A 79 GHz SiGe Doherty Power Amplifier Suitable for Next-Generation Automotive Radar

IF 6.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE journal of microwaves Pub Date : 2024-07-19 DOI:10.1109/JMW.2024.3419430
Jan Schoepfel;Tobias T. Braun;Julia Hellwig;Holger Rücker;Nils Pohl
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Abstract

The number of environment-detecting sensors inside cars continuously increases, to enable failsafe autonomous driving. With more sensors, the probability of performance degrading interferences increases. A promising solution to the interferences is orthogonal frequency division multiplex (OFDM) radar. Due to the complex modulation scheme, the analog front end, especially the power amplifier in the transmitter, has to deal with a high peak-to-average power ratio. Therefore, conventional amplifiers have to be operated in power back-off to maintain linear operation at the drawback of reduced power-added efficiency. To mitigate this problem, a Doherty power amplifier for an automotive radar transceiver is proposed. In this work, we present a design methodology for an integrated Doherty amplifier for automotive radar applications, focussing on the theory of operation by analyzing transistor-level simulations. Small- and large signal simulations analyze the concept of load modulation for a Doherty amplifier in the automotive frequency band from 76--81 GHz. Using a fully differential transmission-line-based approach, we showcase the superior performance of an automotive Doherty amplifier over an conventional state-of-the-art reference amplifier. In measurements, the proposed Doherty amplifier achieves a saturated output power of 17.2 dBm with a peak power-added efficiency of 11.6%. When operating in 6 dB back-off, the PAE still amounts to 6.1%. Thereby we propose to improve conventional automotive power amplifiers by incorporating them into a Doherty amplifier.
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适用于下一代汽车雷达的 79 GHz SiGe Doherty 功率放大器
为了实现故障安全自动驾驶,汽车内的环境检测传感器数量不断增加。传感器越多,性能降低的干扰概率就越大。正交频分复用(OFDM)雷达是一种很有前途的干扰解决方案。由于调制方案复杂,模拟前端,尤其是发射器中的功率放大器,必须处理很高的峰均功率比。因此,传统的放大器必须在功率衰减状态下工作,以保持线性工作,但其缺点是降低了功率附加效率。为了缓解这一问题,我们提出了一种用于汽车雷达收发器的 Doherty 功率放大器。在这项工作中,我们提出了一种用于汽车雷达应用的集成式 Doherty 放大器的设计方法,重点是通过分析晶体管级模拟来研究其工作理论。小信号和大信号模拟分析了在 76-81 GHz 汽车频段内 Doherty 放大器的负载调制概念。利用基于全差分传输线的方法,我们展示了汽车 Doherty 放大器优于传统最先进参考放大器的性能。在测量中,拟议的 Doherty 放大器达到了 17.2 dBm 的饱和输出功率,峰值功率附加效率为 11.6%。当工作在 6 dB 后关时,功率附加效率仍高达 6.1%。因此,我们建议将传统的汽车功率放大器并入 Doherty 放大器,以改进其性能。
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CiteScore
10.70
自引率
0.00%
发文量
0
审稿时长
8 weeks
期刊最新文献
Front Cover Table of Contents Introduction to the Fall 2024 Issue IEEE Microwave Theory and Technology Society Information Over-the-Air Phase Noise Spectral Density Measurement for FMCW Radar Sensors
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