Mastech MS8268 Instruction manual
The Mastech MS8268 is a versatile tool that measures AC/DC voltage, resistance, capacitance, frequency, duty cycle, and current. It also features diode and transistor testing, continuity checks, relative measurements, and a data hold function. With its autoranging capability, the MS8268 automatically selects the best range for your measurements, making it easy to use, even for beginners.
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Mastech MS8268
HANDHELD DIGITAL MULTIMETER
OPERATOR’S INSTRUCTION MANUAL http://www.HisTest.com
1.1 Precaution safety measures
1.1.1 Preliminary
1.1.2 During use
1.1.3 Symbols
1.1.4 Instructions
1.2
Safety mechanisms
2.1 Instrument Familiarization
2.2 LCD Display
2.3 Keypad
2.4 Terminals
2.5 Rotary switch
2.6 Accessories
3.1 General Functions
3.1.1 Misconnection alarm system
3.1.2 DATA HOLD mode
3.1.3 Manual ranging and Autorange mode
3.1.4 Battery Saver
3.1.5 Relative measurement mode
3.2 Measurement Functions
3.2.1 AC and DC Voltage measurement
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3.2.2 Resistance measurement
3.2.3 Diode Test
3.2.4 Continuity Check
3.2.5 Transistor measurement
3.2.6 Capacitance measurement
3.2.7 Frequency and Duty Cycle measurement
3.2.8 Current measurement
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4.1 GENERAL SPECIFICATIONS
4.2 Measurement specifications
4.2.1 DC Voltage
4.2.2 AC Voltage
4.2.3 Resistance
4.2.4 Audible continuity
4.2.5 Diode
4.2.6 Transistor
4.2.7 Capacitance
4.2.8 Frequency
4.2.9 DC CURRENT
4.2.10 AC CURRENT
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5.1 General Maintenance
5.2 Fuse replacement
5.3 Battery replacement
Ⅱ
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This instrument complies with IEC 1010-1 (61010-1@IEC:
2001), CAT. II 1000V and CAT. III 600V overvoltage standards.
See Specifications.
To get the best service from this instrument, read carefully this user's manual and respect the detailed safety precautions.
International symbols used on the Meter and in this manual are explained in chapter 1.1.3
* Measurement category III is for measurements performed in the building installation.
NOTE: Examples are measurements on distribution boards, circuit-breakers, wiring, including cables, bus-bars, junction boxes, switches, socket-outlets in the fixed installation, and equipment for industrial use and some other equipment, for example, stationary motors with permanent connection to the fixed installation.
* Measurement category II is for measurements performed on circuits directly connected to the low voltage installation.
NOTE: Examples are measurements on household appliances, portable tools and similar equipment.
* Measurement category I is for measurements performed on circuits not directly connected to MAINS.
NOTE: Examples are measurements on circuits not derived from MAINS, and specially protected (internal) MAINS derived circuits. In the latter case, transient stresses are variable; for that reason, requires that the transient withstand capability of the equipment is made known to the user.
1
* When using this Multimeter, the user must observe all normal safety rules concerning:
― Protection against the dangers of electric current.
― Protection of the Multimeter against misuse.
* For your own safety, only use the test probes supplied with the instrument. Before use, Check that they are in good condition.
* If the meter is used near noise generating equipment, be aware that display may become unstable or indicate large errors.
* Do not use the meter or test leads if they look damaged.
* Use the meter only as specified in this manual; otherwise, the protection provided by the meter may be impaired.
* Use extreme caution when working around bare conductors or bus bars.
* Do not operate the meter around explosive gas, vapor, or dust.
* Verify a Meter's operation by measuring a known voltage.
Do not use the Meter if it operates abnormally. Protection may be impaired. When in doubt, have the Meter serviced.
* Uses the proper terminals, function, and range for your measurements.
* When the range of the value to be measured is unknown, check that the range initially set on the multimeter is the highest possible or, wherever possible, choose the autoranging mode.
* To avoid damages to the instrument, do not exceed the maximum limits of the input values shown in the technical specification tables.
