Schneider rcbo breaker

The Schneider Electric RCBO (Residual Current Breaker with Overcurrent) breaker is a type of electrical protection device that combines two functions in one:

1. Residual Current Detection (RCD): This function detects any imbalance in the electrical current flowing through a circuit, which can indicate a fault or a risk of electrical shock. If the imbalance exceeds a certain threshold, the RCD trips the breaker to disconnect the power supply.
2. Overcurrent Protection (OCP): This function detects excessive current flowing through a circuit, which can indicate a short circuit or an overload. If the current exceeds a certain threshold, the OCP trips the breaker to disconnect the power supply.

The Schneider Electric RCBO breaker is designed to provide enhanced safety and protection for people and equipment in a wide range of applications, including:

• Residential and commercial buildings
• Industrial facilities
• Data centers
• Healthcare facilities
• Educational institutions

Key features of the Schneider Electric RCBO breaker include:

• High sensitivity to residual currents (typically 30mA or 100mA)
• Fast response time (typically 10-30ms)
• High breaking capacity (typically 10-20kA)
• Compact design and easy installation
• Compatibility with a wide range of electrical systems and equipment
• Compliance with international safety standards, such as IEC 61009 and EN 61009

Some common applications of the Schneider Electric RCBO breaker include:

• Protection of people and equipment from electrical shock and fire hazards
• Prevention of electrical faults and failures
• Compliance with electrical safety regulations and standards
• Reduction of downtime and maintenance costs
• Improved overall electrical system reliability and performance

It's worth noting that the Schneider Electric RCBO breaker is just one example of a residual current breaker with overcurrent protection, and there are many other manufacturers and models available on the market. When selecting an RCBO breaker, it's important to consider factors such as the specific application, electrical system requirements, and local regulations and standards.