T. Leitner scite author profile

A: CMOS pixel sensors with a small collection electrode combine the advantages of a small sensor capacitance with the advantages of a fully monolithic design. The small sensor capacitance results in a large ratio of signal-to-noise and a low analogue power consumption, while the monolithic design reduces the material budget, cost and production effort. However, the low electric field in the pixel corners of such sensors results in an increased charge collection time, that makes a fully efficient operation after irradiation and a timing resolution in the order of nanoseconds challenging for pixel sizes larger than approximately forty micrometers. This paper presents the development of concepts of CMOS sensors with a small collection electrode to overcome these limitations, using three-dimensional Technology Computer Aided Design simulations. The studied design uses a 0.18 µm process implemented on a high-resistivity epitaxial layer. K: Solid state detectors, Detector modelling and simulations, Charge induction, Radiationhard detectors A X P : 1903.10190

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Hybrid image sensor of small molecule organic photodiode on CMOS – Integration and characterization

Shekhar

Fenigstein

Leitner

et al. 2020

Sci Rep

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Organic photodiodes (OPDs) for its interesting optoelectronic properties has the potential to be utilized with complementary metal-oxide-semiconductor (CMOS) circuit for imaging, automotive, and security based applications. To achieve such a hybrid device as an image sensor, it is imperative that the quality of the OPD remains high on the CMOS substrate and that it has a well-connected optoelectronic interface with the underneath readout integrated circuit (ROIC) for efficient photogeneration and signal readout. Here, we demonstrate seamless integration of a thermally deposited visible light sensitive small molecule OPD on a standard commercial CMOS substrate using optimized doped PCBM buffer layer. Under a standard power supply voltage of 3 V, this hybrid device shows an excellent photolinearity in the entire bias regime, a high pixel sensitivity of 2 V/Lux.sec, a dynamic range (DR) of 71 dB, and a low dark leakage current density of 1 nA/cm2. Moreover, the integrated OPD has a minimum bandwidth of 400 kHz. The photoresponse nonuniformity being only 1.7%, achieved under research lab conditions, strengthens the notion that this fully-CMOS compatible technology has the potential to be applied in high-performance large-scale imaging array.

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Measurements and Simulations of Low Dark Count Rate Single Photon Avalanche Diode Device in a Low Voltage 180-nm CMOS Image Sensor Technology

Leitner

Feiningstein

Turchetta

et al. 2013

IEEE Trans. Electron Devices

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Dead Time Compensation in CMOS Single Photon Avalanche Diodes With Active Quenching and External Reset

Chick

Coath

Sellahewa

et al. 2014

IEEE Trans. Electron Devices

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T. Leitner

A process modification for CMOS monolithic active pixel sensors for enhanced depletion, timing performance and radiation tolerance

Simulations of CMOS pixel sensors with a small collection electrode, improved for a faster charge collection and increased radiation tolerance

Hybrid image sensor of small molecule organic photodiode on CMOS – Integration and characterization

Measurements and Simulations of Low Dark Count Rate Single Photon Avalanche Diode Device in a Low Voltage 180-nm CMOS Image Sensor Technology

Dead Time Compensation in CMOS Single Photon Avalanche Diodes With Active Quenching and External Reset

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