集成电流控制电流源与可编程增益的电荷放大器应用

IEEE Instrumentation and Measurement Technology Conference Sensing, Processing, Networking. IMTC Proceedings Pub Date : 1997-05-19 DOI:10.1109/IMTC.1997.612381

M. Stockinger, G. Brasseur, N. Kero, T. Sauter

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引用次数: 2

摘要

我们提出了一种集成电流控制电流源(CCCS)，用于n孔1.2 /spl mu/m- cmos工艺，电源电压为5 V，允许正负电流值。增益在1/16到1的数字可编程范围内，通过开关四个二进制加权输入分支开或关，方便自动增益控制。由于有源反馈级联码技术，其输出电阻高于10g /spl ω /。线性度优于0.25%，带宽从单位增益的1 MHz到增益为1/16的10 MHz不等，没有任何增益超调，如Cadence/SpectreS模拟所示。通过将片上电容连接到输出端，可以创建精确的电流积分器ASIC。讨论了其作为电容式传感器电荷放大器的应用。灵敏度可以通过简单地改变ccd增益来调整到传感器电容的不同值。该电荷放大器的带宽范围为3.5 Hz至350 kHz，输出电压稳定时间为2 /spl mu/s，输出电压为1 V/sub / pp。

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An integrated current-controlled current source with programmable gain for charge amplifier applications

We present an integrated current-controlled current source (CCCS) for an n-well 1.2 /spl mu/m-CMOS-process with 5 V supply voltage allowing positive and negative current values. The gain is digitally programmable within a range of 1/16 to 1 by switching four binary weighted input branches on or off, which facilitates automatic gain control. Its output resistance is higher than 10 G/spl Omega/ due to active-feedback cascode techniques. Linearity is better than 0.25%, the bandwidth varies from 1 MHz for unity gain to 10 MHz for a gain of 1/16 without any gain overshoot, as simulations with Cadence/SpectreS show. With an on-chip capacitor connected to the output, a precise current integrator ASIC can be created. We discuss its application as a charge amplifier for capacitive sensors. Sensitivity can be adjusted to different values of the sensor capacitance by simply changing the CCCS-gain. The charge amplifier shows a bandwidth ranging from 3.5 Hz to 350 kHz and an output voltage settling time of 2 /spl mu/s for a 1 V/sub pp/ output voltage.

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IEEE Instrumentation and Measurement Technology Conference Sensing, Processing, Networking. IMTC Proceedings

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