| 0 |
THZ2/TDZ2/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 Wire 3 Broken |
| 14 |
Sensor Wires 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 |
EGU |
| 27 |
USL |
| 28 |
LSL |
| 29 |
Min Span |
| 30 |
PV Damping |
| 31 |
PV Lower Trim Point |
| 32 |
PV Upper Trim Point |
| 33 |
% range |
| 34 |
URV |
| 35 |
LRV |
| 36 |
mA |
| 37 |
.2f |
| 38 |
Fail Mode |
| 39 |
High |
| 40 |
Low |
| 41 |
Hld Lst |
| 42 |
PV |
| 43 |
% |
| 44 |
Sensor Trim Mode |
| 45 |
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. |
| 46 |
Off |
| 47 |
One Point |
| 48 |
Two Points |
| 49 |
Sensor UTP |
| 50 |
Sensor upper trim point value |
| 51 |
Sensor LTP |
| 52 |
Sensor lower trim point value |
| 53 |
PV Trim support |
| 54 |
Lower Trim Point Supported |
| 55 |
Upper Trim Point Supported |
| 56 |
Lower and Upper Trim Point Supported |
| 57 |
PV Min lower trim |
| 58 |
PV Max lower trim |
| 59 |
PV Min upper trim |
| 60 |
PV Max upper trim |
| 61 |
PV Min trim diff |
| 62 |
6.2f |
| 63 |
.1f |
| 64 |
s |
| 65 |
Snsr S/N |
| 66 |
RJC units |
| 67 |
Term. Temp |
| 68 |
Running Average |
| 69 |
Sensor running average filter settings: 1 to 16. A higher setting provides smoother input transitions, a lower setting provides a faster response time. |
| 70 |
Sensor URV |
| 71 |
The sensor input configuration upper range value |
| 72 |
Sensor LRV |
| 73 |
The sensor input configuration lower range value |
| 74 |
Measure Mode |
| 75 |
The input type e.g. thermocouple, RTD, mV |
| 76 |
RTD 2 wire |
| 77 |
RTD 3 wire |
| 78 |
RTD 4 wire |
| 79 |
Millivolt |
| 80 |
Ohms 2 wire |
| 81 |
Ohms 3 wire |
| 82 |
Ohms 4 wire |
| 83 |
Thermocouple |
| 84 |
Thermocouple + RJC |
| 85 |
Potentiometer |
| 86 |
Current |
| 87 |
Voltage |
| 88 |
Input Type |
| 89 |
Sensor variant type e.g. Pt3850, Pt3912 |
| 90 |
Type J |
| 91 |
Type K |
| 92 |
Type E |
| 93 |
Type T |
| 94 |
Type R |
| 95 |
Type S |
| 96 |
Type B |
| 97 |
Type N |
| 98 |
Type C |
| 99 |
Pt 3850 100 ohm |
| 100 |
Pt 3850 200 ohm |
| 101 |
Pt 3850 300 ohm |
| 102 |
Pt 3850 400 ohm |
| 103 |
Pt 3850 500 ohm |
| 104 |
Pt 3850 1000 ohm |
| 105 |
Pt 3902 100 ohm |
| 106 |
Pt 3902 200 ohm |
| 107 |
Pt 3902 400 ohm |
| 108 |
Pt 3902 500 ohm |
| 109 |
Pt 3902 1000 ohm |
| 110 |
Pt 3916 100 ohm |
| 111 |
Ni 6720 120 ohm |
| 112 |
Cu 427 9.035 ohm |
| 113 |
4000 ohm |
| 114 |
2000 ohm |
| 115 |
1000 ohm |
| 116 |
500 ohm |
| 117 |
250 ohm |
| 118 |
125 ohm |
| 119 |
1000 Millivolt |
| 120 |
500 Millivolt |
| 121 |
250 Millivolt |
| 122 |
125 Millivolt |
| 123 |
62.5 Millivolt |
| 124 |
31.25 Millivolt |
| 125 |
50 mA |
| 126 |
25 mA |
| 127 |
12.5 mA |
| 128 |
6.25 mA |
| 129 |
10 V |
| 130 |
5 V |
| 131 |
2.5 V |
| 132 |
1.25 V |
| 133 |
Filter |
| 134 |
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. |
| 135 |
60 Hz |
| 136 |
50 Hz |
| 137 |
Mode |
| 138 |
Select displayed variable e.g. PV, current, % |
| 139 |
Toggle |
| 140 |
Percentage |
| 141 |
Decimal Places |
| 142 |
Select displayed decimal place e.g. Auto, 0 to 3 |
