| 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 |
9739 Mass Flow |
| 3 |
.1f |
| 4 |
Temperature out of range |
| 5 |
Milliamp input error |
| 6 |
Data loss possible |
| 7 |
Security Breach - Outputs Low |
| 8 |
Display Readback Failure |
| 9 |
Event 1 triggered |
| 10 |
Event 2 triggered |
| 11 |
Current (mA Output 1) |
| 12 |
Current (mA Output 2) |
| 13 |
.2f |
| 14 |
.3f |
| 15 |
.4f |
| 16 |
.5f |
| 17 |
4.2f |
| 18 |
7d |
| 19 |
8.2f |
| 20 |
The number of cycles, in Hertz, that equal a proportional flow rate represented by the frequency/pulse output. |
| 21 |
Pulses |
| 22 |
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. |
| 23 |
.6f |
| 24 |
10.4f |
| 25 |
Analog Output 2 Cutoff |
| 26 |
Viscosity Unit |
| 27 |
Differential Pressure |
| 28 |
10.2f |
| 29 |
Event1 Analog Value |
| 30 |
Event1 Percent Range |
| 31 |
Event 1 Upper Range Value |
| 32 |
Event 1 Lower Range Value |
| 33 |
Event 1 Upper Range Limit |
| 34 |
Event 1 Lower Range Limit |
| 35 |
Event 1 Minimum Span |
| 36 |
Event 2 Unit |
| 37 |
Event 2 Analog Value |
| 38 |
Event 2 Percent Range |
| 39 |
Event 2 Upper Range Value |
| 40 |
Event 2 Lower Range Value |
| 41 |
Event 2 Upper Range Limit |
| 42 |
Event 2 Lower Range Limit |
| 43 |
Event 2 Minimum Span |
| 44 |
QV |
| 45 |
g/Cucm |
| 46 |
5.4f |
| 47 |
SV AO cutoff |
| 48 |
14 characters describing the sensitivity of the sensor to density. |
| 49 |
5d |
| 50 |
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. |
| 51 |
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. |
| 52 |
5.3f |
| 53 |
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. |
| 54 |
Control output |
| 55 |
Pressure |
| 56 |
5.2f |
| 57 |
1d |
| 58 |
6.2f |
| 59 |
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. |
| 60 |
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. |
| 61 |
6.5f |
| 62 |
A variable which represents how [differential] pressure is brought into the transmitter for the purpose of viscosity calculation or pressure compensation. |
| 63 |
Pressure Polling |
| 64 |
Visc: Poll as Primary |
| 65 |
Visc: Poll as Secondary |
| 66 |
Comp: Poll as Primary |
| 67 |
Comp: Poll as Secondary |
| 68 |
Visc: Use Analog Input |
| 69 |
Comp: Use Analog Input |
| 70 |
Visc: Modbus DNLD |
| 71 |
Comp: Modbus DNLD |
| 72 |
A 14-character factor consisting of a slope and offset (optional) used to adjust the measured viscosity. |
| 73 |
Viscosity Calibration Factor |
| 74 |
A tag used to identify a pressure transmitter being polled by the 9739 via a HART network. |
| 75 |
Field Device Tag |
| 76 |
User-entered viscosity for the purpose of performing an on-line viscosity calibration. |
| 77 |
Visc trim point |
| 78 |
Value |
| 79 |
3d |
| 80 |
% per psi |
| 81 |
9.8f |
| 82 |
g/Cucm per psi |
| 83 |
10.7f |
| 84 |
Used by the Analog Input, this is the pressure (from external pressure transmitter) which is indicated by the 4 mA signal. |
| 85 |
4 mA Pressure |
| 86 |
Used by the Analog Input, this is the pressure (from external pressure transmitter) which is indicated by the 20 mA signal. |
| 87 |
20 mA Pressure |
| 88 |
8.3f |
| 89 |
The pickoff voltage of the sensor measured in Voltage. |
| 90 |
The drive gain of the transmitter measured in Voltage. |
| 91 |
A register which is incremented when certain configuration changes are made. Used primarily for Custody Transfer. |
| 92 |
A register which is incremented when certain calibration changes are made. Used primarily for Custody Transfer. |
