Key terms related to isolation switches
1. Safety - Isolation switches are designed to ensure that circuits are completely de-energized during maintenance or inspection, protecting the safety of the operators.
2. Power Isolation - The primary function of an isolation switch is to physically disconnect the power supply to prevent the flow of electrical current.
3. Non-Breaking Capability - Unlike circuit breakers, isolation switches cannot break current when under load; they are operated only when the circuit is de-energized.
4. Operation Type - Isolation switches can be operated manually or electrically.
5. Installation Location - They are typically installed in easily accessible areas of electrical equipment for quick power disconnection.
6. Usage - Used in both high-voltage and low-voltage circuits, widely applied in industrial, commercial, and residential settings.
7. Rated Current - Indicates the maximum current that the isolation switch can safely handle.
8. Voltage Rating - Represents the maximum voltage that the isolation switch can withstand.
9. Compliance with Standards - Isolation switches need to meet international and regional safety standards, such as IEC and ANSI.
10. Visible Disconnection - The design of isolation switches usually allows operators to visually confirm the disconnection status to ensure safety.
These key terms help provide a comprehensive understanding of the design, function, and safety requirements of isolation switches. For more detailed information, you can refer to professional literature on electrical equipment and circuit safety.