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MCML Implementation of Gbps De-Multiplexer with Dynamic Power Management Osman Abdulkarim 21 February 2005 • • • • • • • • MCML Advantages Disadvantages Topologies Dynamic Power management Multiplexers/De-multiplexers Proposal statement References MOS Current Mode Logic Differential pair acts as a switch that steers current based on input signal Advantages of MCML • SPEED ∆V = Vdd – IR, Typically 0.3 ~ 0.4 V • NOISE IMMUNITY Common Mode Rejection • Differential Signal No need for Inverters Disadvantages • Static Power Dissipation P = Vdd . I • Hard to design and optimize Design Considerations include: -Load Biasing and sizing -Diff-pairs and current sink -Minimum Swing for compete steering Threshold fluctuation tolerant MCML • Threshold variation is due to fabrication process variations. E.g. Gate length, oxide thickness, etc. • Threshold fluctuation tolerant MCML Uses feedback to compensate for threshold variation. ∆VTHMAX: Maximum allowable threshold voltage variation Dynamic CML • Dynamic current source using a capacitor. During evaluation, capacitor acts as a virtual AC ground • Cross-connected PFETs speed up the switching operation. • Cascading DyCML gates: -Delayed Clock -Self timed gates Dynamic Power Management-AMCML • Circuit conditions power consumption by changing current based on frequency of operation. • Reduce power dissipation to the minimum required for each operation band. De-Multiplexers • De-Multiplexers convert a serial bit stream into a parallel word format. • Used in serial communication systems • Can be modeled using shift registers, switches or D-Latches 2:1 DeMUX Proposal Statement • To design a CML Wide Band Gbps 2:1 Multiplexer using Feedback transistors and an Adaptable current management. • The results shall be compared to Conventional CML, with focus on Power dissipation and speed. Time Table • Feb, 16 Project Proposal • Feb, 16 – Mar, 1 Research: Accumulate information on MCML, threshold voltage fluctuation theory and its effect on MCL switching speed. Define the problem, the performance requirements, the testing methodology and performance indicators measurement. • Mar, 1 – Mar, 25 Circuit design and simulation • Mar, 25 – April 1 Project Presentation • April 1 – April 25 Simulation results recording and analysis. Conclusions and suggestions. Comprehensive report. References [1] 0.18-μm CMOS 10-Gb/s multiplexer/demultiplexer ICs using current mode logic with tolerance to threshold voltage fluctuation Tanabe, A.; Umetani, M.; Fujiwara, I.; Ogura, T.; Kataoka, K.; Okihara, M.; Sakuraba,H.;Endoh,T.;Masuoka,F.;Solid-State Circuits, IEEE Journal of ,Volume: 36 , Issue:6, June 001 Pages:988 - 996 [2] Dynamic current mode logic (DyCML): a new low-power high-performance logic style Allam, M.W.; Elmasry, M.I.; Solid-State Circuits, IEEE Journal of ,Volume: 36 , Issue: 3 , March 2001 Pages:550 - 558 [3] Adaptable MOS Current mode logic for use in a multiband RF prescalar Mark, M.P; Olszweski, D.J; Abdelhalim, K.; MacEachern, L. Circuits and Systems, 2004. ISCAS’04. Proceedings of the 2004 International Symposium on, Vol 4, Iss., 23-26 May 2004 Pages: IV-329-32 Vol 4 [4] 10 Gb/s silicon bipolar 8:1 multiplexer and 1:8 demultiplexer Stout, C.L.; Doernberg, J.; Solid-State Circuits, IEEE Journal of ,Volume: 28 , Issue: 3 , March 1993 Pages:339 - 343