Device dictionary

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Reference ID	String
0	ABB
1	652/653S Temperature
2	Sensor errors
3	Error status byte, indicates errors related to sensors or sensorwires
4	sensor1
5	sensor2
6	CJC/electr sens
7	ADC errors
8	Error status byte, indicates errors related to the analog to digital converter or the input stage of the device.
9	# ADC bits
10	Xor ADC data
11	Missing meas
12	ADC init
13	Misc. errors
14	Error status byte, indicates errors related to the device.
15	EEP ack error
16	Downscl EEP xor
17	Downscl RAM xor
18	Downscl EEP/ADC
19	Meas skipped
20	Watchdog tmout
21	Field Device Variable Unit - Engineering unit that the Digital Value, Upper Range Value and Lower Range value will be displayed with.
22	Field Device Variable Value - Digital value that dynamically represents the actual measured primary value of the device, in engineering units.
23	.2f
24	.4f
25	PV AO
26	Analog Output value - Indicates the current output of the field instrument.
27	Percent of Range - Digital value that is proportional to the Digital Value with respect to the range defined by the Lower Range Value and the Upper Range Value. The Units of this variable is always in percent.
28	%
29	High
30	Low
31	None
32	Special
33	.1f
34	Damping Value - Damping time constant applied to both the Digital Value and Analog Value of the respective output. The Unit of this variable is always in seconds.
35	2.2f
36	5.24f
37	Upper Sensor Limit - Value that defines the absolute upper endpoint (largest magnitude) for the digital value. Temperature - Temperature of the process measured with respect to some reference pressure.
38	Lower Sensor Limit - Value that defines the absolute lower endpoint (smallest magnitude) for the digital value. Temperature - Temperature of the process measured with respect to some reference pressure.
39	Minimum Span value - Indicates the minimum allovable value for the span. The span is the algebraic difference between the Upper and Lower Range Value.
40	Sensor Serial Number - Indicates the sensor's module serial number.
41	7d
42	Sensor Limits Units
43	Sensor Limit Units and Minimum Span Units - Engineering unit that the Upper Sensor Limit, Lower Sensor Limit and Minimum Span will be displayed with.
44	Sensor 1 Units
45	Sensor 1 Units - For differential or average measurements only
46	Snsr1
47	Sensor 1 digital value - For differential or average measurements only
48	Sensor 2 Units
49	Sensor 2 Units - For differential or average measurments only
50	Snsr2
51	Sensor 2 digital value - For differential or average measurements only
52	CJC/electronics temp units
53	CJC/ electronics temperature digital units
54	CJC
55	Electr
56	If CJC compensation is selected: CJC temperature.Else electronics temperature
57	Sensor type - Indicates the type of the sensor element: millivolt, thermocouple type, resistance thermometer type, ohms.
58	Pt100 IEC 751
59	Ni100 DIN 43760
60	T/C Type B IEC 854
61	T/C Type E IEC 854
62	T/C Type J IEC 854
63	T/C Type K IEC 854
64	T/C Type L DIN 43710
65	T/C Type N IEC 854
66	T/C Type R IEC 854
67	T/C Type S IEC 854
68	T/C Type T IEC 854
69	T/C Type U DIN 43710
70	T/C Type W3 ASTM
71	T/C Type W5 ASTM
72	Measurement type - Indicates the type of measurement: single/differential or average, internal/external or const CJC, external CJC sensor Pt100 or Ni100, 2/3 or 4 wire.
73	RTD/Ohm sgl 2-wire
74	RTD/Ohm sgl 3-wire
75	RTD/Ohm sgl 4-wire
76	RTD/Ohm diff 2-wire
77	RTD/Ohm avg 2-wire
78	TC/V sgl int CJC
79	TC/V sgl ext CJC Pt
80	TC/V sgl ext CJC Ni
81	TC/V sgl const. CJC
82	TC/V diff int CJC
83	TC/V diff ext CJC Pt
84	TC/V diff ext CJC Ni
85	TC/V diff const. CJC
86	TC/V avg int CJC
87	TC/V avg ext CJC Pt
88	TC/V avg ext CJC Ni
89	TC/V avg const. CJC
90	Meter option - Defines whether there is a meter installed or not and possibly what information the meter will display.
