This paper presents a charge-sampling PLL (CSPLL), that demonstrates the best reported jitter-power FOM of-258.9 dB thanks to its high phase-detection gain and to the removal of the power-hungry buffer driving the phase detector. It also achieves-65 dBc of reference spur by both minimizing the modulated capacitance seen by the VCO tank and reducing the duty cycle of the sampling clock. Without requiring any RF dividers, a 50 μW frequency tracking loop is also introduced to robustly lock the CSPLL to a 100 MHz reference. Fabricated in 40-nm CMOS, the 0.13 mm2 CSPLL achieves an RMS jitter of 50 fsec at 11.4 GHz while consuming 5 mW.</p
A PLL has been designed for high frequency clock generation with only 280 fs RMS jitter. The integer...
In a classical PLL, the phase detector (PD) and charge pump (CP) noise is multiplied by N2, when ref...
This paper proposes a hybrid dual path sub-sampling phase-locked loop (SSPLL), including a proportio...
This paper presents a charge-sampling PLL (CSPLL), that demonstrates the best reported jitter-power ...
Abstract— In this paper, we present a 2.2-GHz low jitter PLL based on sub-sampling. It uses a phase-...
The generation of mm-wave (mmW) signals that have ultra-low phase noise (PN) is very important for t...
A clock with low phase-noise/jitter is a prerequisite for high-performance ADCs, wireline and optica...
The high phase noise (PN) of CMOS millimeter-wave oscillators has encouraged the adoption of wide lo...
Abstract—This paper presents a 2.2-GHz low jitter sub-sampling based PLL. It uses a phase-detector/c...
This article presents a fractional-N sampling type-I phase-locked loop (PLL). To overcome the impair...
Local oscillators for 5G wireless transceivers require rms integrated jitter below 100fs to enable s...
This paper presents phase-locked loop (PLL) reference-spur reduction design techniques exploiting a ...
A divider-less PLL exploits a phase detector that directly samples the VCO with a reference clock. N...
In PLL designs, a wide loop bandwidth is often desired as it offers fast settling time, reduces on-c...
Abstract A low-spur sub-sampling PLL exploits an amplitude-controlled charge pump which is immune to...
A PLL has been designed for high frequency clock generation with only 280 fs RMS jitter. The integer...
In a classical PLL, the phase detector (PD) and charge pump (CP) noise is multiplied by N2, when ref...
This paper proposes a hybrid dual path sub-sampling phase-locked loop (SSPLL), including a proportio...
This paper presents a charge-sampling PLL (CSPLL), that demonstrates the best reported jitter-power ...
Abstract— In this paper, we present a 2.2-GHz low jitter PLL based on sub-sampling. It uses a phase-...
The generation of mm-wave (mmW) signals that have ultra-low phase noise (PN) is very important for t...
A clock with low phase-noise/jitter is a prerequisite for high-performance ADCs, wireline and optica...
The high phase noise (PN) of CMOS millimeter-wave oscillators has encouraged the adoption of wide lo...
Abstract—This paper presents a 2.2-GHz low jitter sub-sampling based PLL. It uses a phase-detector/c...
This article presents a fractional-N sampling type-I phase-locked loop (PLL). To overcome the impair...
Local oscillators for 5G wireless transceivers require rms integrated jitter below 100fs to enable s...
This paper presents phase-locked loop (PLL) reference-spur reduction design techniques exploiting a ...
A divider-less PLL exploits a phase detector that directly samples the VCO with a reference clock. N...
In PLL designs, a wide loop bandwidth is often desired as it offers fast settling time, reduces on-c...
Abstract A low-spur sub-sampling PLL exploits an amplitude-controlled charge pump which is immune to...
A PLL has been designed for high frequency clock generation with only 280 fs RMS jitter. The integer...
In a classical PLL, the phase detector (PD) and charge pump (CP) noise is multiplied by N2, when ref...
This paper proposes a hybrid dual path sub-sampling phase-locked loop (SSPLL), including a proportio...