压控振荡器
锁相环
相位噪声
电子工程
电容器
宽带
带宽(计算)
调制(音乐)
相位调制
计算机科学
控制理论(社会学)
物理
工程类
电气工程
电信
声学
电压
人工智能
控制(管理)
作者
Nereo Markulić,Kuba Rączkowski,Ewout Martens,Pedro Emiliano Paro Filho,Benjamin Hershberg,Piet Wambacq,Jan Craninckx
标识
DOI:10.1109/isscc.2016.7417964
摘要
The two-point injection scheme has proven to be an effective technique for overcoming the problem of PLL bandwidth limitations during wideband polar phase modulation [1]. The quality of the phase-modulated signal, typically expressed in terms of error-vector magnitude (EVM), still remains limited by the PLL phase-noise, gain mismatch between the two injection paths and linearity of the digital-to-modulated phase conversion. We present a phase modulator that makes use of an analog, fractional-N, digital-to-time-converter (DTC)-based subsampling PLL that achieves -37.4dB EVM around a 10.24GHz fractional carrier during 10Mb/s GMSK modulation. The subsampling PLL architecture uses no power-consuming divider and allows wide PLL bandwidth (because of its high phase-error detection gain) for optimal VCO noise suppression. The VCO has a secondary, digitally controlled capacitor bank (modulating DAC) used during two-point modulation. The gain errors and nonlinearities in the digital-to-modulated phase conversion are automatically background-calibrated in both injection points: in the phase-error detection path (where nonlinearity is dominated by the DTC INL) and in the VCO modulating capacitor bank (where nonlinearity is dominated by capacitor mismatch and nonlinear capacitance-to-frequency conversion).
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