Piljae Park, Sungdo Kim, Sungchul Woo, Cheonsoo Kim
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引用次数: 7
摘要
介绍了一种单片脉冲雷达收发器。该结构具有高分辨率、增强的信噪比和可控性。通过控制发射(TX)脉冲与接收机采样时钟之间的时序,接收并恢复目标的回波脉冲。TX脉冲可以通过改变脉冲形状来调节其频谱占用。4通道采样接收器由低噪声放大器、跟踪和保持采样器、积分器和级联三延迟锁定环路组成。嵌入式控制逻辑允许雷达使用平均技术提高接收脉冲的信噪比,并在多种接收模式下工作。实时雷达系统测量表明,在1.2 v Vdd消耗80 mW的情况下,回波脉冲恢复的距离分辨率≥100 psec。成功记录室内人类行走轨迹。该收发器采用130纳米CMOS技术制造,芯片面积为3.4 mm2。
A high-resolution short-range CMOS impulse radar for human walk tracking
A single-chip impulse radar transceiver is presented. A high-resolution, enhanced SNR and controllability are achieved with a proposed architecture. By controlling timing between the transmit (TX) pulse and sampling clock of the receiver, echo pulses from targets are received and recovered. The TX pulse can adjust its spectrum occupancy by changing impulse shape. The 4-channel sampling receiver consists of a low noise amplifier, track and hold samplers, integrators, and a cascaded triple delay locked loop. The embedded control logic allows the radar to enhance the SNR of the received pulse using an averaging technique, and to operate at multiple reception modes. The real-time radar system measurements show that echo pulses are recovered with ≥100-psec range resolution while consuming 80 mW from 1.2-V of Vdd. An indoor human walking trace is successfully recorded. The transceiver is fabricated in a 130-nm CMOS technology occupying chip area of 3.4 mm2.
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