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Design of low-power high-speed bipolar frequency dividers

Design of low-power high-speed bipolar frequency dividers

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Published

A low-power current mode bipolar frequency divider is discussed. Low-power consumption is achieved owing to the design strategy being based on a progressive reduction of bias currents through stages without affecting divider operation speed. The strategy is independent of the process used and simple to design, avoiding the trial-and-error approach based on simulations.

Inspec keywords: frequency dividers; bipolar logic circuits; high-speed integrated circuits; current-mode circuits; current-mode logic; flip-flops; low-power electronics

Other keywords: minimum delay; progressive reduction; bias currents; SPICE simulations; successive stage design; level shifters; bipolar current mode logic; optimum latch current; low-power consumption; optimum design; current mode bipolar frequency divider; design strategy; D-latch delay

Subjects: Convertors; Logic circuits; Bipolar integrated circuits

References

    1. 1)
      • K. Ishii , H. Ichino , M. Togashi , Y. Kobayashi , C. Yamaguchi . Very-high-speed Si bipolar static frequency dividers with new T-type flip-flops. IEEE J. Solid-State Circ. , 1 , 19 - 24
    2. 2)
      • M. Kurisu , M. Ohuchi , A. Sawairi , M. Sugiyama , H. Takemura , T. Tashiro . A Si bipolar 21-GHz/320-mW static frequency divider. IEEE J. Solid-State Circ. , 11 , 1626 - 1630
    3. 3)
      • M. Alioto , G. Palumbo . CML and ECL: optimized design and comparison. IEEE Trans. Circuits Syst. I , 11 , 1330 - 1341
    4. 4)
      • A. Felder , M. Moller , J. Popp , J. Bock , H.-M. Rein . 46 Gb/s DEMUX, 50 Gb/s MUX, and 30 GHz static frequency divider in silicon bipolar technology. IEEE J. Solid-State Circ. , 4 , 481 - 486
    5. 5)
      • M. Alioto , G. Palumbo . Modeling and optimized design of current mode MUX/XOR and D flip-flop. IEEE Trans. Circuits Syst. II , 5 , 452 - 461
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