Rcd tests, 1 principles of rcd measurement – KYORITSU 6016 User Manual

37

10. RCD TESTS

10.1 Principles of RCD Measurement
The RCD tester is connected between phase and protective conductor on the load side
of the RCD after disconnecting the load.
A precisely measured current for a carefully timed period is drawn from the phase and
returns via the earth, thus tripping the device. The instrument measures and displays
the exact time taken for the circuit to be opened.
An RCD is a switching device designed for breaking currents when the residual current
attains a specific value. It works on the basis of the current difference between phase
currents flowing to different loads and returning current flowing through the neutral
conductor (for a single-phase installation). In the case where the current difference is higher
than the RCD tripping current, the device will trip and disconnect the supply from the load.
There are two parameters for RCDs; the first due to the shape of the residual current wave
form (types AC and A) and the second due to the tripping time (types G and S).
●

RCD type AC will trip when presented with residual sinusoidal alternating currents

whether applied suddenly or slowly rising. This type is the most frequently used on
electrical installations.

●

RCD type A will trip when presented with residual sinusoidal alternating currents

(similar to type AC) and residual pulsating direct currents (DC) whether suddenly
applied or slowly rising. This type of RCD is not commonly used at present, however,
it is increasing in popularity and is required by the local regulations in some countries.

Making measurement with setting uses pulsating direct currents for test.
●

RCD type G. In this case G stands for general type (without tripping time delay) and

is for general use and applications.

●

RCD type S where S stands for selective type (with tripping time delay).This type of RCD

is specifically designed for installations where the time delay characteristic is required.

Given that when the protective device is an RCD, Ia is typically 5 times the rated
residual operating current I△n, then the RCD must be tested recommending the
tripping time, measured by RCD testers or Multifunction testers, shall be lower than the
maximum disconnecting times required in IEC 60364-41 (see also LOOP/PSC/PFC
section) that are:

TT system
(at 230V / 400V AC)

200 ms for final circuits not exceeding 32A
1000 ms for distribution circuits and circuits over 32A

TN system
(at 230V / 400V AC)

400 ms for final circuits not exceeding 32A
5 s for distribution circuits and circuits over 32A