吉林大学学报(工学版) ›› 2016, Vol. 46 ›› Issue (2): 652-657.doi: 10.13229/j.cnki.jdxbgxb201602047
王春悦, 王立雪, 张俊茹, 石文孝
WANG Chun-yue, WANG Li-xue, ZHANG Jun-ru, SHI Wen-xiao
摘要: 由于无源电感不易集成,本文提出了一种新的基于改进的差动差分电流传送器 (MDDCC)的理想浮地电感,分析了电流传输器在理想情况和非理想情况下的电感值,该电路仅由2个MDDCC,2个电阻和1个电容构成,结构简单,电感值可由阻容元件独立调节.将此电路用于电压模式二阶低通和二阶带通以及电流模式高阶的连续时间滤波器中,用参数为0.18 μm CMOS工艺进行PSPICE计算机仿真.仿真结果表明,设计方案是可行有效的.
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[1] Laifi A,Al Abaji M A, Thewes R. High resolution current-Mode CCO-based continuous time delta-sigma modulators for sensor-array applications[C]//2014 10th Conference on Ph.D,Microelectronics and Electronics (PRIME),Grenoble,2014:1-4. [2] Balasubramaniam H,Hofmann K. Calibrated switched capacitor integrators based on current conveyors and its application to delta sigma ADC[C]//2014 10th Conference on Ph.D,Microelectronics and Electronics (PRIME),Grenoble,2014:1-4. [3] Bhatia V, Madan M, Kaur B,et al. A novel CC-II based current comparator and its application as current mode flash ADC[C]//2013 International Conference on Multimedia, Signal Processing and Communication Technologies (IMPACT),Aligarh,2013:217-222. [4] Pandey N,Paul S K,Bhattacharyya A. A novel channel select filter for multi standard wireless receiver[C]//2010 International Conference on Computer and Communication Technology (ICCCT),Allahabad,Uttar Pradesh,2010:282-284. [5] Soliman E A,Mahmoud S A. Multi-standard receiver baseband chain using digitally programmable OTA based on CCII and current division networks[C]//2012 International Conference on Engineering and Technology (ICET),Cairo,2012:1-5. [6] 石文孝,王长青,韩庆全. 基于多输出端差动差分电流传送器的模拟电感[J]. 吉林大学学报:信息科学版,2003,21(1):42-46. Shi Wen-xiao, Wang Chang-qing, Han Qing-quan. Simulated inductance based on MDDCC[J]. Journal of Jilin University(Information Science Edition),2003,21(1):42-46. [7] 梁荣新,丘水生. 改进型电流传输器实现接地变浮地回转器[J]. 中山大学学报:自然科学版,2003,42(5):32-34. Liang Rong-xin, Qiu Shui-sheng. The realization of grounded to floating gyrators using modified current conveyors[J]. Journal of Zhongshan University(National Science Edition),2003,42(5):32-34. [8] 邓晓,湛春晖. 基于双输出电流传送器的模拟浮地电感[J]. 湖南大学学报:自然科学版,2003,30(6):71-73. Deng Xiao,Zhan Chun-hui. Active simulation of floating inductors based on DOCCII[J]. Journal of Hunan University(Natural Sciences),2003,30(6):71-73. [9] 梁荣新. 用改进电流传输器实现的新型理想浮地电感[J]. 电子学报,1994,22(8):111-112. Liang Rong-xin. The novel ideal floating inductor realized by using modified current conveyors[J]. Chinese Journal of Electronics,1994,22(8):111-112. [10] Ibrahim M A,Minaei S,Yuce E,et al. Lossless grounded inductance simulation using only one modified dual output DDCC[C]//2011 34th International Conference on Telecommunications and Signal Processing (TSP),Budapest,2011:261-264. [11] Wang S F,Chen H P,Lin Y H,et al. Tunable voltage-mode multifunction biqaudratic filter with grounded capacitors and resistors using two DDCCs[C]//3rd International Conference on Communication Software and Networks (ICCSN),Xi'an,2011:552-556. [12] Ferri G,Guerrini N C,Romanato R,et al. CCII-based high-valued inductance simulators with minumum number of active elements[C]//18th European Conference on Circuit Theory and Design(ECCTD),Seville,2007:440-443. [13] Metin B,Cicekoglu O. A novel floating lossy inductance realization topology with NICs using current conveyors[J]. IEEE Transactions on Circuits and Systems,2006,53(6):483-486. [14] Ashenafi E,Chowdhury M H. Implementation of active floating inductor based on second generation current conveyor for on chip voltage regulator[C]//2013 IEEE 56th International Midwest Symposium on Circuits and Systems (MWSCAS),Columbus,OH,2013:768-771. [15] Said L A,Madian A H,Isamil M H,et al. CMOS digitally programmable lossless floating inductor[C]//2010 IEEE International Conference of Electron Devices and Solid-State Circuits (EDSSC),Hong Kong,2010:1-4. [16] Fakhfakh M,Loulou M,Tlelo-Cuautle E. Synthesis of CCIIs and design of simulated CCII based floating inductances[C]//14th IEEE International Conference on Electronics,Circuits and Systems(ICECS),Marrakech,2007:379-382. [17] Lawanwisut S,Siripruchyanun M. An electronically controllable active-only current-mode floating inductance simulator[C]//2012 35th International Conference on Telecommunications and Signal Processing (TSP),Prague,2012:386-389. |
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