0 |
TEU411 |
1 |
TEU411-Ex |
2 |
TEU471 |
3 |
TEU421 |
4 |
TEU211 |
5 |
TS11 |
6 |
CMOS-Interface |
7 |
RS232-Interface |
8 |
Memory failure - The instrument error can possibly be remedied through self-test correction.
If it continues to exist, it means the unit is defective. |
9 |
Memory status |
10 |
EEPROM read failure |
11 |
EEPROM failure |
12 |
Input failures - in the measurement electronic are limit value infringements. If the unit is being operated under permissible ambient conditions, the unit is defective. |
13 |
Input status |
14 |
Synchron. failure |
15 |
Zero failure |
16 |
Reference failure |
17 |
AD-Converter failure |
18 |
ADC Time Out |
19 |
Balancing/Parameter - The error status of the balancing and configuration data can be read out. |
20 |
Balancing/Parameter |
21 |
Balancing active |
22 |
Input balancing active |
23 |
Balancing failure at input |
24 |
Balancing failure at auxiliary input |
25 |
Parameter failure |
26 |
Sensor status - The status of the active sensors can be read out. |
27 |
Sensor status |
28 |
Sensor break at input |
29 |
Short circuit at input |
30 |
Input underrange |
31 |
Input overrange |
32 |
Sensor break at auxiliary input |
33 |
Short circuit at auxiliary input |
34 |
Auxiliary input underrange |
35 |
Auxiliary input overrange |
36 |
Output status - The status of the analog output can be read out. |
37 |
Output status |
38 |
Analog output underrange |
39 |
Analog output overrange |
40 |
Default value active |
41 |
Keep last valid value |
42 |
Analog output fixed |
43 |
Caution! Data update in progress. |
44 |
Type of measurement - Setting of vital input parameters on transmitter. |
45 |
0..391ohms |
46 |
-8..120mv |
47 |
-8..120mv - with external ref. junction |
48 |
-8..120mv - with internal ref. junction |
49 |
Sensor type - Type of currently connected sensor. Depending on the type of selected characteristic line, the measured value is influenced. |
50 |
Linear |
51 |
Free style |
52 |
Pt 100 IEC 751 |
53 |
Ni 100 DIN 43760 |
54 |
Type B Pt30Rh-Pt6Rh |
55 |
Type E NiCr-CuNi |
56 |
Type J Fe-CuNi |
57 |
Type K Ni-CrNi |
58 |
Type L Fe-CuNi |
59 |
Type N NiCrSi-NiSi |
60 |
Type R Pt13Rh-Pt |
61 |
Type S Pt10Rh-Pt |
62 |
Type T Cu-CuNi |
63 |
Type U Cu-CuNi |
64 |
Sensor connection |
65 |
Sensor connection - States the number of wires, via which the sensor is connected to the transmitter. |
66 |
Number of sensors |
67 |
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). |
68 |
1/2 Sensor |
69 |
1 Sensor |
70 |
2 Sensors |
71 |
3 Sensors |
72 |
4 Sensors |
73 |
5 Sensors |
74 |
6 Sensors |
75 |
7 Sensors |
76 |
8 Sensors |
77 |
9 Sensors |
78 |
10 Sensors |
79 |
Sensor monitoring |
80 |
Sensor monitoring - With this setting the monitoring of the sensors can be limited or released.
An internal reference junction is always monitored. |
81 |
No sensor monitoring |
82 |
Break monitoring at input |
83 |
Short-circuit monitoring at input |
84 |
Break and short-circuit monitoring at input |
85 |
Break monitoring of all sensors |
86 |
Short-circuit of all sensors |
87 |
Break and short circuit monitoring of all sensors |
88 |
ext. ref. junction |
89 |
External reference junction - The value states the temperature of the external reference junction. The input is always made in °C! |
90 |
.2f |
91 |
6.2f |
92 |
°C |
93 |
Invalid measure. type |
94 |
Invalid number of sensors |
95 |
Invalid sensor monitoring |
96 |
Temperature of reference junction too low |
97 |
Temperature of the reference junction too high |
98 |
Analog output - The device is only available as signal output 4..20mA. An under- or overrange exceeding this range is however possible. |
99 |
4..20mA |
100 |
Underrange value |
101 |
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. |
102 |
Overrange value |
103 |
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. |
104 |
mA |
105 |
Failure signalling |
106 |
Failure signalling - The setting indicates the strategy for signalling a failure. |
107 |
Overrange in case of sensor failure |
108 |
Underrange in case of sensor failure |
109 |
Default value in case of sensor failure |
110 |
Keep value in case of sensor failure |
111 |
Overrange in case of device or sensor error |
112 |
Underrange in case of device or sensor failure |
113 |
Default value in case of device or sensor failure |
114 |
Keep value in case of device or sensor failure |
115 |
Pass on value in case of device or sensor failure |
116 |
Default value |
117 |
Default value - in case of failure, the analog output is set on the programmed value if the matching error strategy was selected. |
118 |
% |
119 |
Invalid failure strategy |
120 |
Invalid default value |
121 |
Sensor name |
122 |
Sensor name - The function permits the input of a sensor name when using user defined characteristics. |
123 |
Catalog number |
124 |
Catalog number - The function permits the changing of the catalog number after entering changes on transmitter. |
125 |
Signal input |
126 |
Signal input - The setting determines the signal input which must be balanced. |
127 |
Set point - The value states the (e.g. simulated via a reference) input signal. |
128 |
Invalid signal input |
129 |
Invalid unit |
130 |
Self-test - Transmitter self-test in progress. The analog output is frozen. Recognised failures are displayed. |
131 |
Transmitter reset |
132 |
Transmitter reset - The transmitter is restarted. Non-permanent stored data are lost. Self-test is subsequently conducted. |
