一个带有POCSAG解码器和分页应用微控制器的CSIC实现

J. Y. Lim, G. Kim, O. I.-S., J. Cho, Y. Kim, H. Kim
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引用次数: 0

摘要

本文提出了一种CSIC(客户规格集成电路)实现方案,该方案包括512/1200/2400 bps POCSAG解码器、PDI2400和由PANTECH更改的MC68HC05。它可以以76.8 KHz的单时钟速率512/1200/2400 bps接收所有数据。它被设计为最多有2个自己的帧以增强服务。为了提高接收机质量,建议采用考虑频率容限的前导检测和每4位同步码字(SCW)检测。此外,我们还考虑了地址和消息的纠错高达2位。此外,当检测到带有噪声的前导信号时,由于RF电路的关断,提出的PF(前置频率)误差有可能实现电池寿命的增加。该芯片采用PDI2400微架构级的VHDL代码进行设计。用PowerView的VHDL仿真软件对其进行了验证。利用PowerView的VHDL合成软件对其逻辑图进行了合成。本文提出的解码器和摩托罗拉的MC68HC05 CPU采用1.0 /spl mu/m HCMOS工艺集成了约88000个晶体管,命名为MC68HC05PD6。通过实际的现场测试证明,采用该芯片的寻呼机系统显著降低了噪声序文的错误检测次数。与现有系统相比,系统接收性能提高了20%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A CSIC implementation with POCSAG decoder and microcontroller for paging applications
This paper presents a CSIC (Customer Specification Integrated Circuit) implementation, which includes a 512/1200/2400 bps POCSAG decoder, PDI2400 and MC68HC05 changed by PANTECH. It can receive all the data with the rate of 512/1200/2400 bps of a single clock of 76.8 KHz. It is designed to have maximum 2 own frames for service enhancement. To improve receiver quality, a preamble detection considering frequency tolerance and a SCW (Synchronization Code Word) detection at every 4 bit is suggested. Also we consider an error correction of address and message up to 2 bits. Furthermore, it is possible with proposed PF (Preamble Frequency) error to achieve a battery life increase due to the turn-off of RF circuits when the preamble signal is detected with noises. The chip is designed using VHDL code from PDI2400 micro-architecture level. It is verified with VHDL simulation software of PowerView. Its logic diagrams are synthesized with VHDL synthesis software of PowerView. Proposed decoder and MC68HC05 CPU of MOTOROLA are integrated with about 88000 transistors by using 1.0 /spl mu/m HCMOS process and named MC68HC05PD6. It is proved that the wrong detection numbers of preamble of noises are significantly reduced in the pager system that uses our chip through the real field test. The system receiving performance is improved by 20% of average, compared with other existing systems.
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