Through a great deal of effort, this problem has been solved recently by linearization techniques.
通过大量的努力,最近人们利用线性化方法解决了这个问题。
The article firstly introduces the linearization techniques: predistortion technique and technique feedforward.
文章首先介绍了功放中的线性化技术——预失真技术和前馈技术。
Feedforward, Predistortion and Feedback linearization techniques are mostly used in Linearity Power Amplifier Design.
目前线性功率放大器的设计主要采用前馈、预失真和功率回退等线性化技术。
Various PA linearization techniques have been adopted to improve linearity and power efficiency of wireless transmitters.
于是多种不同功率放大器的线性化技术被采用来改善无线发射机的线性度及效率。
For solving this problem, various linearization techniques have been employed to improve the linearity of high efficiency power amplifier.
要解决这个问题,必须采用线性化技术来改善高效率功率放大器的非线性特性。
Using feedback linearization techniques then the model is linearized by means of feedback linearization and an equivalent linear model is obtained.
本论文针对这一问题,研究了基于非线性磁悬浮系统模型的反馈线性化控制方法。
Analogue transmitter pose severe linearity requirements on the sources used to drive them. So modulator linearization techniques have great importance.
模拟光发射机对驱动源的线性化提出严格要求,因此调制器的线性化技术有着重要的意义。
Some common linearization techniques, such as feedback, feed-forward and pre-distortion, have been introduced and predistortion has been especially described.
接着介绍了常用的功率放大器的线性化技术,例如预失真和前馈技术,重点介绍了预失真技术。
In this thesis, the non-linear characteristics of power amplifiers are analyzed in theory at first. The principle, advantages and disadvantages of various linearization techniques are discussed.
本文首先从理论上分析了功率放大器的非线性特性,介绍了目前各种线性化技术的原理和优缺点。
Linearization and efficiency enhancement techniques of power amplifier can be adopted to improve the linearity and power efficiency of the transmitter.
于是功率放大器的线性化以及提高效率的技术被采用来改善发射器的线性度和效率。
Linearization and efficiency enhancement techniques of power amplifier can be adopted to improve the linearity and power efficiency of the transmitter.
于是功率放大器的线性化以及提高效率的技术被采用来改善发射器的线性度和效率。
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