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Turn-on and turn-off speeds are particularly relevant to Multi-On/Multi-Off output sequencing
(see section 9.4) where delays between the switching of different outputs can be set to a
resolution of 10ms. These delays apply only to the initiation of an output being turned on or
turned off, the actual delay will depend upon the actual turn-on or turn-off times applying as
described above.
In situations where the user needs to know the actual response speeds for specific conditions it
will be necessary to observe this using an oscilloscope.
11.4 Using OVP and OCP
OVP (over-voltage protection) monitors the voltage on the output terminals and switches the
output off if it exceeds the OVP setting. The response speed is typically 100us. Control of OVP
is described in section 7.5.
OVP might be used to guard against accidental mis-setting of the power supply, or might be
used to identify a fault condition when operating in constant current mode. Unlike the voltage
limit setting, exceeding the OVP will turn the output off in a situation where damage to the
device under test might otherwise occur.
OCP (over-current protection) monitors the current flowing at the output and switches the output
off if it exceeds the OCP setting. The response speed is <0.5s. Control of OCP is described in
section 7.5.
OCP might be used to guard against accidental mis-setting of the power supply, or might be
used to identify a fault condition when operating in constant voltage mode. Unlike the current
limit setting, exceeding the OCP will turn the output off in a situation where damage to the
device under test might otherwise occur.
11.4.1
OCP Trip at Output On
If the OCP level is set to a very low level whilst also being below the set current level, it is
possible for a trip condition to be created when the output is switched on.
This is caused by the current needed to charge the output capacitance. Whether a trip occurs
is a function of the OCP trip response speed, the OCP level, the set current and the set output
voltage.
11.5 Over-temperature Trip (OTP)
The power supply has a sensor that monitors the internal ambient temperature. Should that
exceed a safe level, as might occur if the ventilation input or output was blocked, an over-
temperature protection trip (OTP) will occur. Should OTP occur, all three outputs will be turned
off and an OTP message will appear on the screen.
Normal operation can only be restored by turning the AC supply (Power) off, rectifying the
ventilation problem and allowing the unit to cool before switching back on.
In addition, there are temperature sensors on the power devices of the PFC (power factor
correction) stage and each main secondary output (Outputs 1 & 2). If any one of these detects
an over-temperature problem, all power outputs will shut down; the auxiliary supply for the CPU
and display will, however, remain active, and the ‘Hardware Failure or Over-temperature’
message screen will be displayed. If poor ventilation is suspected, correct the problem, allow
the instrument to cool, and use the Reset soft-key to re-initialise the instrument.
However, if the ‘Hardware Failure or Over-temperature’ message screen continues to be
displayed after the instrument has cooled and been restarted, there may be a component fault;
if in doubt, the unit should be returned for service.
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