Device dictionary

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Reference ID	String
0	TCM
1	No
2	Yes
3	Configuration Data Error
4	Calibration Data Error
5	EEprom Blank
6	EEprom Fail
7	Devision by Zero Error
8	RJC Broken
9	Software Watchdog Failure
10	COP Watchdog Failure
11	Sensor Wire 1 Broken
12	Sensor Wire 2 Broken
13	Sensor Wires Broken
14	Sensor Wire 3 Broken
15	Input Out of Range
16	Input Saturation
17	Calibration Trimmig Active
18	Configuration Checksum Error
19	Calibration Checksum Incorrect
20	ADC Error
21	Bad Custom Curve
22	Front End Communication Fail
23	Input Capture
24	Output Trim
25	Dynamic var
26	Unit
27	USL
28	LSL
29	Min Span
30	PV Damping
31	EGU
32	PV Lower Trim Point
33	PV Upper Trim Point
34	% range
35	URV
36	LRV
37	mA
38	.2f
39	Fail Mode
40	High
41	Low
42	Hld Lst
43	PV
44	%
45	Sensor Trim Mode
46	Sensor trimming increases the measurement accuracy of the instrument, any point between 0% and 100% along the scale can be trim. Note one-point trimming applies an offset to the sensor reading, while two-point trimming applies both an offset and a gain.
47	Off
48	One Point
49	Two Points
50	Sensor UTP
51	Sensor upper trim point value
52	Sensor LTP
53	Sensor lower trim point value
54	PV Trim support
55	Lower Trim Point Supported
56	Upper Trim Point Supported
57	Lower and Upper Trim Point Supported
58	PV Min lower trim
59	PV Max lower trim
60	PV Min upper trim
61	PV Max upper trim
62	PV Min trim diff
63	6.2f
64	.1f
65	s
66	Snsr S/N
67	Device S/N
68	Moore Industries device serial number
69	RJC units
70	Term. Temp
71	Running Average
72	Sensor running average filter settings: 1 to 16. A higher setting provides smoother input transitions, a lower setting provides a faster response time.
73	Sensor URV
74	The sensor input configuration upper range value
75	Sensor LRV
76	The sensor input configuration lower range value
77	Measure Mode
78	The input type e.g. thermocouple, RTD, mV
79	RTD 2 wire
80	RTD 3 wire
81	RTD 4 wire
82	Millivolt
83	Ohms 2 wire
84	Ohms 3 wire
85	Ohms 4 wire
86	Thermocouple
87	Thermocouple + RJC
88	Potentiometer
89	Current
90	Voltage
91	Input Type
92	Sensor variant type e.g. Pt3850, Pt3912
93	Type J
94	Type K
95	Type E
96	Type T
97	Type R
98	Type S
99	Type B
100	Type N
101	Type C
102	Pt 3850 100 ohm
103	Pt 3850 200 ohm
104	Pt 3850 300 ohm
105	Pt 3850 400 ohm
106	Pt 3850 500 ohm
107	Pt 3850 1000 ohm
108	Pt 3902 100 ohm
109	Pt 3902 200 ohm
110	Pt 3902 400 ohm
111	Pt 3902 500 ohm
112	Pt 3902 1000 ohm
113	Pt 3916 100 ohm
114	Ni 6720 120 ohm
115	Cu 427 9.035 ohm
116	4000 ohm
117	2000 ohm
118	1000 ohm
119	500 ohm
120	250 ohm
121	125 ohm
122	1000 Millivolt
123	500 Millivolt
124	250 Millivolt
125	125 Millivolt
126	62.5 Millivolt
127	31.25 Millivolt
128	50 mA
129	25 mA
130	12.5 mA
131	6.25 mA
132	10 V
133	5 V
134	2.5 V
135	1.25 V
136	Filter
137	Sensor input filter frequency. This filter is designed to reduce the effects of mainsinduced noise. The value should be set to the frequency of the local AC supply- either 50Hz or 60Hz.
138	60 Hz
139	50 Hz
140	Out Zero
141	Lower range output current value: 3.6 to 23.6 mA
142	4.1f
143	Out Full
144	Upper range output current value: 3.6 to 23.6 mA
145	Output Trim Reset
146	Reset analog output factory trim values
147	Broken Wire
148	Enable / disable broken wire detection
149	On
150	Broken Wire Level
151	The current input value to defined Broken wire condition, must be: >0 and <lower zero range value. This is needed for High Level Current Input only
