共查询到16条相似文献,搜索用时 55 毫秒
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低电压高速CMOS全差分运算放大器设计 总被引:1,自引:1,他引:0
设计了一种低压高速CMOS全差分运算放大器。该运放采用了折叠式共源共栅放大结构、连续时间共模反馈电路以及低压宽摆幅偏置电路,以实现在高稳定性下的高增益带宽、大输出摆幅。在Cadence环境下,基于TSMC 0.25μm CMOS标准工艺模型,对电路进行了spectre仿真。在2.5V电源电压下,驱动1pF负载时,开环增益71.6dB,单位增益带宽501MHz,功耗4.3mW。 相似文献
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设计了一种基于流水线模/数转换系统应用的低压高速CMOS全差分运算放大器。该运放采用了折叠式共源共栅放大结构与一种新型连续时间共模反馈电路相结合以达到高速度及较好的稳定性。设计基于SMIC 0.25μm CMOS标准工艺模型,在Cadence环境下对电路进行了Spectre仿真。在2.5V单电源电压下,驱动0.5pF负载时,开环增益为71.1dB,单位增益带宽为303MHz,相位裕度为52°,转换速率高达368.7V/μs,建立时间为12.4ns。 相似文献
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设计实现了一种具有高增益大带宽的全差分增益自举运算放大器,适用于高速高精度流水线模数转换器采保电路的应用.增益自举放大器的主放大器和子放大器均采用折叠共源共栅式全差分结构,并且主放大器采用开关电容共模反馈来稳定输出电压.该放大器工作在3.0 V电源电压下,单端负载为2pF,采用0.18Wn CMOS工艺库对电路进行仿真,结果显示该放大器的直流增益可达到112dB,单位增益带宽为1.17GHz. 相似文献
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This paper presents a new CMOS fully differential current feedback operational amplifier (FDCFOA). The proposed CMOS realization of the FDCFOA is based on a novel class AB fully differential buffer circuit. Besides the proposed FDCFOA circuit is operating at supply voltages of ±1.5 V, it has a total standby current of 400 A. The applications of the FDCFOA to realize variable gain amplifier, fully differential integrator, and fourth order fully differential maximally flat low pass filter are given. The fourth order filter provides 8 dB gain and a bandwidth of 4.3 MHz to accommodate the wideband CDMA standard. The proposed FDCFOA and its applications are simulated using CMOS 0.35 m technology.Soliman A. Mahmoud was born in Cairo, Egypt, in 1971. He received the B.Sc. degree with honors, the M.Sc. degree and the Ph.D. degree from the Electronics and Communications Department, Cairo University—Egypt in 1994, 1996 and 1999 respectively. He is currently an Assistant Professor at the Electrical Engineering Department, Cairo University, Fayoum-Campus. His research interests include low voltage analog CMOS circuit design, filtering and applications suitable for VLSI.Inas Awad was born in Cairo, Egypt, in 1971. She received the Bachelor, the M.Sc. and the Ph.D. degrees in Electronics and Communications from Cairo University in 1994, 1997 and 2000, respectively. In 1995, she joined the department of Electronics and Communications, Cairo University, Fayoum-Campus as a teaching assistant and now she is an Assistant Professor at the same department. Her primary research interest is in analog circuits with particular emphasis on current-mode approach and low-voltage low-power CMOS designs. 相似文献
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本文介绍了模型法与分离塞入比法由于采用了模拟电路,而具有的缺点。提出了改进模型法与改进分离塞入比法,可以利用全数字电路实现。同时,文章分析了改进模型法与改进分离塞入比法的性能,以说明它们克服了原方法的不足,而又保持了原方法的优良性能,并给出了对比实验结果。 相似文献
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Giuseppe Ferri Willy Sansen Vincenzo Peluso 《Analog Integrated Circuits and Signal Processing》1998,16(1):5-15
A low-voltage fully differential CMOS operational amplifier withconstant-gmand rail-to-rail input and output stages ispresented. It is the fully differential version of a previously realizedsingle-ended operational amplifier where a novel circuit to ensure constanttransconductance has been implemented [1]. The input stage is a rail-to-railstructure formed by two symmetrical OTAs in parallel (the input transistorsare operating in weak inversion). The class-AB output stages have also afull voltage swing. A rail-to-rail input common mode feedback structureallows the output voltage control. Measurements in a 0.7 µ standardCMOS process with threshold voltages of about 0.7 V have been done. Theminimum experimental supply voltage is about 1.1 V. The circuit provides a60 dB low frequency voltage gain and about 1.5 MHz unity gain frequency fora total power consumption of about 0.72 mW at a 1.5 V supply voltage. 相似文献