The thesis presents a digital PLL project that will be used as an ECE 463 lab module and serve as a platform for future communication research projects. Field Programmable Gate Array (FPGA) technology is used for all digital signal processing tasks. A Direct Digital Synthesizer (DDS) is used to synthesize analog output, the frequency of which is controlled digitally by the FPGA. This system is implemented in a way that makes it educational and suitable for a lab module. Unlike purely digital PLL, this project involves several analog circuits soldered on PCBs, which will help the students visualize the signal flow in the PLL and get some exposure to mixed-signal systems
Thanks to its ability to generate a stable yet programmable output frequency, Phase Locked Loop (PLL...
This contribution aims to be a proof of the feasibility of a fully open architecture in Hardware Des...
ABSTRACT OF THE DISSERTATION A Time Amplifier Assisted FDC and DTC Linearization for Digital Fract...
The thesis presents a digital PLL project that will be used as an ECE 463 lab module and serve as a ...
The study of phase locked loops (PLL) has been heavily treated in literature and most of the theoret...
This project presents a linear all-digital phase locked loop based on FPGA. In this ADPLL the phase ...
The demands for an ever higher data rate and a more varied functionality at minimal cost and power c...
The phase-locked loop (PLL) is used as frequency synthesizer in numerous electronic devices. This th...
Phase Locked Loops (PLLs) are widely used in clock recovery and frequency synthesis. Fully Digital P...
AbstractIn order to improve anti-jamming performance of the sensor, fast lock digital PLL is propose...
Contemporary digital systems use clocks for sequencing their operations and for synchronizing betwee...
A digital implementation of a new technique that delivers an extremely accurate and stable phase loc...
This 3-part series of articles is intended to give a comprehensive overview of the use of PLLs (phas...
The growing demand for wireless device in military and communication applications in today’s technol...
This paper represents the recent advancement in the chip technology is integrating several sequentia...
Thanks to its ability to generate a stable yet programmable output frequency, Phase Locked Loop (PLL...
This contribution aims to be a proof of the feasibility of a fully open architecture in Hardware Des...
ABSTRACT OF THE DISSERTATION A Time Amplifier Assisted FDC and DTC Linearization for Digital Fract...
The thesis presents a digital PLL project that will be used as an ECE 463 lab module and serve as a ...
The study of phase locked loops (PLL) has been heavily treated in literature and most of the theoret...
This project presents a linear all-digital phase locked loop based on FPGA. In this ADPLL the phase ...
The demands for an ever higher data rate and a more varied functionality at minimal cost and power c...
The phase-locked loop (PLL) is used as frequency synthesizer in numerous electronic devices. This th...
Phase Locked Loops (PLLs) are widely used in clock recovery and frequency synthesis. Fully Digital P...
AbstractIn order to improve anti-jamming performance of the sensor, fast lock digital PLL is propose...
Contemporary digital systems use clocks for sequencing their operations and for synchronizing betwee...
A digital implementation of a new technique that delivers an extremely accurate and stable phase loc...
This 3-part series of articles is intended to give a comprehensive overview of the use of PLLs (phas...
The growing demand for wireless device in military and communication applications in today’s technol...
This paper represents the recent advancement in the chip technology is integrating several sequentia...
Thanks to its ability to generate a stable yet programmable output frequency, Phase Locked Loop (PLL...
This contribution aims to be a proof of the feasibility of a fully open architecture in Hardware Des...
ABSTRACT OF THE DISSERTATION A Time Amplifier Assisted FDC and DTC Linearization for Digital Fract...