用于超宽带乳腺癌检测系统的AB类可编程增益放大器

2021 28th IEEE International Conference on Electronics, Circuits, and Systems (ICECS) Pub Date : 2021-11-28 DOI:10.1109/icecs53924.2021.9665475

T. Martins, David Reyes, B. Sanches, W. Noije

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引用次数: 2

摘要

介绍了一种用于超宽带乳腺癌检测接收机的可编程增益放大器的设计。电路结构包括一个输入全差分放大器(FDDA)，具有折叠级联编码和可调电压反馈回路中的浮动电流AB级输出。此外，根据增益结构的不同，采用不同的补偿电容来提高其带宽。它有四个不同的电压增益值(V/V) 5.5, 8.25, 16.5和33，在输入和输出使用独立的共模电压。采用台积电180nm工艺制作了该电路，并给出了测试结果。该电路达到了足够的系统规格，例如其最高增益为7.1 MHz的3db带宽，自旋速率超过$35\ \ mathm {V}/\mu\ mathm {s}$， THD优于- 54 dBc，有源面积仅为0.079 mm2。

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A Class AB Programmable Gain Amplifier for an UWB Breast Cancer Detection System

This paper presents the design of a programmable gain amplifier (PGA) to be used in a ultra-wide band (UWB) breast cancer detection receiver. The circuit architecture compromises an input fully differential difference amplifier (FDDA) with folded cascode and floating current class AB output in an adjustable voltage feedback loop. Furthermore, different compensation capacitors were used to enhance its bandwidth according to the gain configuration. It has four different voltage gain values (V/V) of 5.5, 8.25, 16.5 and 33, using independent common mode voltages at the input and output. The circuit was taped-out in the TSMC 180 nm technology and the measured results are reported. The circuit achieved adequate specifications for the system, such as 7.1 MHz of 3-dB bandwidth for its highest gain, slew-rate surpassing $35\ \mathrm{V}/\mu\mathrm{s}$, THD better than −54 dBc and a very small active area of only 0.079 mm2.

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2021 28th IEEE International Conference on Electronics, Circuits, and Systems (ICECS)

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