| 143 |
0 |
| 144 |
1 |
| 145 |
2 |
| 146 |
3 |
| 147 |
Auto |
| 148 |
Custom Label |
| 149 |
Enable / disable custom label use for display only |
| 150 |
Disabled |
| 151 |
Enabled |
| 152 |
Label Displayed |
| 153 |
Custom label use for display, accepted number and Capitalize character |
| 154 |
Out Zero |
| 155 |
Lower range output current value: 3.6 to 23.6 mA |
| 156 |
4.1f |
| 157 |
Out Full |
| 158 |
Upper range output current value: 3.6 to 23.6 mA |
| 159 |
Output Trim Reset |
| 160 |
Reset analog output factory trim values |
| 161 |
Broken Wire |
| 162 |
Enable / disable broken wire detection |
| 163 |
On |
| 164 |
Broken Wire Level |
| 165 |
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 |
| 166 |
Smart Range Selection |
| 167 |
User selects PV, input scaling, or custom linearization curve. |
| 168 |
Custom Curve |
| 169 |
Input Scaling |
| 170 |
No. Trim Pts. |
| 171 |
Number of trimming points |
| 172 |
One |
| 173 |
Two |
| 174 |
Input Trimming |
| 175 |
Enable / Disable Sensor input trimming |
| 176 |
Sensor URV Scaled to |
| 177 |
Scaling upper range value (-99998 to 99999) |
| 178 |
5.2f |
| 179 |
Sensor LRV Scaled to |
| 180 |
Scaling lower range value (-99999 to 99998) |
| 181 |
Scaling EGU |
| 182 |
Scaling user select EGU |
| 183 |
CC URV |
| 184 |
Scaled URV |
| 185 |
Custom Curve/Scaled upper range value |
| 186 |
CC LRV |
| 187 |
Scaled LRV |
| 188 |
Custom Curve/Scaled lower range value |
| 189 |
CC EGU |
| 190 |
Custom Curve user selected EGU |
| 191 |
CC Points |
| 192 |
Custom Curve number of points (2 to 128) |
| 193 |
AO ORV |
| 194 |
Analog output over range maximum value (4.6 to 23.6 mA) |
| 195 |
AO URV |
| 196 |
Analog output under range minimum value (3.6 to 22.6 mA) |
| 197 |
Fail AO |
| 198 |
Sensor error (fail mode) analog output value (3.6 to 4.0 mA failed low or 20 to 23.6 mA failed high) |
| 199 |
Model |
| 200 |
THZ2 DIN/HPP |
| 201 |
TDZ2 |
| 202 |
THZ2 DH |
| 203 |
THZ2 HL DIN/HPP |
| 204 |
TDZ2 HL |
| 205 |
THZ2 HL DH |
| 206 |
TCM |
| 207 |
TCM HL |
| 208 |
Status |
| 209 |
Self Test- Directs the THZ2/TDZ2/TCM electronics to perform a selftest. Reports any errors that occured. |
| 210 |
Sensor Type |
| 211 |
EGU Selection |
| 212 |
User can reset output trim to factory trim. |
| 213 |
Sensor Trim |
| 214 |
Sensor Trim Reset |
| 215 |
Moore Industries |
| 216 |
Device Setup |
| 217 |
Process Variable |
| 218 |
Diagnostic&Service |
| 219 |
Configure Sensor |
| 220 |
Configure Output |
| 221 |
Configure Dev Info |
| 222 |
Setup |
| 223 |
Review |
| 224 |
Configure Options |
| 225 |
Configure Display |
| 226 |
Configure Range |
| 227 |
Sensor Trimming |
| 228 |
Device Parameters |
| 229 |
Device Information |
| 230 |
Sensor Information |
| 231 |
Smart Ranging |
| 232 |
Diagnostic & Service |
| 233 |
write_variables |
| 234 |
FMU860 |
| 235 |
DT |
| 236 |
DVC |
| 237 |
FCX |
| 238 |
AS800 |
| 239 |
340T |
| 240 |
340C |
| 241 |
344 |
| 242 |
Siemens Micro K |
| 243 |
SITRANS L |
| 244 |
SIPAN PH |
| 245 |
SITRANS P |
