Capacitive sensor array for fingerprint recognition

Y. E. Jeon, Y. J. Lee, M. Jang, B. Seo, I. Kang, M. Hong, J. M. Lee, E. Jacques, T. Mohammed-Brahim, B. Bae
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引用次数: 4

Abstract

Touch function is merged into the display for the convenient interfaces between man and machine, particularly in mobile phones. In addition, the fingerprint recognition module is also adopted in mobile phones for the security purpose. In this paper, capacitive sensor arrays of oxide thin film transistors (TFTs) were investigated for fingerprint recognition. For the transparent sensor array, oxide TFT was used and also the transparent indium thin oxide (ITO) electrodes was investigated for 450 × 450 pixel arrays. The simulation results of the sensor array of oxide TFT show that ITO can be used in capacitive pixel sensor arrays to achieve its transparency. The electrode area dependence on the sensing signal was investigated for the various glass thicknesses. The rather thick glass gives much reduced sensing signal and the allowed thickness was lower than 8 μm, therefore, for the high sensing signals the coating material with enough hardness is necessary for the replacement of the cover glass.
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用于指纹识别的电容式传感器阵列
触摸屏功能被整合到显示器中,方便人机交互,特别是在手机中。此外,出于安全考虑,手机也采用了指纹识别模块。本文研究了氧化物薄膜晶体管电容式传感器阵列在指纹识别中的应用。对于透明传感器阵列,采用氧化物TFT,并研究了450 × 450像素阵列的透明氧化铟(ITO)电极。氧化物TFT传感器阵列的仿真结果表明,ITO可用于电容式像素传感器阵列,以实现其透明度。研究了不同玻璃厚度下电极面积对传感信号的依赖关系。较厚的玻璃使传感信号大大减少,允许厚度低于8 μm,因此,对于高传感信号,需要具有足够硬度的涂层材料来更换覆盖玻璃。
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