152	Smart Range Selection
153	User selects PV, input scaling, or custom linearization curve.
154	Custom Curve
155	Input Scaling
156	No. Trim Pts.
157	Number of trimming points
158	One
159	Two
160	Input Trimming
161	Enable / Disable Sensor input trimming
162	Sensor URV Scaled to
163	Scaling upper range value (-99998 to 99999)
164	5.2f
165	Sensor LRV Scaled to
166	Scaling lower range value (-99999 to 99998)
167	Scaling EGU
168	Scaling user select EGU
169	CC URV
170	Scaled URV
171	Custom Curve/Scaled upper range value
172	CC LRV
173	Scaled LRV
174	Custom Curve/Scaled lower range value
175	CC EGU
176	Custom Curve user selected EGU
177	CC Points
178	Custom Curve number of points (2 to 128)
179	Model
180	TCM HL
181	Channel Selection
182	Active channel for configuration in TCS mode
183	Channel 0
184	Channel 1
185	Channel 2
186	Channel 3
187	Channel 4
188	Channel 5
189	Channel 6
190	Channel 7
191	Channel 8
192	Channel 9
193	Channel 10
194	Channel 11
195	Channel 12
196	Channel 13
197	Channel 14
198	Channel 15
199	HART Mode
200	Status
201	Self Test- Directs the THZ2/TDZ2/TCM electronics to perform a selftest. Reports any errors that occured.
202	Sensor Type
203	EGU Selection
204	User can reset output trim to factory trim.
205	Sensor Trim
206	Sensor Trim Reset
207	Moore Industries
208	Device Setup
209	Process Variable
210	Diagnostic&Service
211	Configure Sensor
212	Configure Output
213	Configure Dev Info
214	Setup
215	Review
216	Configure Options
217	Configure Range
218	Sensor Trimming
219	Device Parameters
220	Device Information
221	Sensor Information
222	Smart Ranging
223	write_variables
224	FMU860
225	DT
226	DVC
227	FCX
228	AS800
229	340T
230	340C
231	344
232	Siemens Micro K
233	SITRANS L
234	SIPAN PH
235	SITRANS P
236	75SMT
237	UNIDELTA
238	8320
239	SX5100
240	TSV175
241	DMU
242	3780
243	BM70
244	8u
245	Was not able to switch to Input scaling mode. Process aborting
246	Input scaling mode restored
247	Was not able to switch to Custom curve mode. Process aborting
248	Custom curve mode restored
249	Self test complete
250	Self Test OK
251	Input sensor type
252	Input RTD Type
253	Pt 3850 100 ohm;Pt 3850 200 ohm;Pt 3850 300 ohm;Pt 3850 400 ohm;Pt 3850 500 ohm;Pt 3850 1000 ohm;Pt 3902 100 ohm;Pt 3902 200 ohm;Pt 3902 400 ohm;Pt 3902 500 ohm;Pt 3902 1000 ohm;Pt 3916 100 ohm;Ni 6720 120 ohm;Cu 427 9.035 ohm
254	Input units
255	Deg C;Deg F;Kelvin
256	Input Thermocouple Type
257	Type J;Type K;Type E;Type T;Type R;Type S;Type B;Type N;Type C
258	Input Millivolt Type
259	1000 mV;500 mV;250 mV;125 mV;62.5 mV;31.25 mV
260	Input Resistance Type
261	4000 Ohms;2000 Ohms;1000 Ohms;500 Ohms;250 Ohms;125 Ohms
262	Input Potentiometer Type
263	Input Current Type
264	50 mA;25 mA;12.5 mA;6.25 mA
265	Input Voltage Type
266	10 V;5 V;2.5 V;1.25 V
267	Changing Sensor Configuration
268	Input Lower Range in %{0}
269	Input Upper Range in %{0}
270	Completing Sensor Configuration
271	NOTICE - This information must be sent to the transmitter to update dependent parameters.
272	mV
273	ohms
274	percent
275	Please Wait
276	Do you want to change to Factory Ouput Trim
277	No;Yes
278	Output trim not reset
279	Output trim reset to Factory trim.
280	Trim code = %{trim_code}
281	Select trim mode to be used
282	The trim will be removed, Proceed?
283	Aborting, no action to be taken
284	Trim removed
285	Input trim point %{0} %{1}
286	Input lower trim point %{0} %{1}
287	Input upper trim point %{0} %{1}
288	The trim will now be reset prior to trim. Proceed?
289	Process aborting
290	Device must be changed to PV mode during Sensor trim. Do you want to proceed?
291	Was not able to switch to PV mode. Process aborting
292	Apply input between %{trim_min} and %{trim_max}, previous trim = %{trim_point}. Process value is %0 %1. Press OK when stable.
293	Do not abort, still need to do upper trim.
294	Apply upper input between %{trim_min} and %{trim_max}, previous trim = %{trim_point}. Process value is %0 %1. Press OK when stable.
295	Unit will be returned to Custom Curve Mode.
296	Unit will be returned to Input Scaling Mode.
297	Was not able to switch to requested mode. Process aborting
298	Smart ranging mode restored
299	This will turn off the device trim. Do you wish to proceed?
300	Trim not turned off
301	Trim now off
302	Setting fld device to Output Zero
303	Setting fld dev to Out Full
304	Device must be changed to PV mode during input capture. Do you want to proceed?
305	Input Capture will be done for Custom Curve Mode.
306	Input Capture will be done for Input Scaling Mode.
Reference ID	String