The 140M C2E B16 Datasheet is an essential document for anyone working with electrical systems requiring robust circuit protection. It provides comprehensive information about the 140M C2E B16 Molded Case Circuit Breaker (MCCB), detailing its specifications, performance characteristics, and application guidelines. Understanding the information contained within this datasheet is crucial for selecting the correct breaker for a specific application and ensuring the safety and reliability of electrical equipment.
Decoding the 140M C2E B16 Datasheet A Deep Dive
The 140M C2E B16 datasheet is essentially a technical manual for the 140M C2E B16 MCCB. It outlines the device’s capabilities, limitations, and proper usage. It’s not just a list of numbers; it’s a guide to ensuring your electrical circuits are protected against overcurrents and short circuits. Accurate interpretation of this datasheet is vital for preventing equipment damage, fire hazards, and personal injury. The datasheet typically includes information such as:
- Rated current (In): The maximum continuous current the breaker can carry without tripping.
- Breaking capacity (Icu, Ics): The maximum fault current the breaker can safely interrupt.
- Voltage rating (Ue): The maximum voltage the breaker is designed to operate at.
- Trip curve: A graph showing the time it takes for the breaker to trip at different overcurrent levels.
- Standards compliance: A list of the international standards the breaker meets (e.g., IEC 60947-2).
MCCBs like the 140M C2E B16 are used in a wide range of applications, from industrial machinery and commercial buildings to residential power distribution. They act as critical safety devices, automatically interrupting the circuit when an overcurrent or short circuit condition is detected. The 140M C2E B16 datasheet helps engineers and technicians determine if this specific breaker is suitable for a given application by providing detailed electrical and mechanical characteristics. For instance, comparing the breaker’s breaking capacity to the prospective fault current at the installation point is a fundamental step in ensuring adequate protection.
Choosing the correct circuit breaker is not a guessing game; it requires careful consideration of the load requirements, fault current levels, and the operating environment. The 140M C2E B16 datasheet provides all the necessary data to make an informed decision. The trip curve is particularly important as it defines how quickly the breaker will react to different overload conditions. Depending on the application, you might need a fast-tripping breaker for sensitive equipment or a slower-tripping breaker to avoid nuisance tripping due to temporary overloads.
To gain a deeper understanding of the 140M C2E B16 MCCB and its capabilities, we encourage you to consult the official 140M C2E B16 Datasheet provided by the manufacturer. It’s your best resource for accurate and reliable information.