* When the multimeter is linked to measurement circuits, do not touch unused terminals.
2
* Do not apply any voltage measurement between the 10A terminal and the COM terminal.
* Caution when working with voltages above 60Vdc or 30Vac rms. Such voltages pose a shock hazard.
* When using the probes, keep your fingers behind the finger guards.
* When making connections, connect the common test lead before connecting the live test lead; when disconnecting, disconnect the live test lead before disconnecting the common test lead.
* Before changing functions, disconnect the test leads from the circuit under test.
* For all dc functions, including manual or auto-ranging, to avoid the risk of shock due to possible improper reading, verify the presence of any ac voltages by first using the ac function. Then select a dc voltage range equal to or greater than the ac range.
* Disconnect circuits power and discharge all high-voltage capacitors before testing resistance, continuity, diodes, or capacitance.
* Before measuring current, check the meter's fuse and turn off power to the circuit before connecting the meter to the circuit.
* Never perform resistance or continuity measurements on live circuits.
* In TV repair work, or when carrying out measurements on power switching circuits, remember that high amplitude voltage pulses at the test points can damage the multimeter.
Use of a TV filter will attenuate any such pulses.
* Use three 1.5V AAA batteries, properly installed in the
Meter's battery case, to power the Meter.
3
* Replace the batteries as soon as the battery indicator (
) appears. With a low battery, the Meter might produce false readings that can lead to electric shock and personal injury.
* Do not measure voltages above 600V in Category III, or
1000V in Category II installations.
Symbols used in this manual and on the instrument:
Caution refer to the instruction manual.
Incorrect use may result in damage to the device or its components.
Dangerous voltage may be present.
~
AC (Alternating Current)
DC (Direct Current)
AC or DC
Earth ground
Double insulated
Fuse
Conforms to European Union directives
* Remove test leads from the Meter before opening the Meter case or battery cover.
* When servicing the Meter, use only specified replacement parts.
* Before opening up the instrument, always disconnect from all sources of electric current and make sure you are not charged with static electricity, which may destroy internal components.
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* Any adjustment, maintenance or repair work carried out on the meter while it is live should be carried out only by appropriately qualified personnel, after having taken into account the instructions in this present manual.
* A "qualified person" is someone who is familiar with the installation, construction and operation of the equipment and the hazards involved. He is trained and authorized to energize and de-energize circuits and equipment in accordance with established practices.
* When the instrument is opened up, remember that some internal capacitors can retain a dangerous potential even after the instrument is switched off.
* If any faults or abnormalities are observed, take the instrument out of service and ensure that it cannot be used until it has been checked out.
* If the meter is not going to be used for a long time, take out the battery and do not store the meter in high temperature or high humidity environment.
* Misconnection alarm system
* If the maximum range is repeatedly exceeded, a continuous audible signal warns the user in DCV, ACV, DCµA, ACµA,
DC mA, AC mA, DC 10A and AC 10A functions.
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1. LCD display 2. Keypad 3. Rotary switch 4. Terminals
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See Table 1 indicated for information about the LCD display.
The battery is low.
Warning: To avoid false readings, which could lead to possible electric shock or personal injury, replace the battery as soon as the battery indicator appears.
Indicates negative readings.
Indicator for ac voltage or current.
AC voltage and current are displayed as the average of the absolute value of the input, calibrated to indicate the equivalent rms value of a sine wave.
Indicator for dc voltage or current.
The Meter is in the Autorange mode in which the meter automatically selects the range with the best resolution.
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REL ∆
µ A k Ω Ω
%
Indicator for the Relative measurement.
Indicator for the Diode Test mode
Indicator for the transistor test mode
Indicator for the Continuity Check mode.
Indicator for the Data Hold mode
V: mV:
Volts. The unit of voltage.
Millivolt. 1x10 -3 or 0.001 volts.
A: mA:
µA::::
Amperes (amps). The unit of current.
Milliamp. 1x10 -3 or 0.001 amperes.
Microamp.
