BD031 MEMS信号处理电路的研制及测试

本文报道了一个为电容式微加速度计传感器信号处理而设计的全集成化的BD031 CMOS MEM信号处理电路.电路设计采用了对信号的差分电容采样方式和过采样技术、前置采样放大器高增益和低噪声设计措施、可调节选通带宽的的低通滤波器及为提高电容噪声性能的带有虚开关结构的开关电容滤波器设计技术、可微调节增益(常规情况下恒定增益为2)的输出缓冲放大器、可调节振荡频率(正常情况下为800KHz)的本地CMOS时钟产生振荡器及为上述模拟电路提供基准电压和基准电流的基准电压源等设计技术、以及可以进行输入失调调节和对差分电容变化量△C的自测试电路.电路使用单一5伏电源,采用1.2微米、双多晶硅、双铝、N-阱CMOS工艺加工,芯片面积为2.82×3.61平方毫米.芯片性能测试表明其差分小电容变化量△C传感范围达到0.06pF-5pF、带宽为300Hz-5KHz.

多路光电信号检测电路的设计与实现

本文提出了以高精度运放作为触发检测器件的一种多路光电信号检测电路,用于检测高速弹丸在穿过光幕时对光电检测器件的影响,从而得到一个有效的触发信号。多路光电信号检测电路作为整个双光幕弹丸测速系统的核心电路,它的精度直接决定了整体系统的性能指标。最后对此电路进行了模拟仿真,结果表明:多路光电信号检测系统设计完整,有效可靠。该设计适用于小口径的弹丸测速工作,电路结构形式简单、制造成本低廉,操作方便易用。具有较高的工程价值。

A High Precision CMOS Opamp Suitable for ISFET Readout

This paper presents a high precision CMOS opamp suitable for ISFET readout. The opamp is tailored to provide a constant bias condition for ISFET as part of the readout circuits and,hence,is compatible for single chip integration with the sensor. A continuous time auto-zero stabilization technique is studied and employed, with the aim of suppressing the low frequency noises, including the offset voltage, 1/f noise, and temperature drift. The design is based on a 0.35μm CMOS process. With a 3.3V power supply,it maintains a DC open loop gain of more than 100dB and an offset voltage of around 11μV,while the overall power dissipation is only 1.48mW. With this opamp, a pH microsensor is constructed, of which the functionality is verified by experimental tests.