Device dictionary

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Reference ID	String
0	PH202
1	Warning: not applicable
2	HOLD is active
3	Hold is in Fixed mode
4	Manual Temperature on
5	Temp. in Fahrenheid
6	Temp. compensation
7	pH apparatus
8	2nd procesvalue measurement enabled
9	E1: Response check failed
10	E2: Aspot out of limits
11	E4.1: Input 1 impedance too low
12	E5.1: Input 1 impedance too high
13	E4.2: Input 2 impedance too low
14	E5.2: Input 2 impedance too high
15	E7: Temperature too high
16	E8: Temperature too low
17	E9: PV out of range
18	E10: EEprom write error
19	E11: Half value time check failed
20	E12: SV out of range
21	E3: Span out of limits
22	E16: Call for maintenance
23	E17: Table span error
24	E18: Table not continuous
25	E20: Instrument not initialized
26	E21: ROM error
27	E23: Zeropoint out of limit
28	E0: Buffer temperature error
29	mA table used
30	mA coupled with 2nd proces value
31	Softfail on
32	rH as 2nd proces value
33
34	dummy_unit
35	°C
36	°F
37	rH
38
39	dummy_unit2
40	dummy_float_value1
41	g
42	dummy_float_value2
43	dummy_float_value3
44	dummy_float_value4
45	dummy_float_value5
46	dummy_float_value6
47	dummy_3integer_value
48	8u
49	dummy_transfer_func
50	pH value that changes magnitude with respect to time with no user intervention. pH is a logarithmic function of the Hydrogen ion activity (concentration)
51	Oxidation reduction potential is a measure of oxidising power of a solution. The greater the mV value with a neg. polarity, the greater the oxidising power. Reducing power is indicated by positive values of mV
52	5.2f
53	4.1f
54	5.0f
55	rH is a composite value that indicated the oxidising power of a solution compensating for the influence of the acid or alkaline components. The scale is 0-55 rH, where oxidising solutions provide the highest reading
56	.1f
57	Input2 imp.
58	Measured impedance value for input2
59	.0f
60	Input1 imp.
61	Measured impedance value for input1
62	Stab.time
63	Stability time. Used to determine the stability level demanded by the EXA as acceptance criteria of the automatic calibration
64	2.0f
65	Stab.val
66	Stability value. Used to determine the stability level demanded by the EXA as acceptance criteria of the automatic calibration
67	.2f
68	4.2f
69	Man.temp
70	Manual temperature value in case Temperature measurement is disabled
71	5.1f
72	Hold fix
73	mA-output value when Hold-Fixed selected
74	M.due in
75	Count-down maintenance value. Error 16 will be triggered when the count-down timer reaches 0
76	3.0f
77	ITP
78	Iso Thermal Point of intersection. Value in pH at which the temp. response of the system is at a null point
79	M.time
80	Call for maintenance is a trigger to signal that the system has been in service for longer than the set time without calibration. The user can set up to 250 days as a routine service interval
