A Carry Chain-Based ADMFC Design on an FPGA for EMI Reduction and Noise Compensation

Abstract: An all-digital multi-frequency clocking (ADMFC) circuit is proposed to reduce electromagnetic interference (EMI) on a field-programmable gate array (FPGA) architecture, while supporting dynamic adaptation to voltage noises. The proposed ADMFC uses dedicated high-speed carry chain paths in an FPGA to finely adjust the clock frequency by controlling the number of carry propagations on the carry chain logics (CARRY4 cells) in the delay line of a ring oscillator. Moreover, supply voltage variation and noise caused… Show more

“…The application of modern high-speed and large-capacity FPGA is expected to overcome the shortcomings of the above technical solutions. In our design, besides the task of digital signal processing, the FPGA also took into account the functions of controlling data acquisition and output measurement results [26][27][28][29][30].…”

Development of a Miniaturized Frequency Standard Comparator Based on FPGA

“…The application of modern high-speed and large-capacity FPGA is expected to overcome the shortcomings of the above technical solutions. In our design, besides the task of digital signal processing, the FPGA also took into account the functions of controlling data acquisition and output measurement results [26][27][28][29][30].…”

Development of a Miniaturized Frequency Standard Comparator Based on FPGA

Open-loop digital clock generator based VLSI architecture for electromagnetic interference reduction

An ICIM-CI-T Model for EMI Prediction of IO Element on Typical FPGA With Temperature Effect Considered