TT system - Principle: Difference between revisions

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Principle

Automatic disconnection for TT system is achieved by RCD having a sensitivity of [math]\displaystyle{ \definecolor{bggrey}{RGB}{234,234,234}\pagecolor{bggrey}I_{\Delta n}\le\frac{50}{R_A} }[/math] where RA is the resistance of the
installation earth electrode

In this system all exposed-conductive-parts and extraneous-conductive-parts of the installation must be connected to a common earth electrode. The neutral point of the supply system is normally earthed at a pint outside the influence area of the installation earth electrode, but need not be so. The impedance of the earth-fault loop therefore consists mainly in the two earth electrodes (i.e. the source and installation electrodes) in series, so that the magnitude of the earth fault current is generally too small to operate overcurrent relay or fuses, and the use of a residual current operated device is essential.
This principle of protection is also valid if one common earth electrode only is used, notably in the case of a consumer-type substation within the installation area, where space limitation may impose the adoption of a TN system earthing, but where all other conditions required by the TN system cannot be fulfilled.
Protection by automatic disconnection of the supply used in TT system is by RCD of sensitivity: [math]\displaystyle{ I_{\Delta n}\le\frac{50}{R_A} }[/math]
where
RA is the resistance of the earth electrode for the installation
IΔn is the rated residual operating current of the RCD
For temporary supplies (to work sites, …) and agricultural and horticultural premises, the value of 50 V is replaced by 25 V.
Example (see Fig. F9)

FigF09.jpg

Fig. F9: Automatic disconnection of supply for TT system

  • The resistance of the earth electrode of substation neutral Rn is 10 Ω.
  • The resistance of the earth electrode of the installation RA is 20 Ω.
  • The earth-fault loop current Id = 7.7 A.
  • The fault voltage Uf = Id x RA = 154 V and therefore dangerous, but

IΔn = 50/20 = 2.5 A so that a standard 300 mA RCD will operate in about 30 ms without intentional time delay and will clear the fault where a fault voltage exceeding appears on an exposed-conductive-part.

Specified maximum disconnection time

The tripping times of RCDs are generally lower than those required in the majority of national standards; this feature facilitates their use and allows the adoption of an effective discriminative protection.
The IEC 60364-4-41 specifies the maximum operating time of protective devices used in TT system for the protection against indirect contact: For all final circuits with a rated current not exceeding 32 A, the maximum disconnecting time will not exceed the values indicated in Figure F10

Uo(1) (V) T (s)
50 < Uo ≤ 120 0.3
120 < Uo ≤ 230 0.2
230 < Uo ≤ 400 0.07
Uo > 400 0.04

(1) Uo is the nominal phase to earth voltage

Fig. F10: Maximum disconnecting time for AC final circuits not exceeding 32 A

  • For all other circuits, the maximum disconnecting time is fixed to 1s. This limit enables discrimination between RCDs when installed on distribution circuits.

RCD is a general term for all devices operating on the residual-current principle. RCCB (Residual Current Circuit-Breaker) as defined in IEC 61008 series is a specific class of RCD.
Type G (general) and type S (Selective) of IEC 61008 have a tripping time/current characteristics as shown in Figure F11. These characteristics allow a certain degree of selective tripping between the several combination of ratings and types, as shown later in sub-clause 4.3. Industrial type RCD according to IEC 60947-2 provide more possibilities of discrimination due to their flexibility of time-delaying.

X IΔn 1 2 5 > 5
Domestic Instantaneous 0.3 0.15 0.04 0.04
Type S 0.5 0.2 0.15 0.15
Industrial Instantaneous
Time-delay (0.06)
0.3
0.5
0.15
0.2
0.04
0.15
0.04
0.15
Time-delay (other) According to manufacturer

Fig. F11: Maximum operating time of RCD’s (in seconds)

ru:Автоматическое отключение в системе ТТ zh:TT 系统的自动切断电源

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