采用65nm CMOS技术的g类耳机驱动器

Alex Lollio, G. Bollati, R. Castello
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引用次数: 15

摘要

现代移动电话具有免提操作、MP3音乐播放和DMB接收功能。用户可能希望使用这些功能许多小时和一个低效率的放大器可以在短时间内耗尽电池。通常用于此应用的功率放大器有两类:d类和ab类。d类架构提供了功率效率的好处,但代价是性能略有下降和一定程度的开关噪声,在某些情况下,这些噪声可能会干扰射频功能,如移动电话、GPS或FM无线电接收。AB类架构的优点是音频质量更高,不会产生任何开关噪声,但其功率效率要低得多。尽管效率较低,但商业上绝大多数耳机驱动器都运行在AB类。A类G是一种没有EMI问题的高效模拟放大器,它试图将AB类和d类的最佳特性结合在一起。它使用多个电压轨,并根据瞬时输出电压水平的要求切换到适当的电压。这样,当需要低电压输出时,它从不使用高电源电压。G类放大器的核心是开关电路,它应该能够在低压电源和高压电源之间实现负载驱动的平稳切换。此外,切换策略应满足两个关键点:首先,必须将切换操作引起的失真降到最低,以保持高音质;其次,开关点必须尽可能靠近低压电源,以最大限度地提高效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Class-G headphone driver in 65nm CMOS technology
Modern cellular phones incorporate hands-free operation, MP3 music playback and DMB reception. The users may wish to use these features for many hours and a low efficiency amplifier could deplete the battery in a short time. There are two classes of power amplifiers usually used for this application: Class-D and Class-AB. Class-D architectures provide the benefit of power efficiency at the cost of slightly reduced performance and a level of switching noise, which might, in some cases, interfere with RF functions such as mobile phone, GPS or FM radio reception. Class AB architecture has the benefit of higher audio quality and doesn't produce any switching noise, but its power efficiency is much lower. Notwithstanding their lower efficiency, the great majority of the headphone drivers in commerce operate in Class AB. A Class G is a high-efficiency analog amplifier without EMI problems that tries to bring together the best of Class AB and Class D. It uses multiple voltage rails and switches to the appropriate voltage as required by the instantaneous output voltage level. In this way, it never uses the high supply voltage when a low voltage output is required. The core of a Class G amplifier is the switching circuitry, which should enable a smooth handover of the load driving between the low voltage supply and the higher one. Furthermore, the switching strategy should satisfy two key points: first, the distortion due to the switching operation must be minimized to maintain high audio quality; second, the switching point must be as close as possible to the low voltage supply to maximize efficiency.
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