1x10 -6 or 0.000001
amperes
Ω: kΩ:
MΩ:
Ohm. The unit of resistance.
Kilohm. 1x10 3
Megohm. 1x10 or 1000 ohms.
6 or 1,000,000 ohms.
Hz:
KHz:
MHz:
Hertz. The unit of frequency in cycles/second.
Kilohertz. 1x10 3 or 1000 hertz.
Megahertz. 1x10 6 or 1,000,000 hertz.
F:
µF: nF:
Farad. The unit of capacitance.
Microfarad.1x10
-6 or 0.000001 farads.
Nanofarad. 1x10 -9 or 0.000000001
farads.
%: Percent. The unit of Duty cycle.
The input is too large for the selected range.
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See Table 2 indicated for information about the keypad operations.
RANGE V~
A
µ A mA manual ranging mode.
through the ranges available for the selected function.
2 seconds to return to autoranging.
Switches between Diode Test and Continuity check.
Switches between dc and ac current.
Disables automatic power-off feature.
Hz//// % V~ A mA
µ A....
the Relative measurement mode.
1 Press to start the frequency counter.
2 Press again to enter duty cycle (duty factor) mode.
3 Press again to exit the frequency counter mode.
9 the Data Hold mode.
Press to turn the backlight on.
The backlight will be auto-off about 5 seconds later.
2.
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See Table 4 indicated for information about the terminals.
Ω
10
Hz
µ A
A
Return terminal for all measurements.
(Receiving the black test lead or the “com” plug of the special multi-function socket)
Input for voltage, resistance, capacitance, frequency, diode and continuity measurements. (Receiving the red test lead or the “+” plug of the special multi-function socket).
Input for hFE and 0.001mA to 400mA current measurements. (Receiving the red test lead or the “+” plug of the special multi-function socket)
Input for 400mA to 10A current measurements. (Receiving the red test lead).
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A eleven-position rotary selector switch gives access to the following quantities:
ℕ Current: 10A
ℕ Current: mA
ℕ Current: µA
ℕ DC Voltage
ℕ AC Voltage
ℕ OFF: off position
ℕ Resistance
ℕ Diode and Continuity (with beep)
ℕ Capacitance
ℕ Transistor: hFE
ℕ Frequency
Delivered with the multimeter:
ℕ User's manual
ℕ Test leads
ℕ Special Multi-function socket
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The input terminals of the meter are equipped with sound and light alarms against misconnection of test leads.
1 The red lights at the “V” and “COM” terminals will be off after the test leads are plugged in.
2 The buzzer will sound upon misconnection of the test leads in the “mA” or “10A” terminals to warn the user.
At the same time, the lights at the “V” and “COM” terminals will flash to remind the user to plug in the test leads there.
μ A,,,, mA
1 The red lights at the “mA” and “COM” terminals will be off after the test leads are plugged in.
2 The buzzer will sound upon misconnection of the test leads in the “V” or “10A” terminals to warn the user.
At the same time, the red lights at the “mA” and “COM” terminals will flash to remind the user to plug in the test leads there.
1 The red lights at the “10A” and “COM” terminals will be off after the test leads are plugged in.
2 The buzzer will sound upon misconnection of the test leads in the “V” or “mA” terminals to warn the user.
At the same time, the lights at the “10A” and “COM” terminals will flash to remind the user to plug in the test leads there.
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3.1.
2
Data Hold mode makes the meter stop updating the display. Enabling Data Hold function in autorange mode makes the meter switch to Manual ranging mode, but the full-scale range remains the same. Data Hold function can be cancelled by changing the measurement mode,
To enter and exit the Data Hold mode:
2. A second short press returns the meter to normal mode.
3.1.
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The Meter has both manual ranging and autorange options.
* In the autorange mode, the Meter selects the best range for the input detected. This allows you to switch test points without having to reset the range.
* In the manual ranging mode, you select the range. This allows you to override autorange and lock the meter in a specific range.
* The Meter defaults to the autorange mode in measurement functions that have more than one range.
displayed.
