F. Corsi, M. Foresta, C. Marzocca, G. Matarrese, A. Tauro
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引用次数: 4
摘要
本文提出了一种新的基线保持电路(BLH),能够在直流和高速率运行时,在粒子探测器的典型模拟前端通道的输出端产生稳定的基线电平。该电路适用于需要高增益整形器的现代高灵敏度伽马射线医学成像系统。一个非常低的频率极点,这是整形器- blh回路稳定性的基础,通过操作跨导放大器(OTA)实现,可以节省面积,使电路适合集成在标准的CMOS技术中。由于整形器+BLH系统的低直流增益,非线性效应已被利用来减少高输入信号速率下的基线位移。该电路采用标准的0.35 μ m CMOS技术设计,大量的仿真证明了所采用解决方案的有效性。在30khz输入速率下,基线漂移小于1.8 mV。
A novel baseline holder circuit for nuclear imaging front-end electronics
A novel baseline holder circuit (BLH) is proposed here, able to produce a stable baseline level at the output of a typical analog front-end channel for particle detectors, both at dc and at high rate operation. The circuit is suitable to be used in modern high-sensitivity gamma-ray medical imaging systems, where high gain shapers are required. A very low frequency pole, which is fundamental for the stability of the shaper-BLH loop, is realized by means of operational transconductance amplifiers (OTA), which allow to save area, making the circuit suitable for the integration in a standard CMOS technology. Non-linearity effects have been exploited to reduce the baseline shift at high input signal rates, due to the low dc gain of the shaper+BLH system. The circuit has been designed in a standard 0.35 mum CMOS technology, and extensive simulations prove the effectiveness of the adopted solutions. A baseline drift of less than 1.8 mV has been observed for a 30 KHz input rate.
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