| 0 |
Digital Epic D200 |
| 1 |
Cal Errors |
| 2 |
Low Cal Error |
| 3 |
Low position calibration hasn't been completed successfully |
| 4 |
High Cal Error |
| 5 |
High position calibration hasn't been completed successfully |
| 6 |
Cal Span Error |
| 7 |
Calibration failed due to not having enough span |
| 8 |
Cal Dead Zone Error |
| 9 |
Calibration failed due to dead zone |
| 10 |
Pstn Dead Zone Error |
| 11 |
Calibration failed due to position in dead zone |
| 12 |
Cal Aborted |
| 13 |
Calibration aborted by the user |
| 14 |
Cal Start Error |
| 15 |
Calibration couldn't be started because of semaphore or other process |
| 16 |
Calibration timeout |
| 17 |
Calibration didn't finish due to time out |
| 18 |
Cal Errors 2 |
| 19 |
mA calibration span error |
| 20 |
mA calibration failed due to not meeting enough span |
| 21 |
ERROR_STATUS_RESERVED_9 |
| 22 |
ERROR_STATUS_RESERVED_10 |
| 23 |
ERROR_STATUS_RESERVED_11 |
| 24 |
ERROR_STATUS_RESERVED_12 |
| 25 |
ERROR_STATUS_RESERVED_13 |
| 26 |
ERROR_STATUS_RESERVED_14 |
| 27 |
ERROR_STATUS_RESERVED_15 |
| 28 |
User Alarms |
| 29 |
Error Alarm |
| 30 |
Retrieve Errors in Dev Specific Status->Error File menu to see new errors if this alarm is ON. Note, must be logged in a factory level to see these. |
| 31 |
Alert Sum Alrm |
| 32 |
Retrieve Alerts in Dev Specific Status->Alert File menu to see new alerts if this alert is ON. This is not a really a failure but a notification of warning or trending alerts. |
| 33 |
Service Alarm |
| 34 |
A Service Date/Time has been enabled in configuration and this date/time has occured as a reminder to service this valve/actuator if this alarm is ON. This will also generate an Alert. |
| 35 |
Cycle Alarm |
| 36 |
A Cycle Limit has been set in configuration and this limit has been reached if this alert is ON. This will also generate an Alert. |
| 37 |
PST/SOVT Fail Alarms |
| 38 |
PST/SOVT Inv Pstn |
| 39 |
When this PST failure alarm is enabled and becomes active, it indicates the last PST/SOVT Failed due to the valve being in an invalid position. Either the solenoid is not energized, valve may be stuck in a position other than the energized position, supply pressure too low, or position hysteresis configuration should be adjusted. |
| 40 |
PST Slw Trvl Tim |
| 41 |
When this alarm is enabled and becomes active, it indicates the last Maintenance PST Failed because it exceeded the Slow Travel Time Limit to reach the Travel-Limit of the Baseline PST as determined by the PST Travel Time Hysteresis % (configuration). This may be due to a weak actuator spring, the valve sticking during movement, an obstucted exhaust port, or in some circumstances abnormally high process pressure. |
| 42 |
PST Fst Trvl Tim |
| 43 |
When this alarm is enabled and becomes active, it indicates the last Maintenance PST Failed because it exceeded the Fast Travel Time Limit to reach the Travel-Limit of the Baseline PST as determined by the PST Travel Time Hysteresis % (configuration). This may be due to a broken valve shaft or valve coupler, or in some circumstances abnormally low process pressure. |
| 44 |
Solenoid Fail |
| 45 |
When this alarm is enabled and becomes active, it indicates a solenoid failure during the last PST/SOVT or the last Duplex PST. In general, there was no pressure change detected when solenoid was de-energized, indicating solenoid failure. This could be due to solenoid not de-engergizing or the exhaust port may be completely obstructed. If Duplex PST, look at PST Type data to determine which solenoid failed. |
| 46 |
PST Hi Brk Press Lim |
| 47 |
