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Operating Procedure
1)
Independent use of the two adjustable outputs
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Place switches (11) and (12) in the OFF-position.
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Proceed as follows when the adjustable outputs are used as C.V.-outputs: put the C.C.-control switches (4)
and (20) in the max. position and use the power switch (5) to activate the device. Install the required DC
output voltage for both master and slave using the rotary switches for C.V.-adjustment (3) and (21). The
C.V.-indicators (7) and (17) will light.
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Proceed as follows when the adjustable outputs are used as C.C.-outputs: Use the power switch (5) to
activate the device. Put the C.V.-control switches (3) and (21) in the max. position and place the C.C.-
control switches (4) and (20) in the min. position. Connect the required load and install the required output
current by means of rotary switches (4) and (20). The C.V.-mode indicators (7) and (17) will extinguish and
the C.C.-mode indicators (6) and (16) will light.
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The C.C.-control switches (4) and (20) are generally placed in the max. position when the adjustable outputs
are used as C.V.-outputs. With this particular device, however, the current-limiting point can be set by the
user. Use the following procedure: Switch on the device and place the C.C.-control switches (4) and (20) in
the min. position. Short the positive and negative output terminals. Consequently, the user should adjust the
position of the C.C.-control switches (4) and (20) until the output current matches the required current-
limiting point.
2)
Connecting the two adjustable outputs in series
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Place switch (11) in the ON-position and leave switch (12) in the OFF-position. When the user adjusts the
output voltage of the master (21), the slave output will automatically follow suit. The max. output voltage is
60V (voltage between the terminals of (8) and (15)).
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Examine whether the negative terminals of both the master and slave output are connected to the "GND"-
terminal (ground). If so, the user should disconnect them in order to avoid a short-circuit when the two
outputs are connected in series.
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When the two outputs are connected in series, the output voltage is controlled by the master output. The
current adjustments of the two outputs, however, are still independent of each other. This is why the user
should check the position of the C.C.-control switch (4). The voltage of the slave output will not be identical
to the voltage of the master if, for example, the C.C.-control switch (4) is in the min. position or if the
current of the slave output exceeds the current-limiting point. Consequently, the C.C.-control switch (4)
should be placed in the max. position when the two adjustable outputs are connected in series.
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Use appropriate test leads to short the negative terminal of the master output with the positive binding post
of the slave output if the two adjustable outputs are connected in series. Failure to do this will cause the
current to run through the shorted switch, as the negative terminal of the master output is shorted by switch
(11). This will affect the reliability of the device.
3)
Parallel use of the two adjustable outputs
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Put both switch (11) and (12) in the ON-position. The two adjustable outputs are now connected in parallel.
Use control switch (21) to adjust the C.V. of the master output. The voltage of master and slave will remain
identical to each other and the C.C.-indicator (6) of the slave output will light.
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The C.C.-control switch (4) of the slave output does not work when the two adjustable outputs are connected
in parallel. Subsequently, the operator should use the C.C.-switch (20) of the master output when one of the
adjustable outputs is used as constant current supply. The output current of the master and slave outputs
are identical to each other and both are now controlled by (20). The max. output current is 20A.
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Use test leads to connect the two positive and negative terminals of the master and slave outputs when the
two adjustable outputs are connected in parallel. This is necessary to ensure a reliable connection between
the load and the two outputs connected in parallel. The current of the two outputs may not be identical if the
load is connected to only one output terminal. This may cause damage to series/parallel switches (11) and
(12).
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The digital display carries 3 digits. Use a more precise measuring instrument to calibrate the load if you need
a more accurate indication.
01.07.2009
PS230210
4
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