91	LCD
92	system configuration
93	For future use
94	Transm. version
95	Tx version defines whether the transmitter is a 653 or 652 type and whether it is Remote, Integral, head mounted or spare.
96	653S Remote Mounted
97	653S Integral Mounted
98	652S Head Mounted
99	652S Spare
100	Certif. type
101	Certification type - Indicates the type of certification: General purpose, intrinsic safety, flame proof.
102	General Purpose
103	IS EEx ia
104	IS Ex ia (SAA)
105	IS Type N
106	Flame Proof EEx d
107	Factory Mutual
108	Const. CJC value
109	Constant CJ temperature value, the actual temperature at the junction of the thermocouple wires and the terminals. Units of PV
110	RTD factor
111	Multiplication factor for 100 Ohm RTD, reciprocal value, e.g. X=2 for Pt50, X=0.1 for Pt1000
112	Abs. max. value
113	Absolute maximum value on individual sensors for differential measurements in units of PV
114	Cable resistance config
115	Cable resistance configuration - Configures the cable resistance value
116	Sensor1
117	ext CJC sensor
118	Cable resistance value
119	Cable resistance value in Ohms. If RTD/Ohm 3 or 4 wire is selected, sensor 1 is the expected max value for the total cable resistance in 2 wires, otherwise it is the actual total cable resistance.
