17Resistance measurement■ Set the selector switch measurement range to Ω.■ Connect the black measuring lead to the COMsocket [5] and the red measuring lead tothe V Ω A socket.■ Connect the measuring leads to the test object.3 The multimeter automatically searches for themost favourable measurement range.■ Read the measurement result from the dis-play [1].ResistanceMeasuringrange Resolution Accuracy200 Ω 0.1 Ω overvolt-age protection:250 V AC / DC± 1 % + 5 digits2 kΩ 0.001 kΩ± 1 % + 5 digits20 kΩ 0.01 kΩ200 kΩ 0.1 kΩ2 MΩ 0.001 MΩ20 MΩ 0.01 mΩ ± 1.8 % + 5digitsMeasuring voltage: 0.25 V.Overvoltage protection: 600 V AC / DC < 30 s.Diode test■ Set the selector switch measurement range to Ω. Connect the black measuring lead to the COMsocket [5] and the red measuring lead to theright socket.■ Set M button [8] to . Connect the measuringleads to the test object.■ Red measuring lead = anode,■ Black measuring lead = cathode.3 The reverse voltage is displayed.Diode testMeasuringrange Resolu-tion Accuracy0.001 V Indicates the reversevoltage■ Test current: approx. 0.6 mA,Reverse voltage: approx. 1.5 V.■ Overvoltage protection: 600 V AC / DC < 30 s.Continuity test■ Set the selector switch measurement range to Ω.■ Connect the black measuring lead to the COMsocket [5] and the red measuring lead to theright socket.■ Set M button [8] to .■ Connect the measuring leads to the circuit beingtested.3 For electric paths that are continuous, i.e. resis-tance less than 50 Ω, a beep is emitted.■ Read the measurement result from the dis-play [1].DANGER!Check for a zero-volts condition andthat capacitors in the measuring circuitare dischargedContinuity testMeasuringrange FunctionThe integrated buzzer signals conti-nuity up to 50 Ω■ Measurement circuit voltage: approx. 0.5 V.■ Overvoltage protection: 600 V AC / DC < 30 s.True RMSWhere non-sinusoidal waveforms are measured,and the True RMS function is used, then the resultantmeasurement errors are smaller than those occurringwhen using conventional measurement methods.Sinusoidal and non-sinusoidal signals can be mea-sured exactly using the True RMS function.