer selection : 71-80
1982	Event buffer selection : 81-90
1983	Event buffer selection : 91-100
1984	Read events
1985	Event list
1986	Status signal + Remedy information
1987	Event
1988	No Event
1989	Loop Warning Variables
1990	Loop Warning Variables- Variables that display a warning message before new values are sent.
1991	PV Analog Channel Saturated
1992	PV Analog Channel Fixed
1993	Wireless
1994	WirelessHART Device
1995	IEEE 802.15.4 2.4GHz DSSS with O-QPSK Modulation
1996	Primary
1997	Primary Analog Channel
1998	Secondary
1999	Secondary Analog Channel
2000	Tertiary
2001	Tertiary Analog Channel
2002	Quaternary
2003	Quaternary Analog Channel
2004	Quinary
2005	Quinary Analog Channel
2006	Critical Power Failure
2007	Lock all
2008	Trim not supported
2009	Configuration cannot be changed
2010	Locked by gateway
2011	Analog Input Channel
2012	Analog Output Channel
2013	Secondary Analog Channel Saturated
2014	Tertiary Analog Channel Saturated
2015	Quaternary Analog Channel Saturated
2016	Quinary Analog Channel Saturated
2017	Secondary Analog Channel Fixed
2018	Tertiary Analog Channel Fixed
2019	Quaternary Analog Channel Fixed
2020	Quinary Analog Channel Fixed
2021	Simulation active
2022	The device is in simulation mode and the level output is not representative of the process.
2023	Non-Volatile memory failure
2024	The Non-Volatile memory check is invalid or maybe corrupt, or the battery of a battery-backed memory has failed.
2025	Volatile memory error
2026	The RAM memory check is invalid or maybe corrupt
2027	Watchdog reset executed
2028	A watchdog reset has been performed
2029	Voltage conditions out of range
2030	A voltage condition is outside its allowable range
2031	Environmental conditions out of range
2032	An internal or environmental condition is beyond acceptable limits.
2033	Electronic failure
2034	A hardware problem not related to the sensor has been detected.
2035	Subdevice list changed
2036	Duplicate master detected
2037	Capacity Denied
2038	The device was unable to acquire the communication bandwidth required to support the Burst Messaging specified
2039	Bandwidth allocation pending
2040	Block transfer pending
2041	Battery life
2042	Percent range
2043	Loop current
2044	Primary variable
2045	Secondary variable
2046	Tertiary variable
2047	Quaternary variable
2048	Read receive time
2049	Write date and time
2050	Non-Volatile Clock
2051	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.
2052	Clock Uninitialized
2053	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.