133 |
Lead balancing |
134 |
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. |
135 |
Data reset |
136 |
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. |
137 |
Input assignment |
138 |
Input assignment - measuring range of the transmitter at the input. |
139 |
0.. 391ohms |
140 |
-8..120mV |
141 |
Reference junction |
142 |
Reference junction - The setting determines the type of reference junction during measurements with thermocouples. Always select 'WITHOUT' for measurements witout thermocouples. |
143 |
external |
144 |
internal |
145 |
without |
146 |
No monitoring |
147 |
Break monitoring |
148 |
Short circuit(<5Ohm) |
149 |
Break/short circuit |
150 |
Sensor config. |
151 |
Input parameter - the parameters for wiring to the input (sensor type, etc.) can be fixed via the function. |
152 |
Process unit |
153 |
Failure monitoring |
154 |
Failure monitoring - The setting determines if the analog output should react to certain failure states in the transmitter. |
155 |
Sensor failure |
156 |
Sensor-/dev. failure |
157 |
Device failure |
158 |
Signalling |
159 |
Signalling - The setting determines if a failure shall be signalled via the analog output. |
160 |
Overrange |
161 |
underrange |
162 |
Hold the last value |
163 |
Output config. |
164 |
Configuration of analog output - The setting determines the behaviour of the output in case of failure. |
165 |
Send data |
166 |
write_variables |
167 |
Version 1.00 |
168 |
English |
169 |
Language of strings |
170 |
Dynamic variables |
171 |
Measured value |
172 |
Ref. junction temp. |
173 |
Measured value - The calculated measured value acquired through parameterised processing. Output is made in the set process unit. |
174 |
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. |
175 |
Sensor measurement - Measurement input that receives one analog information. |
176 |
Percent of range |
177 |
Measured value - Measured value that changes magnitude with respect to time with no user intervention. |
178 |
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. |
179 |
2.2f |
180 |
Upper range value - Defines the operational endpoint from which the variables ANALOG_VALUE, PERCENT_RANGE are derived. |
181 |
Lower range value - Defines the operational endpoint from which the variables ANALOG_VALUE, PERCENT_RANGE are derived. |
182 |
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. |
183 |
.1f |
184 |
4.1f |
185 |
s |
186 |
8u |
187 |
Upper sensor limit value - Value that defines the absolute upper endpoint (largest magnitude) for the UPPER RANGE VALUE. |
188 |
Lower sensor limit value - Value that defines the absolute lower endpoint (smallest magnitude) for the LOWER RANGE VALUE. |
189 |
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). |
190 |
Alarm type |
191 |
not supported |
192 |
special |
193 |
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. |
194 |
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. |
195 |
Sensor 1 measurement - Measurement input 1 receives analog values. |
196 |
Unit - physical unit in which the electrical value of the sensor is expressed. |
197 |
Sensor value - electrical value of the sensor at the input. |
198 |
Not Used |
199 |
Sensor 2 measurement - Measurement input 2 receives analog values. |
200 |
Sensor value - electrical value of the sensor at the auxiliary input. |
201 |
FMU860 |
202 |
DT |
203 |
DVC |
204 |
FCX |
205 |
AS800 |
206 |
340T |
207 |
340C |
208 |
344 |
209 |
Siemens Micro K |
210 |
SITRANS L |
211 |
SIPAN PH |
212 |
SITRANS P |
213 |
75SMT |
214 |
UNIDELTA |
215 |
8320 |
216 |
SX5100 |
217 |
TSV175 |
218 |
DMU |
219 |
3780 |
220 |
BM70 |
221 |
CAUTION - The measurement operation is interrupted. |
222 |
Self-test could not be carried out. |
223 |
Self-test in progress, please wait... |
224 |
Transmitter self-test blocked. |
225 |
Self-test completed. No malfunctions discovered. |
226 |
CAUTION - Data not made permanent will be lost! |
227 |
CAUTION - Loop should be removed from automatic control! |
228 |
Reset could not be carried out. |
229 |
Master reset in progress, please wait... |
230 |
Transmitter reset blocked. |
231 |
The lead resistance may not exceed 10 Ohm! |
232 |
Short-circuit all connection lines on sensor! |
233 |
The difference of the conductor resistance may not exceed 10Ohm max.! |
234 |
The parameter setting does not permit any lead balancing. |
235 |
Lead balancing in progress, please wait... |
236 |
Lead balancing could not be carried out! |
237 |
FAILURE - Lead balancing could not be carried out successfully! |
238 |
Check sensor connection! |
239 |
Switch damping mode on. |
240 |
Data is being made permanent, please wait... |
241 |
CAUTION - Data could not be made permanent. |
242 |
Balancing successfully carried out. Remove short-circuit on sensor. |
243 |
Data reset in progress, please wait... |
244 |
FAILURE - The data could not be reset! |
245 |
Sensor type |
246 |
Process unit |
247 |
ext. ref. junction [°C]: |
248 |
Sensor monitoring |
249 |
CAUTION - The measuring range is matched to the new permissible limits. |
250 |
CAUTION - Check measuring range before switching on a connected control loop again. |
251 |
Underrange value
valid range: 3.6..4mA |
252 |
Overrange value
valid range: 20..23.6mA |
253 |
Failure monitoring |
254 |
ATTENTION - The new setting must be sent to the field unit. For this purpose Press SEND key. |
255 |
The connected loop can be put into operation again. |