81	Aspot L
82	Zero L
83	Aspot low limit value for calibration acceptance
84	Zero low limit value for calibration acceptance
85	6.1f
86	Aspot H
87	Zero H
88	Aspot high limit value for calibration acceptance
89	Zero high limit value for calibration acceptance
90	Slope L
91	Slope low limit value for calibration acceptance
92	Slope H
93	Slope high limit value for calibration acceptance
94	Slope
95	Sensitivity of the pH electrode (mV/pH) usually expressed as a % of the theoretical value (Nernst)
96	Aspot
97	Zeropnt.
98	Difference between the isothermal point of intersection and the zero point (mV) for the PV
99	Aspot2
100	Difference between the isothermal point of intersection and the zero point (mV) for the SV
101	Z1 low
102	Input1 impedance limit low value
103	10.0f
104	Z1 hgh
105	Input1 impedance limit high value
106	Z2 low
107	Input2 impedance limit low value
108	Z2 hgh
109	Input2 impedance limit high value
110	Buff.0°C
111	first Buffer, 0 °C value
112	Buff.5°C
113	first Buffer, 5 °C value
114	Buff.10°C
115	first Buffer, 10 °C value
116	Buff.15°C
117	first Buffer, 15 °C value
118	Buff.20°C
119	first Buffer, 20 °C value
120	Buff.25°C
121	first Buffer, 25 °C value
122	Buff.30°C
123	first Buffer, 30 °C value
124	Buff.35°C
125	first Buffer, 35 °C value
126	Buff.40°C
127	first Buffer, 40 °C value
128	Buff.45°C
129	first Buffer, 45 °C value
130	Buff.50°C
131	first Buffer, 50 °C value
132	Buff.55°C
133	first Buffer, 55 °C value
134	Buff.60°C
135	first Buffer, 60 °C value
136	Buff.65°C
137	first Buffer, 65 °C value
138	Buff.70°C
139	first Buffer, 70 °C value
140	Buff.75°C
141	first Buffer, 75 °C value
142	Buff.80°C
143	first Buffer, 80 °C value
144	Second Buffer, 0 °C value
145	Second Buffer, 5 °C value
146	Second Buffer, 10 °C value
147	Second Buffer, 15 °C value
148	Second Buffer, 20 °C value
149	Second Buffer, 25 °C value
150	Second Buffer, 30 °C value
151	Second Buffer, 35 °C value
152	Second Buffer, 40 °C value
153	Second Buffer, 45 °C value
154	Second Buffer, 50 °C value
155	Second Buffer, 55 °C value
156	Second Buffer, 60 °C value
157	Second Buffer, 65 °C value
158	Second Buffer, 70 °C value
159	Second Buffer, 75 °C value
160	Second Buffer, 80 °C value
161	Third Buffer, 0 °C value
162	Third Buffer, 5 °C value
163	Third Buffer, 10 °C value
164	Third Buffer, 15 °C value
165	Third Buffer, 20 °C value
166	Third Buffer, 25 °C value
167	Third Buffer, 30 °C value
168	Third Buffer, 35 °C value
169	Third Buffer, 40 °C value
170	Third Buffer, 45 °C value
171	Third Buffer, 50 °C value
172	Third Buffer, 55 °C value
173	Third Buffer, 60 °C value
174	Third Buffer, 65 °C value
175	Third Buffer, 70 °C value
176	Third Buffer, 75 °C value
177	Third Buffer, 80 °C value
178	Buf1 id
179	First buffer id code. Whole number code to identify buffer solution table
180	Buf2 id
181	Second buffer id code. Whole number code to identify buffer solution table
182	Buf3 id
183	Third buffer id code. Whole number code to identify buffer solution table
184	Sec.
185	Second value in transmitter
186	Min.
187	Minute value in transmitter
188	Hrs.
189	Hour value in transmitter
190	Day.
191	Day value in transmitter
192	Mth.
193	mth_unit
194	Month value in transmitter
195	Yr.
196	year_unit
197	Year value in transmitter
198	Temp.Coef.
199	Temperature coefficient (ph/mV value/10°C) factor for primary proces value compensation
200	7.2f
201	Maintenance
202	Passcode for maintenance level in PH202 Possible values: 0, 111, 333, 777, 888, 123, 957, 331, 546, 847
203	Commissioning
204	Passcode for commisioning access in PH202 Possible values: 0, 111, 333, 777, 888, 123, 957, 331, 546, 847
205	Service
206	Passcode for service access in PH202 Possible values: 0, 111, 333, 777, 888, 123, 957, 331, 546, 847
207	PV.Smpl
208	Sample of PV at the time the Sample was taken
209	SV.Smpl
210	Sample of SV at the time the Sample was taken
