Andrea Pizzarulli, G. Montagna, M. Pini, S. Salerno, N. Lofù, Gianluca Sensalari
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引用次数: 5
摘要
采用0.13 μ m RFCMOS技术实现了一种可重构、可同步的双波段伽利略/GPS前端接收机。前端仅使用超外差架构上的一个固定频率锁相环和压控振荡器,将两个RF(射频)信号下变频为两个中频(中频)信号,频率范围为50 MHz至150 MHz。L1和E1信号直接转换在一个通道与一个混音级。L2、E6、E5、E5a、E5b信号采用双级(双混频器)转换下变频。两个中频下转换通道经过滤波,然后由两个片上ADC(模数转换器)进行欠采样。只需根据频率规划和片外RF/IF滤波器改变ADC采样频率,即可选择和重新配置卫星信道。不需要重新配置锁相环和压控振荡器。
Reconfigurable and simultaneous dual band Galileo/GPS front-end receiver in 0.13μm RFCMOS
A reconfigurable and simultaneous dual band Galileo/GPS front-end receiver has been realized on 0.13-mum RFCMOS technology. The front-end uses only one fixed frequency PLL and VCO on a superheterodyne architecture to down-convert two RF (radio frequency) signals into two IF (intermediate frequency) signals in the range of 50 MHz to 150 Mhz. L1 and E1 signals are directly converted on one channel with one mixing stage. L2, E6, E5, E5a, E5b signals are down-converted with a double stage (two mixers) conversion. The two IF down-converted channels are filtered and then undersampled by two on chip ADC (analog to digital converter). The satellite channels can be selected and reconfigured only by changing the ADC sampling frequency according to the frequency plan and the off chip RF/IF filters. No PLL and VCO reconfiguration is need.
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