| 246 |
75SMT |
| 247 |
UNIDELTA |
| 248 |
8320 |
| 249 |
SX5100 |
| 250 |
TSV175 |
| 251 |
DMU |
| 252 |
3780 |
| 253 |
BM70 |
| 254 |
8u |
| 255 |
Was not able to switch to Input scaling mode. Process aborting |
| 256 |
Input scaling mode restored |
| 257 |
Was not able to switch to Custom curve mode. Process aborting |
| 258 |
Custom curve mode restored |
| 259 |
Self test complete |
| 260 |
Self Test OK |
| 261 |
Input sensor type |
| 262 |
Input RTD Type |
| 263 |
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 |
| 264 |
Input units |
| 265 |
Deg C;Deg F;Kelvin |
| 266 |
Input Thermocouple Type |
| 267 |
Type J;Type K;Type E;Type T;Type R;Type S;Type B;Type N;Type C |
| 268 |
Input Millivolt Type |
| 269 |
1000 mV;500 mV;250 mV;125 mV;62.5 mV;31.25 mV |
| 270 |
Input Resistance Type |
| 271 |
4000 Ohms;2000 Ohms;1000 Ohms;500 Ohms;250 Ohms;125 Ohms |
| 272 |
Input Potentiometer Type |
| 273 |
Input Current Type |
| 274 |
50 mA;25 mA;12.5 mA;6.25 mA |
| 275 |
Input Voltage Type |
| 276 |
10 V;5 V;2.5 V;1.25 V |
| 277 |
Changing Sensor Configuration |
| 278 |
Input Lower Range in %{0} |
| 279 |
Input Upper Range in %{0} |
| 280 |
Completing Sensor Configuration |
| 281 |
NOTICE - This information must be sent to the transmitter to update dependent parameters. |
| 282 |
mV |
| 283 |
ohms |
| 284 |
percent |
| 285 |
Please Wait |
| 286 |
Do you want to change to Factory Ouput Trim |
| 287 |
No;Yes |
| 288 |
Output trim not reset |
| 289 |
Output trim reset to Factory trim. |
| 290 |
Trim code = %{trim_code} |
| 291 |
Select trim mode to be used |
| 292 |
The trim will be removed, Proceed? |
| 293 |
Aborting, no action to be taken |
| 294 |
Trim removed |
| 295 |
Input trim point %{0} %{1} |
| 296 |
Input lower trim point %{0} %{1} |
| 297 |
Input upper trim point %{0} %{1} |
| 298 |
The trim will now be reset prior to trim. Proceed? |
| 299 |
Process aborting |
| 300 |
Device must be changed to PV mode during Sensor trim. Do you want to proceed? |
| 301 |
Was not able to switch to PV mode. Process aborting |
| 302 |
Apply input between %{trim_min} and %{trim_max}, previous trim = %{trim_point}.
Process value is %0 %1. Press OK when stable. |
| 303 |
Do not abort, still need to do upper trim. |
| 304 |
Apply upper input between %{trim_min} and %{trim_max}, previous trim = %{trim_point}.
Process value is %0 %1. Press OK when stable. |
| 305 |
Unit will be returned to Custom Curve Mode. |
| 306 |
Unit will be returned to Input Scaling Mode. |
| 307 |
Was not able to switch to requested mode. Process aborting |
| 308 |
Smart ranging mode restored |
| 309 |
This will turn off the device trim. Do you wish to proceed? |
| 310 |
Trim not turned off |
| 311 |
Trim now off |
| 312 |
Setting fld device to Output Zero |
| 313 |
Setting fld dev to Out Full |
| 314 |
Device must be changed to PV mode during input capture. Do you want to proceed? |
| 315 |
Input Capture will be done for Custom Curve Mode. |
| 316 |
Input Capture will be done for Input Scaling Mode. |