When this alarm is enabled and becomes active, it indicates the last Maintenance PST Failed because the Break Pressure was over the high limit of the Baseline PST Break Pressure as determined by the PST Break Pressure Hysteresis % (configuration). If the break pressure was too high, it could be due to a broken valve shaft or valve coupler or in some circumstances abnormally low process pressure. |
| 48 |
PST Lo Brk Press Lim |
| 49 |
When this alarm is enabled and becomes active, it indicates the last Maintenance PST Failed because the Break Pressure was below the low limit of the Baseline PST Break Pressure as determined by the PST Break Pressure Hysteresis % (configuration). If the break pressure was too low, it could be the spring has become too weak, the valve is sticking, or in some circumstances abnormally high process pressure. |
| 50 |
PST Not Reach TRL |
| 51 |
When this alarm is enabled and becomes active, it indicates the last PST Failed because the valve never reached its Travel-Limit (Set-Point). This will only occur in systems where signatures are disabled and may be because the valve started moving but became stuck somewhere before reaching the Travel-Limit, or the supply pressuremay be much higher than calirated value, or the solenoiid exhaust port may be obstructed. |
| 52 |
PST Ex Tot Time |
| 53 |
When this alarm is enabled and becomes active, it indicates the last PST Exceeded Total Time Limit. This is only used for devices with the signature option disabled. |
| 54 |
PSI Snsr Fail Alarm |
| 55 |
The device has detected a failure of the Pressure Sensor 1 during the last PST/SOVT |
| 56 |
Invalid Press Alarm |
| 57 |
The PST/SOVT was aborted due to supply pressure being too low to perform test. This can have repercussions where PST could get stuck and not return valve to fully energized position or with SOVT, since based on time and pressure, could accidentally cause valve movement. |
| 58 |
XTrvl Lim Alarm |
| 59 |
PST has exceeded the Travel limit. Possible cause may be the solenoid is becoming sluggish in response to voltage. |
| 60 |
Linearization Alarm |
| 61 |
TMR sensor linearization aborted due to error |
| 62 |
Number of Response Preambles- Number of Preambles to be sent in response messages from the Field Device to the Host. Valid values are 5-20. |
| 63 |
Device Reboot |
| 64 |
Device Reboot- Commands the electronics and software to perform a reboot (reset). This is equivalent to cycling the power off and then back on to the field device. Performing this will not alter configuration. |
| 65 |
Fixed mA Loop Test |
| 66 |
Loop test- This Method allows the User to manually manipulate the Analog Output temporarily to a selected constant output value. When exiting this method, the analog output is returned back to normal. |
| 67 |
Make the Field Device 'Squawk' - This causes the device to visually alert to allow technicans to idendify it. The visual indication is the Green LED on the device will flash a selected number of times. |
| 68 |
Refers to the actual valve position as measured from the Hall-Effect Sensor, displayed in terms of percent. |
| 69 |
Position |
| 70 |
3.1f |
| 71 |
Position Units |
| 72 |
Pstn PDQ |
| 73 |
Pstn LS |
| 74 |
Pstn Fmly stat |
| 75 |
Analytical Class |
| 76 |
Refers to the upper limit position value. |
| 77 |
Max Pstn |
| 78 |
2.2f |
| 79 |
Refers to the lower limit position value. |
| 80 |
Min Pstn |
| 81 |
Min_Sensor_Span |
| 82 |
.3f |
| 83 |
Sensor Serial |
| 84 |
Min Span |
| 85 |
Snsr temp unit |
| 86 |
Sensor Temperature Units- Engineering unit to be displayed with Sensor Temperature. |
| 87 |
Temperature PDQ |
| 88 |
Temperature LS |
| 89 |
Temperature stat |
| 90 |
Temperature Class |
| 91 |
Temperature |
| 92 |
