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引用次数: 7
摘要
任何通信前端的性能在很大程度上取决于功率放大器的效率和线性度。由于现有的设计技术不适用于目前使用的更复杂的调制方案,功率放大器的设计非常困难。因此,需要在设计策略中包含有关这些复杂信号的信息。但是这些信息应该能够帮助设计师采取有效的设计步骤。我们回顾了传统的负载-拉力设计技术在功率放大器设计中使用多音激励信号来模拟真实的激励信号。该方法以0.13 μ m CMOS技术的5 GHz功率放大器的负载拉特性为例进行了说明。这个例子显示了当使用正确的激励信号时,设计选择的差异。因此,说明了这些方法的重要性和所使用的激励信号。
Designing power amplifiers? Use good excitation signals
The performance of any communication front-end depends largely on the efficiency and the linearity of the power amplifier. Power amplifiers are difficult to design since the available design techniques are not valid for the more complex modulation schemes used nowadays. Therefore, one needs to include information about these complex signals in the design strategy. But this information should be used such that it allows the designer to take good design steps. We reviewed the traditionally used load-pull design technique for power amplifier designs using multi-tone excitation signals to MIMIC the real excitation signals. This approach is illustrated on the loadpull characteristics of a 5 GHz power amplifier in 0.13 ¿m CMOS technology. This example shows the difference in design choices when using the correct excitation signals. Therefore, it illustrates the importance of these methods and the excitation signal used.
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