| 0 |
EX200H |
| 1 |
Orange Instr, UK |
| 2 |
Loop Current |
| 3 |
Actuator actual position signal in mA in the range 4-20mA representing the calibrated travel of the actuator |
| 4 |
.1f |
| 5 |
8.1f |
| 6 |
PV % range |
| 7 |
Actuator actual position as a percentage of the calibrated range. |
| 8 |
PV Unit |
| 9 |
Actuator actual position as a percentage of the calibrated range |
| 10 |
PV Quality |
| 11 |
SV Quality |
| 12 |
Command signal sent to the actuator as a percentage of its range |
| 13 |
SensorSerNo |
| 14 |
Three byte number |
| 15 |
PV Limit Status |
| 16 |
SV Limit Status |
| 17 |
Device Family Status |
| 18 |
More Device Family Status Available |
| 19 |
PV Var Class |
| 20 |
SV Var Class |
| 21 |
PV fmly |
| 22 |
SV fmly |
| 23 |
INC off time |
| 24 |
Increase (Open) solenoid off time. Solenoid pulsing mode can be engaged by setting both the #HART remote enable# bit and the #Solenoid speed# bit ON (Setup - Soft switch). If the #HART remote enable# bit is OFF then solenoid pulsing can be engaged by setting DIP 4 ON (up) on the positioner. |
| 25 |
msec |
| 26 |
DEC off time |
| 27 |
Decrease (Close) solenoid off time. Solenoid pulsing mode can be engaged by setting both the #HART remote enable# bit and the #Solenoid speed# bit ON (Setup - Soft switch). If the #HART remote enable# bit is OFF then solenoid pulsing can be engaged by setting DIP 4 ON (up) on the positioner. |
| 28 |
INC on time |
| 29 |
Increase (Open) solenoid on time. Solenoid pulsing mode can be engaged by setting both the #HART remote enable# bit and the #Solenoid speed# bit ON (Setup - Soft switch). If the #HART remote enable# bit is OFF then solenoid pulsing can be engaged by setting DIP 4 ON (up) on the positioner. |
| 30 |
DEC on time |
| 31 |
Decrease (Close) solenoid on time. Solenoid pulsing mode can be engaged by setting both the #HART remote enable# bit and the #Solenoid speed# bit ON (Setup - Soft switch). If the #HART remote enable# bit is OFF then solenoid pulsing can be engaged by setting DIP 4 ON (up) on the positioner. |
| 32 |
Dead zone |
| 33 |
The actuator will start to position if the command signal changes from its last rest position by more than this percentage value. It will vary with actuator speed and should be set to give stable but responsive positioning. The dead zone can be modified here by setting both the #HART remote enable# bit and the #Solenoid speed# bit ON (Setup - Soft switch). If the #HART remote enable# bit is OFF then the dead zone is set by the DZ adjuster on the positioner. |
| 34 |
% |
| 35 |
Soft switch |
| 36 |
A series of 8 flags that can be set to modify the operation of the positioner |
| 37 |
Future use |
| 38 |
This position is not implemented. |
| 39 |
HART remote enable |
| 40 |
ON - allows modification of all setup parameters, dead zone, pulse times and other functions via the HART interface.OFF - disables the remote modification of all of the above and allows modification of these parameters by adjustment via the EX200H front panel. |
| 41 |
Solenoid speed |
| 42 |
ON remotely, overriding the EX200H local setting.OFF - stepping (pulsing) mode is selected via DIL switch 4 on the EX200H front panel. |
| 43 |
Freeze |
| 44 |
ON - the actuator will hold position. OFF - the actuator follows the command signal. Only one of FREEZE, DRIVE DOWN or DRIVE UP should be selected |