211	T.Smpl
212	Sample of Temp. at the time the Sample was taken
213	0% tbl
214	mA-output table 0% value (4.0 mA)
215	5% tbl
216	mA-output table 5% value (4.8 mA)
217	10% tbl
218	mA-output table 10% value (5.6 mA)
219	15% tbl
220	mA-output table 15% value (6.4 mA)
221	20% tbl
222	mA-output table 20% value (7.2 mA)
223	25% tbl
224	mA-output table 25% value (8.0 mA)
225	30% tbl
226	mA-output table 30% value (8.8 mA)
227	35% tbl
228	mA-output table 35% value (9.6 mA)
229	40% tbl
230	mA-output table 40% value (10.4 mA)
231	45% tbl
232	mA-output table 45% value (11.2 mA)
233	50% tbl
234	mA-output table 50% value (12.0 mA)
235	55% tbl
236	mA-output table 55% value (12.8 mA)
237	60% tbl
238	mA-output table 60% value (13.6 mA)
239	65% tbl
240	mA-output table 65% value (14.4 mA)
241	70% tbl
242	mA-output table 70% value (15.2 mA)
243	75% tbl
244	mA-output table 75% value (16.0 mA)
245	80% tbl
246	mA-output table 80% value (16.8 mA)
247	85% tbl
248	mA-output table 85% value (17.6 mA)
249	90% tbl
250	mA-output table 90% value (18.4 mA)
251	95% tbl
252	mA-output table 95% value (19.2 mA)
253	100% tbl
254	mA-output table 100% value (20.0 mA)
255	month string
256	Jan
257	Feb
258	Mar
259	Apr
260	May
261	Jun
262	Jul
263	Aug
264	Sep
265	Oct
266	Nov
267	Dec
268	logbook function
269	Lgb1 Reset
270	Lgb1 Read next item
271	Lgb2 Reset
272	Lgb2 Read next item
273	logbook event nr
274	logbook minute
275	logbook hour
276	logbook day
277	logbook month
278	logbook year
279	logbook event code
280	Powerup
281	Powerdwn
282	System
283	Defaults
284	Lgb.clr
285	init
286	L.R.V
287	U.R.V
288	Hld.on
289	Hld.off
290	Err.on
291	Err.off
292	Tmp.adj
293	Man.tmp
294	Tmp.cof
295	Imp.1
296	Imp.2
297	stab.vl
298	stab.tm
299	I.T.P.
300	Zerop.
301	Newsns
302	onep.cl
303	twop.cl
304	logbook unit
305	logbook value
306	12.1f
307	Unit of secondary proces value (mV or rH)
308	Celsius or fahrenheit scales to suit user preference
309	tbl-unit
310	mA-output Table unit
311	Hold status
312	Sets the mA-output of the instrument in hold. No influence from the proces anymore The HOLD feature must first be enabled
313	Hold fnc.
314	Enable or disable of the HOLD feature
315	Hold type
316	Sets the Hold function to Last measured value or Fixed value.
317	Last
318	Fixed
319	T.meas
320	Manual temperature. Use option AUTO to set the transmitter to automatic temperature measurement. Set option MAN for a fixed temperature setting
321	Temperature measurement on or off.
322	Auto
323	Man
324	SV Meas.
325	Second proces value (orp or rH) measurement on or off.
326	SV Param.
327	mV
328	Z1 Comp
329	Set the input 1 impedance measuring temperature compensation on or off
330	Z1 Meas
331	Set the input 1 impedance measurement on or off
332	Z2 Comp
333	Set the input 2 impedance measuring temperature compensation on or off
334	Z2 Meas
335	Set the input 2 impedance measurement on or off
336	Aspot chk
337	Calibration checking feature for aspot values. When enabled, gives security against entering wrong calibration data
338	Slope chk
339	Calibration checking feature for slope values. When enabled, gives security against entering wrong calibration data
340	Temp.sens
341	Selection of the temperature compensation sensor
342	Pt1000
343	Pt100
344	NTC3k
345	5K1
346	8K55
347	350R
348	6K8
349	10K
350	Temp.unit
351	Temp.comp
352	Process compensation automatically allows for changes in the pH or ORP of the process with temperature. The compensation is given in pH/10 °C or mV/10°C
353	As an alternative to Asymmetry potential, the zero point can be used to define and calibrate the EXA pH-unit, and is the value of pH at which the electrode combination yields 0 mV as an output
354	mA funct.
355	Linear output on primary (or secondary) proces value when activated or a table function which allows the configuration of an output curve by 21 steps.