Shows the current ambient temperature measured at the microprocessor internal sensor |
| 93 |
Calibration Flags: |
| 94 |
Calibration Flags for handshaking between device and DD |
| 95 |
Actuator Type: |
| 96 |
This setting configures the type of the actuator |
| 97 |
Rotary |
| 98 |
Actuator with rotary motion (Usually 90 degree rotation) |
| 99 |
Beacon Orientation: |
| 100 |
This setting indicates if the beacon is orientation is normal or reversed |
| 101 |
Normal |
| 102 |
The beacon is mounted in normal position |
| 103 |
Reversed |
| 104 |
The beacon is mounted in reversed position |
| 105 |
Act Fail Mode: |
| 106 |
This setting configures the fail mode of the actuator |
| 107 |
Fail Close |
| 108 |
The actuator closes the valve in fail condition |
| 109 |
Fail Open |
| 110 |
The actuator opens the valve in fail condition |
| 111 |
|
| 112 |
Not Used |
| 113 |
Temp Units: |
| 114 |
Can set display of temperature as Celcius or Fahrenheit on LCD and HART. |
| 115 |
Fahrenheit |
| 116 |
Celcius |
| 117 |
Pstn Disp (FLOP): |
| 118 |
Sets how position is displayed on LCD only, displayed as % of open or % of closed. |
| 119 |
% Open |
| 120 |
% Closed |
| 121 |
LCD Units: |
| 122 |
Sets the LCD idle screen to either display position in percent or output current in mA |
| 123 |
Output Current mA |
| 124 |
Position % |
| 125 |
Not Used: |
| 126 |
LCD Contrast: |
| 127 |
Can set LCD display contrast (range 27-63). 63 provides the highest contrast, but uses slightly more power. |
| 128 |
LCD Menu Time-out: |
| 129 |
Can set LCD time-out (1-60 minutes) where if in any LCD menu, once timeout expires with no keypad action, will exit the menu system back to the main LCD display. |
| 130 |
Calibration Time-out: |
| 131 |
If configured for User Controlled (Manual) Calibration, this will set a manual Calibration time-out (1-60 minutes) which will abort the calibration and return to main LCD display once expired if the calibration gets stuck. |
| 132 |
Reverse mA Output |
| 133 |
Reverses the mA output current calibration so that the device outputs 20mA for valve close and 4mA for valve open |
| 134 |
Direct (4-20mA) |
| 135 |
Reverse (20-4mA) |
| 136 |
User Password |
| 137 |
The User Password may be changed here if desired, up to 6 characters in length. |
| 138 |
Open Pstn Cutoff |
| 139 |
Open Position Cutoff Value. If the valve open position is within this hysteresis range, the device will showthe valve position as fully open. The allowed range is 0.0-20.0%. |
| 140 |
.1f |
| 141 |
4.1f |
| 142 |
Close Pstn Cutoff |
| 143 |
Close Position Cutoff Value. If the valve close position is within this hysteresis range, the device will showthe valve position as fully closed. The allowed range is 0.0-20.0%. |
| 144 |
Pstn Deadband: |
| 145 |
Position deadband value. If there is a valve movement which is within this value, the device will ignorethe valve movement and display the same valve position as before until the change in the valve position exceeds this deadband. The allowed range is 0.0-20.0%. |
| 146 |
Reserved Alarm Enable 6 |
| 147 |
Reserved Alarm Enable 6. |
| 148 |
Disable |
| 149 |
Enable |
| 150 |
Reserved Alarm Enable 5 |
| 151 |
Reserved Alarm Enable 5. |
| 152 |
Reserved Alarm Enable 4 |
| 153 |
Reserved Alarm Enable 4. |
| 154 |
Reserved Alarm Enable 3 |
| 155 |
Reserved Alarm Enable 3. |
| 156 |
Reserved Alarm Enable 2 |
| 157 |
Reserved Alarm Enable 2. |
| 158 |
Reserved Alarm Enable 1 |
| 159 |
Reserved Alarm Enable 1. |
| 160 |
Reserved Alarm Enable 0 |
| 161 |
Reserved Alarm Enable 0. |
| 162 |
Cycle Alarm Control: |
| 163 |
When enabled, the DEPIC2 will signal this alarm when the cycle limit is reached. |
| 164 |
Factory Cycle Cnt: |
| 165 |
