By Kirsty Murphy on Thursday, 21 September 2017
Category: Clydesdale

Proving Units

When Clydesdale gave a presentation at the OHLex exhibition in 2016, we discussed the method by which capacitive voltage detectors work correctly when placed inside a steady-state, 50Hz AC (UK lines) electric field above the unit’s configured threshold voltage. A link to this presentation is available here.

 At their core, capacitive voltage detectors need to be placed within a uniform electric field, at a pre-set distance from a live line, in a voltage field level above the detector’s internally programmed “threshold”.
The value for this threshold should be compliant with the International standard IEC 61243-1.
The IEC standard sets upper and lower limits for where this threshold value should be calibrated based on the device’s operating range. This threshold is always stated with respect to the phase-to-phase line voltage.

The IEC standard also makes statements about demonstrating the effectiveness of the device’s “testing element”. A “testing element” is the Built-in or external device, by means of which the functioning of the voltage detector can be checked by the user
The IEC standard describes how it is equally valid to have an onboard or offboard “test element” that is evaluated for performance and reliability as part of the device’s original IEC certification.
No distinction is drawn between the two scenarios. The “testing element” must be able to fully test the operation of the electrical circuits, energy source and any indicators (light / sound).
Onboard test elements do this testing within the devices onboard circuity and systems. Offboard test elements would include, what is more commonly known as, a proving unit.

To be a successful, IEC compliant external testing element any proving unit would need to be:

 Unfortunately, we do not believe a device that can fulfil this brief exists within the market and so manufacturers of Capacitive voltage detectors have generally moved onto approved internal self-testing of devices.

 As a guide, the Fameca TAG220 and the Fameca Vector from Clydesdale are fully IEC standards compliant and use a built-in, continuous self-test while powered on. The self-test checks every 50 milliseconds for correct operation of the whole electrical circuit, sensors , threshold value and battery level of course.