Instek Leakage Current Testers
A Leakage Current Testers primary objective is to measure leakage current before it becomes a danger to the operator or patient (medical use). Leakage Current (Touch Current) can be dangerous! Electrical devices are typically designed with sufficient insulation, so that operators do not experience electrical shock. However, insulation may deteriorate over time. One of the largest applications for a Leakage Current Tester is in the medical industry. Patient and operator safety and health, especially in a Medical environment, includes requiring leakage current testing on most equipment.
Equipment manufacturers and those doing repairs must adhere to for Leakage Current Standards. These Standards are in accordance with IEC, UL, JIS, ANSI, VDE, etc.
Markets for Leakage Current Testers
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Medical
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Industrial
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Residential
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Consumer Electronics
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Service
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Laboratory
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Production
Leakage Current Tester applications
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General Industrial Electrical Use
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Medical Standard Equipment
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Medical Emergency Equipment
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Computers
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Residential Appliances
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Electrical Toys and Monitors
The test is performed by applying a voltage across the conductor or circuit, where a leakage current is measured across the insulation. For Medical Electrical Test and Monitoring Equipment, it is recommended to always use an isolation transformer when measuring leakage current. Medical-use electrical devices use a step-up isolation transformer or similar component operating at 110% of the rated supply voltage as the power supply for the device under test.
Key features to consider for selection of Leakage Current Testers
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As a class, they are an economical tester to comply with standards governing electrical devices
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Capability for required standards IEC, JIS, UL, DIN VDE, ANSI, etc.
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Selectable test current
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Polarity switching reduces cycle time
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Rated currents to meet new Standards
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Touch panel for interactive operation.
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Complete communications functionality
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External I/O Support
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Automatic testing for production line applications
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Memory storage of programmed tests
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Memory storage of test results
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Report function capability
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Measure housing leakage current
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Single phase or three phase capability
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Capable of 120VAC or 240 VAC appliance testing
The safety of human life and personnel is always the first concern when using any electrical device. These devices are designed to meet many, if not all, of these safety requirements.
Electrical Safety Test Methods for Equipment
Powered equipment from hand tools, appliances, industrial equipment, and instruments to medical devices and more are tested for electrical safety to various global standards.
For example, IEC 60990 Standard discusses the safety involving the flow of leakage or touch current through the human body. The effect of electric current on a human body can be extremely dangerous. It provides measuring methods for the four body responses:
• Perception
• Reaction
• Let-Go
• Electric Burn
JIS T 0601-1 is the Japanese modification of the existing IEC 60601-1 Safety Standard. IEC 60601-1 is the accepted standard for safety testing of all medical equipment. Both consider safety to be the primary concern.
Here are more standards to consider. Note: It is a partial list. Also, if a test instrument we offer does not specifically list a particular test method, that does not necessarily mean it cannot be used. Since there are so many test methods, the litereture may not enumerate them all. Please contact us with the specific method and we can research it for you.
Partial List of Global Electrical Safety Standards
ANSI / AAMI EC11 |
Diagnostic Electrocardiographic Devices |
U.S. |
ANSI / AAMI EC13 |
Cardiac Monitors, Heart Rate Meters, and Alarms |
U.S. |
ANSI / AAMI EC53 |
ECG Cables and Leadwires |
U.S. |
ANSI / IEEE C37.60 |
High-voltage Switchgear and Controlgear |
U.S. |
ANSI A92.2 |
Vehicle Mounted Elevating and Rotating Work Platforms |
U.S. |
BS EN 61557 |
Electrical safety in low voltage distribution systems up to 1000VAC and 1500VDC |
British |
BS 7671 |
Requirements for Electrical Installations, IEE Wiring Regulations |
British |
DIN VDE 0701-0702 |
0701 Repair, Modification, and Inspection of Electrical Equipment. 0702 Periodic Testing of Electrical Equipment |
German |
EN 55024 |
Information Technology Equipment |
Europe |
GR-1089 |
Electromagnetic Compatibility and Electrical Safety - Generic Criteria for Network Telecommunication Equipment |
U.S. |
IEC 384-14, Annex A, Table VXI |
Capacitors |
Europe |
IEC 50144
BS EN 50144 |
Safety of Hand-held Electric Motor Operated Tools |
Europe/ British |
IEC 60065 |
Audio, Video, and Similar Electronic Apparatus - Safety Requirements |
Europe |
IEC 60204-1 |
Safety of Machinery |
Europe |
IEC 60335-1 |
Safety of Electrical Household Appliances |
Europe |
IEC 60601-1 |
Medical Electrical Equipment - Part 1: General Requirements for Basic Safety and Essential Performance |
Europe |
IEC 60601-2 |
Medical Electrical Equipment - Part 2: Particular Requirements for the Basic Safety and Essential Performance of Gamma Beam Therapy Equipment |
Europe |
IEC 60745 |
Safety of Hand-operated Motor-driven Electric Tools |
Europe |
IEC 60950-1 |
Safety of Information Technology Equipment |
Europe |
IEC 60990 |
Methods of Measurement of Touch Current and Protective Conductor Current |
Europe |
IEC 61010-1 |
Safety Requirements for Electrical Equipment for Measurement, Control, and Laboratory Use |
Europe |
IEC 61029 |
Safety of Transportable Motor-Operated Electric Tools |
Europe |
IEC 61730-2 |
Photovoltaic (PV) Module Safety Qualification - Part 2 Requirements for Testing |
Europe |
IEC 61813 |
Live Working - Care, Maintenance and In-service testing of Aerial Devices with Insulating Booms |
Europe |
IEC 62052-11 |
Electricity Metering Equipment (AC) - General Requirements, Tests, and Test Conditions |
Europe |
IEC 62353 |
Medical Electrical Equipment - Recurrent Test and Test After Repair of Medical Electrical Equipment |
Europe |
IEC 62446 |
Grid Connected Photovoltaic Systems - Minimum requirements for System Documentation, Commissioning Tests and Inspection |
Europe |
ITU-T K.20 |
Resistibility of Telecommunication Equipment Installed in a Telecommunications Centre to Overvoltages and Overcurrents |
Europe |
ITU-T K.21 |
Resistibility of Telecommunication Equipment Installed in Customer premises to Overvoltages and Overcurrents |
Europe |
JIS B8561 |
Vending Machines - Test Method |
Japan |
JIS C9250 |
Microwave Ovens |
Japan |
JIS T 0601-1 |
Electrical Safety Standard for Medical Devices |
Japan |
TE-001, Para. 17 |
Telephone Surge Test Equipment: For the Lightning Protection Tests |
South Africa |
TIA/EIA/IS-968 |
Telecommunications Telephone Terminal Equipment Technical Requirements for Connection of Terminal Equipment to the Telephone Network. (formerly known as FCC Part 68) |
U.S. |
uL 492 |
Power-operated Radio Receiving Appliances |
U.S. |
uL 746E |
Polymeric Materials - Industrial Laminates, Filament Wound Tubing, Vulcanized Fibre, and Materials Used In Printed-Wiring Boards (Section 19 covers requirements for conformal coatings used instead of electrical spacings to increase the dielectric withstand voltage between traces on a printed-wiring board.) |
U.S. |
uL 2231-1 |
Standard for Safety for Personnel Protection Systems for Electric Vehicle (EV) Supply Circuits: General Requirements |
U.S. |
uL 2231-2 |
Standard for Safety for Personnel Protection Systems for Electric Vehicle (EV) Supply Circuits: particular Requirements for Protection Devices for Use in Charging Systems |
U.S. |