Shows the cycle count of the valve monitored by this device since first manufactured. A full cycle is a movement to fully open and fully closed. |
| 166 |
User Cycle Count: |
| 167 |
Shows the current cycle count of the valve (maximum 9999999). |
| 168 |
Cycle Limit: |
| 169 |
Shows the configured cycle limit of the valve which can trigger the cycle limit alert (maximum 10000). |
| 170 |
Percent Done: |
| 171 |
Percentage done or completed of currently running process on device. |
| 172 |
Firmware Revision: |
| 173 |
The current manufacturer firmware revision of the device. This is a full Revision string which differs from the Software Revision in that the Software Revision is a single integer as supported by HART, whereas the string used has additional meaning to the manufacturer. In general, anytime the firmware changes in any way that affects the HART portion of the firmware, the Software Revision will be incremented. |
| 174 |
Firmware part number |
| 175 |
The device firmware PRG part number as tracked in the BOM by Westlock Controls in the ERP system |
| 176 |
PRG10164-FW |
| 177 |
DD part number |
| 178 |
The DD PRG part number as tracked in the BOM by Westlock Controls in the ERP system |
| 179 |
PRG10164-DD |
| 180 |
Last Service Date: |
| 181 |
Reads the Date of Last Maintenance Service. Note this date will be updated when a new service interval is set since it is assumed that the interval will always be reset after servicing. |
| 182 |
Last Service Time: |
| 183 |
Reads the Time of Last Maintenance Service. Note this time will be updated when a new service interval is set since it is assumed that the interval will always be reset after servicing. |
| 184 |
Sensor Point: |
| 185 |
Start the TMR sensor linearization for 0 to 360 degree |
| 186 |
Main Menu |
| 187 |
Configuration/Calibration |
| 188 |
Device Info |
| 189 |
Show Manufacturer |
| 190 |
Show Revisions |
| 191 |
Diagnostics |
| 192 |
Device Commissioning Functions |
| 193 |
This menu is provided to cope wiht the user during commissioning activities |
| 194 |
Device Specific Status |
| 195 |
This menu is provided to examine all available status related to this device. Note that currently all alerts are considered warnings and and alarms are hard failures. |
| 196 |
Field Device Status |
| 197 |
This menu shows standard HART defined field device status bits as related to the process. If any status bit is not set, it will appear as OFF. 1) Position detected is outside the pre-defined range limits of +-5%. 2) Non-PV variable outside limits, currently not used. 3) The Loop Current is outside the pre-defined range limits of +-5%. 4) The Loop Current is fixed, this may be because the user has set it or it may be fixed at 21 mA as a result of a PST failure as per NAMUR NE-43 (see PST Alerts). Generally #3 will be set with this if PST failure. 5) This indicates more (extended) status is avilable (see Extended Device Status or Alert Status). 6) Cold Start indicates a device reset or power cycle. 7) Configuration has changed either from HART or the Keypad. 8) Device Malfunction, currently not used. |
| 198 |
Extended Device Status |
| 199 |
This menu shows other HART and manufacturer defined extended field device status. If a specific alert status is not set, it will appear as OFF (inactive). Currently HART status 1-3 is not supported and no other manufacturer status is supported. This menu is just a place holder for the future. |
| 200 |
Burnout Current |
| 201 |
Burnout Current (sensor failure detection)Configures value for the fixed analog output current during sensor failureThe device will generate selected fixed current when it detects any failure according to NAMUR - NE-43 |
