Device dictionary

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Reference ID	String
0	Type of measurement - Setting of vital input parameters on transmitter.
1	0..391ohms
2	0..3250ohms
3	0..391ohms - difference
4	0..391ohms - average value
5	-8..120mv
6	-8..120mv - with external ref. junction
7	-8..120mv - with internal ref. junction
8	-8..120mv - difference
9	-8..120mv - difference, with external ref. junction
10	-8..120mv - average value
11	-8..120mv - average value with external ref. junction
12	Sensor type - Type of currently connected sensor. Depending on the type of selected characteristic line, the measured value is influenced.
13	Linear
14	Free style
15	Pt 100 IEC 751
16	Ni 100 DIN 43760
17	Type B Pt30Rh-Pt6Rh
18	Type E NiCr-CuNi
19	Type J Fe-CuNi
20	Type K Ni-CrNi
21	Type L Fe-CuNi
22	Type N NiCrSi-NiSi
23	Type R Pt13Rh-Pt
24	Type S Pt10Rh-Pt
25	Type T Cu-CuNi
26	Type U Cu-CuNi
27	Sensor connection
28	Sensor connection - States the number of wires, via which the sensor is connected to the transmitter.
29	Number of sensors
30	Number of sensors - States the number of sensors which areconnected in series at every input. A multiple number of the built-in characteristic lines can be realised (e.g. 10*Pt100 = Pt1000).
31	1/2 Sensor
32	1 Sensor
33	2 Sensors
34	3 Sensors
35	4 Sensors
36	5 Sensors
37	6 Sensors
38	7 Sensors
39	8 Sensors
40	9 Sensors
41	10 Sensors
42	Sensor monitoring
43	Sensor monitoring - With this setting the monitoring of the sensors can be limited or released. An internal reference junction is always monitored.
44	No sensor monitoring
45	Break monitoring at input
46	Short-circuit monitoring at input
47	Break and short-circuit monitoring at input
48	Break monitoring of all sensors
49	Short-circuit of all sensors
50	Break and short circuit monitoring of all sensors
51	ext. ref. junction
52	External reference junction - The value states the temperature of the external reference junction. The input is always made in °C!
53	°C
54	6.2f
55	.2f
56	Analog output - The device is only available as signal output 4..20mA. An under- or overrange exceeding this range is however possible.
57	4..20mA
58	Underrange value
59	Underrange value - The control range is limited by the underrange value. In case of failure signal, the value is also accepted by means of underranging.
60	Overrange value
61	Overrange value - The control range is limited by the overrange value. In case of failure signal, the value is also accepted by means of overranging.
62	mA
63	Failure signalling
64	Failure signalling - The setting indicates the strategy for signalling a failure.
65	Overrange in case of sensor failure
66	Underrange in case of sensor failure
67	Default value in case of sensor failure
68	Keep value in case of sensor failure
69	Overrange in case of device or sensor error
70	Underrange in case of device or sensor failure
71	Default value in case of device or sensor failure
72	Keep value in case of device or sensor failure
73	Pass on value in case of device or sensor failure
74	Default value
75	Default value - in case of failure, the analog output is set on the programmed value if the matching error strategy was selected.
76	%
77	Sensor name
78	Sensor name - The function permits the input of a sensor name when using user defined characteristics.
79	Catalog number
80	Catalog number - The function permits the changing of the catalog number after entering changes on transmitter.
81	Signal input
82	Signal input - The setting determines the signal input which must be balanced.
83	Set point - The value states the (e.g. simulated via a reference) input signal.
84	Input assignment
85	Input assignment - measuring range of the transmitter at the input.
86	0.. 391ohms
87	-8..120mV
88	Type of measurement
89	Type of measurement - The setting determines, whether single- or multi-channel measurement is active.
90	Single-channel
91	Difference
92	Average value
93	Reference junction
94	Reference junction - The setting determines the type of reference junction during measurements with thermocouples. Always select 'WITHOUT' for measurements witout thermocouples.
95	without
96	external
97	internal
98	No monitoring
99	Break monitoring
100	Short circuit(<5Ohm)
101	Break/short circuit
102	Failure monitoring
103	Failure monitoring - The setting determines if the analog output should react to certain failure states in the transmitter.
104	Sensor failure
105	Sensor-/dev. failure
106	Device failure
107	Signalling
108	Signalling - The setting determines if a failure shall be signalled via the analog output.
109	Overrange
110	underrange
111	Hold the last value
112	Version 1.00
113	English
114	Language of strings
115	Mean value
116	Measured value
117	Measured value - Measured value that changes magnitude with respect to time with no user intervention.
118	Percent of range - Digital value that is proportional to the variable DIGITAL_VALUE with respect to the range defined by the LOWER_RANGE_VALUE and UPPER_RANGE_VALUE. The units of this variable are always in percent.
119	2.2f
120	Upper range value - Defines the operational endpoint from which the variables ANALOG_VALUE, PERCENT_RANGE are derived.
121	Lower range value - Defines the operational endpoint from which the variables ANALOG_VALUE, PERCENT_RANGE are derived.
122	Damping value - Damping time applied to both the variables DIGITAL_VALUE and ANALOG_VALUE of output 'X'. The units of this variable are always expressed in seconds.
123	s
124	4.1f
125	.1f
126	8u
127	Upper sensor limit value - Value that defines the absolute upper endpoint (largest magnitude) for the UPPER RANGE VALUE.
128	Lower sensor limit value - Value that defines the absolute lower endpoint (smallest magnitude) for the LOWER RANGE VALUE.
