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Vaal University of Technology

Development of a universal bidirectional galvanic isolated switch module for power converter applications Kopano Mokhalodi. Vaal University of Technology. Energy Postgraduate Conference 2013. Outline. Introduction Objectives Structure and operation Electrical characteristics

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Vaal University of Technology

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  1. Development of a universal bidirectional galvanic isolated switch module for power converter applicationsKopanoMokhalodi Vaal University of Technology Energy Postgraduate Conference 2013

  2. Outline • Introduction • Objectives • Structure and operation • Electrical characteristics • Testing and results • Conclusion

  3. Objectives • Development of a switch module that can be used to implement control algorithms in experimental setups without having any interface problems between the control circuit and the conversion topology. • Usable in both DC and AC converter applications.

  4. Structure with Floating voltage supply technique • Capable supplying a continuous (DC) output of either polarity for Pulse Width Modulation (PWM) applications. • Easy and cheap to construct, low drive impedance to achieve high switching performance. • Prevents interference between power stage and control.

  5. Electrical characteristics of the module Dead-time Control circuit Power Converter Switch module

  6. Gate and drain-to-source voltage signals Gate voltage Gate voltage Drain output voltage Drain output voltage

  7. DC practical results Steps down voltage 10 - 30 V to 5 V, Dead-time

  8. AC converter results at 30 % duty cycle The rms output voltage is given as k ≡ duty cycle

  9. Conclusion The switch module has over-come the problem of interfacing the control with the power stage. From the results obtained the prototype module proved to be able to be used both in DC and AC applications. Students involved in other power converters will be able to use this module.

  10. Thank you

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