| 93 |
A calibration constant generated during a flowing (3rd point) density calibration. |
| 94 |
7.2f |
| 95 |
Set Up mA Output 1 |
| 96 |
Set Up mA Output 2 |
| 97 |
Viscosity Calibrations |
| 98 |
Events |
| 99 |
Slope Calibration |
| 100 |
Please refer to manual for complete calibration instructions. |
| 101 |
Offset Calibration |
| 102 |
mA Output 1 Loop Test |
| 103 |
mA Output 2 Loop Test |
| 104 |
Trim mA Output 1 |
| 105 |
Trim mA Output 2 |
| 106 |
Resets internal totalizers. |
| 107 |
Min mass flow |
| 108 |
Minimum flow rate (in g/s) required for a 3rd point density calibration. |
| 109 |
Display K Factor |
| 110 |
The number of pulses per unit of measure output via the frequency output |
| 111 |
No Additional Information for Above |
| 112 |
Additional Information for Above |
| 113 |
Invalid cutoff type code |
| 114 |
4 mA Pressure too low |
| 115 |
20 mA Pressure too low |
| 116 |
Zero Pres. Correction Pt. too low |
| 117 |
Perform digital to analog trim of the mA output. |
| 118 |
Perform auto zero. |
| 119 |
|
| 120 |
1. mA Output 1 |
| 121 |
2. mA Output 2 |
| 122 |
4. Events |
| 123 |
5. Map Variables |
| 124 |
|
| 125 |
Assign a variable to the 4-20 mA output 2, define upper and lower range values, cutoff and damping. |
| 126 |
Set a fixed output value for the Control Output. |
| 127 |
Set Up Events |
| 128 |
If the Secondary Variable assignment is changed, this screen will need to be refreshed in order to see the parameters for the new variable assignments. |
| 129 |
Digital to analog trim of the mA output 1. |
| 130 |
Digital to analog trim of the mA output 2. |
| 131 |
Calibration |
| 132 |
Set a fixed output value for the mA Output 1. |
| 133 |
Set a fixed output value for the mA Output 2. |
| 134 |
Configuration |
| 135 |
FMU860 |
| 136 |
DT |
| 137 |
DVC |
| 138 |
FCX |
| 139 |
AS800 |
| 140 |
340T |
| 141 |
340C |
| 142 |
344 |
| 143 |
Siemens Micro K |
| 144 |
SITRANS L |
| 145 |
SIPAN PH |
| 146 |
SITRANS P |
| 147 |
75SMT |
| 148 |
UNIDELTA |
| 149 |
8320 |
| 150 |
SX5100 |
| 151 |
TSV175 |
| 152 |
DMU |
| 153 |
3780 |
| 154 |
BM70 |
| 155 |
8u |
| 156 |
WARN-Loop should be removed from automatic control |
| 157 |
Slope Calibration
Enter Visc in %{0} |
| 158 |
Perform calibration? |
| 159 |
A problem was detected |
| 160 |
Abort;Fix and Retry |
| 161 |
NOTE-Loop may be returned to automatic control |
| 162 |
Viscosity Calibration Complete |
| 163 |
Offset Calibration
Enter Visc in %{0} |
| 164 |
Selftest complete |
| 165 |
No Device Problems seen during Selftest |
| 166 |
WARN-Stopping totalizer disables frequency output |
| 167 |
ERROR: Totalizer reset not allowed when flow is not zero. |
| 168 |
Ev1 Triggered: Yes |
| 169 |
Ev1 Triggered: No |
| 170 |
Ev2 Triggered: Yes |
| 171 |
Ev2 Triggered: No |
| 172 |
Transmitter status complete |
| 173 |
Transmitter status OK |
| 174 |
Min mass flow = %{yatemp} g/s |
| 175 |
NOTE-Send PV assignment before modifying range values. |
| 176 |
NOTE-Send SV assignment before modifying range values. |
| 177 |
NOTE-Send TV assignment before modifying frequency scaling. |
| 178 |
NOTE-Variables which use this as the units code will be in the previous units until this value is sent to the device |
| 179 |
K-Factor: %{yatemp} pulses/unit. |
| 180 |
select |
| 181 |
floatFreqVal |
| 182 |
floatRateVal |
| 183 |
Priority: Failed - Fix Now
An uncorrectable checksum mismatch has been detected.
