IUG6-36832-5 Datasheet/PDFCircuit Breakers
Circuit breakers are a vital component to any electrical system, as they act to protect the electrical system from dangerous and potentially costly situations. The IUG6-36832-5 is a specific type of circuit breaker which is able to handle a variety of applications. As such, it is important to understand its application field and working principle.
Application Field
The IUG6-36832-5 is a circuit breaker that is particularly applicable to motor drive systems. It is mainly used to protect motor drive and other related electrical systems from overcurrents and short-circuit current. Additionally, the IUG6-36832-5 is equipped with an alarm relay, which can be used to provide an alarm signal when the circuit is broken due to an overcurrent.
Furthermore, the IUG6-36832-5 is able to be integrated into most control systems. It is also able to be used with a variety of control systems, making it easier to integrate into existing systems. This makes it suitable for a variety of industries and applications, including industrial, commercial and residential.
Working Principle
The IUG6-36832-5 circuit breaker operates on a thermal-magnetic principle. This means that the current flowing through the circuit breaker is monitored by an internal sensor which measures the temperature of the circuit breaker. If the temperature of the circuit breaker rises beyond the set threshold, it will activate the circuit breaker\'s thermal component and trip the circuit.
Meanwhile, the IUG6-36832-5\'s magnetic component works by monitoring the current passing through the circuit breaker. If the current exceeds the set threshold, the magnetic component will trigger and trip the circuit. The two components, the thermal and the magnetic, work together to protect the circuit from overcurrent and short-circuits.
Conclusion
The IUG6-36832-5 is a circuit breaker which is highly suitable for motor drive applications. It has an alarm relay, allowing it to provide an alarm signal when an overcurrent trips the circuit. It also has a thermal-magnetic working principle which ensures that it can protect the circuit from overcurrent and short-circuits.