Spur reduction and low phase noise techniques are proposed that allow integer-N frequency synthesizers to achieve high closed loop bandwidth and low output phase noise simultaneously. Three integer-N synthesizers are presented. These circuits are targeted for analog TV (ATV) and mobile WIMAX applications. Synthesizer design still remains one of the most challenge issues in the RF system because it must meet very stringent requirements, such as settling time, phase noise, reference feedthrough, etc. Several trade-offs exist in the synthesizer design. First, the settling time is largely determined by the loop bandwidth which is limited to approximately 1/10 of the reference frequency for the loop stability consideration. Second, the phase noise of the oscillator is reduced by the feedback loop only within the loop bandwidth. Finally, in order to suppress the reference spur, a small loop bandwidth is required. To solve all these trade-offs, we have proposed several new architectures adopting random pulsewidth matching, sub-sampling charge-pump, and randomly selected PFD to achieve low reference spur and low phase noise PLLs. The first one is the Random pulsewidth matching frequency synthesizer with sub-sampling charge pump. Measurement results of a prototype TSMC 90nm CMOS synthesizer show that the reference spur is suppressed by 35dB. These represent a new analysis technique that is useful in the characterization of integer-N frequency synthesizers. The other is a spur-reduction frequency synthesizer exploiting randomly selected PFD. The oscillator frequency is tunable between 2500~2700 MHz, phase noise is -105dBc/Hz @1 MHz offset, and the spurious tone is -72dBc. Finally, a low phase-noise ring VCO based frequency synthesizer with multi-phase over-sampling charge-pump is implemented. To achieve good phase noise performance with a simple design, the multi-phase over-sampling charge-pump and one-shot circuits to reduce ripples on the control voltage of the VCO provide a smooth spectrum. Measured results from a prototype by TSMC 0.18um CMOS technology show the phase noise below–100 dBc/Hz from 15 Hz to 100 KHz and–108 dBc/Hz with 1 MHz offset.