高速红外无线通信系统的低功耗结构

Proceedings of 1997 International Symposium on Low Power Electronics and Design Pub Date : 1997-08-01 DOI:10.1145/263272.263347

H. Uno, K. Kumatani, H. Okuhata, I. Shirakawa, T. Chiba

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引用次数: 3

摘要

针对移动计算专用的4mbps红外无线通信系统，设计了一种高性能、低功耗的系统架构。在该结构中，红外接收机检测到的4PPM(4脉冲位置调制)红外信号被数字化为TTL接口电平脉冲，数字化后的脉冲由1位数字解调器解调。为了扩大链路长度的范围，合成了一个4PPM的解调器，实现了一种适应红外接收机输出公差的解调算法。实验结果表明，所提出的4 Mbps红外通信系统在发射和接收功耗分别为245 mW和65 mW的情况下，可以实现0 ~ 140 cm范围内的无差错链路。通信控制器集成在0.6 /spl mu/m CMOS标准单元芯片中，该芯片在12 mm/sup / 2的芯片上包含10015个晶体管。

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Low power architecture for high speed infrared wireless communication system

A high performance and low power architecture is devised for a 4 Mbps infrared wireless communication system dedicated to mobile computing. In this architecture 4PPM (4-Pulse Position Modulation) infrared signals detected by an infrared receiver are digitized into TTL interface level pulses, and the digitized pulses are demodulated by a 1-bit digital demodulator. To extend the range of the link length, a 4PPM demodulator is synthesized to implement a demodulation algorithm which is constructed so as to accommodate the output tolerance of the infrared receiver. A experimental results show that the proposed 4 Mbps infrared communication system can achieve an error free link in the range of 0-140 cm at power consumption of 245 mW and 65 mW for transmitting and receiving, respectively. The communication controller is integrated in a 0.6 /spl mu/m CMOS standard-cell chip, which contains 10,015 transistors on a 12 mm/sup 2/ die.

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Proceedings of 1997 International Symposium on Low Power Electronics and Design

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