Design of a time-gain-compensation amplifier for ultrasonic echo signal processing

2015 Open Conference of Electrical, Electronic and Information Sciences (eStream) Pub Date : 2015-04-21 DOI:10.1109/ESTREAM.2015.7119501

A. Vasjanov, V. Barzdenas

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引用次数: 1

Abstract

This article presents a design concept of a time-gain-compensation (TGC) amplifier integrated circuit (IC) for ultrasonic echo signal processing. The TGC chain contains pre-amplification, attenuation, filtering and comparison circuit blocks. An on-chip oscillator, bias circuit and digital control core are also included. The presented TGC IC concept blocks are designed and modeled using Cadence's IC design tools using a 250 nm CMOS process. The operational amplifier implemented in the TGC IC has a gain of 35 dB with a -3 dB bandwidth of 750 kHz, which corresponds to ultrasonic signal frequency range. The second order active band pass filter is of a Sallen-Key topology with a 274 MHz center frequency and a filter quality factor of Q = 1.018. A ring oscillator with external tuning capability is modeled at 448 kHz and has a 0.09 % frequency deviation. The ultrasonic echo processing chain has a digital output where the length of the pulse corresponds to the received signal strength. This makes the presented TGC IC concept suitable for both simple and complex ultrasonic, medical, industrial or research equipment.

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用于超声回波信号处理的时间增益补偿放大器的设计

提出了一种用于超声回波信号处理的时间增益补偿放大器集成电路的设计思想。TGC链包含预放大、衰减、滤波和比较电路块。还包括片上振荡器、偏置电路和数字控制核心。所提出的TGC IC概念块是使用Cadence的IC设计工具使用250纳米CMOS工艺设计和建模的。在TGC集成电路中实现的运算放大器增益为35 dB， -3 dB带宽为750 kHz，对应于超声波信号的频率范围。二阶有源带通滤波器采用Sallen-Key拓扑结构，中心频率为274 MHz，滤波器质量因子Q = 1.018。对具有外部调谐能力的环形振荡器进行了建模，频率偏差为0.09%，频率为448 kHz。超声波回波处理链具有数字输出，其中脉冲的长度对应于接收到的信号强度。这使得所提出的TGC IC概念适用于简单和复杂的超声波，医疗，工业或研究设备。

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 Open Conference of Electrical, Electronic and Information Sciences (eStream)

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