Add to ORKGThe purpose of this thesis is to design an 8 Gbps clock and data recovery circuit intended to work in the receiver of a high-speed Serializer-Deserializer interface (SerDes). The proposed architecture is based on a phase-locked loop operation (PLL) that integrates a linear phase detector, a charge pump, a wide-tuning range voltage-controlled ring oscillator (2.5- 12 GHz), and a third order low pass filter that achieves a bandwidth of 150 MHz. A wide loop bandwidth is considered in the design to achieve a high input jitter tolerance and a fast locking time. Implemented in 22 nm FDSOI, the overall circuit draws 1.38mW from a 0.8V power supply, exhibits a recovery clock RMS jitter of 0.970 fs and and requires a locking time of 22 ns. A Monte C...
This thesis presents the design and circuit implementation of a Clock Continuous Mode 2.5Gbps Data R...
This paper describes the design and transistor level simulation of a novel architecture of PLL-based...
As process technology has aggressively scaled, the demand for fast, robust computing has grown treme...
Over the years, the thirst for high speeds in data transmission has become unquenchable. Todays de...
With advances in the semiconductor industry and technology scaling, integrated circuits are becoming...
[[abstract]]In the paper, a novel 2.56/3.2Gb/s full-rate phase detector is developed for integration...
Technology scaling and unprecedented growth in demand for ubiquitous, fast, robust computing have be...
As semiconductor fabrication technology develops, the demand for higher transmission data rates cons...
The maturing of the telecommunications industry has seen the development and implementation of devi...
In this paper, a new dual-loop half-rate clock recovery is proposed for chip-to-chip communications....
This paper presents a true all-digital referenceless mixed FLL/DLL quarter-rate clock and data recov...
Abstract—Phase locked loops find wide application in several modern applications mostly in advance c...
Multi gigabit per second serial binary links are used to implement cross chip communication because ...
[[abstract]]In this paper, we present architecture of phase-locked loop (PLL) for clock and data rec...
Clock and data recovery (CDR) circuits are among critical building blocks of wireline receivers. In ...
This thesis presents the design and circuit implementation of a Clock Continuous Mode 2.5Gbps Data R...
This paper describes the design and transistor level simulation of a novel architecture of PLL-based...
As process technology has aggressively scaled, the demand for fast, robust computing has grown treme...
Over the years, the thirst for high speeds in data transmission has become unquenchable. Todays de...
With advances in the semiconductor industry and technology scaling, integrated circuits are becoming...
[[abstract]]In the paper, a novel 2.56/3.2Gb/s full-rate phase detector is developed for integration...
Technology scaling and unprecedented growth in demand for ubiquitous, fast, robust computing have be...
As semiconductor fabrication technology develops, the demand for higher transmission data rates cons...
The maturing of the telecommunications industry has seen the development and implementation of devi...
In this paper, a new dual-loop half-rate clock recovery is proposed for chip-to-chip communications....
This paper presents a true all-digital referenceless mixed FLL/DLL quarter-rate clock and data recov...
Abstract—Phase locked loops find wide application in several modern applications mostly in advance c...
Multi gigabit per second serial binary links are used to implement cross chip communication because ...
[[abstract]]In this paper, we present architecture of phase-locked loop (PLL) for clock and data rec...
Clock and data recovery (CDR) circuits are among critical building blocks of wireline receivers. In ...
This thesis presents the design and circuit implementation of a Clock Continuous Mode 2.5Gbps Data R...
This paper describes the design and transistor level simulation of a novel architecture of PLL-based...
As process technology has aggressively scaled, the demand for fast, robust computing has grown treme...