The main advantage of Class-D audio amplifiers is high efficiency which is often stated to be more than 90 % but at idle or low power levels the efficiency is much lower. The waste energy is an environmental concern, a concern in mobile applications where long battery operation is required and a concern in other applications where multiple amplifier channels are generating heat problems. It is found that power losses at low power levels account for close to 78 % of the energy consumption based on typical consumer behavior investigations. This paper investigates the theoretical limits of stepless power supply tracking and its influence on power losses, audio performance and environmental impact for a 130 W class-D amplifier prototype as well as a commercialized class-D amplifier. Both modeled and experimental results verify that a large improvement of efficiency can be achieved. The total harmonic is found to be unaffected by stepless power supply tracking due the high supply rejection ratio of the used amplifiers under test.
展开▼
机译:D类音频放大器的主要优点是效率高,通常据说超过90%,但是在空闲或低功率水平时,效率要低得多。浪费的能源是环境问题,在需要长时间使用电池的移动应用中是一个问题,而在多个放大器通道产生热量问题的其他应用中,则是一个浪费问题。根据典型的消费者行为调查发现,低功率水平下的功率损耗约占能耗的78%。本文研究了无级电源跟踪的理论极限及其对130 W D类放大器原型以及商用D类放大器的功率损耗,音频性能和环境影响的影响。建模结果和实验结果均证明可以实现效率的大幅提高。由于所用的被测放大器的高电源抑制比,发现总谐波不受无级电源跟踪的影响。
展开▼
