| 0 |
Date- Gregorian calendar date, entered as mm/dd/yy, that is stored in the Field Device. This date can be used by the user in any way. There is no specific recommended use. |
| 1 |
No |
| 2 |
4.1f |
| 3 |
Temperature out of range |
| 4 |
Event 1 triggered |
| 5 |
Event 2 triggered |
| 6 |
QV is |
| 7 |
.1f |
| 8 |
.2f |
| 9 |
.3f |
| 10 |
.4f |
| 11 |
.5f |
| 12 |
The mass flow rate below which the frequency/pulse output indicates zero flow, and below which totalizers stop counting. |
| 13 |
4.2f |
| 14 |
Sec |
| 15 |
% |
| 16 |
Determines whether the Event is activated when it goes above (High) or below (Low) the setpoint. |
| 17 |
7d |
| 18 |
8.2f |
| 19 |
The number of cycles, in Hertz, that equal a proportional flow rate represented by the frequency/pulse output. |
| 20 |
Hz |
| 21 |
The flow rate that equals a set frequency if the frequency output represents mass or volume flow; or the mass or volume total that equals a set number of pulses if the frequency output represents mass or volume total. |
| 22 |
AO cutoff |
| 23 |
Pulses |
| 24 |
.6f |
| 25 |
The volume flow rate below which the frequency/pulse output indicates zero flow, and below which totalizers stop counting. |
| 26 |
10.4f |
| 27 |
Pressure |
| 28 |
Event 1 |
| 29 |
10.2f |
| 30 |
Event1 unit |
| 31 |
Event1 anlog valu |
| 32 |
Event1 % rnge |
| 33 |
Event1 URV |
| 34 |
Event1 LRV |
| 35 |
Event1 URL |
| 36 |
Event1 LRL |
| 37 |
Event1 min span |
| 38 |
Event 2 |
| 39 |
Event2 unit |
| 40 |
Event2 anlog valu |
| 41 |
Event2 % rnge |
| 42 |
Event2 URV |
| 43 |
Event2 LRV |
| 44 |
Event2 URL |
| 45 |
Event2 LRL |
| 46 |
Event2 min span |
| 47 |
Event1 |
| 48 |
Event2 |
| 49 |
QV |
| 50 |
Configuration information identifying the flange material used with the sensor. Informational purposes only - does not affect flowmeter operation. |
| 51 |
Flange |
| 52 |
Configuration information identifying any liner material used with the sensor. Informational purposes only - does not affect flowmeter operation. |
| 53 |
Halar |
| 54 |
Configuration information identifying the sensor model installed. Informational purposes only - does not affect flowmeter operation. |
| 55 |
Configuration information identifying the material of which the sensor is constructed. Informational purposes only - does not affect flowmeter operation. |
| 56 |
A standard engineering unit that serves as the mass component in a special unit. |
| 57 |
Base mass unit |
| 58 |
A standard unit of time (seconds, minutes, hours, or days) that serves as the time component in a special unit. |
| 59 |
Base mass time |
| 60 |
A programmable multiplier for the base mass unit in a special unit. |
| 61 |
Mass flo conv factr |
| 62 |
A 1 to 4 character description of a special unit of flow. |
| 63 |
Mass flo text |
| 64 |
A 1 to 4 character description of a special unit of mass, which is based on the special unit of flow to represent total. |
| 65 |
Mass totl text |
| 66 |
A control that enables the user to determine whether the frequency/pulse output and totalizers will indicate forward, reverse, or bi-directional flow. |
| 67 |
A programmable high limit on density, which enables the transmitter to indicate slug flow (extremes in fluid density caused by slugs of gas or accumulation of solids in a liquid flow stream) if fluid density goes outside programmed slug flow limits. |
| 68 |
g/Cucm |
| 69 |
Slug high limit |
| 70 |
5.4f |
| 71 |