2054	No restrictions
2055	SI Only
2056	Restricted to SI Unit codes only
2057	Process automation device
2058	Discrete device
2059	Hybrid:Process automation+discrete
2060	I/O System
2061	WirelessHART Process automation device
2062	WirelessHART Discrete device
2063	WirelessHART Process automation+discrete
2064	WirelessHART Gateway
2065	WirelessHART Access point
2066	WirelessHART Process adapter
2067	WirelessHART Discrete adapter
2068	WirelessHART enabled handheld/portable maintenance tool
2069	Device Profile
2070	US
2071	United States of America
2072	JP
2073	Japan
2074	DE
2075	Germany
2076	FR
2077	France
2078	ES
2079	Spain
2080	RU
2081	Russian Federation
2082	CN
2083	People's Republic of China
2084	Secondary Master
2085	Primary Master
2086	Device Diagnostic Status 0
2087	Device Diagnostic Status 1
2088	I/O and Subdevice Status
2089	WirelessHART Status
2090	Time Set Option
2091	Real Time Clock Flags
2092	Country
2093	Country of intended device installation
2094	SI Unit Control
2095	Indicates if device should only display SI unit codes
2096	Burst Trigger Units
2097	Enable on token-passing data link layer only
2098	Enable on TDMA data link layer only
2099	Enable on both TDMA and token-passing data link layer
2100	Burst Trigger Class
2101	Continuous
2102	The Burst Message is published continuously at (worst case) the Minimum Update Period.
2103	Window
2104	The Burst Message is triggered when the source value deviates more than the specified trigger value
2105	Rising
2106	The Burst Message is triggered when source value Rises Above the specified trigger value.
2107	Falling
2108	The Burst Message is triggered when the source value Falls Below the specified trigger value.
2109	On-change
2110	The Burst Message is triggered when any value in the message changes.
2111	Off
2112	Enable event notification on token-passing data link layer
2113	Enable event notification on TDMA data link layer
2114	Enable event notification on TDMA and token-passing data link layer
2115	Configuration changed event pending
2116	Device status event pending
2117	More status available event pending
2118	Wired HART Enabled
2119	Enabled on Wired HART device connection only
2120	Wireless HART Enabled
2121	Enabled on WirelessHART device connection only
2122	Both Wired and WirelessHart Enabled
2123	Enabled on both Wired and WirelessHART connections
2124	Burst Msg Trigger Mode
2125	Event Status
2126	Event Notification Control
2127	Device Status Mask
2128	Ext dev status Mask
2129	Device Diagnostic Status 0 Mask
2130	Device Diagnostic Status 1 Mask
2131	Device Diagnostic Status 2 Mask
2132	Device Diagnostic Status 3 Mask
2133	AO saturated Mask
2134	AO fixed Mask
2135	Latched Device Status
2136	Operate mode Mask
2137	Not Defined
2138	Latched Ext dev status
2139	Latched Device Diagnostic Status 0
2140	Latched Device Diagnostic Status 1
2141	Latched Device Diagnostic Status 2
2142	Latched Device Diagnostic Status 3
2143	Latched AO saturated
2144	Latched AO fixed
2145	Latched Operate Mode
2146	Time Stamp
2147	Relative time value on network
2148	8u
2149	Dynamic Variables Returned for Device Variables
2150	Command Response Truncated
2151	Configuration Change Counter Mismatch
2152	Status bytes mismatch
2153	count
2154	Device Variable
2155	Variable to trim
2156	8.3f
2157	7d
2158	Zero point adjustment control
2159	Select medium
2160	Reset all totalizers
2161	Record application reference data
2162	Start verification
2163	Device reset
2164	Clear event list
2165	Define Maintenance code
2166	Confirm Maintenance code
2167	End of sequence
2168	Locking status
2169	Execute Configuration Flag Reset?
2170	Identifying the device
2171	Selecting and setting up the medium
2172	Setting up the system units for the process variables
2173	Configuring the totalizer
2174	Setting up the conditions for flow measurement and display of measured values
2175	Configuring the current output
2176	Configuring the pulse/frequency/switch output
2177	Preparation in progress, please wait!
2178	Prepare busy
2179	%{SPV_FilterOptions_1} :
2180	No Event
2181	Event buffer selection
2182	%{0}%
2183	Close
2184	select
2185	%{ConfigChanged_Para_ID} (%{ConfigChanged_Para_ID_Ext}) %{ConfigChanged_OldValue_Int} -> %{ConfigChanged_NewValue_Int}
2186	%{ConfigChanged_Para_ID} (%{ConfigChanged_Para_ID_Ext}) %{ConfigChanged_OldValue_Int} %{ConfigChanged_Unit_ID} -> %{ConfigChanged_NewValue_Int} %{ConfigChanged_Unit_ID}
2187	%{ConfigChanged_Para_ID} (%{ConfigChanged_Para_ID_Ext}) %{ConfigChanged_OldValue_Enum} -> %{ConfigChanged_NewValue_Enum}
2188	%{ConfigChanged_Para_ID} (%{ConfigChanged_Para_ID_Ext}) %{ConfigChanged_OldValue_Enum} %{ConfigChanged_Unit_ID} -> %{ConfigChanged_NewValue_Enum} %{ConfigChanged_Unit_ID}
2189	%{ConfigChanged_Para_ID} (%{ConfigChanged_Para_ID_Ext}) %{ConfigChanged_OldValue_Float} -> %{ConfigChanged_NewValue_Float}
2190	%{ConfigChanged_Para_ID} (%{ConfigChanged_Para_ID_Ext}) %{ConfigChanged_OldValue_Float} %{ConfigChanged_Unit_ID} -> %{ConfigChanged_NewValue_Float} %{ConfigChanged_Unit_ID}
2191	%{ConfigChanged_Para_ID} (%{ConfigChanged_Para_ID_Ext})
2192	Carry out trim (Service ID: 4)
2193	1. Check electronics 2. Inspect sensor (Service ID: 80)
2194	1. Restart device 2. Contact service (Service ID: 96)
2195	1. Check firmware version 2. Flash or replace electronic module (Service ID: 103)
2196	1. Check data set file 2. Check device configuration 3. Up- and download new configuration (Service ID: 106)
2197	1. Check electronic modules 2. Check if correct modules are available (e.g. NEx, Ex) 3. Replace electronic modules (Service ID: 107)
2198	1. Check process 2. Check frequency output settings (Service ID: 138)
2199	1. Check connection 2. Retry data transfer (Service ID: 139)