| 45 |
Drive down |
| 46 |
ON - the actuator will drive down to the minimum position. OFF - the actuator follows the command signal. Only one of FREEZE, DRIVE DOWN or DRIVE UP should be selected. |
| 47 |
Drive up |
| 48 |
ON - the actuator will drive up to its maximum position. OFF - the actuator follows the command signal. Only one of FREEZE, DRIVE DOWN or DRIVE UP should be selected. |
| 49 |
ESD and Fault O/P |
| 50 |
ON - External fault I/P only changes the Fault O/P and signal fault only changes the ESD O/P. OFF - either the external fault I/P or a signal fault will change both the ESD and fault O/P |
| 51 |
Remote command |
| 52 |
ON - enables setting of a command signal in the range 0 - 100.0% in the COMMAND screen of Process variables.OFF - command signal is taken from the analog loop. |
| 53 |
Manual entry of a command signal sent by HART in the range 0 to 100, scaled over the calibrated range of the actuator. Both the #HART remote enable# bit and the #Remote command# bit must be set ON(Setup - Soft switch) for the actuator to respond. |
| 54 |
Setup Menu |
| 55 |
Process Variables |
| 56 |
Setup |
| 57 |
Device Setup |
| 58 |
Review |
| 59 |
Device Info |
| 60 |
Rev Number |
| 61 |
Analog Cond |
| 62 |
Poll Adr |
| 63 |
Common Tables |
| 64 |
Interoperable * |
| 65 |
Universal |
| 66 |
Common Practice |
| 67 |
Pressure Universal |
| 68 |
Pressure Common |
| 69 |
Menu |
| 70 |
Rosemount Magflow |
| 71 |
Rosemount Pressure |
| 72 |
Moore Products |
| 73 |
Siemens Pressure |
| 74 |
P2 Common |
| 75 |
PV |
| 76 |
Wireless |
| 77 |
Munge |
| 78 |
Analytical Oxygen/Combustion/Methane/CO |
| 79 |
Flow Totalizer - Rate Indicator |
| 80 |
Flow Variable Area |
| 81 |
Flow Coriolis Mass |
| 82 |
Flow Ultrasonic - Gas |
| 83 |
Flow Ultrasonic - Liquid |
| 84 |
Level Ultrasonic |
| 85 |
Level Radar - Microwave |
| 86 |
Pressure Absolute |
| 87 |
Level Capacitance |
| 88 |
Pressure Differential |
| 89 |
Level Hydrostatic |
| 90 |
Level |
| 91 |
Pressure Absolute/Relative |
| 92 |
Level Microwave |
| 93 |
Level Radar |
| 94 |
Level Density - Nuclear |
| 95 |
Flow Electromagnetic |
| 96 |
Flow Vortex |
| 97 |
Flow Magmeter - Rack Version |
| 98 |
Flow High Performance Magmeter |
| 99 |
Flow Mass |
| 100 |
Flow Ultrasonic |
| 101 |
Flow Magnetic |
| 102 |
Flow Magnetic - Custody Transfer |
| 103 |
Flow 2-wire Magnetic |
| 104 |
Flow Coriolis Mass - Custody Transfer |
| 105 |
Flow 2-wire Vortex |
| 106 |
Flow Thermal |
| 107 |
Temperature Head Mounted |
| 108 |
Temperature Compact |
| 109 |
Temperature DIN Rail Mounted |
| 110 |
Analytical pH |
| 111 |
Analytical Conductivity - Conductive |
| 112 |
Analytical Conductivity - Inductive |
| 113 |
Temperature Sensor |
| 114 |
Level Servo |
| 115 |
Temperature DIN Rail |
| 116 |
Temperature |
| 117 |
Analytical ORP |
| 118 |
Analytical pION |
| 119 |
Analytical IConc |
| 120 |
Analytical Electrode Conductivity |
| 121 |
Analytical Toroidal Conductivity |
| 122 |
Valve Positioner |
| 123 |
Valve Controller |
| 124 |
Pressure |
| 125 |
Pressure Multivariable |
| 126 |
Analytical pH/ORP |
| 127 |
Flow Coriolis |
| 128 |
Analytical Conductivity |
| 129 |
Valve Positioner/Pneumatic |
| 130 |
Valve Actuator - Electrical |
| 131 |
Temperature Dual Input |
| 132 |
