Abstract
The implementation of a dual-modulus prescaler (divide by 128/129) using an extension of the true-single-phase-clock (TSPC) technique, the extended TSPC (E-TSPC), is presented. The E-TSPC consists of a set of composition rules for single-phase-clock circuits employing static, dynamic, latch, data-precharged, and NMOS-like CMOS blocks. The composition rules, as well as the CMOS blocks, are described and discussed. The experimental results of the complete dual-modulus prescaler, implemented in a 0.8 /spl mu/m CMOS process, show a maximum 1.59 GHz operation rate at 5 V with 12.8 mW power consumption. They are compared with the results from other recent implementations showing that the proposed E-TSPC circuit can reach high speed with both smaller area and lower power consumption.
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