摘要微波功率放大器在卫星通讯、导航、电子对抗、雷达、无线通信设备等系统中有非常广阔的应用,是现代无线通信的关键设备。高输出功率、高效率、高增益和高线性度的微波功率放大器可以广泛应用于移动通信的基站和数字发射机以及军事技术领域中。第三代移动通信(3G)技术是当前国际通信领域的热点。65556
为了设计频率在为1.6GHz的大功率、高增益、高效率的微波功率放大器,本文从理论方面对放大器的设计进行研究。基于NEC公司的UPC1677B和富士通公司的FLL351ME、FLL200IB-1三个器件设计了一个三级L波段微波功率放大器,其工作频率为1.6GHz,输出功率为10W(40dBm),增益不小于40dB。应用ADS软件构建了输入输出网络的匹配电路,并对电路的S参数进行了仿真。仿真结果表明:在工作频率为1.6GHz时,设计的功率放大器增益大于40dB。
毕业论文关键词 L波段 功率放大器 S参数 匹配电路
毕业设计说明书(论文)外文摘要
Title Design and Simulation of Microwave Power Amplifier
Abstract
Microwave power amplifier in satellite communications, navigation, electronic countermeasures, radar, wireless communications equipment in the system has very wide application, is the key to modern wireless communication equipment. High output power, high efficiency, high gain and high linearity of the microwave power amplifier can be widely used in mobile communication base station and in the field of digital transmitter and military technology. The third generation mobile communication (3G) technology is a hotspot in the field of current international communication.
In order to design frequency in the 1.6 GHz microwave power amplifier of high power, high gain, high efficiency, this article from the aspects of theory study of the design of the amplifier. UPC1677B based on NEC and Fujitsu FLL351ME, FLL200IB - 1 three components to design a three-stage L-band microwave power amplifier, its working frequency is 1.6 GHz, the output power of 10W (40dBm) , the gain is not less than 40 dB. Application online ADS software to construct the input and output matching circuit, and the circuit of S parameters are simulated. The simulation results show that the working frequency of 1.6 GHz, the design of power amplifier gain more than 40 dB.
Keywords L-band Power amplifier S parameters Matching circuit
目 次
1 引言 1
1.1 微波功率放大器的应用 1
1.2 微波功率放大器的研究进展 2
1.3 本课题研究内容及工作安排 4
2 微波功率放大器的设计基础 5
2.1 微波功率放大器的技术指标 5
2.2 匹配网络设计 12
2.3 稳定性 14
2.4 本章小结 14
3 微波功率放大器的设计 15
3.1 微波功率放大器的电路设计 15
3.2 获得最佳阻抗值的方法 17
3.3 本章小结 18
4 L波段功率放大器的设计