Recommended Actions:
1. Cycle power to the flow meter.
2. The flow meter might need service. Contact Micro Motion. |
| 184 |
No Additional Information Available |
| 185 |
Priority: Failed - Fix Now
ROM checksum error or a RAM location cannot be written to.
Recommended Actions:
1. Cycle power to the flowmeter.
2. The flow meter might need service. Contact Micro Motion. |
| 186 |
Priority: Failed - Fix Now
Continuity failure of drive circuit, LPO, or RPO, or LPO-RPO mismatch when driving.
Recommended Actions:
1. Check for slug flow.
2. Check the test points.
3. Check the sensor circuitry.
4. Check sensor tubes for plugging.
5. If the problem persists, contact Micro Motion. |
| 187 |
Drive Gain:
Value %0 |
| 188 |
Priority: Failed - Fix Now
The value computed for the resistance of the line RTD or the Meter/Case RTD is outside limits.
Recommended Actions:
1. Check the sensor RTD circuitry.
2. Verify that process temperature is within range of sensor and transmitter.
3. If the problem persists, contact Micro Motion. |
| 189 |
Temperature:
Value %0 |
| 190 |
Priority: Failed - Fix Now
One or more required characterization parameters have not been entered.
Recommended Actions:
1. Check the characterization. Specifically, verify the FCF and K1 values.
2. If the problem persists, contact Micro Motion. |
| 191 |
Flow Cal:
Value %0
K1:
Value %1 uSec
K2:
Value %2 uSec |
| 192 |
Priority: Failed - Fix Now
The measured density has exceeded 0-10 g/cm3.
Recommended Actions:
1. If other alerts are present (typically, A003, A006, A102, or A105), resolve those alerts first. If the A008 alert persists, continue with the suggestions below.
2. Verify process. Check for air in the flow tubes, tubes not filled, foreign material in tubes, or coating in tubes.
3. Check for slug flow.
4. Check the sensor circuitry.
5. Verify calibration factors in transmitter configuration.
6. Check the test points.
7. If the problem persists, contact Micro Motion. |
| 193 |
Priority: advisory
Transmitter in power-up mode.
Recommended Actions:
1. Allow the flowmeter to warm up (approximately 30 seconds). The error should disappear once the flowmeter is ready for normal operation.
2. If alert does not clear, make sure that the sensor is completely full or completely empty.
3. Check the sensor circuitry. |
| 194 |
Priority: Advisory
Mechanical zero: The resulting zero was greater than 3 microseconds
Temperature or Density Calibrations: many possible causes
Recommended Actions:
1. If alert appears during a transmitter zero, ensure that there is no flow through the sensor, then retry.
2. Cycle power to the flowmeter, then retry.
3. If appropriate, restore the factory zero to return the flowmeter to operation. |
| 195 |
Priority: Advisory
Calibration procedure failed due to reverse flow through the sensor.
Recommended Actions:
1. Ensure that there is no flow through the sensor, then retry.
2. Cycle power to the flowmeter, then retry.
3. If appropriate, restore the factory zero to return the flowmeter to operation. |
| 196 |
Priority: Advisory
Calibration procedure failed due to flow through the sensor.The resulting zero was greater than 3 microseconds.
Recommended Actions:
1. Ensure that there is no flow through the sensor, then retry.
2. Cycle power to the flowmeter, then retry.
3. If appropriate, restore the factory zero to return the flowmeter to operation. |
| 197 |
Priority: Advisory
Mechanical zero: The resulting zero was greater than 3 microseconds.
