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Query
OF1?<terminator>
Example
OF1,3,2
Description • Parameter error 12 will occur if "m1", "m2" or
"m3" is set to an illegal value.
OFD/OFD?
Initializes communication output
information type or queries the current
settings. Two sets of default setting are
available.
Syntax
OFD m<terminator>
"m" indicates default no.
m=
2:
Select mode (valid only for the
inquiry command)
0:
Default for normal measurement
1:
Default for integration
Query
OFD?<terminator>
Example
OFD1
Description • Parameter error 12 will occur if "m" is set to an
illegal value.
• Select mode (OFD2) is validated when the OF
command is executed if "m" is set to "0"
(default for normal measurement) or "1"
(default for integration).
• If you select default for normal measurement,
the output of channel 13 is the information on
the frequency target function that is currently
measured, and the output of channel 14 is the
information displayed on display C. If you
change either the frequency measurement
target or display information of display C, the
output also changes.
OH/OH?
Sets communication output items
during harmonic analysis or queries the
current settings.
Syntax
OH m1,m2<terminator>
"m1" indicates output type no.
• During print mode
m1= 1:
(V) outputs voltage analysis
value and relative harmonic
content as a numerical value
2:
(A) outputs current analysis
value and relative harmonic
content as a numerical value
3:
(W) outputs active power analysis
value and relative harmonic
content as a numerical value
4:
(deg) outputs the phase angle as
a numerical value
5:
(GV) outputs voltage analysis
value as numerical value and
graph
6:
(GA) outputs current analysis
value as numerical value and
graph
7:
(GW) outputs active power
analysis value as numerical
value and graph
8:
(GVD) outputs the phase angle
between the 2nd to 50 (or 30) th
order voltage and the
fundamental (1st order) as
numerical value and graph
IM 253421-01E
13.1 Commands
9:
(GAD) outputs the phase angle
between the 2nd to 50 (or 30) th
order current and the
fundamental (1st order) as
numerical value and graph
10: (CGV) outputs the relative
harmonic content of voltage as
numerical value and graph
11: (CGA) outputs the relative
harmonic content of current as
numerical value and graph
12: (CGW) outputs the relative
harmonic content of active power
as numerical value and graph
13: (ALL) outputs the relative
harmonic content and analysis
value of both voltage and current
• During any other mode
m1= 1
:(V) outputs voltage analysis
value and relative harmonic
content as a numerical value
2
:(A) outputs current analysis
value and relative harmonic
content as a numerical value
3
:(W) outputs active power
analysis value and relative
harmonic content as a numerical
value
4
:(deg) outputs the phase angle
between the first order
voltage(current) and the 2nd to
50 (or 30) th voltage(current)
as a numerical value
5
:(GV) outputs voltage analysis
value and relative harmonic
content as numerical value
6:
(GA) outputs current analysis
value and relative harmonic
content as numerical value
7:
(GW) outputs active power
analysis value and relative
harmonic content as numerical
value
8:
(GVD) outputs the phase angle
between the first order
voltage(current) and the 2nd to
50 (or 30) th voltage(current)
as a numerical value
9:
(GAD) outputs the phase angle
between the first order
voltage(current) and the 2nd to
50 (or 30) th voltage(current)
as a numerical value
10: (CGV) outputs the analysis value
of voltage and relative harmonic
content as numerical value
11: (CGA) outputs the analysis value
of current and relative harmonic
content as numerical value
12: (CGW) outputs the analysis value
of active power and relative
harmonic content as numerical
value
13: (ALL) outputs the relative
harmonic content and analysis
value of both voltage and
current
13
13-7
- Quick Links:
- Wiring the Measurement Circuit
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