To enter and exit the manual range mode: range is reached, the Meter wraps to the lowest range.
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NOTE: If you manually change the measurement range after entering the Data Hold modes, the Meter exits this mode.
2. To exit the manual ranging mode, press and hold down
3.1.
4
The Meter enters the "sleep mode" and blanks the display if the Meter is on but not used for 15 minutes.
the meter up.
while turning the meter on.
One minute before power off, the beeper will sound 5 sounds. The beeper will sound again before power off.
3.1.
5 Relative
The Meter will display relative measurement in all functions except frequency.
To enter and exit the relative measurement mode:
1. With the Meter in the desired function, touch the test leads to the circuit on which you want future measurement to be based.
activate the relative measurement mode. The difference between the reference value and subsequent reading is displayed.
Meter to normal operation.
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The polarity of ac (alternating current) voltage varies over time; the polarity of dc (direct current) voltage is constant.
The Meter's DC voltage ranges are 400.0mV, 4.000V,
40.00V, 400.0V and 1000V; AC voltage ranges are
400.0mV , 4.000V, 40.00V, 400.0V and 750V.
(AC 400.0mV range only exists in manual ranging mode).
To measure ac or dc voltage:
1. Set rotary switch to the DCV or ACV range.
2. Connect the black and red test leads to the COM and
V terminals respectively.
3. Connect the test leads to the circuit being measured
4. Read the displayed value. The polarity of red test lead connection will be indicated when making a DCV measurement.
ℕ Unstable display may occur especially at 400mV range, even though you do not put test leads into input terminals, in this case, if an erroneous reading is suspected, short the V terminal and the COM terminal, and make sure the zero display.
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ℕ For better accuracy when measuring the dc offset of an ac voltage, measure the ac voltage first. Note the ac voltage range, then manually select a dc voltage range equal to or higher than the ac range. This improves the accuracy of the dc measurement by ensuring that the input protection circuits are not activated.
instrument, disconnect circuit power and discharge all high-voltage capacitors before
The Meter's resistance ranges are 400.0 Ω , 4.000k Ω ,
40.00kΩ, 400.0kΩ, 4.000MΩ and 40.00MΩ.
To measure resistance:
2. Connect the black and red test leads to the COM and
Ω terminals respectively.
3. Connect the test leads to the circuit being measured and read the displayed value.
Some tips for measuring resistance:
ℕ The measured value of a resistor in a circuit is often different from the resistor's rated value. This is because the Meter's test current flows through all possible paths between the probe tips.
ℕ In order to ensure the best accuracy in measurement of low resistance, short the test leads before measurement and memory the test probe resistance in mind. This necessary to subtract for the resistance of the test leads.
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ℕ The resistance function can produce enough voltage to forward-bias silicon diode or transistor junctions, causing them to conduct. To avoid this, do not use the 40MΩ range for in-circuit resistance measurements.
ℕ On 40M Ω range, the meter may take a few seconds to stabilize reading. This is normal for high resistance measuring.
ℕ When the input is not connected, i.e. at open circuit, the figure "OL" will be displayed for the overrange condition.
instrument, disconnect circuit power and
Use the diode test to check diodes, transistors, and other semiconductor devices. The diode test sends a current through the semiconductor junction, then measures the voltage drop across the junction, A good silicon junction drops between 0.5V and 0.8V.
To test a diode out of a circuit:
1. Set the rotary switch to range.
3. Connect the black and red test leads to the COM and
VΩ terminals respectively.
4. For forward-bias readings on any semiconductor component, place the red test lead on the component's anode and place the black test lead on the component's cathode.
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5. The meter will show the approx. forward voltage of the diode.
In a circuit, a good diode should still produce a forward bias reading of 0.5V to 0.8V; however, the reverse-bias reading can vary depending on the resistance of other pathways between the probe tips.
instrument, disconnect circuit power and
To test for continuity:
1. Set the rotary switch to range.
3. Connect the black and red test leads to the COM and
Ω terminals respectively.
