Sensors (Jul 2015)

Integrated High Resolution Digital Color Light Sensor in 130 nm CMOS Technology

  • Drago Strle,
  • Uroš Nahtigal,
  • Graciele Batistell,
  • Vincent Chi Zhang,
  • Erwin Ofner,
  • Andrea Fant,
  • Johannes Sturm

DOI
https://doi.org/10.3390/s150717786
Journal volume & issue
Vol. 15, no. 7
pp. 17786 – 17807

Abstract

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This article presents a color light detection system integrated in 130 nm CMOS technology. The sensors and corresponding electronics detect light in a CIE XYZ color luminosity space using on-chip integrated sensors without any additional process steps, high-resolution analog-to-digital converter, and dedicated DSP algorithm. The sensor consists of a set of laterally arranged integrated photodiodes that are partly covered by metal, where color separation between the photodiodes is achieved by lateral carrier diffusion together with wavelength-dependent absorption. A high resolution, hybrid, ∑∆ ADC converts each photo diode’s current into a 22-bit digital result, canceling the dark current of the photo diodes. The digital results are further processed by the DSP, which calculates normalized XYZ or RGB color and intensity parameters using linear transformations of the three photo diode responses by multiplication of the data with a transformation matrix, where the coefficients are extracted by training in combination with a pseudo-inverse operation and the least-mean square approximation. The sensor system detects the color light parameters with 22-bit accuracy, consumes less than 60 μA on average at 10 readings per second, and occupies approx. 0.8 mm2 of silicon area (including three photodiodes and the analog part of the ADC). The DSP is currently implemented on FPGA.

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