This website uses cookies

Cookies facilitate us providing this website. Some cookies are essential, and the site won't work as expected without them. These cookies are set when you submit a form, login or interact with the site by doing something that goes beyond clicking on simple links.

We also use some non-essential cookies to anonymously track visitors or enhance your experience of the site. If you're not happy with this, we won't set these cookies but some features of the site may be unavailable.

Electrical Test

In an electrical test, some electrical basic values like current and voltage are interconnected and measured to validate the proper connection of a cable or the functioning of a component.


When the functioning of products, sub-assemblies or components needs to be verified, they often have to pass a variety of individual tests. These include besides visual inspection (e.g. if a cable is kinked or the insulation is damaged) and mechanical tests (e.g. if a switch latches correctly) also electrical tests.


Therefore, the unit under test (UUT) is connected electro-conductively via the adaption with the test system.


The following types of tests can be distinguished:


  • Low voltage test

    • Open test (connection test, continuity test): verifies the conductivity of a single wire from A to B
    • Short test detects unwanted connections from A to C

  • High voltage test (HIPOT test)

    • Insulation test: verifies, if the insulation meets the requirements for a specific purpose

  • Functional test: tests the functioning of a switch, that routes the current flow either from A to B or to C
  • Component test: validates the availability of an electrical component or measures it


The individual test points are interconnected with the generator by multiplexers, relays or transistors. The measuring units CMU* and VMU* are located in-between. A variety of different possible circuits as well as the variation of programmed current and/or voltage allows for a wide range of options for verifications and measurements per test point.


The following electrical values are tested or measured:


  • Current (I)
  • Voltage (U)
  • Resistance (R)


Optionally, the following values can be determined with a RLC meter:


  • Impedance (I)
  • Inductance (L)
  • Capacitance (C)


These are required to exactly measure a component with a component test.


In some cases, mechanical or physical values are transformed with the help of the adaption (e.g. spring contact probes) into electrical values allowing for an electrical measurement.


In case a manufacturer has been certified according to EN ISO 9001, often the test results need to be logged per unit under test (UUT) and need to be stored in database for retracing or analysation in statistics.