Your search keyword '"LC compensation circuit"' showing total 3 results

1. Cascaded Boost-Class-E for rotary capacitive power transfer system

Author

Yusmarnita Yusop, Shakir Saat, Zamre Ghani, Huzaimah Husin, Adie M.K, and Sing Kiong Nguang

Subjects

power supplies to apparatus, inductive power transmission, invertors, power convertors, power 7.67 W, frequency 1.0 MHz, power 10.0 W, operating frequency, rotating load, WPT, cascaded boost-class E LCCL, multiple plate rotary CPT prototype, boost converter, rotary capacitive power transfer system design, power transfer efficiency, efficient wireless power transfer, Class-E LCCL rotary CPT system, LC compensation circuit, second-order LC compensation, class-E high-frequency inverter, free rotation, low-power rotary applications, cascaded boost-class-E, Engineering (General). Civil engineering (General), TA1-2040

Abstract

This paper presents a capacitive power transfer (CPT) system design for low-power rotary applications. The aim of a rotary CPT system is to be free of power cables so it can achieve 360 degrees of free rotation, while remaining simple and easy to clean. In this work, a class-E high-frequency inverter with second-order LC compensation is proposed to drive the rotary CPT system. An LC compensation circuit is applied on both stationary and rotating sides in order to maximise the power transfer by increasing the voltage across the coupling plates. By implementing the proposed technique, the Class-E LCCL rotary CPT system that is efficient and less sensitive to load variations can be achieved. A Boost converter is also proposed here to provide input impedance matching and tune the input power of the Class-E LCCL rotary CPT system. A 10 W multiple plate rotary CPT prototype based on cascaded Boost- Class E LCCL is designed and implemented to demonstrate efficient wireless power transfer (WPT) across the rotating load. The results reveal >76% power transfer efficiency is successfully achieved at 1 MHz operating frequency and with 7.67 W output power.

Published

2019

2. Cascaded Boost-Class-E for rotary capacitive power transfer system.

Author

Yusop, Yusmarnita, Saat, Shakir, Ghani, Zamre, Husin, Huzaimah, M.K, Adie, and Kiong Nguang, Sing

Subjects

ENERGY transfer, ELECTRIC inverters, VOLTAGE control, CONVERTERS (Electronics), WIRELESS power transmission

Abstract

This paper presents a capacitive power transfer (CPT) system design for low-power rotary applications. The aim of a rotary CPT system is to be free of power cables so it can achieve 360 degrees of free rotation, while remaining simple and easy to clean. In this work, a class-E high-frequency inverter with second-order LC compensation is proposed to drive the rotary CPT system. An LC compensation circuit is applied on both stationary and rotating sides in order to maximise the power transfer by increasing the voltage across the coupling plates. By implementing the proposed technique, the Class-E LCCL rotary CPT system that is efficient and less sensitive to load variations can be achieved. A Boost converter is also proposed here to provide input impedance matching and tune the input power of the Class-E LCCL rotary CPT system. A 10 W multiple plate rotary CPT prototype based on cascaded Boost- Class E LCCL is designed and implemented to demonstrate efficient wireless power transfer (WPT) across the rotating load. The results reveal >76% power transfer efficiency is successfully achieved at 1 MHz operating frequency and with 7.67 W output power. [ABSTRACT FROM AUTHOR]

Published

2019

3. Cascaded Boost-Class-E for rotary capacitive power transfer system

Author

Huzaimah Husin, Shakir Saat, Sing Kiong Nguang, Yusmarnita Yusop, Adie M.K, and Z. A. Ghani

Subjects

class-E high-frequency inverter, Computer science, 020209 energy, Energy Engineering and Power Technology, multiple plate rotary CPT prototype, ComputerApplications_COMPUTERSINOTHERSYSTEMS, 02 engineering and technology, invertors, frequency 1.0 MHz, Compensation (engineering), low-power rotary applications, rotating load, operating frequency, Control theory, inductive power transmission, WPT, 0202 electrical engineering, electronic engineering, information engineering, boost converter, Maximum power transfer theorem, Wireless power transfer, cascaded boost-class E LCCL, LC compensation circuit, cascaded boost-class-E, power 10.0 W, free rotation, 020208 electrical & electronic engineering, General Engineering, power supplies to apparatus, Input impedance, rotary capacitive power transfer system design, second-order LC compensation, Power (physics), power convertors, power 7.67 W, lcsh:TA1-2040, Boost converter, power transfer efficiency, Inverter, efficient wireless power transfer, Class-E LCCL rotary CPT system, lcsh:Engineering (General). Civil engineering (General), Software, Voltage

Abstract

This paper presents a capacitive power transfer (CPT) system design for low-power rotary applications. The aim of a rotary CPT system is to be free of power cables so it can achieve 360 degrees of free rotation, while remaining simple and easy to clean. In this work, a class-E high-frequency inverter with second-order LC compensation is proposed to drive the rotary CPT system. An LC compensation circuit is applied on both stationary and rotating sides in order to maximise the power transfer by increasing the voltage across the coupling plates. By implementing the proposed technique, the Class-E LCCL rotary CPT system that is efficient and less sensitive to load variations can be achieved. A Boost converter is also proposed here to provide input impedance matching and tune the input power of the Class-E LCCL rotary CPT system. A 10 W multiple plate rotary CPT prototype based on cascaded Boost- Class E LCCL is designed and implemented to demonstrate efficient wireless power transfer (WPT) across the rotating load. The results reveal >76% power transfer efficiency is successfully achieved at 1 MHz operating frequency and with 7.67 W output power.

Published

2019