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A multi-capacitor coupled signaling structure is employed to enable low-power high frequency communications in 10 mm long interposer traces. On-chip Metal-Insulator-Metal (MIM) capacitor was used to implement the Multi capacitor structure. A continuous time feed forward tunable capacitive equalization was used to compensate for the frequency dependent losses. The multi-capacitor structure is used...
Conventional current-mode summation utilized in feed-forward equalization (FFE) has disadvantages in power consumption and linearity and thus becomes less attractive when high-speed low-power equalization is required. A Multi-Capacitor (MultiCap) structure is presented to overcome these disadvantages by supporting voltage-mode summation. This passive structure replaces the current-summation block...
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