Page 16
Table 5. Resistance Test
Input Reading
Step Resistance
(
Ω
)
1
0.00
0 to 0.30
2 100.00 99.40
to
100.60
3
1.0000K
0.9984 to 1.0016
4 10.000K 9.984
to
10.016
5 100.00K 99.84
to
100.16
6
1.0000M
0.9920 to 1.0080
7 10.000M 9.450
to
10.550
8 100M
75
to
125
9
1.0G
0 to 1.3
6. Press the blue button on the meter to toggle to
LV
Ω
function.
7. Apply the inputs for step 1 - 6 in Table 6.
8. Compare the Meter display readings to the readings in Table 6
Note:
Press
RANGE
on the Meter to enter 200M
Ω
range.
9. If the display reading falls outside of the reading shown in Table 6, the meter does not
meet specification.
Table 6 LV
Ω
Test
LV
Ω
Input
Reading
Step Resistance
(
Ω
)
1
0.00
0 to 0.0030
2
1.0000K
0.9910 to 1.0090
3 10.000K 9.910
to
10.090
4 100.00K 99.10
to
100.90
5
1.0000M
0.9890 to 1.0110
6 10.000M 9.250
to
10.750
7 100M
43
to
157
Testing the Capacitance Function
The Meter measures capacitance by charging the capacitor with a known Direct current, measuring the
resultant voltage, and calculating the capacitance. If the same capacitance is measured on an impedance
bridge, a different reading may result. This variance is likely to be Greater at higher frequencies.
To verify the accuracy of the capacitance measuring function, do the following:
1. Apply the Capacitor to the
V
Ω
and
COM
inputs to the Meter. For steps 1 through 8
in Table 7.
2. Turn the rotary switch to
3. Set the
V
Ω
and
COM
inputs un-connected
Note:
Press
REL
∆
for steps 1 and 2 in Table 7, after steps 1 and 2 are completed, then
escape
REL
mode, then press
RANGE
until
AUTO
is displayed.
{upper left corner of display}
Form number TM61494-5
Rev 2 February 2002