6-6 Capacitance
Range
Accuracy
Resolution
51.2nF
±(3.0% of rdg + 10 digits)
10pF
512nF
±(2.5% of rdg + 5 digits)
100pF
5.12
µF
1nF
51.2
µF
10nF
100µF
±(5.0% of rdg + 10 digits)
100nF
-- Overload protection: 250V DC or AC rms
6-7 Frequency
Range
Accuracy
Resolution
5.12Hz
± (0.1% of rdg + 5 digits)
0.001Hz
51.2Hz
0.01Hz
512Hz
0.1Hz
5.12kHz
1Hz
51.2kHz
10Hz
512kHz
100Hz
5.12MHz
1kHz
-- Sensitivity: sine wave 0.6V rms (5.12MHz: 1.5V rms)
-- Overload protection: 250V DC or AC rms
6-8 Duty cycle
0.1%
~
99.9%: ± ( 2.0% of rdg + 2 digits ), Frequency lower than 10kHz
-- Sensitivity: sine wave 0.6V rms
-- Overload protection: 250V DC or AC rms
6-9 Temperature
Range
Accuracy
Resolution
℃
-20~150
℃
± ( 3
℃
+ 1digit )
1
℃
150~1000
℃
± ( 3% of rdg + 2digits )
-- NiCr-NiSi sensor
-- Overload protection: 400mA/250V PPTC Resettable Fuse
6-10 Battery test
Range
Accuracy
Test Condition
±(1.5% of rdg + 5 digits)
Loading Current:
Approx. 25mA
-- Battery voltage range: 1.5V~12V
-- Overload protection: 400mA/250V PPTC Resettable Fuse
6-11 Diode and Audible continuity test
Range
Description
Test Condition
Display read approximately
forward voltage of diode
Forward DC current
approx. 0.4mA
Reversed DC voltage
approx. 1.5V
Built-in buzzer sounds if
resistance is less than 100Ω
Open circuit voltage
approx. 0.5V
Overload protection: 250V DC or AC rms
7. OPERATING INSTRUCTIONS
7-1 Attention before operation
7-1-1 Check battery. When the battery voltage drop below proper
operation range, the “ ” symbol will appear on the LCD display and the
battery need to changed.
7-1-2 Pay attention to the “ ” besides the input jack which shows that the
input voltage or current should be within the specified value.
7-1-3 The range switch should be positioned to desired range for
measurement before operation.
7-2 Measuring DC & AC Voltage
7-2-1 Connect the black test lead to COM jack and the red to V
Ω
Hz jack.
7-2-2 Set the rotary switch at the desired “
V
”
range position, it shows
symbol for testing DC voltage, if you want to test AC voltage, push
“SELECT” button switch, then if you want to test AC 400mV, push
“RANGE” to choose.
7-2-3 Connect test leads across the source or load under measurement.
7-2-4 You can get reading from LCD. The polarity of the red lead
connection will be indicated along with the DC voltage value.
NOTE:
1.“ ” means you can’t input the voltage more than 1000V, it’s possible to
show higher voltage, but it may destroy the inner circuit or pose a shock.
2. Be cautious against shock when measuring high Voltage.
7-3 Measuring DC & AC Current
7-3-1 Connect the black test lead to COM jack and the red to the
μAmA
jack for a maximum 400mA current , for a maximum 2A or 20A current,
move the red lead to the 20A
jack.
7-3-2 Set the rotary switch at the desired “uA
”
& “mA
”
& “A
”
range position, it shows symbol for testing DC current, if you want to test
AC current, push “SELECT” button switch.
7-3-3 Connect test leads in series with the load under measurement.
7-3-4 You can get reading from LCD. The polarity of the red lead
connection will be indicated along with the DC current value.
NOTE:
1. When the value scale to be measured is unknown beforehand, set the
range selector at the highest position.
2. When only “OL” is displayed, it indicates over-range situation and the
higher range has to be selected.
3.
“ ” means the socket mA’s maximum current is 400mA and 20A’s
maximum current is 20A, over 400mA current can be protected by the
PPTC resettable fuse, but over 20A current will destroy the fuse. On the
20A range, the measuring time should be less than 10 seconds to prevent
precision from affecting by circuit heating.
