Prajith Kumar Poongodan, Oleg Sakolski, F. Vanselow, L. Maurer
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引用次数: 1
摘要
介绍了一种用于二维电容式微机械超声换能器(CMUT)阵列的8通道接口ASIC。我们提出了一种新的接口方案,以消除对高压(HV)外部直流偏置的需要。两电平高压驱动电路在两个高压电平之间切换,在1.8 MHz时产生47v的峰对峰输出脉冲,上升和下降时间分别为78 ns和67 ns。在接收路径中使用具有4个可调增益设置的电阻反馈跨阻放大器(TIA),将时变电流输入转换为输出电压。在反馈网络中采用300 kΩ电阻的增益设置下,TIA的测量带宽为- 3db,为4mhz。输入参考噪声电流测量值为$2.6{\text{pA}}/\sqrt {Hz} $。通过对CMUT样品的脉冲回波测量,验证了系统收发工作的成功。该芯片采用0.18 μ m HV SOI CMOS工艺制造,有源面积为6 mm2。
An 8 Channel Transceiver ASIC to Interface a CMUT Array
This paper presents an 8 channel interface ASIC for a 2D Capacitive Micromachined Ultrasonic Transducer (CMUT) array. We propose a novel interfacing scheme to eliminate the need for a high voltage (HV) external DC biasing. A two-level HV driver circuit switches between two HV levels to produce a 47 V peak to peak output pulse with rise and fall times of 78 ns and 67 ns at 1.8 MHz. A resistive feedback transimpedance amplifier (TIA) with 4 adjustable gain settings that converts a time-varying current input into an output voltage is used in the receive path. The TIA has a measured −3 dB bandwidth of 4 MHz at the gain setting employing a 300 kΩ resistor in the feedback network. The input referred noise current is measured to be $2.6{\text{pA}}/\sqrt {Hz} $. A pulse-echo measurement on a CMUT sample demonstrates successful transmit-receive operation of the system. The chip is fabricated in a 0.18 µm HV SOI CMOS process with an active area of 6 mm2.
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