Applying pcb configuration to wireless mouse power

Chao Shui Lin; Tsung Jung Li; Shih Chang Chen; Yi Nung Chung; Tsair Rong Chen

Applying pcb configuration to wireless mouse power

Chao Shui Lin, Tsung Jung Li, Shih Chang Chen, Yi Nung Chung, Tsair Rong Chen

Department of Electrical Engineering

Research output: Contribution to journal › Article

Abstract

This paper discusses the printed circuit board (PCB) winding of the contact-less power transmission system compared with the traditional transformer power transmission system. In this study, the contactless power transmission system is successfully applied to the wireless mouse for stable power supply. To examine the feasibility of the proposed system in this paper, a contactless power transmission system is developed with 10 W of contactless coupling transformer in primary input power and 0.2 W of secondary output power, which are about 2% efficiency. However, the design of contactless power supply for wireless mouse can be used under the mouse pad to decrease battery consumption and reach the purpose of energy saving, carbon reduction and environmental protection.

Original language	English
Pages (from-to)	89-94
Number of pages	6
Journal	ICIC Express Letters, Part B: Applications
Volume	2
Issue number	1
Publication status	Published - 2011 Feb 1

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All Science Journal Classification (ASJC) codes

Computer Science(all)

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Lin, C. S., Li, T. J., Chen, S. C., Chung, Y. N., & Chen, T. R. (2011). Applying pcb configuration to wireless mouse power. ICIC Express Letters, Part B: Applications, 2(1), 89-94.

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abstract = "This paper discusses the printed circuit board (PCB) winding of the contact-less power transmission system compared with the traditional transformer power transmission system. In this study, the contactless power transmission system is successfully applied to the wireless mouse for stable power supply. To examine the feasibility of the proposed system in this paper, a contactless power transmission system is developed with 10 W of contactless coupling transformer in primary input power and 0.2 W of secondary output power, which are about 2% efficiency. However, the design of contactless power supply for wireless mouse can be used under the mouse pad to decrease battery consumption and reach the purpose of energy saving, carbon reduction and environmental protection.",

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N2 - This paper discusses the printed circuit board (PCB) winding of the contact-less power transmission system compared with the traditional transformer power transmission system. In this study, the contactless power transmission system is successfully applied to the wireless mouse for stable power supply. To examine the feasibility of the proposed system in this paper, a contactless power transmission system is developed with 10 W of contactless coupling transformer in primary input power and 0.2 W of secondary output power, which are about 2% efficiency. However, the design of contactless power supply for wireless mouse can be used under the mouse pad to decrease battery consumption and reach the purpose of energy saving, carbon reduction and environmental protection.

AB - This paper discusses the printed circuit board (PCB) winding of the contact-less power transmission system compared with the traditional transformer power transmission system. In this study, the contactless power transmission system is successfully applied to the wireless mouse for stable power supply. To examine the feasibility of the proposed system in this paper, a contactless power transmission system is developed with 10 W of contactless coupling transformer in primary input power and 0.2 W of secondary output power, which are about 2% efficiency. However, the design of contactless power supply for wireless mouse can be used under the mouse pad to decrease battery consumption and reach the purpose of energy saving, carbon reduction and environmental protection.

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Applying pcb configuration to wireless mouse power

Abstract

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All Science Journal Classification (ASJC) codes

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