H134-E1-01A E5_N UsersManual (986777), страница 24

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1 display.■ Related ParametersSeeHeater burnout detection 1, Heater burnout detection 2 (adjustment level):Page 134Heater burnout (advanced function setting level): Page 163Error Displays ct1: Page 206121Section 5-3Operation Levelct2Heater Current 2 Value MonitorHeater burnout and HS alarms mustbe supported (two CTs).Alarm 1 must be assigned.The “heater burnout detection”parameter must be set to ON.This parameter measures the heater current from the CT input used fordetecting heater burnout.This parameter measures and displays the heater current value.Function• Heater burnouts are not detected if the control output (heating) ON time is190 ms or less.Monitor range0.0 to 55.0MonitorUnitA• ffff is displayed when 55.0 A is exceeded.• If a heater burnout is detected, the HA indicator will light, and the relativesetting level will flash on the No.

1 display.■ Related ParametersSeeHeater burnout detection 1, Heater burnout detection 2 (adjustment level):Page 134Heater burnout (advanced function setting level): Page 163Error Displays ct2: Page 206lcr1Heater burnout and HS alarms mustbe supported.Alarm 1 must be assigned.The “HS alarm use” parameter mustbe set to ON.Leakage Current 1 MonitorThis parameter measures the heater current from the CT input used fordetecting SSR short-circuits.The heater current is measured and the leakage current 1 monitor is displayed.Function• HS are not detected if the control output (heating) OFF time is 190 ms orless.Monitor range0.0 to 55.0MonitorUnitA• ffff is displayed when 55.0 A is exceeded.• If an SSR short-circuit is detected, the HA indicator will light, and the relative setting level will flash on the No.

1 display.■ Related ParametersSeeHS alarm 1, HS alarm 2 (adjustment level): Page 135Failure detection (advanced function setting level): Page 174Error Displays lcr1: Page 206122Section 5-3Operation Levellcr2Heater burnout and HS alarms mustbe supported (two CTs).Alarm 1 must be assigned.The “HS alarm use” parameter mustbe set to ON.Leakage Current 2 MonitorThis parameter measures the heater current from the CT input used fordetecting SSR short-circuits.This parameter measures and displays the heater current value.Function• HS are not detected if the control output (heating) OFF time is 190 ms orless.Monitor range0.0 to 55.0MonitorUnitA• ffff is displayed when 55.0 A is exceeded.• If an SSR short-circuit is detected, the HA indicator will light, and the relative setting level will flash on the No.

1 display.■ Related ParametersSeeHs alarm 1, HS alarm 2 (adjustment level): Page 135HS alarm use (advanced function setting level): Page 174Error Displays lcr2: Page 206prstThe “program pattern” parametermust not be set to OFF.Program StartThis parameter starts and stops the simple program function.• The RUN/STOP status will automatically switch to RUN when this parameter is set to STRT.Function• The simple program will stop when this parameter is set to RSET.• This parameter will function as a monitor display for the start/stop statusof the simple program if an event input is selected to start the simple program.OperationRSETSetting rangeStops the simpler program.STRTStarts the simpler program.Defaultrset■ Related ParametersSeeSoak time remain: Page 124, RUN/STOP: Page 124 (operation level)Soak time, Wait band (adjustment level): Page 141Program pattern (initial setting level): Page 151Soak time unit (advanced function setting level): Page 181123Section 5-3Operation LevelsktrThe “program pattern” parametermust not be set to OFF.Soak Time Remain• This parameter measures and displays the remaining time of the soaktime for the simple program function.FunctionMonitor range0 to 9999Unitmin or hMonitor■ Related ParametersSeeProgram start (operation level): Page 123Soak time, Wait band (adjustment level): Page 141Program pattern (initial setting level): Page 151Soak time unit (advanced function setting level): Page 181r-sThe run/stop function must not be setfor the “event input assignment 1/2”parameter.RUN/STOPThis parameter starts and stops the control operation.When run (RUN) is selected, control is started.

