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

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.

[1]  L. Germer,et al.  Physical Processes in Contact Erosion , 1958 .

[2]  J.W. McBride,et al.  Electrical contact bounce in medium duty contacts , 1988, Electrical Contacts, 1988., Proceedings of the Thirty Fourth Meeting of the IEEE Holm Conference on Electrical Contacts.

[3]  A.R. Neuhaus,et al.  Influence of electrical and mechanical parameters on contact welding in low power switches , 2004, IEEE Transactions on Components and Packaging Technologies.

[4]  K. Sawa,et al.  Effect of arc behavior on material transfer: a review , 1996, Electrical Contacts - 1996. Proceedings of the Forty-Second IEEE Holm Conference on Electrical Contacts. Joint with the 18th International Conference on Electrical Contacts.

[5]  Xiaohong Yang,et al.  Arc erosion behaviors of AgSnO2 contact materials prepared with different SnO2 particle sizes , 2016 .

[6]  Paul G. Slade,et al.  Electrical contacts : principles and applications , 1999 .

[7]  Z. K. Chen,et al.  Electrical Contacts for Automotive Applications: A Review , 2004 .

[8]  D. Fitzgerald,et al.  Arc Affected Surface Composition Changes in Silver Tin Oxide Contacts , 2008, 2008 Proceedings of the 54th IEEE Holm Conference on Electrical Contacts.

[9]  Paul G. Slade,et al.  Opening Electrical Contacts: The Transition from the Molten Metal Bridge to the Electric Arc , 2010, IEICE Trans. Electron..

[10]  G. Witter Dynamic Welding Resistance of Silver and Silver Metal Oxides , 1998 .

[11]  F. Berger,et al.  Investigation on Contact Resistance Behavior of Switching Contacts Using a Newly Developed Model Switch , 2018, IEEE Transactions on Components, Packaging and Manufacturing Technology.

[12]  D. Jeannot,et al.  Make arc erosion and welding in the automotive area , 1999, Electrical Contacts - 1999. Proceedings of the Forty-Fifth IEEE Holm Conference on Electrical Contacts (Cat. No.99CB36343).

[14]  N. K. Myshkin,et al.  Electrical Contacts: Fundamentals, Applications and Technology , 2006 .

[17]  J. McBride,et al.  The erosion and arc characteristics of Ag/CdO and Ag/SnO/sub 2/ contact materials under DC break conditions , 1996 .

[18]  Guangcheng Ma,et al.  Surge load experiment design and results analysis of relay , 2015, 2015 IEEE 61st Holm Conference on Electrical Contacts (Holm).

[19]  A.R. Neuhaus,et al.  The influence of kinetic parameters on failure mechanisms caused by material transfer , 2004, Proceedings of the 50th IEEE Holm Conference on Electrical Contacts and the 22nd International Conference on Electrical Contacts Electrical Contacts, 2004..

[20]  Koichiro Sawa,et al.  Contact erosion patterns of Pd material in DC breaking arcs , 1993, Proceedings of IEEE Holm Conference on Electrical Contacts.

[21]  K. E. Saeger,et al.  An advanced silver/tin oxide contact material , 1993, Proceedings of IEEE Holm Conference on Electrical Contacts.