利用回收尾电流源提高曳光率

IF 1.5 4区 工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC Iranian Journal of Science and Technology-Transactions of Electrical Engineering Pub Date : 2024-01-30 DOI:10.1007/s40998-024-00695-0
Mohammad Rashtian
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引用次数: 0

摘要

电流再循环结构用于提升运算跨导放大器(OTA)的尾电流源,从而提高回转率(SR)。所提出的电流循环电路可检测差分输入电压的大小,并根据检测到的差分输入电压的绝对值按比例调整尾电流源值。当施加较小的输入信号时,OTA 的静态电流不会发生变化;因此,拟议的尾电流升压电路不会降低电压增益和带宽。所提出的尾电流升压源被用于驱动一个两级 A-AB 类 OTA,以评估其性能。采用标准 0.18 µm 3.3 V CMOS 工艺技术的布局后仿真结果显示,与两级 A-AB 类主 OTA 相比,SR 提高了约 396%,但静态功耗增加了 21%。拟议的 AB-AB OTA 在驱动 10 pF 电容性负载时可达到 65.7 V/μs,静态功耗为 0.38 mW。
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Slew Rate Enhancement Using Recycling Tail Current Source

A current recycling structure is used to boost the tail current source of an operational transconductance amplifier (OTA), improving the slew rate (SR). The proposed current recycling circuit detects the magnitude of the differential input voltage and adjusts the tail current source value in proportion to the absolute value of the detected differential input voltage. When a small input signal is applied, the quiescent current of the OTA does not change; therefore the proposed tail current boosting circuit does not degrade the voltage gain and bandwidth. The proposed boosted tail current source has been used to drive a two-stage class A-AB OTA to evaluate its performance. Post-layout simulation results using standard 0.18 µm 3.3 V CMOS process technology show SR improvement of approximately 396% at the cost of 21% increase in static power consumption compared to a two-stage class A-AB primary OTA. The proposed AB-AB OTA achieves 65.7 V/μs at a static power consumption of 0.38 mW when driving a 10 pF capacitive load.

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来源期刊
CiteScore
5.50
自引率
4.20%
发文量
93
审稿时长
>12 weeks
期刊介绍: Transactions of Electrical Engineering is to foster the growth of scientific research in all branches of electrical engineering and its related grounds and to provide a medium by means of which the fruits of these researches may be brought to the attentionof the world’s scientific communities. The journal has the focus on the frontier topics in the theoretical, mathematical, numerical, experimental and scientific developments in electrical engineering as well as applications of established techniques to new domains in various electical engineering disciplines such as: Bio electric, Bio mechanics, Bio instrument, Microwaves, Wave Propagation, Communication Theory, Channel Estimation, radar & sonar system, Signal Processing, image processing, Artificial Neural Networks, Data Mining and Machine Learning, Fuzzy Logic and Systems, Fuzzy Control, Optimal & Robust ControlNavigation & Estimation Theory, Power Electronics & Drives, Power Generation & Management The editors will welcome papers from all professors and researchers from universities, research centers, organizations, companies and industries from all over the world in the hope that this will advance the scientific standards of the journal and provide a channel of communication between Iranian Scholars and their colleague in other parts of the world.
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