Electronic Components & Devices

Design

Electrical factors

AC voltage withstanding test

Confirm test conditions (voltage, time and waveform) of AC voltage withstanding tests for capacitors
for electromagnetic interference suppression use in the primary circuits.

  1. (1) Confirm that the test conditions (voltage, time and waveform) of the AC voltage withstanding tests at the incoming inspection and/or assembly process are within the specified conditions.
    Failure of withstanding voltage may occur when applied voltage or time exceeds the specified conditions.
  2. (2) Confirm a specified voltage wave form for the AC voltage withstanding test.
    When the voltage wave form is a sine wave, any peak voltage which is more than times of specified effective voltage shall not be applied to the capacitor.
    The applied voltage wave form may be distorted by the dielectric material of the capacitor or the withstanding voltage test equipment, so that it may exceed times the specified effective voltage.

    Distorted wave forms of a sine wave with a voltage of 1000 V rms are shown as follows.
    Example of sine waveform(1414V.0-P)/Example 1 of distortion waveform(2000V.0-P)/Example 2 of distortion waveform(2800V.0-P)
  3. (3) For the AC voltage withstanding test, apply a specified voltage using a zero crossing start after the capacitor's terminals are connected securely to the test equipment.
    When a spark discharge is generated by a poor connection with test equipment, or by applying voltage with test equipment which does not employ a zero crossing start, abnormal voltage higher than the specified voltage may be generated.
    Zero cross start / Not zero cross start

Safety Application Guide for Multilayer Ceramic Chip Capacitors All Lists

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