2200	1. Check process 2. Check pulse output settings (Service ID: 140)
2201	Deactivate simulation frequency output (Service ID: 141)
2202	Deactivate simulation pulse output (Service ID: 142)
2203	Deactivate simulation switch output (Service ID: 143)
2204	1. Decrease process value 2. Check application 3. Check sensor (Service ID: 145)
2205	1.Check for gas in process 2. Adjust detection limits (Service ID: 146)
2206	Deactivate flow override (Service ID: 148)
2207	1. Check process 2. Check current output settings (Service ID: 153)
2208	1. Restart device 2. Restore HistoROM S-DAT backup ('Device reset' parameter) 3. Replace HistoROM S-DAT (Service ID: 160)
2209	1. Restart device 2. Check if failure recurs 3. Replace sensor electronic module (ISEM) (Service ID: 161)
2210	1. Check process 2. Check current output settings (Service ID: 182)
2211	Increase ambient temperature (Service ID: 193)
2212	Reduce ambient temperature (Service ID: 195)
2213	1. Check process cond. 2. Increase system pressure (Service ID: 196)
2214	Reduce process temperature (Service ID: 197)
2215	Increase process temperature (Service ID: 198)
2216	1. Restart device 2. Check if failure recurs 3. Replace sensor electronic module (ISEM) (Service ID: 199)
2217	1. Check sensor 2. Check process conditions (Service ID: 200)
2218	1. Restart device 2. Check if failure recurs 3. Replace sensor electronic module (ISEM) (Service ID: 201)
2219	1. Check sensor 2. Check process conditions (Service ID: 202)
2220	1. Check or replace sensor electronic module (ISEM) 2. If available: Check connection cable between sensor and transmitter 3. Replace sensor (Service ID: 204)
2221	1. Check process conditions 2. Check electronic modules or sensor (Service ID: 205)
2222	1. Restart device 2. Check if failure recurs 3. Replace sensor electronic module (ISEM) (Service ID: 206)
2223	1. Restart device 2. Check if failure recurs 3. Replace sensor electronic module (ISEM) (Service ID: 212)
2224	1. Check or replace sensor electronic module (ISEM) 2. If available: Check connection cable between sensor and transmitter 3. Replace sensor (Service ID: 213)
2225	1. Check or replace sensor electronic module (ISEM) 2. If available: Check connection cable between sensor and transmitter 3. Replace sensor (Service ID: 214)
2226	1. Restart device 2. Check if failure recurs 3. Replace sensor electronic module (ISEM) (Service ID: 218)
2227	1. Check or replace sensor electronic module (ISEM) 2. If available: Check connection cable between sensor and transmitter 3. Replace sensor (Service ID: 219)
2228	1. Check or replace sensor electronic module (ISEM) 2. If available: Check connection cable between sensor and transmitter 3. Replace sensor (Service ID: 220)
2229	1. Check process cond. 2. Increase system pressure (Service ID: 223)
2230	1. Do not reset device 2. Contact service (Service ID: 226)
2231	1. Check module connections 2. Contact service (Service ID: 231)
2232	1. Check or replace sensor electronic module (ISEM) 2. If available: Check connection cable between sensor and transmitter 3. Replace sensor (Service ID: 275)
2233	1. Check or replace sensor electronic module (ISEM) 2. If available: Check connection cable between sensor and transmitter 3. Replace sensor (Service ID: 276)
2234	1. Check process cond. 2. Increase system pressure (Service ID: 277)
2235	Change main electronic module (Service ID: 281)
2236	1. Restart device 2. Check if failure recurs 3. Replace sensor electronic module (ISEM) (Service ID: 288)
2237	1. Check process 2. Check pulse output settings (Service ID: 289)
2238	1. Check process 2. Check frequency output settings (Service ID: 290)
2239	1. Restart device 2. Contact service (Service ID: 331)
2240	1. Check process cond. 2. Increase system pressure (Service ID: 354)
2241	Check process conditions (Service ID: 360)
2242	Replace electronic module (Service ID: 362)
2243	1. Restart device 2. Delete T-DAT via 'Reset device' parameter 3. Replace T-DAT (Service ID: 366)
2244	1. Reset device 2. Contact service (Service ID: 367)
2245	Check process conditions for Heartbeat Monitoring (Service ID: 454)
2246	1. Check or change sensor 2. Check process conditions (Service ID: 455)
2247	Device verification active, please wait. (Service ID: 494)
2248	Download active, please wait (Service ID: 516)
2249	Contact service organization (Service ID: 648)
2250	1. Check or replace sensor electronic module (ISEM) 2. If available: Check connection cable between sensor and transmitter 3. Replace sensor (Service ID: 691)
2251	1. Check electronic modules 2. Check if correct modules are available (e.g. NEx, Ex) 3. Replace electronic modules (Service ID: 704)
2252	1. Update firmware of device 2. Restart device (Service ID: 714)
2253	1. Restart device 2. Check if failure recurs 3. Replace sensor electronic module (ISEM) (Service ID: 715)
2254	1. Restart device 2. Check if failure recurs 3. Replace sensor electronic module (ISEM) (Service ID: 716)
2255	1. Restart device 2. Check if failure recurs 3. Replace sensor electronic module (ISEM) (Service ID: 717)
2256	1. Restart device 2. Check if failure recurs 3. Replace sensor electronic module (ISEM) (Service ID: 719)
2257	1. Restart device 2. Check if failure recurs 3. Replace sensor electronic module (ISEM) (Service ID: 720)
2258	Contact service (Service ID: 721)
2259	Check supply voltage to the ISEM (Service ID: 1008)
2260	1. Replace RTC buffer battery 2. Set date and time (Service ID: 1057)
2261	1. Replace display module or its cable 2. Set date and time (Service ID: 1165)
2262	1. Replace RTC buffer battery 2. Set date and time (Service ID: 1166)
2263	Replace display module (Service ID: 1192)
2264	Replace display module (Service ID: 1193)
2265	Deactivate simulation
Reference ID	String