4. Connect the test leads to the resistance in the circuit being measured.
5. When the test lead to the circuit is below 50 Ω , a continuous beeping will indicate it.
ℕ Continuity test is available to check open/short of the circuit.
250 Vdc
250 Vac
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To test the hFE of transistor:
2. Connect the “com” plug and “+” plug of the special
3. Determine whether the transistor to be tested is NPN or
PNP type and locate the Emitter, Base and Collector leads.
4. Insert leads of the transistor into proper holes of the special multi-function socket.
5. The meter will show the approx. hFE value at test condition of base current 10μA and Vce 2.8V.
3.2.
6 instrument, disconnect circuit power and function to that the capacitor is
Capacitance is the ability of a component to store an electrical charge.
The unit of capacitance is the farad (F). Most capacitors are in the nanofarad to microfarad range. The Meter measures capacitance by charging the capacitor with a known current for a known period of time, measuring the resulting voltage, then calculating the capacitance. The measurement takes about 1 second per range.
The Meter's capacitance ranges are 4.000nF 40.00nF,
400.0nF, 4.000µF, 40.00µF and 200.0µF.
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To measure capacitance:
1. Set the rotary switch to range.
terminals respectively.
(or you can measure the capacitance by using the special Multi-Function Socket)
3. Connect the test leads to the capacitor being measured and read the displayed value.
ℕ The meter may take a few seconds (200 µ F range, 30 seconds) to stabilize reading. This is normal for high capacitance measuring.
ℕ To improve the accuracy of measurements less than 4nF, subtract the residual capacitance of the Meter and leads.
3.2.
7
250 Vac
To measure frequency or Duty Cycle:
ℕ Set the rotary switch to Hz range.
ℕ Connect the test leads across the source or load under measurement, and read the displayed value.
key again.
ℕ Read the percent of duty cycle on the display.
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ℕ Reading is possible at input voltages above 3V rms, but the accuracy is not guaranteed.
ℕ In noisy environment, it is preferable to use shield cable for measuring small signal.
AC Voltag e
ℕ Set the rotary switch to the desired range (AC Voltage or
AC Current).
ℕ Connect the meter to the signal source; then press Hz/% key.
ℕ For 5V logic signals (TTL), use the 4Vdc range. For 12V switching signals in automobiles, use the 40Vdc range.
ℕ Read the frequency of the AC signal on the display.
key again.
ℕ Read the percent of duty cycle on the display.
ℕ If the reading is 0.000Hz or is unstable, the input signal may be below or near the trigger level.
These problems can frequently be fixed by selecting a lower range, which increases the sensitivity of the meter. In the
DCV function, the lower ranges also have lower trigger levels.
ℕ If a reading seems to be a multiple of what you expect, the input signal may be distorted.
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Distortion can cause multiple triggering of the frequency counter. Selecting a higher voltage range might solve this problem by decreasing the sensitivity of the meter. Also, try selecting a dc range, which raises the trigger level. In general, the lowest frequency displayed is the correct one.
3.2.
8 blows, never attempt an in-circuit current
The Meter's current ranges are 400.0µA, 4000µA, 40.00mA,
400.0mA, and 10.00A.
To measure current:
1. Turn off power to the circuit. Discharge all high voltage capacitors.
2. Set the rotary switch to the µA, mA or A range.
mode.
red test leads to the mA terminal for a maximum of
400mA. For a maximum of 10A, move the red test lead
10 A terminal.
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5. Break the circuit path to be tested.
Touch the black probe to the more negative side of the break; touch the red probe to the more positive side of the break. (Reversing the leads will give a negative reading, but will not damage the Meter.)
6. Turn on power to the circuit; then read the display. Be sure to note the measurement units at the right side of the display ( µ A, mA or A). When only the figure "OL" displayed, it indicates overrange situation and the higher range has to be selected.
7. Turn off power to the circuit and discharge all high voltage capacitors. Remove the Meter and restore the circuit to normal operation.