Recommended Actions:
1. Remove or reduce sources of electromechanical noise, then retry. Sources of noise include mechanical pumps, pipe stress at sensor, electrical interference, or vibration effects from nearby machinery.
2. Cycle power to the flowmeter, then retry.
3. If appropriate, restore the factory zero to return the flowmeter to operation. |
| 198 |
Priority: Failed - Fix Now
Many possible causes.
Recommended Actions:
1. Cycle power to the flowmeter.
2. The transmitter might need service. Contact Micro Motion. |
| 199 |
Priority: Failed - Fix Now
Weights and Measures security seal has been broken.
Recommended Actions:
1. Alarm can be cleared by user, but authorized procedure is required to reestablish security. |
| 200 |
Priority: Advisory
The calculated amount of current output is outside of the linear range.
Recommended Actions:
1. Verify that mA output range values are set to appropriate values. |
| 201 |
Primary Variable:
%0
%0:
Value %1 %2 |
| 202 |
PV LRV:
Value %0 %1
PV URV:
Value %2 %3 |
| 203 |
Priority: Advisory
Non-zero HART address configured, or user has set the mA output to a fixed value.
Recommended Actions:
1. Check the HART address. If non-zero, set mA Output Action parameter to enable Live mA Output.
2. Exit mA output trim.
3. Exit mA output loop test.
4. Check to see if the output has been fixed via digital communications. |
| 204 |
Polling Address:
%0 |
| 205 |
Priority: Failed - Fix Now
The drive power (current/voltage) is at its maximum.
Recommended Actions:
1. Check the sensor circuitry.
2. If this is the only active alarm, it can be ignored. If desired, reconfigure the alarm severity to Ignore. |
| 206 |
Priority: Maintenance - Fix Soon
The core processor was unable to successfully store the totalizers and inventories on the last power down and must rely on the previously saved values. These values may be up to two hours old.
Recommended Actions:
1. Contact Micro Motion to upgrade the transmitter software.
Note: The transmitter is still functional. |
| 207 |
Priority: Advisory
A calibration procedure is in progress.
Recommended Actions:
1. Allow the flowmeter to complete calibration.
2. For zero calibration procedures, you may abort the calibration, set the zero time parameter to a lower value, and restart the calibration. |
| 208 |
Priority: Advisory
The density has exceeded the user-defined slug (density) limits.
Recommended Actions:
1. Check that sensor is completely full.
2. Check that slug limits are set to appropriate values. |
| 209 |
Slug High Limit:
Value %0 g/Cucm
Slug Low Limit:
Value %1 g/Cucm
Slug Duration:
Value %2 sec |
| 210 |
Priority: Advisory
Device is in HART burst mode.
Recommended Actions:
1. No action required.
2. If desired, reconfigure the alarm severity to Ignore. |
| 211 |
Priority: Advisory
Transmitter has been restarted.
Recommended Actions:
1. No action required. |
| 212 |
Priority: Advisory
Event 1 has been triggered.
Recommended Actions:
1. No action required.
2. If desired, reconfigure the alarm severity to Ignore. |
| 213 |
Priority: Advisory
Event 2 has been triggered.
Recommended Actions:
1. No action required.
2. If desired, reconfigure the alarm severity to Ignore. |
| 214 |
Priority: Advisory
Process variable assigned to frequency output is outside configured scale limits.
Recommended Actions:
1. Change frequency output scaling factors to more appropriate settings. |
| 215 |
Third Variable:
%0
%0:
Value %1 %2 |
| 216 |
Rate Factor:
Value %0 |
| 217 |
Tube Frequency:
Value %0 Hz |
| 218 |
Priority: Advisory
User has set the mA output to a fixed value.
Recommended Actions:
1. Exit mA output trim.
2. Exit mA output loop test.
3. Check to see if the output has been fixed via digital communications. |
| 219 |
Current Selection;Mass Flow Rate;Temperature;Density;Volume Flow Rate;Viscosity;Differential Pressure;Event1;Event2 |