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引用次数: 0
摘要
介绍了一种用于电力线通信(D-PLT)的双模收发器设计。我们研究了D- plt的系统架构设计,采用针对电力线信道的高效调制技术,并支持高可靠性,非常适合90至150 kHz的CENELEC B, C和D频段。所提出的D-PLT最终集成到片上系统(SoC)中,综合了所有基带收发器、通道前向纠错(FEC)模块、访问通信协议的微控制器单元(MCU)和模拟前端电路,即前置放大器、增益放大器、数模转换器(DAC)、比较器以及与应用层通信的外部接口。所设计的D-PLT采用混合0.18 um CMOS技术制造,其总面积约为9,576 mm^2,最大数据速率为2.5 kbps,功耗约为148 mW。
SoC Design of a Dual-Mode Transceiver for Power-Line Telecommunications
In this paper, the design of a dual-mode transceiver for a power-line telecommunications (D-PLT) is described. We investigate on designing a system architecture of the D-PLT, adopting an efficient modulation technique against power-line channel and supporting a high reliability, which is well suited for the CENELEC B, C, and D bands roughly from 90 to 150 kHz. The proposed D-PLT is eventually integrated to a system-on-a-chip (SoC), synthesizing all of a baseband transceiver, a channel forward error correction (FEC) module, a micro-controller unit (MCU) to access communication protocols, and analog front end circuits, i.e., a pre-amplifier, a gain-amplifier, a digital-to-analog converter (DAC), a comparator, as well as external interfaces to communicate with application layer. The designed D-PLT is fabricated utilizing a mixed 0.18 um CMOS technology and it is required a total area of about 9,576 mm^2 consuming about 148 mW at the maximum data rates of 2.5 kbps.
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