Valve Actuator |
| 133 |
Analytical Corrosion |
| 134 |
Analytical Density - Nuclear |
| 135 |
Level Continuous Gamma |
| 136 |
Level Laser Ranging |
| 137 |
Pressure Safety |
| 138 |
Flow Vortex/Swirl |
| 139 |
Flow |
| 140 |
Analytical 4 Electrode Conductivity |
| 141 |
Analytical 2 Electrode Conductivity |
| 142 |
Analytical Troidal Conductivity |
| 143 |
Analytical pH/ORP/pIon/Ion Conc |
| 144 |
Analytical Oxygen |
| 145 |
Pressure P, dP + Multivariable |
| 146 |
Temperature 2-wire |
| 147 |
Pressure w/ PID |
| 148 |
Pressure Saturated Steam |
| 149 |
Analytical Density - Gamma Ray |
| 150 |
Level Gamma Ray |
| 151 |
Analytical Weight - Gamma Ray |
| 152 |
Level w/ Density - Gamma Ray |
| 153 |
Analytical Motorized Density |
| 154 |
Flow Multivariable Mass |
| 155 |
Temperature Multivariable |
| 156 |
Specialty HART-to-Analog Signal Conv |
| 157 |
Flow dP |
| 158 |
Pressure Low Power |
| 159 |
Pressure Certified SIL2 |
| 160 |
Interoperable |
| 161 |
Analytical Density |
| 162 |
Valve Positioner/Electropneumatic |
| 163 |
Flow Magnetic Inductive |
| 164 |
Analytical |
| 165 |
Analytical Opacity Monitor |
| 166 |
Analytical Oxygen/Combustion |
| 167 |
Analytical 2-wire Conductivity |
| 168 |
Analytical 2-wire Conductivity w/ pure H20 |
| 169 |
Analytical 2-wire Conductivity w/ % conc |
| 170 |
Analytical 2-wire Oxygen/Chlorine/Ozone |
| 171 |
Analytical 2-wire pH/ORP |
| 172 |
Analytical 2-wire Contacting/Toroidal |
| 173 |
Analytical Oxygen - High Temperature |
| 174 |
Analytical Conductivity w/ % conc |
| 175 |
Analytical pH/ORP/ISE |
| 176 |
Analytical Amperometric Analyzer |
| 177 |
Analytical Dual Input Analyzer |
| 178 |
Pressure Pressure/Level |
| 179 |
Analytical Consistency |
| 180 |
Analytical Microwave-Pulp Consistency |
| 181 |
Analytical Microwave Consistency |
| 182 |
Valve Digital Positioner |
| 183 |
Valve Smart Valve Positioner |
| 184 |
Temperature Differential |
| 185 |
Analytical Dissolved Oxygen |
| 186 |
Analytical pH Controller |
| 187 |
Analytical Conductivity/Resistivity Controller |
| 188 |
Analytical Conductivity/Resistivity |
| 189 |
Level Displacement |
| 190 |
Temperature w/ PID |
| 191 |
Valve Universal Positioner |
| 192 |
Level Radar - Reflex |
| 193 |
Pressure Gauge |
| 194 |
Pressure Sealed Gauge |
| 195 |
Valve Digital Positioner w/ PID |
| 196 |
Valve Intelligent Positioner |
| 197 |
Analytical Gas Detector |
| 198 |
Analytical Infrared Gas Detector |
| 199 |
Analytical Electrochemical Gas Detector |
| 200 |
Analytical Measuring Instruments |
| 201 |
Level Magnostrictive |
| 202 |
Valve On/Off Valve Controller |
| 203 |
Level Radar - Pulse |
| 204 |
Level Continuous Capactive |
| 205 |
Valve Damper Actuator |
| 206 |
Valve Electric Damper Actuator |
| 207 |
Flow Electronic |
| 208 |
Flow Vortex - Multiparameter Mass |
| 209 |
Analytical UV Flame Detector |
| 210 |
Analytical UVIR Flame Detector |
| 211 |
Analytical IR Flame Detector |
| 212 |
Analytical Fire Detector |
| 213 |
Analytical Gas Detector Display Interface |
| 214 |
Analytical Toxic Gas Detector |
| 215 |
Analytical Flame Detector |
| 216 |
Level Nuclear |
| 217 |
Analytical Microwave |
| 218 |
Analytical Density - Radiometric |
| 219 |
Level Radiometric |
| 220 |
Analytical Gas/Steam |
| 221 |
Level Nucleonic |
| 222 |
Analytical Blade Consistency |