A programmable low limit on density, which enables the transmitter to indicate slug flow (extremes in fluid density caused by slugs of gas or accumulation of solids in a liquid flow stream) if fluid density goes outside programmed slug flow limits. |
| 72 |
Slug low limit |
| 73 |
A 10-character factor that describes the sensitivity of the sensor to mass flow. The first 6 characters are the flow rate, in grams/second, per microsecond of time shift between velocity signals from the sensor. The 2nd four characters are the flow temperature coefficient. |
| 74 |
FlowCal |
| 75 |
The mass or volume flow rate below which a milliamp output representing flow indicates zero flow. |
| 76 |
PV AO cutoff |
| 77 |
SV AO cutoff |
| 78 |
A standard engineering unit that serves as the volume component in a special unit. |
| 79 |
Base vol unit |
| 80 |
Base vol time |
| 81 |
A programmable multiplier for the base volume unit in a special unit. |
| 82 |
Vol flo conv factr |
| 83 |
A 1 to 4 character description of a special unit of flow. |
| 84 |
Vol flo text |
| 85 |
A 1 to 4 character description of a special unit of volume, which is based on the special unit of flow to represent total. |
| 86 |
Vol totl text |
| 87 |
A value (in Hertz) that will be indicated on the frequency output for the purpose of a loop test. |
| 88 |
Allows the user to Reset, Stop, or Start all totalizers. NOTE - Inventory totals are NOT reset. |
| 89 |
14 characters describing the sensitivity of the sensor to density. |
| 90 |
The number of readings collected from the sensor during an Auto Zero operation. |
| 91 |
Cycles |
| 92 |
Zero time |
| 93 |
5d |
| 94 |
A unitless number that allows the user to reject the Auto Zero operation if the standard deviation is greater than 10 times the programmed convergence limit. A convergence limit of zero disables this feature. |
| 95 |
Converg. limit |
| 96 |
For the RFT9739, a programmable time period, in seconds, that defines the crossover frequency for the frequency output, where Crossover freq. = 1 / (2 x Pulse width). Below the crossover, the output has a constant ON state, and an OFF state that varies with frequency. |
| 97 |
Max pulse width |
| 98 |
5.3f |
| 99 |
An output that produces 0 V ON and 15 OFF digital levels. The control output can represent faults, zero in progress, flow direction, event 1 or event 2. |
| 100 |
Control output |
| 101 |
A 14-character factor that describes the slope and offset of the linear output representing flow tube temperature. |
| 102 |
Temp cal factr |
| 103 |
A value, in microseconds, representing the phase shift between velocity signals from the sensor when measuring zero flow. |
| 104 |
uSec |
| 105 |
5.2f |
| 106 |
Units for zero offset - always microseconds. |
| 107 |
Zero units |
| 108 |
1d |
| 109 |
A unitless value which characterizes the amount of deviation between readings during an Auto Zero operation. |
| 110 |
|
| 111 |
Std dev |
| 112 |
6.2f |
| 113 |
Downscale: An analog output goes to 0 or 2 mA, the frequency = 0 Hz. Upscale: Milliamp outputs = 22 mA, the frequency output = 15 kHz. Last measured value: Outputs = value measured immediately before before fault. Internal zero: Outputs tied to flow = zero flow. |
| 114 |
Fault indicator |
| 115 |
A programmable time period, from 0.00 to 60.00 seconds, during which outputs representing flow hold their last measured value before indicating slug flow. |
| 116 |
Slug duration |
| 117 |
6.5f |
| 118 |
A variable which represents how [differential] pressure is brought into the transmitter for the purpose of viscosity calculation or pressure compensation. |
| 119 |
