Cross-talk reduction and efficiency of integrated photodiodes shown by an integrated edge detector

authored by

Ingo Martiny, Ruediger Leuner, Bernhard Wicht

Abstract

This paper describe the limits for the efficiency of integrated photodiode arrays in a standard CMOS-process. It shows that an efficiency of more than 60% is not possible for wideband incident light. The efficiency depends on the area of the diodes, the distance between the diodes and the depth of the diode junction. The resulting efficiency of integrated photodiodes in a 0.8 μm-CMOS-process is shown. For these photodiodes two ways of crosstalk reduction between photodiodes arranged in a line or a 2-D array are introduced. Injecting a substrate current between the diodes, the cross-talk can be reduced in a controlled way by the magnitude of the current. Another possibility is to embed every diode in a separate well. The advantages and disadvantages of both systems are discussed. Finally, an application of integrated photodiodes in an edge detector IC is presented. This 6 mm² circuit has been manufactured in a 0.8 μm process using embedded photodiodes for crosstalk reduction. The circuit performs a position measurement of a shade edge or contrast edge imaged onto its photodiode array. With its all-analog signal processing, even semitransparent media can be detected without precision tradeoffs.

Organisation(s)

Mixed-Signal Circuits Section

External Organisation(s)

MAZ Germany GmbH

Type

Conference article

Journal

Proceedings of SPIE - The International Society for Optical Engineering

Volume

3950

Pages

39-48

No. of pages

10

ISSN

0277-786X

Publication date

2000

Publication status

Published

Peer reviewed

Yes

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials, Condensed Matter Physics, Computer Science Applications, Applied Mathematics, Electrical and Electronic Engineering