Author(s)

Kumaraswami Sundararaman, Mahadevan Gopalakrishnan

Electrical & Electronics Engineering Department, Sri Venkateswara College of Engineering, Sriperumbudur, India.

This paper proposes a triple output converter with buck, boost and inverted outputs and controlled through duty cycle estimation. In the existing converter, to generate the negative output, the power flows from load to the supply (from the boost output to the supply) during a part of the cycle, which increases cycle time and losses, and reduces the power level. To overcome this, a modified converter with a main and an auxiliary inductance and with reduced number of switches is proposed. The converter can operate in continuous and discontinuous conduction modes and the outputs can be independently controlled. An analysis of the converter is done for both modes. A simplified control of the converter through duty cycle estimation is suggested to regulate the outputs, which does not have the constraint that the current ripple has to be small. The control works both in the continuous and discontinuous modes. The simulation results closely match with the analysis. A prototype of the converter is constructed with a Spartan FPGA system and results have been presented.

Multi-Output, Dual Output, DC-DC Converter, Predictive Control, Bi-Polar

Sundararaman, K. and Gopalakrishnan, M. (2016) A Bi-Polar Triple-Output Converter with Duty Cycle Estimation. Circuits and Systems, 7, 198-210. doi: 10.4236/cs.2016.74019.