A 14-character factor consisting of a slope and offset (optional) used to adjust the measured viscosity. |
| 120 |
Visc cal factr |
| 121 |
A tag used to identify a pressure transmitter being polled by the 9739 via a HART network. |
| 122 |
User-entered viscosity for the purpose of performing an on-line viscosity calibration. |
| 123 |
Visc trim point |
| 124 |
User-entered temperature for the purpose of performing an on-line temperature calibration. |
| 125 |
Ref temperature |
| 126 |
The density, in g/cc, of the air or other low-density fluid used during a 2-point density calibration. Dens A can represent: The Dens A (D1) value on an ELITE sensor, a value of 0.0000 g/cc for a D, DL, or DT sensor with a 14-character dens cal factor. |
| 127 |
Dens A |
| 128 |
The density, in g/cc, of the water or other high-density fluid used during a 2-point density calibration. Dens B can represent: The Dens B (D2) value on an ELITE sensor, a value of 1.0000 g/cc for a D, DL, or DT sensor with a 14-character dens cal factor. |
| 129 |
Dens B |
| 130 |
The tube period, in microseconds, corresponding to a density equal to Dens A. |
| 131 |
K1 |
| 132 |
The tube period, in microseconds, corresponding to a density equal to Dens B. |
| 133 |
K2 |
| 134 |
The percent change in the elasticity of the flow tubes around the bending axis per 100 degrees Celsius. |
| 135 |
Temp coeff |
| 136 |
Value |
| 137 |
Event num |
| 138 |
Event1 type |
| 139 |
High Alarm |
| 140 |
Low Alarm |
| 141 |
Event2 type |
| 142 |
For the Model RFT9739, a programmable flow rate, total, density, temperature, differential pressure, or viscosity at which an output set to represent event 1 or event 2 switches states. |
| 143 |
Event1 setpoint |
| 144 |
Event2 setpoint |
| 145 |
Assigns flow rate, total, density, temperature, differential pressure, or viscosity to event 1 or event 2. |
| 146 |
Event1 var |
| 147 |
Event2 var |
| 148 |
The frequency, in Hertz, presently being indicated on the frequency output. |
| 149 |
Pres freq |
| 150 |
6.1f |
| 151 |
3d |
| 152 |
Anlog 1 range vals |
| 153 |
Anlog 2 range vals |
| 154 |
Freq scaling |
| 155 |
View fld dev vars |
| 156 |
View output vars |
| 157 |
Test/Status |
| 158 |
Charize sensor |
| 159 |
Config outputs |
| 160 |
Config events |
| 161 |
View PV-Analog 1 |
| 162 |
View SV-Analog 2 |
| 163 |
View TV-Frequency |
| 164 |
View QV |
| 165 |
View event 1 |
| 166 |
View event 2 |
| 167 |
Auto zero |
| 168 |
Density cal |
| 169 |
Viscosity cal |
| 170 |
Temperature cal |
| 171 |
Density |
| 172 |
Viscosity |
| 173 |
Flow |
| 174 |
Temperature |
| 175 |
Viscosity/Pressure |
| 176 |
Analog output 1 |
| 177 |
Analog output 2 |
| 178 |
Frequency output |
| 179 |
Fault output |
| 180 |
Event2 |
| 181 |
Dens Pt 1 (Air) |
| 182 |
Dens Pt 2 (Water) |
| 183 |
Dens Pt 3 (Flow) |
| 184 |
Visc slope cal |
| 185 |
Visc offset cal |
| 186 |
Temp slope cal |
| 187 |
Temp offset cal |
| 188 |
Spcl mass units |
| 189 |
Spcl vol units |
| 190 |
Device info |
| 191 |
Fld dev vars |
| 192 |
Outputs |
| 193 |
Write variables |
| 194 |
Please refer to manual for complete calibration instructions. |
| 195 |
Perform Cal |
| 196 |
Outputs a user-programmed frequency to the frequency output. |
| 197 |
Fix Analog Out 1 |
| 198 |
Fix Analog Out 2 |
| 199 |
Trim Analog Out 1 |
| 200 |
Trim Analog Out 2 |
| 201 |
Instructs transmitter to perform internal self test. |
| 202 |
Start totalizer |
| 203 |
Enables the internal totalizers to begin counting. Also enables the frequency/pulse output to indicate flow. |