When stop (STOP) isselected, control is stopped. The STOP indicator will light when control.FunctionSeeal-1The default is run.This parameter will not be displayed if an event input is set to “RUN/STOP.”Alarm 1 must be assigned.The “alarm 1 type” parameter mustnot be set to an upper/lower limitalarm and a loop break alarm mustnot be set.Alarm Value 1This parameter is set to one of the input values “X” in the alarm type list.• This parameter sets the alarm value for alarm output 1.Function• During temperature input, the decimal point position depends on the currently selected sensor, and during analog input it depends on the “decimalpoint” parameter setting.Setting range−1999 to 9999Setting124UnitEUDefault0Section 5-3Operation Level■ Related ParametersSeeInput type: Page 146, Scaling upper limit, Scaling lower limit, Decimal point(initial setting level): Page 148 (initial setting level)Alarm 1 type (initial setting level): Page 152Standby sequence reset: Page 161, Alarm 1 open in alarm: Page 162, Alarm1 hysteresis: Page 163, Alarm 1 latch: Page 167 (advanced function settinglevel)al-2Alarm 2 must be assigned.The alarm 2 type must be set toother than an upper and lower limitalarm.Alarm Value 2This parameter is set to one of the input values “X” in the alarm type list.• This parameter sets the alarm value for alarm output 2.Function• During temperature input, the decimal point position depends on the currently selected sensor, and during analog input it depends on the “decimalpoint” parameter setting.Setting range−1999 to 9999UnitEUDefault0Setting■ Related ParametersSeeInput type: Page 146, Scaling upper limit, Scaling lower limit, Decimal point(initial setting level): Page 148 (initial setting level)Alarm 2 type (initial setting level): Page 154Standby sequence reset: Page 161, Alarm 2 open in alarm: Page 162, Alarm2 hysteresis: Page 163, Alarm 2 latch: Page 167 (advanced function settinglevel)al-3Alarm 3 must be assigned.The alarm 3 type must be set toother than an upper and lower limitalarm.Alarm Value 3This parameter is set to one of the input values “X” in the alarm type list.• This parameter sets the alarm value for alarm output 3.Function• During temperature input, the decimal point position depends on the currently selected sensor, and during analog input it depends on the “decimalpoint” parameter setting.Setting range−1999 to 9999UnitEUDefault0Setting125Section 5-3Operation Level■ Related ParametersSeeInput type: Page 146, Scaling upper limit, Scaling lower limit, Decimal point(initial setting level): Page 148 (initial setting level)Alarm 3 type (initial setting level): Page 154Standby sequence reset: Page 161, Alarm 3 open in alarm: Page 162, Alarm3 hysteresis: Page 163, Alarm 3 latch: Page 167 (advanced function settinglevel)al1hAlarm Value Upper Limit 1al1lAlarm Value Lower Limit 1Alarm 1 must be assigned.Alarm 1 type must be set to upperand lower limits, upper and lowerlimit range, or upper- and lower-limitwith standby sequence.These parameters independently set the alarm value upper and lower limitswhen the mode for setting the upper and lower limits is selected for the “alarm1 type” parameter (initial setting level).• This parameter sets the upper and lower limit values of alarm 1.Function• During temperature input, the decimal point position depends on the currently selected sensor, and during analog input it depends on the “decimalpoint” parameter setting.Setting range−1999 to 9999UnitEUDefault0Setting■ Related ParametersSeeInput type: Page 146, Scaling upper limit, Scaling lower limit, Decimal point:Page 148, Alarm 1 type: Page 152 (initial setting level), Standby sequencereset: Page 161, Alarm 1 open in alarm: Page 162, Alarm 1 hysteresis: Page163, Alarm 1 latch: Page 167 (advanced function setting levelal2hAlarm Value Upper Limit 2al2lAlarm Value Lower Limit 2Alarm 2 must be assigned.Alarm 2 type must be set to upperand lower limits, upper and lowerlimit range, or upper- and lower-limitalarm with standby sequence.These parameters independently set the alarm value upper and lower limitswhen the mode for setting the upper and lower limits is selected for the “alarm2 type” parameter (initial setting level).• This parameter sets the upper and lower limit values of alarm 2.Function• During temperature input, the decimal point position depends on the currently selected sensor, and during analog input it depends on the “decimalpoint” parameter setting.Setting range−1999 to 9999Setting126UnitEUDefault0Section 5-3Operation Level■ Related ParametersSeeInput type: Page 146, Scaling upper limit, Scaling lower limit, Decimal point:Page 148, Alarm 2 type: Page 154 (initial setting level), Standby sequencereset: Page 161, Alarm 2 open in alarm: Page 162, Alarm 2 hysteresis: Page163, Alarm 2 latch: Page 167 (advanced function setting level)al3hAlarm Value Upper Limit 3al3lAlarm Value Lower Limit 3Alarm 3 must be assigned.Alarm 3 type must be set to upperand lower limits, upper and lowerlimit range, or upper- and lower-limitalarm with standby sequence.These parameters independently set the alarm value upper and lower limitswhen the mode for setting the upper and lower limits is selected for the “alarm3 type” parameter (initial setting level).• This parameter sets the upper and lower limit values of alarm 3.Function• During temperature input, the decimal point position depends on the currently selected sensor, and during analog input it depends on the “decimalpoint” parameter setting.Setting range−1999 to 9999UnitEUDefault0Setting■ Related ParametersSeeoInput type: Page 146, Scaling upper limit, Scaling lower limit, Decimal point:Page 148, Alarm 3 type: Page 154 (initial setting level), Standby sequencereset: Page 161, Alarm 3 open in alarm: Page 162, Alarm 3 hysteresis: Page163, Alarm 3 latch: Page 167 (advanced function setting level)The “MV display” parameter must beset to ON.MV Monitor (Heating)This parameter is used to check the manipulated variable for the heating control output during operation.• This parameter cannot be set.Function• During standard control, the manipulated variable is monitored.

Duringheating/cooling control, the manipulated variables on the heating controloutput is monitored.• The default is OFF and the manipulated variable is not displayed.MonitorControlStandardMonitor range−5.0 to 105.0%UnitHeating/cooling0.0 to 105.0%■ Related ParametersSeeMV display (advanced function setting level): Page 166127Section 5-3Operation Levelc-oThe control system must be set toheating/cooling control.The “MV display” parameter must beset to ON.MV Monitor (Cooling)This parameter is used to check the manipulated variable for the cooling control output during operation.• This parameter cannot be set.Function• During heating/cooling control, the manipulated variable on the coolingcontrol output is monitored.• The default is OFF and the manipulated variable is not displayed.ControlHeating/coolingMonitor range0.0 to 105.0Unit%Monitor■ Related ParametersSeeStandard or heating/cooling (initial setting level): Page 150MV display (advanced function setting level): Page 166128Section 5-4Adjustment Level5-4Adjustment LevelThis level is for executing AT (auto-tuning) and other operations, and for setcontrol parameters.This level provides the basic Controller parameters for PID control (proportional band, integral time, derivative time) and heating/cooling control.Power ONOperationLevelAdjustmentLevelPress theO Key less than 1 s.Control in progressTo move to the adjustment level from the operation level, press the O keyonce.• The set points 0 to 3 in the adjustment level are the set values for switching the set point during multi-SP input.• The following parameters are displayed for Controllers with CT Inputs:Heater current monitors, Leakage current monitors, heater burnout detections, and HS alarms.• Adjustment level parameters can be changed after setting the “operation/adjustment protect” parameter to 0.

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