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Custom transistor layout design techniques for random telegraph signal noise reduction in CMOS image sensors

Custom transistor layout design techniques for random telegraph signal noise reduction in CMOS image sensors

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© The Institution of Engineering and Technology
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Interface and near oxide traps in small gate area MOS transistors (gate area <1 µm2) lead to RTS noise which implies the emergence of noisy pixels in CMOS image sensors. To reduce this noise, two simple and efficient layout techniques of custom transistors have been imagined. These techniques have been successfully implemented in an image sensor test chip fabricated in a 0.35 µm CMOS image sensor process. Experimental results demonstrate a significant reduction of the noisy pixels for the two different techniques.

Inspec keywords: MOSFET; CMOS image sensors; integrated circuit layout

Other keywords: custom transistor layout design techniques; random telegraph signal noise reduction; CMOS image sensors; size 0.35 mum; small gate area MOS transistors

Subjects: Image sensors; CMOS integrated circuits; Semiconductor integrated circuit design, layout, modelling and testing; Insulated gate field effect transistors

References

    1. 1)
      • Assaf Lahav, A.F., Shiwalkar, A.: `Optimization of random telegraph noise non uniformity in a CMOS pixel with a pinned-photodiode', Int. Image Sensor Workshop, June 2007, p. 219–223, Ogunquit, ME, USA.
    2. 2)
      • Martin-Gonthier, P., Magnan, P.: `RTS noise impact in CMOS image sensors readout circuit', 16thIEEE Int. Conf. on Electronics, Circuits and Systems, (ICECS2009), December 2009, Tunisia.
    3. 3)
      • Findlater, K.M., Vaillant, J.M., Baxter, D.J., Augier, C., Herault, D., Henderson, R.K., Hurwitz, J.E.D., Grant, L.A., Volle, J.-M.: `Source follower noise limitations in CMOS active pixel sensors’', Detectors and Associated Signal Processing, Proc. SPIE, 2004, p. 187–195, 5251.
    4. 4)
      • M. Furumiya . High sensitivity and no-crosstalk pixel technology for embedded CMOS image sensor. IEEE Trans. Electron Devices , 10
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