| 204 |
Stop totalizer |
| 205 |
Prevents the internal totalizers from counting. Disables the frequency/pulse output from indicating flow. |
| 206 |
Reset totalizer |
| 207 |
Resets internal totalizers. |
| 208 |
Status Alarm1 |
| 209 |
When set, indicates that Event 1 has reached its programmed setpoint. |
| 210 |
Status Alarm2 |
| 211 |
When set, indicates that Event 2 has reached its programmed setpoint. |
| 212 |
View status |
| 213 |
Reports any currently active device status information. |
| 214 |
Min mass flow |
| 215 |
Minimum flow rate (in g/s) required for a 3rd point density calibration. |
| 216 |
Aborts Auto Zero operation and continues to use previous zero offset value. |
| 217 |
Exits fixed mode and returns the frequency output to its active state. |
| 218 |
Invalid cutoff type code |
| 219 |
FMU860 |
| 220 |
DT |
| 221 |
DVC |
| 222 |
FCX |
| 223 |
AS800 |
| 224 |
340T |
| 225 |
340C |
| 226 |
344 |
| 227 |
Siemens Micro K |
| 228 |
SITRANS L |
| 229 |
SIPAN PH |
| 230 |
SITRANS P |
| 231 |
75SMT |
| 232 |
UNIDELTA |
| 233 |
8320 |
| 234 |
SX5100 |
| 235 |
TSV175 |
| 236 |
DMU |
| 237 |
3780 |
| 238 |
BM70 |
| 239 |
8u |
| 240 |
WARN-Loop should be removed from automatic control |
| 241 |
Flow must be zero
Perform calibration? |
| 242 |
A problem was detected |
| 243 |
Abort;Fix and Retry |
| 244 |
NOTE-Loop may be returned to automatic control |
| 245 |
Calibration in Progress
Zero: %{0}
Std dev: %{1} |
| 246 |
Auto Zero Failed |
| 247 |
Auto Zero Complete
Zero: %{0}
Std dev: %{1} |
| 248 |
Enter Density |
| 249 |
Perform calibration? |
| 250 |
Calibration in Progress... |
| 251 |
Density Calibration Complete |
| 252 |
Mass Flow must be greater than %{minflow} g/s.
Perform calibration? |
| 253 |
Slope Calibration
Enter Visc in %{0} |
| 254 |
Viscosity Calibration Complete |
| 255 |
Offset Calibration
Enter Visc in %{0} |
| 256 |
Offset Calibration
Enter Temp in %{0} |
| 257 |
Temperature Offset Calibration Complete |
| 258 |
Slope Calibration
Enter Temp in %{0} |
| 259 |
Temperature Slope Calibration Complete |
| 260 |
Choose frequency output level |
| 261 |
10 kHz;Other;End |
| 262 |
Output |
| 263 |
Aborting due to field device error |
| 264 |
Frequency output is fixed at %0 Hz |
| 265 |
Choose analog output level |
| 266 |
4 mA;20 mA;Other;End |
| 267 |
Output value: |
| 268 |
Analog Output 1 is fixed at %0 |
| 269 |
Analog Output 2 is fixed at %0 |
| 270 |
Connect reference meter |
| 271 |
About to set analog output 1 to %0 mA |
| 272 |
Enter meter value |
| 273 |
Is fld dev 4.00 mA output equal to reference meter? |
| 274 |
Yes;No |
| 275 |
Is fld dev 20.00 mA output equal to reference meter? |
| 276 |
About to set analog output 2 to %0 mA |
| 277 |
Selftest complete |
| 278 |
No Device Problems seen during Selftest |
| 279 |
WARN-Stopping totalizer disables frequency output |
| 280 |
ERROR: Totalizer reset not allowed when flow is not zero. |
| 281 |
Ev1 Triggered: Yes |
| 282 |
Ev1 Triggered: No |
| 283 |
Ev2 Triggered: Yes |
| 284 |
Ev2 Triggered: No |
| 285 |
Transmitter status complete |
| 286 |
Transmitter status OK |
| 287 |
Min mass flow = %{yatemp} g/s |
| 288 |
Returning fld dev to original output |
| 289 |
NOTE-Send PV assignment before modifying range values. |
| 290 |
NOTE-Send SV assignment before modifying range values. |
| 291 |
NOTE-Send TV assignment before modifying frequency scaling. |
| 292 |
NOTE-Variables which use this as the units code will be in the previous units until this value is sent to the device |