79GHz automotive short range radar sensor based on single-chip SiGe-transceivers

2008 European Radar Conference Pub Date : 2008-10-01 DOI:10.1109/EUMC.2008.4751781

V. Winkler, R. Feger, L. Maurer

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引用次数: 11

Abstract

Today automotive short range radar sensors are only available for the 24 GHz band. But in the EU the production of ultra-wideband sensors is limited to 2013 for the 24 GHz band, after 2013 the 79 GHz range must be used. This was the impact to develop a single-chip SiGe RF-transceiver for the 79 GHz-band on Infineon¿s B7HF200-Process with transition frequencies above 200 GHz. The power spectral density limit of -9 dBm/MHz for the 79 GHz-band is much higher than the -41.3 dBm/MHz limit for 24 GHz. Therefore the built prototype is a FMCW radar and no pulse radar in order to achieve a higher Signal-to-Noise Ratio. The required frequency ramp generation according to the FMCW-Principle is realized without a Phase Locked Loop(PLL), but by controlling digitally the tuning voltage of the VCO with help of a D/A-converter. The non-linearity of the VCO tuning law is compensated by measuring the frequency of the divider signal. Two bistatic transceiver variants have been realized: ATRX2 has one transmit and three receive channels, while ATRX3 has two switchable transmitters and two receivers. An RF-board has been designed for each chip, where low-cost patch antennas have been applied, optimized for a short range system. In the following the configuration for both chips is explained and measurement results are presented in order to demonstrate the angle detection capabilities.

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基于单片机sige收发器的79GHz汽车近程雷达传感器

目前，汽车短距离雷达传感器仅适用于24 GHz频段。但在欧盟，超宽带传感器的生产仅限于2013年的24 GHz频段，2013年之后必须使用79 GHz频段。这对在英飞凌B7HF200-Process上开发79 GHz频段的单芯片SiGe射频收发器产生了影响，过渡频率高于200 GHz。79ghz频段的功率谱密度极限为- 9dbm /MHz，远高于24ghz频段的-41.3 dBm/MHz。因此，建造的原型是FMCW雷达和无脉冲雷达，以实现更高的信噪比。根据fmcw原理，无需锁相环(PLL)即可实现所需的频率斜坡产生，而是通过D/ a转换器对VCO的调谐电压进行数字控制。通过测量分频信号的频率来补偿压控振荡器调谐律的非线性。已经实现了两种双基地收发器变体:ATRX2具有一个发射和三个接收通道，而ATRX3具有两个可切换的发送器和两个接收器。每个芯片都设计了一个射频板，其中应用了低成本的贴片天线，优化了短距离系统。下面解释了两种芯片的配置，并给出了测量结果，以演示角度检测能力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2008 European Radar Conference

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