| 202 |
Downscale |
| 203 |
Upscale |
| 204 |
Alarm Status |
| 205 |
This menu shows alarm status of the general summary alarms. Note in this catagory, only the ESD is a failure alarm. All others are considered important notifications. If a specific alarm is not enabled or is not set, it will appear as OFF (inactive). |
| 206 |
Calibration Error Alarms |
| 207 |
This menu shows any calibration error alarms (failures) encountered during the last calibration. Note these cannot be enabled or disabled in configuration and so are always enabled. If a specific error alarm is not set, it will appear as OFF (inactive). |
| 208 |
Offline |
| 209 |
No modifiable offline parameters. |
| 210 |
Maintenance |
| 211 |
Enter Hot-Key Menu |
| 212 |
Configuration |
| 213 |
Basic Configuration |
| 214 |
HART Configuration |
| 215 |
HART Config |
| 216 |
This menu provides the means to set a number of HART parameters unique to a specific device and valve/actuator assembly. |
| 217 |
Multidrop Mode |
| 218 |
This menu provides the means to set the device for normal loop current mode (position transmitter) or fixed curren mode (multidrop) operation. If loop current mode disabled, the polling address should be non-0 and unique (1-63). In general, polling address 0 should be used for non multidrop mode. |
| 219 |
Service/Alarm Config |
| 220 |
There are two basic types of Alarms, failure and summary. This allows enabling or disabling any of these Alarms. If a specific alarm is enabled, the device will set this alarm signal when the related failure condition occurs. As noted before, some alarms here are not necessarily hard failures but are summary alarms, primarily the ESD and PST alarms are actually hard failures requiring immediate attention. |
| 221 |
Allows enabling or disabling Cycle Limit Alarm. If enabled, the device will set this alarm signal when the valve movement cycle increments past the configured limit. To clear the alarm, simply go to menu Configuration->Failure Alarm Config->Cycle Alarm to set a new limit or change the cycle count. In general it is better to change the limit in case a record of the count is being kept. |
| 222 |
Maint Service |
| 223 |
Allows the user to set/view the last manintenance/service performed on this device |
| 224 |
Burnout Config (NE43) |
| 225 |
Allows the user to set the Burnout signal to upscale (21mA) or downscale (3.6mA) according to NAMUR std NE-43 |
| 226 |
Open/Close Position Cutoff |
| 227 |
This menu is used to configure hysteresis values used for the operation of the device |
| 228 |
Value |
| 229 |
% |
| 230 |
Final Position and SP Sources |
| 231 |
Final Position Source |
| 232 |
Position Chart |
| 233 |
Final Position Gauge |
| 234 |
Final Position Chart |
| 235 |
Calibration/Setup |
| 236 |
Calibration |
| 237 |
PV Rerange |
| 238 |
Allows Reranging the Primary Variable (PV) based upon user defined range limits. When position exceeds new range limits, HART Field Device Status will activate showing PV is outside range limits. |
| 239 |
Low Position Calibration |
| 240 |
Performs a Low (Zero) Position Calibration only, which is non-invasive to process, assuming valve is alredy in required position. |
| 241 |
High Position Calibration |
| 242 |
Performs a High (Span) Position Calibration only, which is non-invasive to process, assuming valve is alredy in required position. |
| 243 |
Abort Manual Calibration |
| 244 |
Retrieve Alerts |
| 245 |
This method revieves all alerts currently logged on the device for viewing. Up to the last 16 alert transitions are stored on the device. |
| 246 |
Delete Old Alerts |
| 247 |
