Safety test procedure for rotating electrical connectors
Posted: Thu Feb 13, 2025 7:13 am
In the medical industry, a number of tests are performed to ensure the safety and reliability of equipment and components. For rotating electrical connectors, common test items and methods include:
Electrical Continuity Test: To test the connector’s ability to maintain a stable electrical connection during rotation to ensure there is no open circuit or short circuit.
Insulation Test: To measure the resistance of the insulating material inside the connector to ensure it can withstand a specified voltage and prevent current leakage.
Application Voltage Test: To apply a high voltage to peru number data the connector to detect its insulating performance and to ensure there is no breakdown under high voltage.
Ground Continuity Test: To ensure the connection between the connector’s grounding terminal and the device’s housing meets established standards to protect the user from electrical shock.
Electromagnetic Compatibility (EMC) Test: To evaluate the connector’s performance under electromagnetic interference conditions, including radiated and conducted emissions tests.
Biocompatibility Test: If the connector material will be in direct contact with the patient, biocompatibility testing is required to ensure there are no harmful effects on the human body.
Electrical Continuity Test: To test the connector’s ability to maintain a stable electrical connection during rotation to ensure there is no open circuit or short circuit.
Insulation Test: To measure the resistance of the insulating material inside the connector to ensure it can withstand a specified voltage and prevent current leakage.
Application Voltage Test: To apply a high voltage to peru number data the connector to detect its insulating performance and to ensure there is no breakdown under high voltage.
Ground Continuity Test: To ensure the connection between the connector’s grounding terminal and the device’s housing meets established standards to protect the user from electrical shock.
Electromagnetic Compatibility (EMC) Test: To evaluate the connector’s performance under electromagnetic interference conditions, including radiated and conducted emissions tests.
Biocompatibility Test: If the connector material will be in direct contact with the patient, biocompatibility testing is required to ensure there are no harmful effects on the human body.