120	AO 100%
121	Output current value at PV = 100%, units of mA
122	AO 0%
123	Output current value at PV = 0%, units of mA
124	AO up lim
125	Output current upper limit value, units of mA
126	AO lo lim
127	Output current lower limit value, units of mA
128	Distributor name
129	The name of the distributor
130	OEM data 2
131	byte undefined OEM data
132	OEM2 bit0
133	OEM2 bit1
134	OEM2 bit2
135	OEM2 bit3
136	OEM2 bit4
137	OEM2 bit5
138	OEM2 bit6
139	OEM2 bit7
140	Error detection
141	Configures the sensor error detection
142	No test performed
143	broken sensor
144	shorted sensor
145	broken and shorted
146	Short sens o/p
147	Output current value for shorted sensor, units of mA
148	Broken sens o/p
149	Output current value for broken sensor, units of mA
150	Max/Min control code
151	Selects read or reset of the data loggin max and min values
152	Reset max/min values
153	Read max/min values
154	Max
155	Maximum logged PV value, units of PV
156	Min
157	Minimum logged PV value, units of PV
158	Collection of variable for Temperature Transmitter
159	Collection of variable for Sensor 1 Temperature
160	Collection of variable for Sensor 2 Temperature
161	Electr/CJC temp
162	Collection of variable for electronics or CJC temperature
163	Primary Variable Temperature
164	constant CJC value too low
165	RTD factor too high
166	constant CJC value too high
167	RTD factor too low
168	Cable resistance value too high
169	100% current value too high
170	0% current value too low
171	upper current limit value too high
172	lower current limit value too low
173	shorted sensor value too high
174	shorted sensor value too low
175	broken sensor value too high
176	broken sensor value too low
177	write_variables
178	Device setup
179	Status
180	Calibration
181	Cable resistance
182	Sensors
183	Process sensor
184	Sensor setup
185	Sensor info
186	Signal condition
187	Output range
188	Sens error values
189	Broken sensor
190	Shorted sensor
191	Revision #'s
192	Review
193	Output info
194	Input info
195	Before polling
196	Loop in manual
197	Back to normal
198	Read max/min log
199	Reads the maximum and minimum logged values
200	Reset max/min log
201	Resets the maximum and minimum logged values
202	Sensor config
203	Configures the sensor, sensor type, measurement type, CJC compensation etc.
204	Enter value
205	Enter new value for cable resistance. If the device setup is RTD/Ohm 3 or 4 wire, cable resistance for sensor 1 is the expected max value for the total cable resistance in 2 wires. Otherwise it is the actual total cable resistance for the selected sensor
206	Measure value
207	Automaticly measures the cable resistance. If the device setup is RTD/Ohm 3 or 4 wire, cable resistance for sensor 1 is the expected max value for the total cable resistance in 2 wires. Otherwise it is the actual total cable resistance for the selected sensor
208	restoring configuration
209	NAMUR down
210	Sets the broken sensor output value to 3.5 mA acc. to NAMUR NE43
211	NAMUR up
212	Sets the broken sensor output value to 23 mA acc. to NAMUR NE43
213	Sets the shorted sensor output value to 3.5 mA acc. to NAMUR NE43
214	Sets the shorted sensor output value to 23 mA acc. to NAMUR NE43
215	Set limits = NAMUR
216	Sets the analog output limits to 3.8 mA and 20.5 mA acc. to NAMUR NE43
217	Factory D/A trim
218	Overrides any previously D/A trimming by restoring factory calibration values
219	FMU860
220	DT
221	DVC
222	FCX
223	AS800
224	340T
225	340C
226	344
227	Siemens Micro K
228	SITRANS L
229	SIPAN PH
230	SITRANS P
231	75SMT
232	UNIDELTA
233	8320
234	SX5100
235	TSV175
236	DMU
237	3780
238	BM70
239	8u
240	low
241	high
242	WARN: Tx with polling address different from 0 cannot be part of a control loop.
243	Note: Loop may be returned to automatic control when SEND is done
244	Min logged value: %{0} %{2} Max logged value: %{1} %{2}
245	Reset the primary variable maximum and minimum logged values to actual measured value?
246	Logged values is reset.
247	Enter sensor type:
248	Enter primary variable units:
249	Enter number of sensor wires:
250	2-wire;3-wire;4-wire;2-wire diff;2-wire average
251	Enter RTD factor:
252	choice >4
253	Enter measurement type:
254	Single;Differential;Average
255	choice >2
256	Enter cold junction compensation:
257	Internal sensor;External Pt100;External Ni100;Constant (none)
258	Enter constant CJC temperature:
259	Enter highest possible value on each sensor:
260	Wait, sending configuration...
261	Note: Range values is set to default for the chosen sensor type.
262	Note: Lower range value set to: %{0} %{2} Upper range value set to: %{1} %{2}
263	Enter cable resistance for:
264	sensor1;sensor2
265	Enter cable resistance for sensor1:
266	Enter cable resistance for sensor2:
267	Enter cable resistance for external CJC sensor:
268	Measure cable resistance for:
269	Connect sensor1 to terminals 3 and 6, and short circuit the wires as close as possible to the sensor
270	Connect sensor2 to terminals 3 and 6, and short circuit the wires as close as possible to the sensor
271	Connect external CJC sensor to terminals 3 and 6, and short circuit the wires as close as possible to the sensor
272	error in method!
273	wait... measuring cable resistance
274	Sensor1 cable resistance: %{0} %{1}
275	OK;Original value;Read new value
276	Sensor2 cable resistance: %{0} %{1}
277	External CJC sensor cable resistance: %{0} %{1}
278	error in method
279	Cable resistance too high, set to original value!
280	Due to communication error(s), measurement could not be performed, be aware that the configuration of the device could be currupt!!
281	Due to abortion, measurement could not be performed, be aware that the configuration of the device could be currupt!!
282	Setting broken sensor output value to 3.5 mA
283	Setting broken sensor output value to 23 mA
284	Setting shorted sensor output value to 3.5 mA
285	Setting shorted sensor output value to 23 mA
286	Setting lower analog output limit to 3.8 mA and upper analog output limit to 20.5 mA
287	Override D/A trimming with factory calibration
Reference ID	String