High Frequency Oscillator Design Using a Single 45 nm CMOS Current Controlled Current Conveyor (CCCII+)with Minimum Passive Components

Mohd Yusuf Yasin; Bal Gopal

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High Frequency Oscillator Design Using a Single 45 nm CMOS Current Controlled Current Conveyor (CCCII+)with Minimum Passive Components

机译：使用单个45 nm CMOS电流控制电流传输器（CCCII +）和无源元件最少的高频振荡器设计

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In the field of analog VLSI design, current conveyors have reasonably established their identity as an important circuit design element. In the literature published during the past few years, numerous application have been reported which are based on a variety of current conveyors. In this paper, an oscillator circuit has been proposed. This oscillator is designed using a single positive type second generation current controlled current conveyor (CCCII+). A CCCII has parasitic input resistance on it's current input node. This resistance could be exploited to reduce circuit complexities. Thus in this accord, a novel oscillator circuit is proposed which utilizes the parasitic resistance of the CCCII+ along with a few more passive components.

机译：在模拟VLSI设计领域，电流传输器已经合理地确立了其作为重要电路设计元素的身份。在过去几年中发表的文献中，已经报道了许多基于各种当前传送带的应用。在本文中，提出了一种振荡器电路。该振荡器是使用单个正型第二代电流控制电流传送器（CCCII +）设计的。 CCCII在其当前输入节点上具有寄生输入电阻。可以利用该电阻来降低电路复杂度。因此，按照这种协议，提出了一种新颖的振荡器电路，该电路利用了CCCII +的寄生电阻以及更多的无源元件。

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来源
《Circuits and systems》 |2011年第2期|p.53-59|共7页
作者
Mohd Yusuf Yasin; Bal Gopal;
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作者单位

Department of Electronics and Communication Engineering, Integral University, Lucknow, India;

Department of Electronics and Communication Engineering, Integral University, Lucknow, India;

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正文语种 eng
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关键词
current mode (cm) circuit applications; current conveyor (cc); current controlled current conveyor (ccc) applications; cccii oscillator circuit; single cccii+ oscillator circuit; low power oscillator circuit;

机译：电流模式（cm）电路应用;电流输送机（cc）;电流控制电流传送器（ccc）应用;cccii振荡器电路;单cccii +振荡器电路;低功耗振荡器电路;

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专利

1. High Frequency Oscillator Design Using a Single 45 nm CMOS Current Controlled Current Conveyor (CCCII+) with Minimum Passive Components [J] . Mohd Yusuf Yasin, Bal Gopal Circuits and Systems . 2011,第2期

机译：使用单个45 nm CMOS电流控制电流传输器（CCCII +）且无源元件最少的高频振荡器设计
2. SINGLE-CURRENT-CONTROLLED SINUSOIDAL OSCILLATOR WITH CURRENT AND VOLTAGE OUTPUTS USING SINGLE CURRENT-CONTROLLED CONVEYOR TRANSCONDUCTANCE AMPLIFIER AND GROUNDED PASSIVE ELEMENTS [J] . WORAPONG TANGSRIRAT, ORAPIN CHANNUMSIN, TATTAYA PUKKALANUN Revue roumaine des sciences techniques . 2015,第2期

机译：使用单电流控制的对流互导放大器和接地无源元件的单电流控制正弦振荡器，具有电流和电压输出
3. CMOS realization of single-resistance-controlled and variable frequency dual-mode sinusoidal oscillators employing a single DVCCTA with all-grounded passive components [J] . Hung-Chun Chien, Chih-Yen Chen Microelectronics journal . 2014,第2期

机译：采用单个DVCCTA和全接地无源元件的单电阻控制和可变频率双模正弦波振荡器的CMOS实现
4. Design of wideband current conveyor (CC-II) based oscillator for low-voltage application using 180nm CMOS Technology [C] . Jain Jitendra, Singh Shobhit, Srivastava Harsh, 2013 IEEE International Conference on Control, Automation, Robotics and Embedded Systems . 2013

机译：基于180nm CMOS技术的低压应用宽带电流传输器（CC-II）振荡器的设计
5. Design of a CMOS current conveyor-based field-programmable analog array [D] . Gaudet, Vincent Charles 1997

机译：基于CMOS电流传输器的现场可编程模拟阵列的设计
6. The CMOS Highly Linear Current Amplifier with Current Controlled Gain for Sensor Measurement Applications [O] . Roman Prokop, Roman Sotner, Vilem Kledrowetz 2020

机译：CMOS高度线性电流放大器具有电流控制增益用于传感器测量应用
7. High Frequency Oscillator Design Using a Single 45 nm CMOS Current Controlled Current Conveyor (CCCII+) with Minimum Passive Components [O] . Mohd Yusuf Yasin, Bal Gopal 2011

机译：使用单个45 nm CMOS电流控制电流传输器（CCCII +）且无源元件最少的高频振荡器设计

High Frequency Oscillator Design Using a Single 45 nm CMOS Current Controlled Current Conveyor (CCCII+)with Minimum Passive Components

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