In this paper, a new phase-locked loop (PLL) frequency synthesizer with high switching speed is proposed, and the experimental and theoretical results are given. Mobile communication networks are evolving towards micro cellulars operating in narrowband TDMA and microwave bands to meet the rapidly increasing demands for both voice and data services. Therefore, synthesizers with high switching speed are required for the realization. However, it will be difficult for conventional synthesizers to provide the switching time of shorter than 1 ms. The PLL synthesizer proposed here is composed entirely of digital signal processors except for a voltage-controlled oscillator (VCO). The VCO control signal is derived by the subtraction of the linear reference phase and the feedback phase, therefore, it does not need the band-limited loop filter which limits the ability of the loop to switch fast. The experimental results show that it can provide switching time as short as 0.1 ms, which is lo2 N lo3 times higher than conventional PLL synthesizers, and spurs of less than -60 dB.
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