This method deletes all old Alerts, alerts logged before the most recent device reboot. Note the devic will only store up to 16 alerts at which point it will overwrite the oldest as new alert transitions (alert transition to Active or Inactive) occur. Because of this it may be important to view these periodically or whenever the alert summary alarm occurs if enabled. |
| 248 |
Set Factory Defaults |
| 249 |
This method will cause the device to reset all configuration parameters except User Password and UI Configuration back to the factory defined default settings. |
| 250 |
Sensor Linearization |
| 251 |
This method will start the process of linearization for the TMR sensor. |
| 252 |
Custom mA Output Calibration |
| 253 |
This mA calibration is used to calibrate standard loop currents of 4-20 mA and loop currents other than 4 and 20 mA if desired for end points. For example if someone desires 19 mA for closed and 5 mA for open, it can be set this way and calibrated. Note the limits are 3.8 mA and 20.9 mA. |
| 254 |
PV Analog Channel Saturated |
| 255 |
PV Analog Channel Fixed |
| 256 |
Wireless |
| 257 |
WirelessHART Device |
| 258 |
IEEE 802.15.4 2.4GHz DSSS with O-QPSK Modulation |
| 259 |
Primary |
| 260 |
Primary Analog Channel |
| 261 |
Secondary |
| 262 |
Secondary Analog Channel |
| 263 |
Tertiary |
| 264 |
Tertiary Analog Channel |
| 265 |
Quaternary |
| 266 |
Quaternary Analog Channel |
| 267 |
Quinary |
| 268 |
Quinary Analog Channel |
| 269 |
Critical Power Failure |
| 270 |
Lock all |
| 271 |
Trim not supported |
| 272 |
Configuration cannot be changed |
| 273 |
Locked by gateway |
| 274 |
Analog Input Channel |
| 275 |
Analog Output Channel |
| 276 |
Secondary Analog Channel Saturated |
| 277 |
Tertiary Analog Channel Saturated |
| 278 |
Quaternary Analog Channel Saturated |
| 279 |
Quinary Analog Channel Saturated |
| 280 |
Secondary Analog Channel Fixed |
| 281 |
Tertiary Analog Channel Fixed |
| 282 |
Quaternary Analog Channel Fixed |
| 283 |
Quinary Analog Channel Fixed |
| 284 |
Simulation active |
| 285 |
The device is in simulation mode and the level output is not representative of the process. |
| 286 |
Non-Volatile memory failure |
| 287 |
The Non-Volatile memory check is invalid or maybe corrupt, or the battery of a battery-backed memory has failed. |
| 288 |
Volatile memory error |
| 289 |
The RAM memory check is invalid or maybe corrupt |
| 290 |
Watchdog reset executed |
| 291 |
A watchdog reset has been performed |
| 292 |
Voltage conditions out of range |
| 293 |
A voltage condition is outside its allowable range |
| 294 |
Environmental conditions out of range |
| 295 |
An internal or environmental condition is beyond acceptable limits. |
| 296 |
Electronic failure |
| 297 |
A hardware problem not related to the sensor has been detected. |
| 298 |
Subdevice list changed |
| 299 |
Duplicate master detected |
| 300 |
Capacity Denied |
| 301 |
The device was unable to acquire the communication bandwidth required to support the Burst Messaging specified |
| 302 |
Bandwidth allocation pending |
| 303 |
Block transfer pending |
| 304 |
Battery life |
| 305 |
Percent range |
| 306 |
Loop current |
| 307 |
Primary variable |
| 308 |
Secondary variable |
| 309 |
Tertiary variable |
| 310 |
Quaternary variable |
| 311 |
Read receive time |
| 312 |
Write date and time |
| 313 |
Non-Volatile Clock |
| 314 |
When set the device contains a battery-backed clock. In this case, the clock does not need to be reset if there is a power failure. |
| 315 |
Clock Uninitialized |
| 316 |
The real-time clock has never been set with the date and time. For example, the clock is volatile and power was removed from and restored to the device. |
| 317 |
None |
| 318 |
No restrictions |
