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1. EMC Testing: EMC testing is conducted to evaluate the electromagnetic compatibility of communication power equipment to ensure that it meets regulatory requirements and does not interfere with other electronic devices.
2. Electromagnetic Interference (EMI) Testing: EMI testing is performed to assess the levels of electromagnetic interference emitted by the communication power equipment and ensure it does not exceed permissible limits.
3. Radio Frequency (RF) Testing: RF testing is done to measure the radio frequency emissions and susceptibility of communication power equipment to radio frequency interference.
4. Conducted Emissions Testing: Conducted emissions testing evaluates the electromagnetic emissions conducted through cables and connectors from the communication power equipment.
5. Conducted Immunity Testing: Conducted immunity testing assesses the communication power equipment's ability to withstand conducted electromagnetic disturbances present in the environment.
6. Radiated Emissions Testing: Radiated emissions testing measures the electromagnetic emissions radiated by the communication power equipment into the surrounding environment.
7. Radiated Immunity Testing: Radiated immunity testing evaluates the communication power equipment's resistance to electromagnetic disturbances radiated by external sources.
8. Harmonic Emissions Testing: Harmonic emissions testing measures the harmonic distortions generated by the communication power equipment and ensures compliance with relevant standards.
9. Flicker Testing: Flicker testing assesses the visibility of light flicker produced by the communication power equipment and ensures it falls within acceptable limits.
10. Transient Immunity Testing: Transient immunity testing evaluates the communication power equipment's ability to withstand sudden voltage fluctuations and transient disturbances.
11. ESD Testing: Electrostatic discharge (ESD) testing determines the communication power equipment's susceptibility to electrostatic discharges that can affect its performance.
12. Surge Testing: Surge testing evaluates the communication power equipment's resilience to power surges and ensures it can withstand transient high voltage spikes.
13. Power Quality Testing: Power quality testing assesses the quality of the power supply delivered by the communication power equipment and ensures it meets specified standards.
14. Conducted Susceptibility Testing: Conducted susceptibility testing evaluates the communication power equipment's susceptibility to electromagnetic disturbances conducted through power lines.
15. Immunity to Magnetic Fields Testing: Immunity to magnetic fields testing assesses the communication power equipment's resistance to magnetic field interference.
16. Immunity to Electromagnetic Fields Testing: Immunity to electromagnetic fields testing evaluates the communication power equipment's resistance to electromagnetic field disturbances.
17. Electrical Safety Testing: Electrical safety testing verifies that the communication power equipment meets safety standards and does not pose risks to users or other equipment.
18. Environmental Testing: Environmental testing assesses the communication power equipment's performance under various environmental conditions such as temperature, humidity, and vibration.
