Transceiver Macro with Spread-Spectrum Clocking Capability for AC-Coupled Cable Interfaces
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概要
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A transceiver macro for high-speed data transmission via cable in vehicles is proposed. The transceiver uses ac coupling and bidirectional interface topology for protecting LSIs against unexpected short of cable and harness/chassis and has a spread-spectrum-clocking (SSC) generator that reduces noise due to electromagnetic interference. A driver current control has been used for fast switching of data direction on accoupled interfaces. An adaptive bandwidth control has been used in a ΔΣ PLL to improve SCC significantly. A test chip has been fabricated and shows stable and bi-directional data communication with data rate of 162 to 972 Mbps through 20-m cable. Thanks to an optimum calibration of the SSC-PLL bandwidth, it reduces peak power at 33kHz by -23dB and provides 2% modulation at a data rate of 810Mbps.
- 2008-09-01
著者
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YOSHIKAWA Takefumi
Department of Computer Science and Systems Engineering, Kobe University
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Komatsu Yoshihide
Matsushita Electric Industrial Co. Ltd.
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Hirata Takashi
Matsushita Electric Industrial Co. Ltd.
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EBUCHI Tsuyoshi
Matsushita Electric Industrial Co. Ltd.
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Yoshikawa Takefumi
Department Of Computer Science And Systems Engineering Kobe University
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KOMATSU Yoshihide
Matsushita (Panasonic)
関連論文
- Current-Mode Transceiver with Nonfeedback Clock Recovery Capability for Mobile Applications
- Transceiver Macro with Spread-Spectrum Clocking Capability for AC-Coupled Cable Interfaces
- Substrate-Noise and Random-Variability Reduction with Self-Adjusted Forward Body Bias(Digital,Low-Power, High-Speed LSIs and Related Technologies)