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Pulse Power Supply With Faster Response and Low Ripple Current Using Inductive Storage and Interleaving Technology

Zhibao Yuan

2020CPSS Transactions on Power Electronics and Applications17 citationsDOIOpen Access PDF

Abstract

Switched mode pulse power supply is a promising technique for high-power quasi-continuous laser driver. Contrast to lossy linear laser drivers, switched mode laser drivers can achieve higher efficiency. However, many challenges have been proposed, such as fast pulse edge, low current ripple. This paper proposes a multiphase interleaved pulse power supply with energy recovery and inductive storage (MIEF-PPS). The basic concept of the topology is the inclusion of a multiphase converter with pulse forming circuits to the converter system, which decouples the current slew rate and current ripple. Using an inductive storage technology and pulse forming circuits, a shorter pulse current rising time is obtained. The inductor energy is fed back to the input source not discharged to the load, resulting in a fast pulse trailing edge and energy saving. Thus the pulse current response observed when using this proposed technique is found to be much faster when compared to the conventional interleaved buck driver. Moreover, a pre-charge method is proposed to overcome the challenge of digitally controlling the inductive storage. The proposed topology was simulated in MATLAB/Simulink and validated against the experimental results of a laboratory prototype, 360 W dual-interleaved pulsed power supply.

Topics & Concepts

RippleInterleavingPulsed powerElectronic engineeringBuck converterElectronic circuitInductorComputer sciencePulse-width modulationPower (physics)Energy storageElectrical engineeringVoltageEngineeringPhysicsQuantum mechanicsLaser Design and ApplicationsElectromagnetic Launch and Propulsion TechnologyOcular and Laser Science Research
Pulse Power Supply With Faster Response and Low Ripple Current Using Inductive Storage and Interleaving Technology | Litcius