Features
RCCB stands for Residual Current Circuit Breaker. It is a vital electrical device used for current sensing, disconnecting, and measuring the circuit in case there are any faults or when the current exceeds the standard rate of sensitivity. RCCB provides enhanced protection against leakage current, earth faults, and voltage fluctuations. In addition, it is designed to automatically disconnect the electrical circuit when there is an escalation in the sensitivity level..
- Nominal current:1 to 125 A.
- 30mA sensitivity:additional protection against direct contact (in accordance with IEC 364).
- 100, 300, 500 mA sensitivities:additional protection against fire and indirect contact (in accordance with IEC 364).
- B type:protection of installations with three-phase rectifier.
- Type "si": protection of sensitive circuits (computing equipment) and those prone to disturbances (ballast lighting, power electronics).
- Selective version :tripping of the device the closest to the fault.
- Compliance with standards:IEC EN 61008 certified by national official authorities.
- Suitable for isolation in accordance with industrial standards: IEC 60947.
- Operating voltage:up to 440Vac, insulation voltage: 500V.
- Optional auxiliaries:indication of state and tripping, shunt trip, undervoltage trip, overvoltage trip.
Benefits
At Schneider Electric India, our team of professional experts work diligently to meet all your electrical needs and requirements. We have designed reliable, robust, and high-quality RCCB's that are efficiently equipped to provide optimal protection across tertiary and industrial buildings. Quality without boundaries The ID-RCCB residual current devices are simply natural complements to C60 and C120 circuit-breakers.
The "si" type ID-RCCBs are completely immune to disturbances, thus providing unequalled peace of mind.
Applications
Protection, in all industrial and tertiary buildings, against:
- electrocution (in accordance with installation standards IEC 364 and national standards).
- the risk of fire due to leakage currents into building materials.