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引用次数: 33
摘要
本文介绍了数字通信系统和BPSK调制解调的理论背景。本次设计的目的是BPSK系统。BPSK调制解调是一种重要的信号功率调制技术。BPSK系统使用Matlab/ Simulink环境和system Generator (Xilinx用于FPGA设计的工具)进行仿真,并在两块Spartan 3E Starter Kit板上实现。第一块板作为调制器,第二块作为解调器。在Xilinx ISE 12.3平台上使用VHDL语言在FPGA上实现了调制器和解调算法。主板的本地时钟振荡器为50mhz,对应的周期为20ns。BPSK载波的频率为31,250 kHz。对调制器和解调器进行了设计和仿真,并通过测量对其性能进行了评价。
The paper presents a theoretical background overview of the digital communication systems and the BPSK modulation and demodulation. The purposed design is the BPSK system. The BPSK modulation and demodulation represents an important modulation technique in terms of signal power. The BPSK system is simulated using Matlab/ Simulink environment and System Generator, a tool from Xilinx used for FPGA design as well as implemented on two Spartan 3E Starter Kit boards. The first board behaves as a modulator and the second as a demodulator. The modulator and demodulator algorithms have been implemented on FPGA using the VHDL language on Xilinx ISE 12.3. The local clock oscillator of the board is 50 Mhz which corresponds with a period of 20 ns. The frequency of the BPSK carrier is 31,250 kHz. Both, the modulator and demodulator, have been designed and simulated and theirs performances were evaluated by measurements.
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