Low phase noise phase locked loop frequency synthesizer design for breast cancer detection

2015 19th National Biomedical Engineering Meeting (BIYOMUT) Pub Date : 2015-11-01 DOI:10.1109/BIYOMUT.2015.7369449

Mahsa Keykhali, Nevzat Guneri Genger

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Abstract

Harmonic Motion Microwave Doppler Imaging (HMMDI) method is recently proposed as a non-invasive hybrid breast imaging technique for tumor detection. In this method, local harmonic motion is generated in the tissue using a focused ultrasound probe. A narrow-band microwave signal is transmitted to the tissue. The Doppler component of the scattered signal, which depends on the dielectric and elastic properties of the vibrating region, is sensed [1]. Since the measurements obtained from HMMDI is directly related with phase noise, there are some studies to reduce phase noise of RF transmitting signal. In this work having a pure signal with ultra-low phase noise (-140dBc/Hz@1MHz) is one of the main goals to achieve the desired results at the proceeding steps. In addition the signal should be in (2-6GHz) frequency ranges. Therefore, modelling a low phase noise PLL operating in high frequency ranges with the help of measurements and microwave simulation tool (ADS) planned. According to the simulation results the proposed VCO provided a Phase Noise of about -137.64dBc/Hz @1MHz that is very acceptable in comparison to other provided complex VCO structures [2-5]. In addition generate 2.76 GH oscillating frequency.

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用于乳腺癌检测的低相位噪声锁相环频率合成器设计

谐波运动微波多普勒成像(HMMDI)是近年来提出的一种用于乳腺肿瘤检测的无创混合成像技术。在这种方法中，使用聚焦超声探头在组织中产生局部谐波运动。一个窄带微波信号被传送到组织中。散射信号的多普勒分量取决于振动区域的介电和弹性特性，被检测[1]。由于HMMDI测量结果与相位噪声直接相关，因此对射频发射信号的相位噪声进行了降低研究。在这项工作中，具有超低相位噪声(-140dBc/Hz@1MHz)的纯信号是在接下来的步骤中实现预期结果的主要目标之一。此外，信号应在(2-6GHz)频率范围内。因此，在测量和微波仿真工具(ADS)的帮助下，对工作在高频范围内的低相位噪声锁相环进行建模。根据仿真结果，所提出的VCO提供的相位噪声约为-137.64dBc/Hz @1MHz，与其他提供的复杂VCO结构相比，这是非常可接受的[2-5]。另外产生2.76 GH振荡频率。

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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2015 19th National Biomedical Engineering Meeting (BIYOMUT)

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