356	PV-Linear
357	PV-Table
358	SV-Linear
359	Burn funct.
360	Diagnostic error messages can signal a problem by sending the output signals upscale or downscale (22mA or 3.9mA). The Pulse burnout setting gives a 22mA signal for the first 30 seconds of an alarm condition. After the pulse the signal returns to normal to activate a latching alarm
361	Pls
362	Maint.Timer
363	The Maintenance timer is a day-timer which will trigger E16 when the set number of day's have passed without maintenance
364	phdum01
365	phdum02
366	phdum03
367	dum1hs
368	dum2hs
369	dum3hs
370	dum4hs
371	dum5hs
372	dum6hs
373	dum7hs
374	dum8hs
375	dum9hs
376	dum10hs
377	dum11hs
378	dum12hs
379	dum13hs
380	dum14hs
381	dum15hs
382	Err.9
383	Error message configuration. Soft fail will give a flashing FAIL flag. Hard fail will give a steady FAIL flag and, when enabled an updated mA-output value
384	Soft fail
385	Hard fail
386	Err.16
387	Err.4.1
388	Err.5.1
389	Err.4.2
390	Err.5.2
391	Err.7
392	Err.8
393	Auto.Ret
394	When Auto-return is ON, the converter reverts to the measuring mode from anywhere in the configuration menu, when no button is pressed during the set time interval of 10 minutes
395	Disp.res
396	The Display resolution for the primary measurement can be set to either 0.01 pH or 0.1 pH. Not applicable for ORP display
397	0.1 pH
398	0.01 pH
399	Sample calibration. When sample is activated, primary, secondary, and temperature values are stored for later adjustmenty.
