有效的实现正交调幅发射机

Proceedings. IEEE International Multi Topic Conference, 2001. IEEE INMIC 2001. Technology for the 21st Century. Pub Date : 2001-12-28 DOI:10.1109/INMIC.2001.995332

F. M. Kashif, W. Qadeer, S.I. Shah

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引用次数: 8

摘要

正交调幅(QAM)广泛应用于高速调制解调器等数字通信系统中。通过使用更大的星座来提高数据速率，给数字通信系统带来了一场革命。因此，在软件和硬件方面都需要有效的QAM实现技术。本文提出了一种实现任意采样率QAM发射机的有效技术。此外，这种方法将发射机主要模块的设计与数模转换器的工作频率隔离开来。当遇到某一组理想的载波频率和数据速率时，计算增益变得可观。该技术已经实现。在软件中给出了结果。该方法可以推广到任何类型的QAM发射机。

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Efficient implementation of quadrature amplitude modulation transmitters

Quadrature amplitude modulation (QAM) is widely used in many digital communication systems such as high speed modems. Increasing the data rate by using larger constellations has brought a revolution in digital communication systems. Consequently, there is a need for efficient techniques of implementation of QAM, both in software and the hardware. This article presents an efficient technique for implementation of QAM transmitters for any sampling rate. Moreover, this approach isolates the design of the major blocks of the transmitter from the operating frequency of the digital to analog converter. The computational gain becomes substantial when a certain desirable set of carrier frequency and data rate is encountered. The technique has been implemented. in software and the results are presented. The approach can be generalized for any kind of QAM transmitter.

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Proceedings. IEEE International Multi Topic Conference, 2001. IEEE INMIC 2001. Technology for the 21st Century.

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