A 2.4 mA Quiescent Current, 1 W Output Power Class-D Audio Amplifier With Feed-Forward PWM-Intermodulated-Distortion Reduction

Tai-Haur Kuo; Shih-Hsiung Chien; Jyun-Jia Huang; Yi-Wen Chen; Yu-An Lee

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A 2.4 mA Quiescent Current, 1 W Output Power Class-D Audio Amplifier With Feed-Forward PWM-Intermodulated-Distortion Reduction

机译：具有前馈PWM互调失真减小功能的2.4 mA静态电流，1 W输出功率D类音频放大器

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This work proposes a feed-forward PWM-intermodulated-distortion reduction (FFPIDR) technique for closed-loop class-D audio amplifiers. The proposed FFPIDR technique overcomes the trade-off between out-of-band loop attenuation and in-band loop gain to reduce the PWM-intermodulated distortion while maintaining a high in-band distortion suppression capability without increasing the switching frequency. This results in a high-fidelity and low-quiescent-current audio amplifier suitable for mobile devices. This work is implemented in a 0.5 μm CMOS technology, and the measurement result with a 4.2 V supply voltage shows that the proposed FFPIDR technique improves the TiD + N by 12 dB when an output power of 340 mW is delivered to an 8-Ω load. Compared with other state of the arts, the proposed class-D amplifier achieves 0.0037% TiD + N with a quiescent current of 2.4 mA and the smallest chip area of 0.86 mm2, and the measured peak efficiency reaches 92%.

机译：这项工作提出了一种用于闭环D类音频放大器的前馈PWM互调失真降低（FFPIDR）技术。提出的FFPIDR技术克服了带外环路衰减与带内环路增益之间的折衷，可以减少PWM互调失真，同时保持较高的带内失真抑制能力而不增加开关频率。这导致适用于移动设备的高保真和低静态电流音频放大器。这项工作是在0.5μmCMOS技术中实现的，在4.2 V电源电压下的测量结果表明，当将340 mW的输出功率输送到8Ω负载时，所提出的FFPIDR技术可将TiD + N提高12 dB。。与其他现有技术相比，该D类放大器的静态电流为2.4 mA，最小芯片面积为0.86 mm2，可实现0.0037％的TiD + N，并且测得的峰值效率达到92％。

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来源
《IEEE Journal of Solid-State Circuits》 |2016年第6期|1436-1445|共10页
作者
Tai-Haur Kuo; Shih-Hsiung Chien; Jyun-Jia Huang; Yi-Wen Chen; Yu-An Lee;
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作者单位

Department of Electrical Engineering, National Cheng Kung University (NCKU), Tainan, Taiwan;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
PWM-intermodulated distortion; THD + N; class-D audio amplifier; low quiescent current; total harmonic distortion plus noise;

机译：PWM互调失真;THD + N;D类音频放大器;低静态电流;总谐波失真加噪声;

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专利

1. A Low Quiescent Current, Low THD+N Class-D Audio Amplifier With Area-Efficient PWM-Residual-Aliasing Reduction [J] . Shih-Hsiung Chien, Yi-Wen Chen, Tai-Haur Kuo Solid-State Circuits, IEEE Journal of . 2018,第12期

机译：低静态电流，低THD + N D类音频放大器，具有面积有效的PWM残留混叠功能
2. A Feed-Forward Power-Supply Noise Cancellation Technique for Single-Ended Class-D Audio Amplifiers [J] . IEEE Journal of Solid-State Circuits . 2014,第3期

机译：单端D类音频放大器的前馈电源噪声消除技术
3. A Low-Power High-PSRR Clock-Free Current-Controlled Class-D Audio Amplifier [J] . Torres J., Colli-Menchi A., Rojas-Gonzalez M. A., Solid-State Circuits, IEEE Journal of . 2011,第7期

机译：低功耗，高PSRR，无时钟，电流控制的D类音频放大器
4. 23.5 A 0.41mA Quiescent Current, 0.00091 THD+N Class-D Audio Amplifier with Frequency Equalization for PWM-Residual-Aliasing Reduction [C] . Shih-Hsiung Chien, Tai-Haur Kuo, Hung-Yi Huang, IEEE International Solid- State Circuits Conference . 2020

机译：23.5 A 0.41mA静态电流，0.00091％THD + N D类音频放大器，具有频率均衡功能，可减少PWM残留混叠
5. A novel two-switch, multi-level class-D inverter and its implementation as an audio power amplifier. [D] . Chapelsky, Chris Terry. 2009

机译：一种新颖的两开关，多级D类逆变器及其作为音频功率放大器的实现。
6. 2.4 GHz CMOS Power Amplifier with Mode-Locking Structure to Enhance Gain [O] . Changhyun Lee, Changkun Park -1

机译：具有锁模结构的2.4 GHz CMOS功率放大器可增强增益
7. An analog sigma-delta modulator with shared operational amplifier for low-power class-D audio amplifier [O] . ??? 2015

机译：模拟Σ-Δ调制器，带有共用运算放大器，用于低功耗D类音频放大器

A 2.4 mA Quiescent Current, 1 W Output Power Class-D Audio Amplifier With Feed-Forward PWM-Intermodulated-Distortion Reduction

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