The Relationship of Signal Processing, Communication Technologies and RF Circuit Design and the Impact on the Future of RF and Microwave Education

2006 International Conference on Microwaves, Radar & Wireless Communications Pub Date : 2006-05-22 DOI:10.1109/MIKON.2006.4345406
M. Steer
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Abstract

Radio frequency engineering and hence RF and microwave education have traditionally been based on the assignment of narrow bands of the electromagnetic spectrum. As well, signals have usually been described appropriately using discrete tones. Today digitally-modulated signal are most commonly used to transmit RF signals and the bandwidth of communication channels is broadening. The broadening is taken to the limit with proposed Ultra Wideband systems. The next generation of RF and microwave hardware engineers must have an appreciation for the complexities of signals and be grounded in wideband design.
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信号处理、通信技术与射频电路设计的关系及其对射频和微波教育未来的影响
射频工程以及RF和微波教育传统上都是基于电磁频谱的窄带分配。同样,信号通常被恰当地用离散音调来描述。目前,最常用的是数字调制信号来传输射频信号,通信信道的带宽也在不断拓宽。在提出的超宽带系统中,扩宽已经达到了极限。下一代射频和微波硬件工程师必须了解信号的复杂性,并以宽带设计为基础。
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2006 International Conference on Microwaves, Radar & Wireless Communications
2006 International Conference on Microwaves, Radar & Wireless Communications
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