Add to ORKGThis paper presents the design of a digital PLL which uses a high resolution Gated-Ring-Oscillator-Based Vernier Time-to-Digital Converter (TDC) for low noise RF application. The TDC uses two gated ring oscillators (GRO) acting as the delay lines in an improved Vernier TDC. The already small quantization noise of the standard Vernier TDC is further first-order shaped by the GRO operation. Additionally, an automatic tuning bank controller selects the active bank of the digitally controlled oscillator (DCO), which features three separate tuning banks. The equivalent in-band phase noise at 2.7GHz is -110dBc/Hz with a reference clock of 25MHz. The digital PLL is simulated in a 90nm CMOS process, indicating a current consumption of 21mA from a 1...
This paper presents the design of a time-digital converter suitable for a 3.5-GHz all-digital phase...
This paper presents the design of a time-digital converter suitable for a 3.5-GHz all-digital phase...
This paper presents the design of a time-digital converter suitable for a 3.5-GHz all-digital phase...
A Vernier Gate-Ring-Oscillator (GRO) Time to Digital Converter (TDC) is proposed and implemented in ...
Two gated ring oscillators (GRO) act as the delay lines in an improved Vernier time-to-digital conve...
Two branches of gated ring oscillators (GRO) act as the delay lines in 2-dimension Vernier time-to-d...
Two branches of gated ring oscillators (GRO) act as the delay lines in 2-dimension Vernier time-to-d...
Two gated ring oscillators (GROs) act as the delay lines in an improved Vernier time-to-digital conv...
A wide band fractional-N digital PLL which uses a high resolution 2-dimension gated-Vernier time-to-...
A high performance all digital PLL RF synthesizer is presented. The key building block is a high res...
Abstract — This paper presents an All Digital PLL (ADPLL) based on a first order noise shaping Time-...
This report presents a novel Simulink model of the All Digital Phase Locked Loop (ADPLL), which can ...
This report presents a novel Simulink model of the All Digital Phase Locked Loop (ADPLL), which can ...
Multi gigabit per second serial binary links are used to implement cross chip communication because ...
A 5GHz digital frequency synthesizer achieving a low noise for wireless RF application is presented....
This paper presents the design of a time-digital converter suitable for a 3.5-GHz all-digital phase...
This paper presents the design of a time-digital converter suitable for a 3.5-GHz all-digital phase...
This paper presents the design of a time-digital converter suitable for a 3.5-GHz all-digital phase...
A Vernier Gate-Ring-Oscillator (GRO) Time to Digital Converter (TDC) is proposed and implemented in ...
Two gated ring oscillators (GRO) act as the delay lines in an improved Vernier time-to-digital conve...
Two branches of gated ring oscillators (GRO) act as the delay lines in 2-dimension Vernier time-to-d...
Two branches of gated ring oscillators (GRO) act as the delay lines in 2-dimension Vernier time-to-d...
Two gated ring oscillators (GROs) act as the delay lines in an improved Vernier time-to-digital conv...
A wide band fractional-N digital PLL which uses a high resolution 2-dimension gated-Vernier time-to-...
A high performance all digital PLL RF synthesizer is presented. The key building block is a high res...
Abstract — This paper presents an All Digital PLL (ADPLL) based on a first order noise shaping Time-...
This report presents a novel Simulink model of the All Digital Phase Locked Loop (ADPLL), which can ...
This report presents a novel Simulink model of the All Digital Phase Locked Loop (ADPLL), which can ...
Multi gigabit per second serial binary links are used to implement cross chip communication because ...
A 5GHz digital frequency synthesizer achieving a low noise for wireless RF application is presented....
This paper presents the design of a time-digital converter suitable for a 3.5-GHz all-digital phase...
This paper presents the design of a time-digital converter suitable for a 3.5-GHz all-digital phase...
This paper presents the design of a time-digital converter suitable for a 3.5-GHz all-digital phase...