Ayers Sunitha, Gillis Kevin D, Lindau Manfred, Minch Bradley A
School of Electrical and Computer Engineering, Cornell University, Ithaca, NY.
IEEE Trans Circuits Syst I Regul Pap. 2007 Apr 1;54(4):736-744. doi: 10.1109/TCSI.2006.888777.
High-throughput electrode arrays are required for advancing devices for testing the effect of drugs on cellular function. In this paper, we present design criteria for a potentiostat circuit that is capable of measuring transient amperometric oxidation currents at the surface of an electrode with submillisecond time resolution and picoampere current resolution. The potentiostat is a regulated cascode stage in which a high-gain amplifier maintains the electrode voltage through a negative feedback loop. The potentiostat uses a new shared amplifier structure in which all of the amplifiers in a given row of detectors share a common half circuit permitting us to use fewer transistors per detector. We also present measurements from a test chip that was fabricated in a 0.5-μm, 5-V CMOS process through MOSIS. Each detector occupied a layout area of 35μm × 15μm and contained eight transistors and a 50-fF integrating capacitor. The rms current noise at 2kHz bandwidth is ≈ 110fA. The maximum charge storage capacity at 2kHz is 1.26 × 10(6) electrons.
为了推进用于测试药物对细胞功能影响的设备,需要高通量电极阵列。在本文中,我们提出了一种恒电位仪电路的设计标准,该电路能够以亚毫秒级的时间分辨率和皮安级的电流分辨率测量电极表面的瞬态安培氧化电流。该恒电位仪是一个稳压共源共栅级,其中一个高增益放大器通过负反馈回路维持电极电压。该恒电位仪采用了一种新的共享放大器结构,其中给定行的探测器中的所有放大器共享一个公共半电路,这使我们能够每个探测器使用更少的晶体管。我们还展示了通过MOSIS在0.5μm、5V CMOS工艺中制造的测试芯片的测量结果。每个探测器占用的版图面积为35μm×15μm,包含八个晶体管和一个50fF的积分电容。在2kHz带宽下的均方根电流噪声约为110fA。在2kHz时的最大电荷存储容量为1.26×10(6)个电子。