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Name ID Label Description Type Access Class
ed_conc_digital_value 421E ED Concentration R Float 10
ed_conc_upper_sensor_limit 421F USL Upper Sensor Limit Value- Defines the maximum usable value for the Upper Range Value. R Float 8
ed_conc_lower_sensor_limit 4220 LSL Lower Sensor Limit Value- Defines the minimum usable value for the Lower Range Value. R Float 8
ed_conc_minimum_span 4221 Min span Minimum Span Value- Defines the smallest allowable difference between the Upper Range Value and the Lower Range Value. R Float 8
ed_conc_analog_value 4222 ED Concentration R/W Float 66
ed_conc_analog_upper_limit 4223 Anlog upr limit Analog Output Upper Endpoint Value- Defines the upper endpoint, of the respective Analog Output, for normal operating conditions R Float 64
ed_conc_analog_lower_limit 4224 Anlog lor limit Analog Output Lower Endpoint Value- Defines the lower endpoint, of the respective Analog Output, for normal operating conditions R Float 64
ed_conc_percent_range 4225 % rnge Percent of Range- Variable that tracks the Digital Value representation with respect to the range defined by the Lower Range Value and Upper Range Value, for normal operating modes. The units of this variable are always in percent. R Float 34
ed_conc_upper_range_value 4226 URV Upper Range Value- Defines the operational endpoint from which the Analog Value, and the 100% point of the Percent Range are derived. In addition, the Upper Range Value defines an operational endpoint which the alarms associated with the Analog Value, and the alarms associated with the Digital Value representation are derived. R/W Float 32
ed_conc_lower_range_value 4227 LRV Lower Range Value- Defines the operational endpoint from which the Analog Value, and the 0% point of the Percent Range are derived. In addition, the Lower Range Value defines an operational endpoint which the alarms associated with the Analog Value, and the alarms associated with the Digital Value representation are derived. R/W Float 32
Name ID Label Description Type Access Class