A novel technique for wideband injection locking in an LC oscillator is proposed. PLL and injection locking elements are combined symbiotically to achieve wide locking range while retaining the simplicity of the latter. This method doesn't require a phase frequency detector or a loop filter to achieve phase lock. 13.4GHz - 17.2GHz locking range and an average jitter tracking bandwidth of up to 400 MHz was measured in a high-Q LC oscillator. This architecture is used to generate quadrature phases form a single clock without any frequency division, and to provide high frequency jitter filtering while retaining the low frequency correlated jitter essential for clock forwarded receivers
An injection-locked ring oscillator-based phase-locked-loop targeting clock recovery for space appli...
link receiver prototype using a forwarded clock architecture. A novel phase deskew scheme using inje...
A new integrated W-band frequency source MMIC is presented which consists of a 94-GHz voltage-contro...
A novel technique for wideband injection locking in an LC oscillator is proposed. PLL and injection ...
We present a novel frequency tracking method that exploits the dynamics of injection locking in a qu...
The design of quadrature local oscillators for CMOS wireless transceivers is still one of the most c...
Modern SoC systems impose stringent requirements on on-chip clock generation and distribution. Ring...
The trade off between phase noise and quadrature accuracy, typical of coupled voltage controlled osc...
Abstract—A general model for injection-locked LC oscillators (LC-ILOs) is presented that is valid fo...
The design of quadrature signal generators is one of the most challenging issues in modern RF transc...
This paper presents a low jitter ring-VCO based injection-locked clock multiplier (RILCM) with a pha...
Abstract—The distribution and alignment of high-frequency clocks across a wide bus of links is a sig...
We propose a digitally controlled injection-locked RF oscillator with an auxiliary loop as an altern...
Injection-locked LC dividers for low-power quadrature generation are discussed in this paper. Modeli...
This paper designs a C-band single-stage $LC$ -tank injection locked frequency quintupler (ILFQ) fa...
An injection-locked ring oscillator-based phase-locked-loop targeting clock recovery for space appli...
link receiver prototype using a forwarded clock architecture. A novel phase deskew scheme using inje...
A new integrated W-band frequency source MMIC is presented which consists of a 94-GHz voltage-contro...
A novel technique for wideband injection locking in an LC oscillator is proposed. PLL and injection ...
We present a novel frequency tracking method that exploits the dynamics of injection locking in a qu...
The design of quadrature local oscillators for CMOS wireless transceivers is still one of the most c...
Modern SoC systems impose stringent requirements on on-chip clock generation and distribution. Ring...
The trade off between phase noise and quadrature accuracy, typical of coupled voltage controlled osc...
Abstract—A general model for injection-locked LC oscillators (LC-ILOs) is presented that is valid fo...
The design of quadrature signal generators is one of the most challenging issues in modern RF transc...
This paper presents a low jitter ring-VCO based injection-locked clock multiplier (RILCM) with a pha...
Abstract—The distribution and alignment of high-frequency clocks across a wide bus of links is a sig...
We propose a digitally controlled injection-locked RF oscillator with an auxiliary loop as an altern...
Injection-locked LC dividers for low-power quadrature generation are discussed in this paper. Modeli...
This paper designs a C-band single-stage $LC$ -tank injection locked frequency quintupler (ILFQ) fa...
An injection-locked ring oscillator-based phase-locked-loop targeting clock recovery for space appli...
link receiver prototype using a forwarded clock architecture. A novel phase deskew scheme using inje...
A new integrated W-band frequency source MMIC is presented which consists of a 94-GHz voltage-contro...