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Features:
SELECT
RANGE
3V
CAUTION
Discharge all high-voltage capacitors before testing diodes. Large value capacitors should be discharged through an
appropriate resistance load.
SELECT
Features:
SELECT
CAPACITANCE
RANGE
10.00nF
100.0nF
1.000µF
10.00µF
100.0µF
1000µF
10000µF
0
0.1 M
Apo
Apo
SELECT
SELECT
kHz
V
OFF
LOCK
MIN/MAX
A-HOLD
RESOLUTION
0.001V
IRT807
IRT807
0
0.1 M
1 M
10 M
100 M
1 G
2 G
F
Apo
M
Apo
V
DC
Test Voltage
LOCK
SELECT
MIN/MAX
RANGE
A-HOLD
F C
TEST
PI/DAR
Hz
ZERO
Temp
mV
V
kHz
mA
V
SMOOTH
50V
OFF
1000V
LOCK
A-HOLD
MIN/MAX
RESOLUTION
0.01nF
0.1nF
0.001µF
0.01µF
0.1µF
1µF
1µF
Diode Test
IRT807
IRT807
1 M
10 M
100 M
1 G
2 G
V
M
V
DC
Test Voltage
LOCK
MIN/MAX
RANGE
A-HOLD
F C
TEST
PI/DAR
Hz
Temp
ZERO
mV
V
mA
SMOOTH
50V
1000V
ACCURACY
±(2% +1 dgts)
Capacitance
• Default =
• Press x1 =
• Press x2 =
• Press x3 =
Test Voltage
RANGE
F C
ACCURACY
±(2.5% +5 dgts)
±(3% +5 dgts)
13
• Default =
• Press x1 =
• Press x2 =
• Press x3 =
OVERLOAD PROTECTION
600V
WARNING
Capacitors should be completely
discharged prior to testing. Some
electronic devices use capacitors in
circuits that are designed to increase
voltage. By design, a capacitor stores
energy. If a capacitor has been charged
at greater than 600 volts, attempting to
measure it may damage your meter. Larger
capacitors may store enough energy to
cause injury if they are discharged through
the body. Use a conductive device to
dissipate the charge on capacitors. Large
capacitors should be "bled" by using a
resistive load between terminals to slowly
eliminate the charge. Smaller capacitors
may be directly shorted using a metallic
object.
OVERLOAD PROTECTION
600V
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