The Eaton CE16600H01 Rev No 1.3 GOT is a high-end industrial device known for its efficiency, durability and advanced features in power distribution systems. Eaton, a global leader in electrical systems, developed the CE16600H01 to meet the stringent requirements of industries that rely on reliable power management. This article provides a detailed overview of the Eaton CE16600H01 Rev No 1.3 GOT, its features and role in industrial applications.
What is Eaton CE16600H01 Rev No 1.3 GOT?
The Eaton CE16600H01 Rev No 1.3 GOT is a molded case circuit breaker (MCCB), specially designed for advanced power control systems. It provides protection to electrical circuits by limiting the risk of overcurrent, short circuits and other electrical hazards. “Rev No 1.3” refers to the revision number, meaning it is an updated and improved version of the previous models. This revision offers enhancements that improve the performance, security, and adaptability of the product in various environments.
The term “GOT” stands for general operation and termination, representing the ease with which the unit can be operated and maintained. The circuit breaker integrates advanced tripping functions, modular design and easy connection options, making it highly versatile and reliable in industrial and commercial environments.
Key Features Eaton CE16600H01 Rev No 1.3 GOT
The Eaton CE16600H01 Rev No 1.3 GOT is equipped with a number of state-of-the-art features that increase its performance and reliability. Below are some of the key features:
1. High interrupt capacity
One of the primary functions of an MCCB is to interrupt excessive electrical current to prevent damage to the circuit. The Eaton CE16600H01 is designed with a high breaking capacity that ensures it can handle large overvoltages or short circuits without issue. This is critical in industrial environments where heavy machinery is used and robust protection is required.
2. Advanced protection features
CE16600H01 Rev No 1.3 The GOT contains advanced electronic trigger units that can be modified to provide custom protection settings. This includes settings for long time delay, short time delay, instant shutdown and ground protection. This flexibility ensures that the circuit breaker can be tailored to the specific needs of the electrical system it protects.
3. Modular design
Modularity is a significant advantage in industrial applications as it allows for easier maintenance, upgrades and replacements. The Eaton CE16600H01 Rev No 1.3 GOT is designed with replaceable components that allow quick setup without having to replace the entire fuse unit. This saves time and costs in the long run, especially in critical operational environments.
4. Compact and durable construction
Despite its advanced functionality, the Eaton CE16600H01 has a compact design, making it suitable for installations with limited space. Its robust construction ensures durability even in harsh environments, including high temperatures, dust and vibration. This durability extends the life of the circuit breaker and reduces the need for frequent maintenance or replacement.
5. Improved security features
Safety is paramount in any electrical system and the CE16600H01 Rev No 1.3 GOT incorporates several safety mechanisms to protect both the equipment and the operator. These include arc fault detection to help prevent electrical fires and mechanical interlocks to prevent accidental activation during maintenance.
6. Versatile mounting options
The Eaton CE16600H01 can be mounted in a variety of orientations, including horizontal and vertical. This flexibility is beneficial for engineers designing custom control panels and power systems, as it allows the circuit breaker to fit into a wide variety of settings.
7. Wide range of applications
This model is designed for use in a variety of applications, including industrial plants, commercial buildings and even renewable energy installations. Its versatility stems from its ability to handle a wide range of currents and its compatibility with both AC and DC systems.
8. User friendly interface
CE16600H01 Rev No 1.3 The GOT features an intuitive interface that makes it easy for operators to monitor and operate the circuit breaker. Status indicators and alarms alert users to potential problems and allow them to take corrective action before failure occurs. The circuit breaker can also be integrated into building management systems for remote monitoring and control.
Application Eaton CE16600H01 Rev No 1.3 GOT
Eaton CE16600H01 Rev No 1.3 GOT is widely used in various industries due to its reliability, safety and flexibility. Here are some of the primary applications:
1. Industrial plants
In industries such as manufacturing, mining, and petrochemicals, large electrical loads are common. CE16600H01 provides the necessary protection of machines and equipment against overcurrent and short circuits and ensures the safety and long life of the systems.
2. Commercial buildings
In large commercial buildings, maintaining a reliable electrical system is critical to business continuity. The CE16600H01 circuit breaker helps protect critical electrical infrastructure such as HVAC systems, elevators, and lighting from electrical failures.
3. Renewable energy systems
As renewable energy sources become more widespread, there is a need for circuit breakers that can handle variable loads and different energy sources. The Eaton CE16600H01 can be used in solar systems and wind turbines to protect inverters and other electrical components from damage due to electrical anomalies.
4. Data centers
Data centers rely on uninterruptible power supplies to keep servers running efficiently. The CE16600H01 is ideal for such environments due to its high reliability and advanced protection features that ensure data center operations are protected from power outages.
5. Transport infrastructure
Transportation systems such as railways, subways and airports also benefit from the Eaton CE16600H01. These systems require robust electrical protection to ensure the smooth operation of essential services such as signaling, lighting and security systems.
Installation and Maintenance Eaton CE16600H01 Rev No 1.3 GOT
Installing the Eaton CE16600H01 is a simple process thanks to its modular design and flexible mounting options. However, it is essential to follow Eaton’s instructions to ensure correct and safe operation of the circuit breaker.
1. Installation instructions
- Proper sizing: Make sure the circuit breaker is properly sized for the current it will protect.
- Environmental conditions: Consider the operating environment such as temperature and humidity to prevent premature wear.
- Space and ventilation: Leave enough space around the circuit breaker for heat dissipation.
2. Maintenance Tips
- Routine Inspections:
- Regular inspections should be carried out to check for wear, overheating, or any signs of damage.
- Testing: Periodically test the trip functions to ensure they are working correctly.
- Component Replacement: If a component shows signs of wear, replace it immediately to prevent further damage.
Why Choose Eaton CE16600H01 Rev No 1.3 GOT?
Eaton is a trusted name in the field of power management, and the CE16600H01 Rev No 1.3 GOT continues the company’s tradition of providing high-quality, reliable products. This breaker is an excellent choice for industries that require robust protection and operational flexibility. It offers a combination of advanced technology, safety, and ease of use, making it a versatile tool in modern electrical systems.
By choosing Eaton’s CE16600H01 Rev No 1.3 GOT, industries can reduce downtime, ensure the safety of their equipment, and improve overall operational efficiency. Whether it’s for a small commercial building or a large industrial complex, this breaker provides the necessary protection and control for a wide range of electrical systems.
Final Thought
The Eaton CE16600H01 Rev No 1.3 GOT stands as a reliable and efficient solution for industrial automation, offering enhanced control, real-time monitoring, and user-friendly interfaces. Its advanced capabilities make it a valuable asset in optimizing operational performance and ensuring seamless management of complex automation systems across industries.
