Remote Operation
SCPI Command Set 5
5-55
commands, so data can be read a key stages in a test sequence.
The following conditions can be monitored using the “STATus” system (see paragraph 51):
• Warm up active.
• Test active.
• Input gate trigger pending.
• Energy timer/counter active.
Notes:
The power field’s units are implied by the active “ENERgy:UNITS” definition.
• 1 Second meaning applies when “PRESentation” is set to “COUNts”.
• 2 Second meaning applies when “PRESentation” is set to “PREGistration”.
5-84. Output Gating
ENERgy: OGATe(?) <bool> { OFF|ON|0|1 }, <cpd> { PULSe|LEVel }, <cpd>
{ HIGH|LOW }, <cpd> { R150|R1000 }
This command configures the output-gating signal. The OGATe settings have no effect
when the operating mode is set to “GATED”
The first parameter enables the generation of a gating signal. This is active while the power
outputs are on.
The second parameter specifies the gating signal type:
• PULSe Indicate start/stop with pulse.
• LEVel Indicate start/stop with level change.
The third parameter specifies the gating signal level:
• HIGH Go to high level to indicate start/stop.
• LOW Go to low level to indicate start/stop.
The fourth parameter specifies which internal pull-up resistance value to use:
• R150 150 Ohm.
• R1000 1 k Ohm.
5-85. Input Gating
ENERgy: IGATe(?) <cpd> { PULSe|LEVel }, <cpd> { HIGH|LOW }, <cpd>
{ R150|R1000 }
This command configures the input gating line. The settings only apply when the operating
mode is set to “GATED”.
The first parameter specifies the gating signal type:
• PULSe Indicate start/stop with pulse.
• LEVel Indicate start/stop with level change.
The second parameter specifies the gating signal level:
• HIGH Go to high level to indicate start/stop.
• LOW Go to low level to indicate start/stop.
The third parameter specifies which internal pull-up resistance value to use:
• R150 150 Ohm.
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