| 223 |
Analytical Rotary Consistency |
| 224 |
Pressure Absolute/Differential |
| 225 |
Positioner |
| 226 |
Analytical Combustible Gas Detector |
| 227 |
Analytical Point Infrared Gas Detector |
| 228 |
Analytical Multi-Detector Monitor System |
| 229 |
Valve Positioner/Electro-hydraulic |
| 230 |
Valve Monitor |
| 231 |
Enable on token-passing data link layer only |
| 232 |
Enable on TDMA data link layer only |
| 233 |
Enable on both TDMA and token-passing data link layer |
| 234 |
WirelessHART Device |
| 235 |
IEEE 802.15.4 2.4GHz DSSS with O-QPSK Modulation |
| 236 |
Primary |
| 237 |
Primary Analog Channel |
| 238 |
Secondary |
| 239 |
Secondary Analog Channel |
| 240 |
Tertiary |
| 241 |
Tertiary Analog Channel |
| 242 |
Quaternary |
| 243 |
Quaternary Analog Channel |
| 244 |
Quinary |
| 245 |
Quinary Analog Channel |
| 246 |
Critical Power Failure |
| 247 |
Lock all |
| 248 |
Trim not supported |
| 249 |
Configuration cannot be changed |
| 250 |
Locked by gateway |
| 251 |
Analog Input Channel |
| 252 |
Analog Output Channel |
| 253 |
Secondary Analog Channel Saturated |
| 254 |
Tertiary Analog Channel Saturated |
| 255 |
Quaternary Analog Channel Saturated |
| 256 |
Quinary Analog Channel Saturated |
| 257 |
Secondary Analog Channel Fixed |
| 258 |
Tertiary Analog Channel Fixed |
| 259 |
Quaternary Analog Channel Fixed |
| 260 |
Quinary Analog Channel Fixed |
| 261 |
Simulation active |
| 262 |
The device is in simulation mode and the level output is not representative of the process. |
| 263 |
Non-Volatile memory failure |
| 264 |
The Non-Volatile memory check is invalid or maybe corrupt, or the battery of a battery-backed memory has failed. |
| 265 |
Volatile memory error |
| 266 |
The RAM memory check is invalid or maybe corrupt |
| 267 |
Watchdog reset executed |
| 268 |
A watchdog reset has been performed |
| 269 |
Voltage conditions out of range |
| 270 |
A voltage condition is outside its allowable range |
| 271 |
Environmental conditions out of range |
| 272 |
An internal or environmental condition is beyond acceptable limits. |
| 273 |
Electronic failure |
| 274 |
A hardware problem not related to the sensor has been detected. |
| 275 |
Subdevice list changed |
| 276 |
Duplicate master detected |
| 277 |
Capacity Denied |
| 278 |
The device was unable to acquire the communication bandwidth required to support the Burst Messaging specified |
| 279 |
Bandwidth allocation pending |
| 280 |
Block transfer pending |
| 281 |
Continuous |
| 282 |
The Burst Message is published continuously at (worst case) the Minimum Update Period. |
| 283 |
Window |
| 284 |
The Burst Message is triggered when the source value deviates more than the specified trigger value |
| 285 |
Rising |
| 286 |
The Burst Message is triggered when source value Rises Above the specified trigger value. |
| 287 |
Falling |
| 288 |
The Burst Message is triggered when the source value Falls Below the specified trigger value. |
| 289 |
On-change |
| 290 |
The Burst Message is triggered when any value in the message changes. |
| 291 |
Battery life |
| 292 |
Percent range |
| 293 |
Loop current |
| 294 |
Primary variable |
| 295 |
Secondary variable |
| 296 |
Tertiary variable |
| 297 |
Quaternary variable |
| 298 |
Off |
| 299 |
Enable event notification on token-passing data link layer |