400	evdum1
401	evdum2
402	evdum3
403	evdum4
404	evdum5
405	evdum6
406	evdum7
407	evdum8
408	evdum9
409	evdum10
410	evdum11
411	evdum12
412	evdum13
413	The event Powerup to be enabled/disabled in logbook1 or logbook2
414	Off
415	On.LGB1
416	On.LGB2
417	The event Powerdown to be enabled/disabled in logbook1 or logbook2
418	event systemerr
419	The event Default loaded to be enabled/disabled in logbook1 or logbook2
420	Lg.Erased
421	The event Logbook erased to be enabled/disabled in logbook1 or logbook2
422	logbook init
423	Low range
424	The event new output low range value to be enabled/disabled in logbook1 or logbook2
425	High range
426	The event new output high range value to be enabled/disabled in logbook1 or logbook2
427	Hold on
428	The event Hold-on to be enabled/disabled in logbook1 or logbook2
429	Hold off
430	The event Hold-off to be enabled/disabled in logbook1 or logbook2
431	Error on
432	The event Error-on to be enabled/disabled in logbook1 or logbook2
433	Error off
434	The event Error-off to be enabled/disabled in logbook1 or logbook2
435	Temp. adj
436	The event temperature adjusted to be enabled/disabled in logbook1 or logbook2
437	Man.Temp
438	The event Manual temperature changed to be enabled/disabled in logbook1 or logbook2
439	The event Aspot value changed to be enabled/disabled in logbook1 or logbook2
440	The event Slope value changed to be enabled/disabled in logbook1 or logbook2
441	The event Aspot2 value changed to be enabled/disabled in logbook1 or logbook2
442	Temp.coef
443	The event Temperature coefficient changed to be enabled/disabled in logbook1 or logbook2
444	Z1. (cal)
445	The event Impedance 1 value after calibration to be enabled/disabled in logbook1 or logbook2
446	Z2. (cal)
447	The event Impedance 2 value after calibration to be enabled/disabled in logbook1 or logbook2
448	The event new stabilisation value to be enabled/disabled in logbook1 or logbook2
449	The event new stabilisation time to be enabled/disabled in logbook1 or logbook2
450	The event new iso-thermal-point to be enabled/disabled in logbook1 or logbook2
451	Zero.pnt
452	The event zeropoint changed to be enabled/disabled in logbook1 or logbook2
453	New sensor
454	The event new sensor installed to be enabled/disabled in logbook1 or logbook2
455	One.p cal.
456	The event one point-calibration performed to be enabled/disabled in logbook1 or logbook2
457	Two.p cal.
458	The event two point-calibration performed to be enabled/disabled in logbook1 or logbook2
459	Invalid selection
460	All read
461	rec. broke
462	Reads transmitter status and reports any transmitter errors.
463	Logbook1
464	Reads content of logbook 1 from the PH202 transmitter
465	Logbook2
466	Reads content of logbook 2 from the PH202 transmitter
467	Sample Cal.PV
468	Sample calibration for pH/mV value
469	Sample Cal.SV
470	Sample calibration for 2nd param. value
471	Manual Cal.PV
472	Manual Calibration for pH/mV value
473	Manual Cal.SV
474	Manual Calibration for rH/mV value
475	Offline
476	More pr.var.
477	Temp.man
478	Logbook
479	Logbook conf.
480	Param.specific
481	Z1 setup
482	Z1 Err.lim
483	Z2 setup
484	Z2 Err.lim
485	Cal.Check
486	Temp.specific
487	Cal.specific
488	Stab.chk
489	Buffers
490	Buffer1
491	Buffer1 values
492	Buffer2
493	Buffer2 values
494	Buffer3
495	Buffer3 values
496	Output function
497	mA-table
498	User Interface
499	Error prog.
500	Display
501	Passcodes
502	Write variables
503	FMU860
504	DT
505	DVC
506	FCX
507	AS800
508	340T
509	340C
510	344
511	Siemens Micro K
512	SITRANS L
513	SIPAN PH
514	SITRANS P
515	75SMT
516	UNIDELTA
517	8320
518	SX5100
519	TSV175
520	DMU
521	3780
522	BM70
523	Transmitter Busy.
524	Hard-fail active
525	Soft-fail active
526	Manual Temperature selected
527	E14: Calibration needed
528	No Errors
529	Reading logbook 1 --please wait--
530	Lgb%{logbnr} Rec%{dsp} Powerup %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
531	Lgb%{logbnr} Rec%{dsp} Powerdown %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
532	Lgb%{logbnr} Rec%{dsp} System error Code: %[2d]{lrvalueint} %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
533	Lgb%{logbnr} Rec%{dsp} Defaults loaded %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
534	Lgb%{logbnr} Rec%{dsp} Logbook erased %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
535	Lgb%{logbnr} Rec%{dsp} Initialized Code: %[2d]{lrvalueint} %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
536	Lgb%{logbnr} Rec%{dsp} Low range changed %[5.2f]{lrvalue} pH %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
537	Lgb%{logbnr} Rec%{dsp} Low range changed %[5.0f]{lrvalue} mV %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
538	Lgb%{logbnr} Rec%{dsp} Low range changed %[4.1f]{lrvalue} rH %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
539	Lgb%{logbnr} Rec%{dsp} High range changed %[5.2f]{lrvalue} pH %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
540	Lgb%{logbnr} Rec%{dsp} High range changed %[5.0f]{lrvalue} mV %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
541	Lgb%{logbnr} Rec%{dsp} Hold on %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