ℕ Environment conditions:
1000V CAT. II and 600V CAT. III
Pollution degree: 2
Altitude < 2000m
Operating temperature:
0~40℃, 32℉~122℉ (<80%RH, <10℃ non- condensing)
Storage temperature:
-10~60 ℃, 14℉~140℉ (<70% RH, battery removed)
ℕ Temperature Coefficient:
0.1×(specified accuracy) / ℃ (<18℃ or >28℃)
ℕ MAX. Voltage between terminals and earth ground:
750V AC rms or 1000V DC.
ℕ Fuse Protection:
µA and mA: Resettable fuse(400mA/250V);
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10A: F 10A/250V ∅6.3×32 mm.
ℕ Sample Rate: 3 times/sec for digital data.
ℕ Display:
3 3/4 digits LCD display. Automatic indication of functions and symbols.
ℕ Range selection: automatic and manual.
ℕ Over Range indication: LCD will display "OL".
ℕ Low battery indication:
The " " is displayed when the battery is under the proper operation range.
ℕ Polarity indication: "−" displayed automatically.
ℕ Power source: DC 4.5V
ℕ Battery type: 1.5V AAA.
ℕ Dimensions: 195×92×55 mm.
ℕ Weight: 400g. Approx. (battery included).
Accuracy is specified for one year after calibration, at operating temperatures of 18℃ to 28℃, with relative humidity at 0% to 75%.
Accuracy specifications take the form of: ± (% of Reading +
Number of Least Significant Digits)
Range
400mV
4V
40V
400V
Resolution
0.1mV
1mV
10mV
100mV
Accuracy
±(0.7% of rdg +2 digits)
1000V 1V ±(0.8% of rdg +2 digits)
Input impedance: 10MΩ
Max. input voltage: 1000Vdc or 750V ac rms.
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Range
400mV
4V
40V
Resolution
0.1mV
1mV
10mV
Accuracy
±(3.0% of rdg + 3 digits)
±(0.8% of rdg +3 digits)
400V
750V
100mV
1V ±(1.0% of rdg +3 digits)
Input impedance: 10MΩ
Max. input voltage: 1000Vdc or 750V ac rms.
Frequency Range: 40Hz-200Hz for 4V range, 40Hz-1kHz for other ranges.
Response: Average, calibrated in rms of sine wave
Range
400.0Ω
4.000kΩ
40.00kΩ
400.0kΩ
4.000MΩ
Resolution
0.1Ω
1Ω
10Ω
100Ω
1kΩ
Accuracy
±(1.2%% of rdg +2 digits)
40.00MΩ 10kΩ ±(2.0% of rdg +5 digits)
Open Circuit Voltage: approx. 250mV.
Overload protection: 250V dc or 250Vac rms.
4.2.
4
Range Continuity beeper
≤50Ω
Open circuit voltage: approx.0.5V.
Overload protection: 250Vdc or 250Vac rms.
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4.2.
5
Range Resolution
1mV
Function
Display read approx. forward voltage of diode
Forward DC Current: approx. 1mA
Reversed DC Voltage: approx. 1.5V
Overload protection: 250Vdc or 150Vac rms.
4 .2.
Range hFE
Description
Display read approx. HFE value (0-1000) of transistor under test (all type).
Test Condition
Base Current approx. 10μA, Vce approx. 2.8V.
Overload protection: Resettable Fuse (F400mA/250V)
4.2.
7
Range
4nF
40nF
400nF
Resolution
1pF
10pF
100pF
Accuracy
±(5.0% of rdg+5 digits)
4µF
40µF
1nF
10nF
±(3.0% of rdg+3 digits)
200µF 100nF
Overload protection: 250V dc or 250Vac rms.
4 .2.8
Range
9.999Hz
99.99Hz
999.9Hz
9.999kHz
99.99kHz
199.9kHz
>200kHz
Resolution
0.001 Hz
0.01 Hz
0.1 Hz
1Hz
10Hz
100Hz
100Hz
Accuracy
±(2.0% of rdg+5 digits)
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Unspecified @ >200kHz
Overload protection: 250V dc or 250V ac rms.
