用于微电容检测的C/V电路设计与研究

结合电荷放大原理,通过设计高性能的运算放大器,较好地完成了杂散电容的屏蔽,实现了高可靠性的微电容检测。采用CSMC0.5μmCMOS工艺,用Cadence Spectre对其进行仿真验证,能精确检测出aF量级的微电容。结合考虑不可避免的工艺误差,对差分标称电容的失配进行分析与校准。结果表明:失配仅带来固定的失调,不会对C/V电路的灵敏度造成显著的影响。

Design and Studies of C/V Circuit for Small Capacitance Measurement

Based on the principle of charge amplifier, a high performance operational amplifier was designed to shield stray capacitance, which enables high reliability small capacitance measurement.Fabricated in CSMC's 0.5 μm CMOS process and simulated with Cadence Spectre, the circuit can measure small capacitance precisely with a resolution of aF.Finally, mismatch of differential nominal capacitance caused by inevitable manufacturing errors was analyzed and calibrated.Results showed that mismatch only led to fixed drift, but no significant effect on sensitivity of the C/V circuit.