| 300 |
Enable event notification on TDMA data link layer |
| 301 |
Enable event notification on TDMA and token-passing data link layer |
| 302 |
Configuration changed event pending |
| 303 |
Device status event pending |
| 304 |
More status available event pending |
| 305 |
Disable |
| 306 |
Enable single data point trending |
| 307 |
Enable filtered trending |
| 308 |
The sample is filtered using a time constant equal to one-third the trend sample period |
| 309 |
Enable average trending |
| 310 |
The value obtained by dividing the sum of all samples in the period by the total number of samples |
| 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 |
Line Power |
| 318 |
Device is powered via a hardwired connection to a plant power source. |
| 319 |
Battery Power |
| 320 |
Device operates solely of its (internal) battery. |
| 321 |
Recharg.B./Power Sc. |
| 322 |
Rechargeable battery power or power scavenging. The device has a short-term supply of energy (must be at least one hour) that is continuously being replenished. The device's power is being replenished by harvesting and converting energy from the environment surrounding the device (e.g. solar, vibration, heat). |
| 323 |
Idle |
| 324 |
Active search |
| 325 |
Looking for neighbors. |
| 326 |
Negotiating |
| 327 |
Quarantined |
| 328 |
Operational |
| 329 |
Suspended |
| 330 |
Deep sleep |
| 331 |
Ultra-low power |
| 332 |
Wireless Signal Found |
| 333 |
Network packets have been recognized |
| 334 |
Wireless Signal Identified |
| 335 |
Wireless Time Synchronized |
| 336 |
WirelessHart Signal Identified |
| 337 |
Network Admission Requested |
| 338 |
Set on transmission of first join request |
| 339 |
Join Retrying |
| 340 |
Set after the first join request retry (i.e. when number of join requests > 2). Cleared when device is authenticated or when Active Search started. |
| 341 |
Join Failed |
| 342 |
Set on transition from Active Search mode to Deep Sleep mode. Cleared on transition from Deep Sleep to Active Search. |
| 343 |
Network Security Clearance Granted |
| 344 |
Network Manager Session Established |
| 345 |
Network Joined |
| 346 |
Network Joined. Normal superframe and links obtained. |
| 347 |
Network Bandwidth Requested |
| 348 |
Negotiating Network Properties. Gateway session obtained. |
| 349 |
Join Complete |
| 350 |
Normal operating mode. |
| 351 |
None |
| 352 |
No restrictions |
| 353 |
SI Only |
| 354 |
Restricted to SI Unit codes only |
| 355 |
Open - accept all devices |
| 356 |
Use Whitelist for access |
| 357 |
Use Blacklist |
| 358 |
Use Whitelist and Blacklist |
| 359 |
Lockdown - disable join links |
| 360 |
Process automation device |
| 361 |
Discrete device |
| 362 |
Hybrid:Process automation+discrete |
| 363 |
I/O System |
| 364 |
WirelessHART Process automation device |
| 365 |
WirelessHART Discrete device |
| 366 |
WirelessHART Process automation+discrete |
| 367 |
WirelessHART Gateway |
| 368 |
WirelessHART Access point |
| 369 |
WirelessHART Process adapter |
| 370 |
WirelessHART Discrete adapter |
| 371 |
WirelessHART enabled handheld/portable maintenance tool |
| 372 |
Don't attempt to join |
| 373 |
Join now |
| 374 |
Attempt to join immediately on powerup or reset |
| 375 |
US |
| 376 |
United States of America |
| 377 |
JP |
