摘要
A fully integrated CMOS bio-chip is designed in a SMIC 0.18μm CMOS mixed signal process and successfully integrated with a novel bio-nano-system. The proposed circuit integrates an array of 4 × 4 (16 pixels) of 19μm × 19μm electrodes,a counter electrode, a current mode preamplifier circuit (CMPA) ,a digital decoding circuit,and control logics on a single chip, It provides a - 1.6- 1.6V range of assembly voltage,Sbit potential resolution, and a current gain of 39.8dB with supply voltage of 1.8V. The offset and noise are smaller than 5.9nA and 25.3pArms,respectively. Experimental resuits from on-chip selective assembly of 30nm poly (ethylene glycol) (PEG) coated magnetic nano-particles (MNPs) targeted at biosensor applications are included and discussed to verify the feasibility of the proposed circuits.
提出了一种用SMIC0.18μm CMOS混合信号工艺实现的全集成CMOS微阵列生物芯片,并成功地实现了其与一种新的生物纳米系统的集成.该电路实现了19μm×19μm电极的4×4(16单元)阵列,反相电极,电流模式放大器,译码电路,以及逻辑控制电路的单片集成,并能够提供-1.6~1.6V的组装电压,8bit的电位分辨率及39.8dB的电流增益,电源电压为1.8V,而失调和噪声电流分别为5.9nA和25.3pArms.在实验中,利用该电路实现了对30nm聚乙烯醇包裹的磁性粒子的片上选择性组装,并对实验结果进行了讨论,从而验证了该电路的正确性和该集成方法的可行性.
基金
国家自然科学基金(批准号:60236020,90307016)
Intel基金
SMIC大学计划项目
美国加州DanYang博士私人基金资助项目~~
