H.-D. Wohlmuth scite author profile

We present an integrated 2:1 multiplexer and a companion 1:2 demultiplexer in CMOS. Both integrated circuits (ICs) operate up to a bit rate of 40 Gb/s. The 2:1 multiplexer features two in-phase data inputs which are achieved by a master-slave flip-flop and a master-slave-master flip-flop. Current-mode logic is used because of the higher speed compared to static CMOS and the robustness against common-mode disturbances. The multiplexer uses no output buffer and directly drives the 50-environment. An inductance connected in series to the output in combination with shunt peaking is used to enhance the bandwidth of the multiplexer. Fully symmetric on-chip inductors are used for peaking. The inductors are mutually coupled to save chip area. Lumped equivalent models of both peaking inductors allow optimization of the circuit. The ICs are fabricated in a 120-nm standard CMOS technology and use 1.5-V supply voltage. Measured eye diagrams of both ICs demonstrate their performance.

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Lumped and distributed lattice-type LC-baluns

Bakalski

Simbürger

Knapp

et al.

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A high sensitivity static 2:1 frequency divider up to 19 GHz in 120 nm CMOS

Wohlmuth

Kehrer

Simbürger

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Modeling of monolithic lumped planar transformers up to 20 GHz

Kehrer

Simbürger²,

Wohlmuth³

et al.

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H.-D. Wohlmuth

A monolithic transformer coupled 5-W silicon power amplifier with 59% PAE at 0.9 GHz

40-Gb/s 2:1 multiplexer and 1:2 demultiplexer in 120-nm standard CMOS

Lumped and distributed lattice-type LC-baluns

A high sensitivity static 2:1 frequency divider up to 19 GHz in 120 nm CMOS

Modeling of monolithic lumped planar transformers up to 20 GHz

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