Fluke ESA612 specifications Intended Use, Electrical Safety Analyzer

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Electrical Safety Analyzer

Intended Use

•Inspect the Analyzer before using it. Do not use the Analyzer if abnormal conditions of any sort are noted (such as a faulty display, broken case, etc.)

•Inspect the test leads for damaged insulation or exposed metal. Check test lead continuity. Replace damaged leads before using the Analyzer.

•When testing, always be sure to keep your fingers behind the safety barriers on the test leads.

•Never open the Analyzer's case. Dangerous voltages are present. There are no user replaceable parts in the Analyzer.

•Have the Analyzer serviced only by qualified personnel.

•The Analyzer must be properly earthed. Only use a supply socket that has a protective earth contact. If there is any doubt as to the effectiveness of the supply socket earth, do not connect the Analyzer. Do not use a two-conductor adapter or extension cord; this will break the protective ground connection.

•Do not use the 15-20 A adapter to power devices rated in excess of 15 A. Doing so may overload the installation.

•Use extreme caution when working with voltages above 30 V.

•Use the proper terminals, functions and ranges for the test being performed.

•Do not touch metal parts of the device under test (DUT) during analysis. The DUT should be considered an electrical shock hazard when connected to the Analyzer as some tests involve high voltages, high currents, and/or the removal of DUT earth bond.

Intended Use

The Analyzer is intended for use by trained service technicians to perform periodic inspections on a wide range of medical equipment. The testing procedures are menu-driven, and simple to operate.

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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 Introduction Electrical Safety AnalyzerSymbol Description Safety InformationIntended Use Electrical Safety AnalyzerInstrument Familiarization Unpacking the AnalyzerInstrument Familiarization Side and Top-Panel Connections Side and Top-Panel Connections Name Connecting a DUT to the Analyzer Connecting to Line Power Turning the Analyzer OnTurning the Analyzer On Leakage Current Menu Accessing the Analyzer’s FunctionsSetting the Display Contrast Setting Up the AnalyzerSetting Polarity Switching Delay Setting the Gfci Limit Performing Electrical Safety TestsSetting up the Beeper Viewing MemoryPerforming a Ground Wire Protective Earth Resistance Test Setting the Test StandardPerforming Mains Voltage Testing DUT is powered off for this test Electrical Safety Analyzer Fis112.eps Schematic Abbreviations Device Under Test Insulation Resistance Measurement Performing an Insulation Resistance TestFaw17.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 Leakage Current Tests Performing a Current Consumption TestMeasuring 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 Tests Electrical Safety AnalyzerFaw30.eps Electrical Safety Analyzer Lead Isolation Mains On Applied Parts Leakage Test Schematic Performing an Alternative Equipment Leakage Performing Electrical Safety TestsTest Performing an Alternative Applied Part Leakage TestAlternative Equipment Leakage Current Test Schematic Performing a Direct Equipment Leakage Test Alternative Applied Part Leakage Test Schematic Performing a Direct Applied Part Leakage Test When the EN62353 standard is selectedDirect 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 Voltage Making Point-To-Point MeasurementsMeasuring Resistance Measuring Current Simulating ECG WaveformsESA612 ECG Monitor Connections Storing Data into Memory Using MemoryDeleting Data from Memory Controlling the Analyzer RemotelyViewing Memory Data Testing and Replacing the Fuses MaintenanceCleaning the Analyzer Cleaning the AnalyzerReplaceable Parts Fluke Biomedical Part Number Replaceable PartsReplaceable Parts Accessories Temperature SpecificationsVoltage Detailed SpecificationsDetailed Specifications ECG Performance Waveforms