HOT SOCKET SIMULATOR (CAT# 3100-L) USER MANUAL
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(C64) Heat step event setup resulted in an invalid SP value –
The cause of this fault is that the
combination of the heating event iterations x heating event temp. step + the initial temperature
exceeds the high temperature alarm value. To correct this, reset the parameters of the heat test (either
reduce the number of iterations, the initial temp, or the temp step amount).
(C66) PID1 PV Dev. Alarm (error > dev. band, for > time preset) -
This fault is caused by either a slow
reaction or an overreaction of the heating test PID control. It means that the thermocouple feedback is
falling outside of a temperature band. To correct this, again check the thermocouple and heater
operation, and if any changes to the PID parameters had been made, reverse them or go back to the
original settings by pressing the “Reset to Factory Default Settings” button on the Setup screen.
(C70) Process temp. exceeds Arcing Test alarm setpoint –
The temperature read by the pyrometer
exceeds the maximum temperature in the alarms setup. This is likely caused by a failure of the
hardware components. To correct this problem, stop the arcing test and check the main display to make
sure that the pyrometer is outputting the proper temperature. Replace the pyrometer head or Raytek
controller to correct the problem
(C71) No temp. rise detected in response to Arc Test output–
The Arcing Test has started and the
controls have started the arcing, but there is no corresponding temperature rise for a certain amount of
time. Check the main display to make sure that the pyrometer is outputting the proper temperature. If
not, replace the damaged component.
(C73) SC1-ALM Vibrator Motor Fault Detected
– This fault is caused by a fault in the vibrator motor
control or the motor itself. To correct this, replace the motor or controller.
(C74) Arc step event setup resulted in an invalid SP value -
The cause of this fault is that the combination
of the arcing event iterations x arcing event temp step + the initial rpms exceeds the high rpm alarm
value. To correct this, reset the parameters of the arcing test (either reduce the number of iterations,
the initial rpm, or the arcing step amount).
C76 CTRIO configuration error to run gap stepper motor
– This fault is caused by the PLC stepper
controller card (CTRIO). This fault should never occur unless the PLC code has been changed. To correct
this, revert to the original PLC code.
(X10) Open safety circuit alarm
– This is caused by the safety relay output being de-asserted. This could
be caused by the estop button being pressed or the door being opened. To correct this, reset the e-
stop, close the door, and restore the control power (blue button).
(X11) Open E-Stop safety circuit alarm
– This is caused by the estop button being pressed. To correct
this, reset the e-stop and restore the control power (blue button).
2.
Resistor Bank Cooling Fan
The resistor bank cooling fan is controlled by a thermostat located near the top inside in the resistor
bank housing. The fan will continue to run until internal temperature within the resistor bank housing
falls below the thermostat set-point, so long as Control Power is on. Removing Control Power by
pressing the E-Stop or opening the chamber door also shuts the fan off as a matter of safety.