| 319 |
SI Only |
| 320 |
Restricted to SI Unit codes only |
| 321 |
Process automation device |
| 322 |
Discrete device |
| 323 |
Hybrid:Process automation+discrete |
| 324 |
I/O System |
| 325 |
WirelessHART Process automation device |
| 326 |
WirelessHART Discrete device |
| 327 |
WirelessHART Process automation+discrete |
| 328 |
WirelessHART Gateway |
| 329 |
WirelessHART Access point |
| 330 |
WirelessHART Process adapter |
| 331 |
WirelessHART Discrete adapter |
| 332 |
WirelessHART enabled handheld/portable maintenance tool |
| 333 |
Device Profile |
| 334 |
US |
| 335 |
United States of America |
| 336 |
JP |
| 337 |
Japan |
| 338 |
DE |
| 339 |
Germany |
| 340 |
FR |
| 341 |
France |
| 342 |
ES |
| 343 |
Spain |
| 344 |
RU |
| 345 |
Russian Federation |
| 346 |
CN |
| 347 |
People's Republic of China |
| 348 |
Secondary Master |
| 349 |
Primary Master |
| 350 |
Device Diagnostic Status 0 |
| 351 |
Device Diagnostic Status 1 |
| 352 |
I/O and Subdevice Status |
| 353 |
WirelessHART Status |
| 354 |
Time Set Option |
| 355 |
Real Time Clock Flags |
| 356 |
Country |
| 357 |
Country of intended device installation |
| 358 |
SI Unit Control |
| 359 |
Indicates if device should only display SI unit codes |
| 360 |
Time Stamp |
| 361 |
Relative time value on network |
| 362 |
8u |
| 363 |
Dynamic Variables Returned for Device Variables |
| 364 |
Command Response Truncated |
| 365 |
Configuration Change Counter Mismatch |
| 366 |
Status bytes mismatch |
| 367 |
count |
| 368 |
8.3f |
| 369 |
This will start the low position calibration. Do you want to continue? |
| 370 |
The device is already running another calibration. Please try again later! |
| 371 |
Is Valve at desired position? |
| 372 |
Performing low position calibration. Please Wait... |
| 373 |
Calibration Failed due to dead zone |
| 374 |
Calibration Failed - Start Error |
| 375 |
Calibration Failed - Range or Span below minimum limit |
| 376 |
Calibration Finished |
| 377 |
This will start the high position calibration. Do you want to continue? |
| 378 |
Performing high position calibration. Please Wait... |
| 379 |
Abort not Sucessful |
| 380 |
Calibration Aborted. |
| 381 |
Error count is 0, no errors to retieve. |
| 382 |
This will load the factory configuration and reboot the device. Do you want to continue? |
| 383 |
Yes;No |
| 384 |
Reloading Factory Default Configuration. Please wait... |
| 385 |
Factory reset successful! Please re-calibrate the device. |
| 386 |
Aborting Factory Default. |
| 387 |
This will start the TMR sensor linearization. Do you want to continue? |
| 388 |
First move the sensor position to %[d]{sensor_linearization_point}%. Press OK for sensor reading at %[d]{sensor_linearization_point}% position |
| 389 |
Reading the current position... |
| 390 |
Linearization process aborted |
| 391 |
Sensor calibration completed successfully! |
| 392 |
Aborting the process. |
| 393 |
Note: Make sure the associated control loop is in Manual |
| 394 |
Connect reference mA meter to measure current, click OK when ready to proceed. |
| 395 |
Starting mA calibration, Please Wait... |
| 396 |
Choose desired mA output level to be used when solenoid is in DE-ENERGIZED state: |
| 397 |
Setting analog output to the selected value, Please Wait... |
| 398 |
Current fixed at %[5.2f]{fixed_mA} mA |
| 399 |
Is output current %[5.2f]{fixed_mA} mA equal to reference meter reading? |
| 400 |
Choose desired mA output level to be used when solenoid is in ENERGIZED state: |
| 401 |
mA Calibration Successful |
| 402 |
Calibration of mA output encountered a span error, for example, the energized and de-energized current levels may have been selected to be the same. |