542	Lgb%{logbnr} Rec%{dsp} Hold off %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
543	Lgb%{logbnr} Rec%{dsp} Error on 4.1 %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
544	Lgb%{logbnr} Rec%{dsp} Error on 5.1 %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
545	Lgb%{logbnr} Rec%{dsp} Error on 4.2 %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
546	Lgb%{logbnr} Rec%{dsp} Error on 5.2 %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
547	Lgb%{logbnr} Rec%{dsp} Error on 3 %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
548	Lgb%{logbnr} Rec%{dsp} Error on 0 %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
549	Lgb%{logbnr} Rec%{dsp} Error on %[2d]{lrvalueint} %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
550	Lgb%{logbnr} Rec%{dsp} Error off 4.1 %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
551	Lgb%{logbnr} Rec%{dsp} Error off 5.1 %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
552	Lgb%{logbnr} Rec%{dsp} Error off 4.2 %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
553	Lgb%{logbnr} Rec%{dsp} Error off 5.2 %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
554	Lgb%{logbnr} Rec%{dsp} Error off 3 %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
555	Lgb%{logbnr} Rec%{dsp} Error off 0 %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
556	Lgb%{logbnr} Rec%{dsp} Error off %[2d]{lrvalueint} %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
557	Lgb%{logbnr} Rec%{dsp} Temp. offset %[4.1f]{lrvalue} °C %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
558	Lgb%{logbnr} Rec%{dsp} Temp. offset %[5.1f]{lrvalue} °F %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
559	Lgb%{logbnr} Rec%{dsp} Manual temp %[5.1f]{lrvalue} °C %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
560	Lgb%{logbnr} Rec%{dsp} Manual temp %[5.1f]{lrvalue} °F %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
561	Lgb%{logbnr} Rec%{dsp} Assym. pot. %[6.1f]{lrvalue} mV %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
562	Lgb%{logbnr} Rec%{dsp} Slope changed %[5.1f]{lrvalue} % %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
563	Lgb%{logbnr} Rec%{dsp} Assym. pot. 2 %[6.1f]{lrvalue} mV %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
564	Lgb%{logbnr} Rec%{dsp} Temp. coeff. %[4.1f]{lrvalue} pH/10°C %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
565	Lgb%{logbnr} Rec%{dsp} Temp. coeff. %[6.1f]{lrvalue} mV/10°C %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
566	Lgb%{logbnr} Rec%{dsp} Z1 after cal %[10.0f]{lrvalue} Ohm %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
567	Lgb%{logbnr} Rec%{dsp} Z2 after cal %[10.0f]{lrvalue} Ohm %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
568	Lgb%{logbnr} Rec%{dsp} Stable value cal. %[4.2f]{lrvalue} pH %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
569	Lgb%{logbnr} Rec%{dsp} Stable time cal. %[2.0f]{lrvalue} sec. %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
570	Lgb%{logbnr} Rec%{dsp} ITP value changed %[5.2f]{lrvalue} pH %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
571	Lgb%{logbnr} Rec%{dsp} Zero point changed %[5.2f]{lrvalue} pH %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
572	Lgb%{logbnr} Rec%{dsp} New Sensor %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
573	Lgb%{logbnr} Rec%{dsp} One point cal. %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
574	Lgb%{logbnr} Rec%{dsp} Two point cal. %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
575	Lgb%{logbnr} Rec%{dsp} Unknown/new event %{lrday}-%{0}-%[04d]{lryear} %{lrhr}:%[02d]{lrmin} Next record?
576	All records read.
577	Reading logbook 2 --please wait--
578	Input1 imp %[4.0f]{imp1} Ohm
579	Input1 imp %[5.1f]{imp1} KOhm
580	Input1 imp %[5.1f]{imp1} MOhm
581	Input2 imp %[4.0f]{imp2} Ohm
582	Input2 imp %[5.1f]{imp2} KOhm
583	Input2 imp %[5.1f]{imp2} MOhm
584	Z1low %[4.0f]{imp} Ohm
585	Change;Exit
586	Z1low %[5.1f]{imp} KOhm
587	Z1low %[5.1f]{imp} MOhm
588	Z1low unit
589	Ohm;KOhm;MOhm
590	Z1low value (Ohm)
591	imp
592	Z1low value (KOhm)
593	Z1low value (MOhm)
594	Z1high %[4.0f]{imp} Ohm
595	Z1high %[5.1f]{imp} KOhm
596	Z1high %[5.1f]{imp} MOhm
597	Z1high unit
598	Z1high value (Ohm)
599	Z1high value (KOhm)
600	Z1high value (MOhm)
601	Z2low %[4.0f]{imp} Ohm
602	Z2low %[5.1f]{imp} KOhm
603	Z2low %[5.1f]{imp} MOhm
604	Z2low unit
605	Z2low value (Ohm)
606	Z2low value (KOhm)
607	Z2low value (MOhm)
608	Z2high %[4.0f]{imp} Ohm
609	Z2high %[5.1f]{imp} KOhm
610	Z2high %[5.1f]{imp} MOhm
611	Z2high unit
612	Z2high value (Ohm)
613	Z2high value (KOhm)
614	Z2high value (MOhm)
615	PV Sample %[5.2f]{pv_smpl} %{0}
616	PV Sample %[5.0f]{pv_smpl} %{0}
617	PV Sample (pH)
618	new_pv
619	PV Sample (mV)
620	Performing calibration --Please wait--
621	SV Sample %[4.1f]{sv_smpl} %{0}
622	SV Sample %[5.0f]{sv_smpl} %{0}
623	SV Sample (rH)
624	new_sv
625	SV Sample (mV)
626	PV value %[5.2f]{pv_val} %{0}
627	PV value %[5.0f]{pv_val} %{0}
628	SV value %[4.1f]{sv_val} %{0}
629	SV value %[5.0f]{sv_val} %{0}
Reference ID	String