A 1.5-V differential cross-coupled bootstrapped BiCMOS logic forlow-voltage applications |
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Authors: | Yuh-Kuang Tseng Chung-Yu Wu |
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Affiliation: | Dept. of Electron. Eng., Nat. Chiao Tung Univ., Hsinchu; |
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Abstract: | Two new bipolar complementary metal-oxide-semiconductor (BiCMOS) differential logic circuits called differential cross-coupled bootstrapped BiCMOS (DC2B-BiCMOS) and differential cross-coupled BiCMOS (DC2-BiCMOS) logic are proposed and analyzed. In the proposed two new logic circuits, the novel cross-coupled BiCMOS buffer circuit structure is used to achieve high-speed operation under low supply voltage. Moreover, a new bootstrapping technique that uses only one bootstrapping capacitor is adopted in the proposed DC2B-BiCMOS logic to achieve fast near-full-swing operation at 1.5 V supply voltage for two differential outputs. HSPICE simulation results have shown that the new DC2B-BiCMOS at 1.5 V and the new DC2-BiCMOS logic at 2 V have better speed performance than that of CMOS and other BiCMOS differential logic gates. It has been verified by the measurement results on an experimental chip of three-input DC2B-BiCMOS XOR/XNOR gate chain fabricated by 0.8 μm BiCMOS technology that the speed of DC2-BiCMOS at 1.5 V is about 1.8 times of that of the CMOS logic at 1.5 V. Due to the excellent circuit performance in high-speed, low-voltage operation, the proposed DC2B-BiCMOS and DC2-BiCMOS logic circuits are feasible for low-voltage, high-speed applications |
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