Input Voltage range: 0.6V-3V ac rms (Input voltage must be enlarged with increasing frequency under measurement)
Frequency Response: 10Hz-200kHz, sine wave.
0.5Hz-200kHz, square wave.
B y Voltag e
Input Voltage range: 1V-750Vac rms (Input voltage must be enlarged with increasing frequency under measurement)
Frequency Response: 1Hz-10kHz, sine wave.
Maximum input voltage: 1000V dc or 750V ac rms.
Input impedance: 10MΩ
Input current range: 5µA -4000µA ac rms for µA range。
5mA-400mA ac rms for mA range.。
(Input current must be enlarged with increasing frequency under measurement)
Frequency Response: 1Hz-10kHz, sine wave.
Maximum input current: 400mA dc or 400mA ac rms for µ A and mA ranges.
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4.2.
9
Range
400µA
4000µA
40mA
400mA
10A
Resolution
0.1µA
1µA
0.01mA
0.1mA
10mA
Accuracy
±(1.2% of rdg+3 digits)
±(2.0% of rdg+5 digits)
Overload protection: F 10A/250V fuse for 10A range.
Resettable fuse(F400mA/250V) for
µA and mA ranges.
Maximum input current: 400mA dc or 400mA ac rms for µ A and mA ranges, 10A dc or 10A ac rms for 10A ranges.
For measurements>5A, 4 minutes maximum ON to measure
10 minutes OFF.
4 .2.10
Range
400µA
4000µA
40mA
400mA
10A
Resolution
0.1µA
1µA
0.01mA
0.1mA
10mA
Accuracy
±(1.5% of rdg+5 digits)
±(3.0% of rdg+7 digits)
Overload protection: F 10A/250V fuse for 10A range.
Resettable fuse(400mA/250V) for µ A and mA ranges.
Maximum input current: 400mA dc or 400mA ac rms for µ A and mA ranges, 10A dc or 10A ac rms for 10A ranges.
Frequency Range: 40Hz-1kHz
Response: Average, calibrated in rms of sine wave
For measurements>5A, 4 minutes maximum ON to measure
10 minutes OFF.
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This section provides basic maintenance information, including fuse and battery replacement instructions.
Do not attempt to repair or service your Meter unless you are qualified to do so and have the relevant calibration, performance test, and service information.
Periodically wipe the case with a damp cloth and mild detergent. Do not use abrasives or solvents.
Dirt or moisture in the terminals can affect readings.
To clean the terminals:
ℕ Turn the meter off and remove all test leads.
ℕ Shake out any dirt that may be in the terminals.
ℕ Soak a new swab with a cleaning and oiling agent (such as
WD-40).
ℕ Work the swab around in each terminal. The oiling agent insulates the terminals from moisture-related contamination.
To replace the Meter's fuse (see Figure 2.):
1. Set rotary switch to the OFF position.
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2. Disconnect test leads and/or any connectors from the terminals.
3. Use a screwdriver to unscrew the two screws secured on the battery cover.
4. Take out the battery cover from the meter.
5. Remove the fuse by gently prying one end loose, then sliding the fuse out of its bracket.
6. Install the replacement fuses only with specified ratings:
F 10A/250V ∅6.3×32
7. Rejoin the battery cover and secure by the two screws.
5.
3 Battery
))))
To replace the battery (see Figure 2.):
1. Set rotary switch to the OFF position.
2. Disconnect test leads and/or any connectors from the terminals.
3. Use a screwdriver to unscrew the two screws secured on the battery cover.
4. Take out the battery cover from the meter.
5. Remove the used batteries.
6. Replace with three new 1.5V batteries (AAA).
7. Rejoin the battery cover and secure by the two screws.
30
+
-
+
AAA
AAA
-
+ -
“Using this appliance in an environment with a strong radiated radio-frequency electromagnetic field9approximately 3V/m), may influence its measuring accuracy. The measuring result can be strongly deviating from the actual value”
31

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