@article{Kiani_Pourahangaryan_NiarakiAsl_2024, title={A Novel CMOS Ripple Comparator Cell Using the Gate-Diffusion Input Technique}, volume={3}, url={https://oiccpress.com/Majlesi-Journal-of-Electrical-Engineering/article/a-novel-cmos-ripple-comparator-cell-using-the-gate-diffusion-input-technique/}, DOI={10.1234/mjee.v3i4.127}, abstractNote={In this paper a new implementation of CMOS ripple comparator cell using the Gate-Diffusion Input (GDI) technique is presented. The proposed design using this technique allows for the reduction of power consumption, propagation delay, and the area of digital circuits while maintaining low complexity of logical design. The performance comparison with standard CMOS and GDI logic design techniques is presented. These methods are compared with respect to the number of devices, PDP, and power dissipation. Simulation results confirm that the proposed cell can work at low supply voltage and dissipates low power.}, number={4}, journal={Majlesi Journal of Electrical Engineering}, publisher={OICC Press}, author={Kiani, Azadeh and Pourahangaryan, Fereshteh and NiarakiAsl, Rahebeh}, year={2024}, month={Feb.}, keywords={Low-power, GDI, Ripple Comparator, Propagation Delay, PDP} }