Zili Xu scite author profile

In order to clarify the contact welding failure mechanism of DC electromagnetic relay, a series of electrical endurance tests are carried out with the use of silver tin oxide material under resistive and capacitive load conditions. The typical waveforms of contact voltage and contact current during making and breaking resistive load and capacitive load (load capacitance of 1mF, 1.5mF, 2mF and 2.5mF) are obtained by the designed model switch. Further, the variations of sensitive electrical parameters such as bounce energy, contact resistance, static contact force and break arc energy during electrical endurance test are analyzed explicitly. It is found that the variations in sensitive electrical parameters is closely related to the electrical load type. In particular, under the capacitive load conditions, the sharp increase of each sensitive electrical parameter in the end of lifetime prognosticates the dynamic welding failure of silver tin oxide contact material. Finally, with the help of SEM (Scanning Electron Microscope) pictures of failed contacts, the surface erosion features of contact materials are mainly determined by the competition between the cathode arc and the anode arc. And the material transfer and distribution are the root reason for the contact welding failure of DC electromechanical relays.INDEX TERMS Arc erosion, capacitive load, contact welding, resistive load, silver tin oxide material.

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Study on Switching Characteristics and Associated Degradation Mechanism of Contact Material Under Capacitive Load

Ren

Wang

et al. 2018

IEEE Trans. Compon., Packag. Manufact. Technol.

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Zili Xu

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An Experimental Investigation of Dynamic Welding Mechanism of Contacts Used in Low Current Switching Devices

Experimental Investigation of Contact Welding Characteristics of Electromechanical Relays

Effect of Electrical Load on Contact Welding Failure of Silver Tin Oxide Material Used in DC Electromechanical Relays

Study on Switching Characteristics and Associated Degradation Mechanism of Contact Material Under Capacitive Load

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