Study of Voltage Controlled Oscillator for the Applications in K-band and the Proposal of a Tunable VCO

WSEAS TRANSACTIONS ON ELECTRONICS Pub Date : 2023-08-02 DOI:10.37394/232017.2023.14.5

G. Kapur

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Abstract

The advances in wireless technology have made the transfer or sharing of information simple and efficient thereby maximizing its impact to society around the globe. Due to these advances more memory space is required to store such a large transfer of information. This can only be done by reducing the device size which means scaling of MOS transistor to deep submicron levels. The most important part of wireless technology is the wireless trans-receiver. Its role is to transmit or receive the information to (or from) the wireless device. In the wireless trans-receiver, the frequency synthesizer is responsible for generating a stable output frequency which is used further to mix the received signal down to lower frequencies and vice-versa. This stable output frequency is generated by using Phase Locked Loop (PLL). While working at high frequency at the range of 12GHz to 40 GHz, where the operation is carried out at a very high speed and the coverage is done with the multiple beams, the circuits used at high frequency should be compatible with high speed. So, in this paper one very basic component which is the heart of communication system i.e., VCO is studied and the design parameters has been listed in this paper.

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k波段压控振荡器的研究及可调谐压控振荡器的设计

无线技术的进步使信息的转移或共享变得简单和有效，从而最大限度地发挥其对全球社会的影响。由于这些进步，需要更多的内存空间来存储如此大的信息传输。这只能通过减小器件尺寸来实现，这意味着将MOS晶体管缩放到深亚微米级别。无线技术中最重要的部分是无线收发器。它的作用是向(或从)无线设备发送或接收信息。在无线收发器中，频率合成器负责产生稳定的输出频率，用于进一步将接收到的信号混合到较低的频率，反之亦然。这种稳定的输出频率是由锁相环(PLL)产生的。在12GHz至40ghz的高频范围内工作时，由于操作速度非常快，并且使用多波束进行覆盖，因此高频使用的电路应与高速兼容。因此，本文对通信系统的核心——压控振荡器进行了研究，并给出了其设计参数。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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