V<n>?
I<n>?
OVP<n>?
OCP<n>?
V<n>O?
I<n>O?
RANGE<n> <nrf>
RANGE<n>?
DELTAV<n> <nrf>
DELTAI<n> <nrf>
DELTAV<n>?
DELTAI<n>?
INCV<n>
INCV<n>V
DECV<n>
DECV<n>V
INCI<n>
DECI<n>
OP<n> <nrf>
OPALL <nrf>
SENSE<n> <nrf>
return the set voltage of output <n>
– response is V <n> <nr2><rmt> where <nr2> is in Volts
return the set current limit of output <n>
– response is I <n> <nr2><rmt> where <nr2> is in Amps
return the voltage trip setting for output <n>
– response is VP<n> <nr2><rmt> where <nr2> is in Volts
return the current trip setting for output <n>
– response is IP<n> <nr2><rmt> where <nr2> is in Amps
return the output readback voltage for output <n>
– response is <nr2>V<rmt> where <nr2> is in Volts
return the output readback current for output <n>
– response is <nr2>A<rmt> where <nr2> is in Amps
set the voltage range of output <n> to <nrf> where <nrf> has the following
meaning:
0=15V(5A), 1=35V(3A), 2=35V(500mA)
return the set voltage range of output <n>
– response is R<n> <nr1><rmt> where <nr1> has the following meaning:
0=15V(5A), 1=35V(3A), 2=35V(500mA)
set the output <n> voltage step size to <nrf> Volts
set the output <n> current step size to <nrf> Amps
return the output <n> voltage step size
– response is DELTAV<n> <nr2><rmt> where <nr2> is in Volts.
return the output <n> current step size
– response is DELTAI<n> <nr2><rmt> where <nr2> is in Amps.
increment the output <n> voltage by the step size set for output <n>
increment with verify the output <n> voltage by the step size set for output <n>
decrement the output <n> voltage by the step size set for output <n>
decrement with verify the output <n> voltage by the step size set for output <n>
increment the output <n> current limit by the step size set for output <n>
decrement the output <n> current limit by the step size set for output <n>
set output <n> on/off where <nrf> has the following meaning: 0=OFF, 1=ON
set <n> to 3 to control the Auxiliary output
Simultaneously sets all outputs on/off where <nrf> has the following meaning:
0=All OFF, 1=ALL ON.
If OPALL sets all outputs ON then any that were already on will remain ON
If OPALL sets all outputs OFF then any that were already off will remain OFF
set the output <n> sense mode where <nrf> has the following meaning:
0=local, 1=remote
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