Fluke ESA612 specifications Performing a Differential Leakage Current Test

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ESA612

Users Manual

	Performing a Differential Leakage Current Test	Note
	Note	If there are more than five applied parts to
		connect to the Analyzer, see Using the 1210
	The Differential Leakage Current test is available
		Adapter later in this manual.
	when the EN62353 standard is selected.

The differential leakage current test measures the magnitudes of the differential current flowing in the Equipment Outlet live and neutral, with power applied to the equipment outlet. All applied parts should be connected during this test, if equipment has applicable applied parts.

To perform a differential leakage current test:

1.Press B.

2.Press the soft key labeled Differential.

Figure 28 shows the electrical connections between the Analyzer and the DUT during a Differential Leakage Current test.

The following outlet conditions apply when performing this test:

•Normal Polarity, Closed Earth

•Normal Polarity, Open Earth

•Reversed Polarity, Closed Earth

•Reversed Polarity, Open Earth

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Contents ESA612 Warranty and Product Support Contents Standard Terms and Conditions Certification Restrictions and Liabilities Table of Contents ESA612 Iii ESA612 List of Tables ESA612 List of Figures Viii Electrical Safety Analyzer IntroductionSafety Information Symbol DescriptionElectrical Safety Analyzer Intended UseUnpacking the Analyzer Instrument FamiliarizationInstrument Familiarization Side and Top-Panel Connections Side and Top-Panel Connections Name Connecting to Line Power Turning the Analyzer On Connecting a DUT to the AnalyzerTurning the Analyzer On Accessing the Analyzer’s Functions Leakage Current MenuSetting Polarity Switching Delay Setting Up the AnalyzerSetting the Display Contrast Setting up the Beeper Performing Electrical Safety TestsSetting the Gfci Limit Viewing MemoryPerforming Mains Voltage Testing Setting the Test StandardPerforming a Ground Wire Protective Earth Resistance Test DUT is powered off for this test Electrical Safety Analyzer Fis112.eps Schematic Abbreviations Device Under Test Performing an Insulation Resistance Test Insulation Resistance MeasurementFaw17.eps Applied Parts to Protective-Earth Insulation Test Schematic Mains to Applied Parts Insulation Test Schematic Mains to Non-Earth Accessible Conductive Points Schematic Applied Parts to Non-Earth Conductive Points Schematic Performing a Current Consumption Test Performing Leakage Current TestsMeasuring Earth Leakage Current Electrical Safety Analyzer Earth Leakage Current Test Schematic Performing a Chassis Enclosure Leakage Test Enclosure Leakage Current Test Schematic Performing a Lead-to-Ground Patient Leakage Lead-to-Ground Patient Leakage Current Test Schematic Electrical Safety Analyzer TestsFaw30.eps Electrical Safety Analyzer Lead Isolation Mains On Applied Parts Leakage Test Schematic Test Performing Electrical Safety TestsPerforming an Alternative Equipment Leakage Performing an Alternative Applied Part Leakage TestAlternative Equipment Leakage Current Test Schematic Performing a Direct Equipment Leakage Test Alternative Applied Part Leakage Test Schematic When the EN62353 standard is selected Performing a Direct Applied Part Leakage TestDirect Equipment Leakage Test Schematic Direct Applied Parts Leakage Current Test Schematic Performing a Differential Leakage Current Test Differential Leakage Current Test Schematic Using the 1210 Adapter Using the 1210 Adapter ESA612 EGC Lead Connection with 1210 Adapter Measuring Resistance Making Point-To-Point MeasurementsMeasuring Voltage Simulating ECG Waveforms Measuring CurrentESA612 ECG Monitor Connections Using Memory Storing Data into MemoryViewing Memory Data Controlling the Analyzer RemotelyDeleting Data from Memory Maintenance Testing and Replacing the FusesCleaning the Analyzer Cleaning the AnalyzerReplaceable Parts Replaceable Parts Fluke Biomedical Part NumberReplaceable Parts Accessories Specifications TemperatureDetailed Specifications VoltageDetailed Specifications ECG Performance Waveforms