This paper introduces a novel digital transceiver for the cordless telephone zero (CT0) standard,which uses a digital modulation and demodulation technique to handle the signal instead of the traditional analog meth...This paper introduces a novel digital transceiver for the cordless telephone zero (CT0) standard,which uses a digital modulation and demodulation technique to handle the signal instead of the traditional analog meth-od. In the transmitter,a fractional-N phase locked loop (PLL) is utilized to realize the continuous phase frequency shift key (CPFSK) modulation,and a 2 Ts raised cosine (2RC) shaping technique is used to reduce the occupied bandwidth. In the receiver,a novel digital method is proposed to demodulate the 2RC CPFSK signal. This chip is fabricated using an SMIC 0.35μm mixed signal CMOS process with a die size of 2mm × 2mm. With an external low noise amplifier (LNA),the sensitivity of the chip is better than -103dBm.展开更多
通过对法布里-珀罗谐振器的理论分析,说明这种谐振器的基模电磁场分布具有"高斯光束"的形式,在其束腰位置近似为横电磁波,在亚毫米波频段应用于研究超导交流约瑟夫森效应具有优势。应用CST Microwave Studio 2006对其进行仿真...通过对法布里-珀罗谐振器的理论分析,说明这种谐振器的基模电磁场分布具有"高斯光束"的形式,在其束腰位置近似为横电磁波,在亚毫米波频段应用于研究超导交流约瑟夫森效应具有优势。应用CST Microwave Studio 2006对其进行仿真,验证了上述特点并得到谐振模式,谐振器反射镜尺寸,反射镜曲率以及耦合方式对工作状态的影响。适当调整以上参数,可以优化腔内能量的聚集度,从而使谐振器很好地应用于观测约瑟夫森结的夏皮罗台阶。展开更多
文摘This paper introduces a novel digital transceiver for the cordless telephone zero (CT0) standard,which uses a digital modulation and demodulation technique to handle the signal instead of the traditional analog meth-od. In the transmitter,a fractional-N phase locked loop (PLL) is utilized to realize the continuous phase frequency shift key (CPFSK) modulation,and a 2 Ts raised cosine (2RC) shaping technique is used to reduce the occupied bandwidth. In the receiver,a novel digital method is proposed to demodulate the 2RC CPFSK signal. This chip is fabricated using an SMIC 0.35μm mixed signal CMOS process with a die size of 2mm × 2mm. With an external low noise amplifier (LNA),the sensitivity of the chip is better than -103dBm.
文摘通过对法布里-珀罗谐振器的理论分析,说明这种谐振器的基模电磁场分布具有"高斯光束"的形式,在其束腰位置近似为横电磁波,在亚毫米波频段应用于研究超导交流约瑟夫森效应具有优势。应用CST Microwave Studio 2006对其进行仿真,验证了上述特点并得到谐振模式,谐振器反射镜尺寸,反射镜曲率以及耦合方式对工作状态的影响。适当调整以上参数,可以优化腔内能量的聚集度,从而使谐振器很好地应用于观测约瑟夫森结的夏皮罗台阶。