| 378 |
Japan |
| 379 |
DE |
| 380 |
Germany |
| 381 |
FR |
| 382 |
France |
| 383 |
ES |
| 384 |
Spain |
| 385 |
RU |
| 386 |
Russian Federation |
| 387 |
CN |
| 388 |
People's Republic of China |
| 389 |
Nominal |
| 390 |
Device Power Status is nominal |
| 391 |
Low |
| 392 |
Device Power Status is low |
| 393 |
Critically Low |
| 394 |
Device Power Status is critically low |
| 395 |
Recharging - Low |
| 396 |
Recharging - High |
| 397 |
Secondary Master |
| 398 |
Primary Master |
| 399 |
PV Analog Channel Saturated |
| 400 |
PV Analog Channel Fixed |
| 401 |
Device Profile |
| 402 |
|
| 403 |
Device Diagnostic Status 0 |
| 404 |
Device Diagnostic Status 1 |
| 405 |
I/O and Subdevice Status |
| 406 |
WirelessHART Status |
| 407 |
Time Set Option |
| 408 |
Real Time Clock Flags |
| 409 |
Country |
| 410 |
Country of intended device installation |
| 411 |
SI Unit Control |
| 412 |
Indicates if device should only display SI unit codes |
| 413 |
Burst Trigger Units |
| 414 |
Burst Trigger Class |
| 415 |
Wired HART Enabled |
| 416 |
Enabled on Wired HART device connection only |
| 417 |
Wireless HART Enabled |
| 418 |
Enabled on WirelessHART device connection only |
| 419 |
Both Wired and WirelessHart Enabled |
| 420 |
Enabled on both Wired and WirelessHART connections |
| 421 |
Burst Msg Trigger Mode |
| 422 |
Event Status |
| 423 |
Event Notification Control |
| 424 |
Operate mode Mask |
| 425 |
Not Defined |
| 426 |
Power Source |
| 427 |
Power source of the device |
| 428 |
Wireless Mode |
| 429 |
Join Status |
| 430 |
The current location in the joining sequence of operations. |
| 431 |
Network Access Mode |
| 432 |
Join Mode |
| 433 |
Power Status |
| 434 |
Power status of the device |
| 435 |
Master Mode |
| 436 |
This sets the I/O System's Data Link Layer operation on all channels as either primary or secondary master mode. |
| 437 |
Trend Units |
| 438 |
Trend Device Variable Unit Code |
| 439 |
Trend Classification |
| 440 |
Trend Device Variable Classification |
| 441 |
Trend Control |
| 442 |
Device Status Mask |
| 443 |
Ext dev status Mask |
| 444 |
Device Diagnostic Status 0 Mask |
| 445 |
Device Diagnostic Status 1 Mask |
| 446 |
Device Diagnostic Status 2 Mask |
| 447 |
Device Diagnostic Status 3 Mask |
| 448 |
AO saturated Mask |
| 449 |
AO fixed Mask |
| 450 |
Latched Device Status |
| 451 |
Latched Ext dev status |
| 452 |
Latched Operate Mode |
| 453 |
Latched Device Diagnostic Status 0 |
| 454 |
Latched Device Diagnostic Status 1 |
| 455 |
Latched Device Diagnostic Status 2 |
| 456 |
Latched Device Diagnostic Status 3 |
| 457 |
Latched AO saturated |
| 458 |
Latched AO fixed |
| 459 |
Wireless Module Device Type |
| 460 |
Device type of the Wireless Radio |
| 461 |
Wireless Module Manufacturer ID |
| 462 |
Manufacturer of the Wireless Radio contained in this device |
| 463 |
Subdevice Device Type |
| 464 |
Device type of the subdevice attached to this system. |
| 465 |
Subdevice Manufacturer Id |
| 466 |
Manufacturer of the subdevice attached to this system. |
| 467 |
Time Stamp |
| 468 |
Relative time value on network |
| 469 |
8u |
| 470 |
Dynamic Variables Returned for Device Variables |
| 471 |
Command Response Truncated |
| 472 |
Configuration Change Counter Mismatch |
| 473 |
Status bytes mismatch |
| 474 |
8.3f |
| 475 |
.3f |