7-4 Measuring Resistance
7-4-1 Connect the black test lead to COM jack and the red to V
Ω
Hz jack.
7-4-2 Set the rotary switch at the desired “
” range position.
7-4-3 Connect test leads across the resistance under measurement.
7-4-4 You can get reading from LCD.
NOTE:
1. For measuring resistance above 1M
Ω
, the mete may take a few
seconds to get stable reading.
2. When the input is not connected, i.e. at open circuit, the figure ‘OL’ will
be displayed for the over-range condition.
3. When checking in-circuit resistance, be sure the circuit under test has
all power removed and that all capacitors have been discharged fully.
7-5 Measuring Capacitance
7-5-1 Connect the black test lead to COM jack and the red to V
Ω
Hz jack.
7-5-2 Set the rotary switch at the desired “
”
range position.
7-5-3 Connect test leads across the capacitance under measurement.
7-5-4 You can get reading from LCD.
NOTE:
Max. input overload: 250V rms
<
10sec
1.
Capacitors should be discharged before being tested.
2.
When testing large capacitance, it will take longer time before the final
indication (For 100uF, it will take about approx. 15 seconds).
3.
When testing small capacitance
(
≤100nF
)
, to assure the measurement
accuracy, first press "REL", then go on measuring.
7-6 Measuring Frequency & Duty cycle
7-6-1 Connect the black test lead to COM jack and the red to V
Ω
Hz jack.
7-6-2 Set the rotary switch at the desired “
Hz
” range position.
7-6-3 Push “
Hz/%
” key to choose
Frequency
or
Duty cycle
test.
7-6-4 Connect the probe across the source or load under measurement.
7-6-5 You can get reading from LCD.
7-7 Measuring Temperature
7-7-1 Connect the black banana plug of the sensor to COM (T-) jack and
the red banana plug to the μAmA (T+) jack.
7-7-2 Set the rotary switch at the desired “ ” range position.
7-7-3 Put the sensor probe into the temperature field under measurement.
7-7-4 You can get reading from LCD.
NOTE:
Max. input over-load: 250V rms
<
10sec
1.
The accessory of the meter WRNM-010 type contact thermocouple
limit temperature is 250
℃
(300
℃
shortly), please use special probe for
test higher temperature.
2.
Please don't change the thermocouple at will, otherwise we can't
guarantee to measure accuracy.
3.
Please don’t importing the voltage in the temperature function.
7-8 Battery Testing
7-8-1 Connect the black test lead to COM jack and the red to μAmA jack.
7-8-2 Set the rotary switch at the desired “
” range position.
7-8-3 Connect test leads across the source or load under measurement.
7-8-4 You can get reading from LCD. The loading current: is approx. 25mA
(positive), it is no loading current when the display is negative.
7-9 Diode & Audible continuity Testing
7-9-1 Connect the black test lead to COM jack and the red to V
Ω
Hz jack.
7-9-2 Set the rotary switch at the “
” range position, push “SELECT”
to choose
Diode
or
Audible continuity
measurement.
7-9-3 On
diode
range, connect the test leads across the diode under
measurement, display shows the approx. forward voltage of this diode.
7-9-4 On
Audible continuity
range, connect the test leads to two point of
circuit, if the resistance is lower than approx. 100Ω, the buzzer sounds.
NOTE:
Make sure the power is cut off and all capacitors need to be
discharged under this measurement.
8. Maintenance
8-1 Before attempting to remove the battery door or open the case, be
sure that test leads have been disconnected from measurement circuit top
avoid electric shock hazard.
8-2 To avoid electrical shock, remove test leads from measurement circuits
before replacing the fuse. For protection against fire, replace fuses only
with specified ratings: F-20A/250V fuse.
8-3 Your must replace the test leads if the lead is exposed, and should
adopt the leads with the same specifications as origin.
8-4 Use only moist fabric or small amount of detergent but not chemical
solution for cleaning.
8-5 Do not use the meter before the back cover is properly closed and
screw secured. Upon any abnormality, stop operation immediately and
send the meter for maintenance.
8-6 Please take out the battery when not using for a long time.
9. Accessories
[1] Test Leads: electric rating 1000V 20A
[2] “K” type thermocouple sensor probe
[3] Operator’s Manual
