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引用次数: 0
摘要
在当前远程通信框架中的l波段等毫米波应用中,规划一个更小、功率更有效、具有高复发性的压控振荡器环配置多年来一直是一个关注的领域。在本文中,在45纳米技术创新中,利用完全差分工程,在基于毫米波的环形振荡器中进行了力可行安排,沿着这些线路实现了轨到轨的产生摆动值1.2 Vpp和320 x 10-6 W的法向力分散,这对于差分设计来说是非常可观的。更喜欢子模块的简单执行,在很小的尺寸上,5级CMOS差分VCRO已经收到了专门的倾向控制块,这有助于扩大计划的部分并在产量上给予巨大的波动。VCO的环形结构已在TSPICE舞台上获得批准,确认了1850 MHz的最大调谐复发率为29%,总调谐范围为500 - 1850 MHz。
A Low Power Fully Differential Ring-VCO Design in 45-nm CMOS Technology for Digital Applications
Planning a smaller, effective in power the Ring configuration of the VCO having high recurrence in millimeter wave applications like the L-band applicable in the present-day remote correspondence framework, has been like a concern area for years. In this article, a force viable arrangement in millimeter wave-based Ring Oscillator had been carried out in 45 nm technology innovation utilizing completely differential engineering, along these lines accomplishing rail to rail yield swing value of 1.2 Vpp & normal force dispersal of 320 x 10-6 W, which is exceptionally considerable for a differential design. Preferring the simple execution of the sub module in little bite the dust size, a 5-stage CMOS differential VCRO has been received with devoted predisposition control block, which helps in broadening the segment of the plan & giving huge swing at the yield. The ring configuration of VCO had been approved on TSPICE stage which affirms the greatest tuning recurrence of 1850 MHz with 29% all out symphonious contortion & a total tuning scope of 500 - 1850 MHz.
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