129	Minimum span value - Value that defines the smallest absolute value for the resulting figure derived from the following equation (UPPER RANGE VALUE - LOWER RANGE VALUE).
130	Alarm type
131	not supported
132	special
133	Temp. unit of the reference junction temperature - The temperature on the terminal block of the field unit is always stated in °C during measurements with internal or external reference junction.
134	Reference junction temperature value - Temperature associated with the internal/external reference junction. At an internal reference junction the temperature of the connection terminals of the transmitter will be measured during measurements.
135	Unit - physical unit in which the electrical value of the sensor is expressed.
136	Not Used
137	Sensor value - electrical value of the sensor at the input.
138	Sensor value - electrical value of the sensor at the auxiliary input.
139	TEU411
140	TEU411-Ex
141	TEU471
142	TEU421
143	TEU211
144	TS11
145	CMOS-Interface
146	RS232-Interface
147	Memory status
148	Memory failure - The instrument error can possibly be remedied through self-test correction. If it continues to exist, it means the unit is defective.
149	EEPROM read failure
150	EEPROM failure
151	Input status
152	Input failures - in the measurement electronic are limit value infringements. If the unit is being operated under permissible ambient conditions, the unit is defective.
153	Synchron. failure
154	Zero failure
155	Reference failure
156	AD-Converter failure
157	ADC Time Out
158	Balancing/Parameter
159	Balancing/Parameter - The error status of the balancing and configuration data can be read out.
160	Balancing active
161	Input balancing active
162	Balancing failure at input
163	Balancing failure at auxiliary input
164	Parameter failure
165	Sensor status
166	Sensor status - The status of the active sensors can be read out.
167	Sensor break at input
168	Short circuit at input
169	Input underrange
170	Input overrange
171	Sensor break at auxiliary input
172	Short circuit at auxiliary input
173	Auxiliary input underrange
174	Auxiliary input overrange
175	Output status
176	Output status - The status of the analog output can be read out.
177	Analog output underrange
178	Analog output overrange
179	Default value active
180	Keep last valid value
181	Analog output fixed
182	Self-test - Transmitter self-test in progress. The analog output is frozen. Recognised failures are displayed.
183	CAUTION - The measurement operation is interrupted.
184	Self-test could not be carried out.
185	Self-test in progress, please wait...
186	Transmitter self-test blocked.
187	Self-test completed. No malfunctions discovered.
188	Transmitter reset
189	Transmitter reset - The transmitter is restarted. Non-permanent stored data are lost. Self-test is subsequently conducted.
190	CAUTION - Data not made permanent will be lost!
191	CAUTION - Loop should be removed from automatic control!
192	Reset could not be carried out.
193	Master reset in progress, please wait...
194	Transmitter reset blocked.
195	Lead balancing
196	Lead balancing - The resistance of the connection lines to sensor can be compensated for. This step is only necessary for measurement resistors in 2- or 3-wire circuitry.
197	Input;Auxiliary input
198	Short-circuit all connection lines to all sensors!
199	The lead resistance may not exceed 10 Ohm!
200	Short-circuit all connection lines on sensor!
201	The difference of the conductor resistance may not exceed 10Ohm max.!
202	The parameter setting does not permit any lead balancing.
203	Lead balancing in progress, please wait...
204	Lead balancing could not be carried out!
205	FAILURE - Lead balancing could not be carried out successfully!
206	Check sensor connection!
207	Switch damping mode on.
208	Data is being made permanent, please wait...
209	CAUTION - Data could not be made permanent.
210	Balancing successfully carried out. Remove short-circuit on sensor.
211	Data reset
212	Data reset - All data, which were not made permanent are reset to their original values. This allows the old data to be restored when a parameter setting is interrupted.
213	Data reset in progress, please wait...
214	FAILURE - The data could not be reset!
215	Sensor config.
216	Input parameter - the parameters for wiring to the input (sensor type, etc.) can be fixed via the function.
217	Sensor type
218	Process unit
219	ext. ref. junction [°C]:
220	Sensor monitoring
221	CAUTION - The measuring range is matched to the new permissible limits.
222	Process unit
223	CAUTION - Check measuring range before switching on a connected control loop again.
224	Output config.
225	Configuration of analog output - The setting determines the behaviour of the output in case of failure.
226	Underrange value valid range: 3.6..4mA
227	Overrange value valid range: 20..23.6mA
228	Failure monitoring
229	Send data
230	ATTENTION - The new setting must be sent to the field unit. For this purpose Press SEND key.
231	The connected loop can be put into operation again.
232	write_variables
233	Mean value measurem.
234	Mean value measurement - Measurement derived by computing the average of two analog inputs.
235	Differential measurement - Measurement derived by computing the difference between two analog inputs.
236	Sensor measurement - Measurement input that receives one analog information.
237	Percent of range
238	Sensor 1 measurement - Measurement input 1 receives analog values.
239	Sensor 2 measurement - Measurement input 2 receives analog values.
240	Dynamic variables
241	Ref. junction temp.
242	Measured value - The calculated measured value acquired through parameterised processing, during multi-channel measurements of both channels. Output is made in the set process unit.
243	Reference junction temp. - The value is required for correction during measurements with thermocouples. The measured value produces the temperature at the terminal block of the field unit.
244	Invalid measure. type
245	Invalid number of sensors
246	Invalid sensor monitoring
247	Temperature of reference junction too low
248	Temperature of the reference junction too high
249	Invalid failure strategy
250	Invalid default value
251	Invalid signal input
252	Invalid unit
253	Caution! Data update in progress.
Reference ID	String