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引用次数: 11
摘要
采用0.13μm CMOS工艺实现了低功耗IEEE 802.15.6 HBC完全兼容收发器。发射机使用模拟有源滤波器代替数字滤波器,以消除高功耗的高速DAC和时钟产生。接收机采用了一种低功耗的延时锁环(DLL) BPSK解调器,缓解了同步反馈环的稳定性问题。在DLL的控制电压下进行采样和保持操作,使接收器能够在保持时间内关闭同步电路,从而使功率降低30%以上。MAC运行的RSSI (Received Signal Strength Indicator)检测器的能量检测能力,调整LNA的工作模式,甚至重新配置接收机架构,实现节能运行,省电70%以上。因此,所提出的收发器可以完全满足HBC标准,同时从1.2V电源消耗4.3mA。
A 5.2mW IEEE 802.15.6 HBC standard compatible transceiver with power efficient delay-locked-loop based BPSK demodulator
A low power fully IEEE 802.15.6 HBC compatible transceiver is implemented in 0.13μm CMOS process. The transmitter uses an analog active filter instead of digital type filter to remove the power-hungry high speed DAC and clock generation. In the receiver, a power-efficient delay-locked-loop (DLL) based BPSK demodulator is adopted to relax the stability problem of synchronization feedback loop. The sample and hold operation in the control voltage of the DLL enables the receiver to turn off the synchronization circuits during the hold time, leading to over 30% power reduction. The energy detection ability with Received Signal Strength Indicator (RSSI) detector for MAC operation adjusts the operating mode of LNA and even reconfigures the receiver architecture for power-efficient operation, resulting in over 70% power saving. As a result, the proposed transceiver can fully satisfy the HBC standard while consuming 4.3mA from the 1.2V supply.
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