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低功耗异或同或电路的设计研究 被引量:4

Analysis and Design of Low Power XOR-XNOR Circuits
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摘要 提出了2种传输管实现的新型低功耗异或门结构,UPPL(UnsymmetricalPushPullPassTransistorLogic)结构和CPPL(ComplementaryPushPullPassTransistorLogic)结构,两者均为非互补输入,互补输出,都能够同时产生异或和同或信号,且输出为全摆幅电压。对新结构在0.18μm工艺1.8V电压下进行了hspice仿真,与已有同类电路在速度、功耗和功耗延迟乘积方面进行了比较。UPPL结构和CPPL结构与2003年MohamedElgamel提出的最新设计相比,空负载时,功耗延迟乘积项分别有61.0%和58.4%的降低;扇出为3时,分别有25.3%和45.3%的降低。 Two novel low power pass transistor based XOR-XNOR circuits are proposed, UPPL (Unsymmetrical Push Pull Pass Transistor Logic) and CPPL (Complementary Push Pull Pass Transistor Logic). They both input single rail signals and output dual rail signals, which can get XOR and XNOR signals simultaneously. The output signals are full swing voltage. Hspicc simulation under 0.18 μm technology 1.8 V voltage showed improvement on speed and power-delay product compared with some other circuits. Compared with the latest circuits, which was proposed by Mohamed Elgamel in 2003, the UPPL and CPPL circuits have 61.0% and 58.4% decreases on power delay product respectively without load. And with fanout three, they have 25.3% and 45.3% decreases respectively.
作者 兰景宏 王芳 吉利久 贾嵩
机构地区 北京大学微电子系
出处 《北京大学学报(自然科学版)》 EI CAS CSCD 北大核心 2006年第3期380-384,共5页 Acta Scientiarum Naturalium Universitatis Pekinensis
关键词 低功耗 布尔逻辑 异或门 界或同或逻辑 传输门实现 low power Boolean logic XOR circuit XOR-XNOR logic pass transistor logic
分类号 TN79 [电子电信—电路与系统]
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参考文献5

  • 1Reto Zimmermann, Wolfgang Fichtner. Low-Power Logic Styles: CMOS Versus Pass Transistor Logic. IEEE Journal of Solid State Circuits, 1997, 32(7), 1 079-1 090
  • 2Wang Jyh-Ming, Fang Sung-Chuan, Feng Wu-Shiung. New Efficient Designs for XOR and XNOR Functions on the Transistor Level. IEEE Journal of Solid-State Circuits, 1994,29(7), 780-786
  • 3Hung Tien Bui, Abdul Karim. New 4 Transistor XOR and XNOR Designs. The Second IEEE Asic Pacific Conference on ASICs, 2000, 25-28
  • 4Radhakrishnan D, Low Voltage Low Power CMOS Full Adder. IEE Proc-Circuits Devices Syst, 2001, 148(1) :19-24
  • 5Mohamed Elgamel, Sμmeer Goel. Noise Tolerant Low Voltage XOR-XNOR for Fast Arithmetic. LSVISL, 2003, 285-288

同被引文献18

  • 1方建平,史江一,郝跃,朱志炜.DSP芯片中全加器电路的优化设计[J].电路与系统学报,2006,11(2):145-148. 被引量:3
  • 2吕虹,徐慜,刘雨兰.高性能CMOS全加器设计[J].电子测量与仪器学报,2006,20(5):85-88. 被引量:2
  • 3邢克飞,杨俊,季金明.空间辐射效应对SRAM型FPGA的影响[J].微电子学与计算机,2006,23(12):107-110. 被引量:11
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  • 8Li Hao, Yu LixirL A study on the hardware imp. of EDAC[CJ//Proc of the Third International Conference Convergence and Hybrid Information Technology. Washington, DC, USA. IEEE Copmuter Society, 2008: 222-225.
  • 9ZIMMERMANN R, FICHTNER W. Low-power logic styles, CMOS versus pass-transistor logic [J].IEEE Journal of Solid-State Circuits, 1997, 32 (7): 1079-1090.
  • 10WANG J M, FANG S C, FENG W S. New efficient designs for XOR and XNOR functions on the transistor level [J]. IEEE Journal of Solid-State Circuits, 1994, 29(7) : 780-786.

引证文献4

二级引证文献5

北京大学学报(自然科学版)
2006年 第3期

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