A very simple analog control for QSW-ZVS source/sink buck converter with seamless mode transition
Publication date:
Editorial:
IEEE
Abstract:
A simple, analog, control circuit is proposed for seamless transition between source and sink modes in a Quasi- Square-Wave Zero Voltage Switching (QSW-ZVS) source/sink buck converter. The inductor current is controlled by a variablewidth hysteretic current mode control. The upper and lower bounds of the hysteretic band are clamped to ensure QSWZVS operation with a single current command from the control loop and independently from the power flow direction. This enables the control of any PWM converter able to operate in QSW-ZVS with a single control loop. If the proposed circuit is used, using a complex multi-mode or look-up-table based digital control is no longer required, simplifying the implementation and lowering the cost of the converter. A 50 W buck converter is built to demonstrate the proposed control circuit and experimental measurements are shown to verify its correct operation
A simple, analog, control circuit is proposed for seamless transition between source and sink modes in a Quasi- Square-Wave Zero Voltage Switching (QSW-ZVS) source/sink buck converter. The inductor current is controlled by a variablewidth hysteretic current mode control. The upper and lower bounds of the hysteretic band are clamped to ensure QSWZVS operation with a single current command from the control loop and independently from the power flow direction. This enables the control of any PWM converter able to operate in QSW-ZVS with a single control loop. If the proposed circuit is used, using a complex multi-mode or look-up-table based digital control is no longer required, simplifying the implementation and lowering the cost of the converter. A 50 W buck converter is built to demonstrate the proposed control circuit and experimental measurements are shown to verify its correct operation
Description:
2018 IEEE 19th Workshop on Control and Modeling for Power Electronics (COMPEL), 25-28 junio, Padua (Italia)
ISBN:
Patrocinado por:
Este trabajo ha sido financiado por el Ministerio de Economía a través de del proyecto MINECO-13-DPI2013-47176-C2-2-R, y el Gobierno del Principado de Asturias a través del proyecto SV-PA-17-RIS3-4, la beca "Severo Ochoa" BP14-085 y los fondos FEDER