OV8610 Datasheet, PDF(8/28 Page) List of Unclassifed Manufacturers

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OV8610 Datasheet, PDF (8/28 Pages) List of Unclassifed Manufacturers – Advanced Information Preliminary

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Advanced Information

Preliminary

OV8610/OV8110

OV8610 SINGLE-CHIP CMOS VGA COLOR DIGITAL CAMERA

OV8110 SINGLE-CHIP CMOS VGA B&W DIGITAL CAMERA

Analog Processing Circuits

Overview

The image is captured by the 824 x 615 pixel image array and

routed to the analog processing section where the majority of

signal processing occurs. This block contains the circuitry that

performs color separation, color correction, automatic gain

control (AGC), gamma correction, color balance, black level

calibration, âkneeâ smoothing, aperture correction, controls for

picture luminance and chrominance, and hue control for color.

The analog video signals are based on the following formula:

Y = 0.59G + 0.31R + 0.11B

U=RâY

V=BâY

Where R,G,B are the equivalent color components in each

pixel.

YCrCb format is also supported, based on the formula below:

Y = 0.59G + 0.31R + 0.11B

Cr = 0.713 (R â Y)

Cb = 0.564 (B â Y)

The YcrCb or RGB data signal from the analog processing

section is fed to two on-chip 10-bit analog-to-digital (A/D)

converters: one for the Y/G channel and one shared by the

CrCb/BR channels. The converted data stream is further

conditioned in the digital formatter. The processed signal is

delivered to the digital video port through the video multiplexer

which routes the user-selected 8-, or 10-bit video data to the

correct output pins.

The on-chip 10-bit A/D operates at up to 20 MHz, and is fully

synchronous to the pixel rate. Actual conversion rate is related

to the frame rate. A/D black-level calibration circuitry ensures:

â¢ The black level of Y/RGB is normalized to a value of 16

â¢ The peak white level is limited to 240

â¢ CrCb black level is 128

â¢ CrCb Peak/bottom is 240/16

â¢ RGB raw data output range is 16/240

(Note: Values 0 and 255 are reserved for sync flag)

Image Processing

The algorithm used for the electronic exposure control is based

on the brightness of the full image. The exposure is optimized

for a ânormalâ scene that assumes the subject is well lit relative

to the background. In situations where the image is not well lit,

the automatic exposure control (AEC) white/black ratio may be

adjusted to suit the needs of the application.

Additional on-chip functions include:

â¢ AGC that provides a gain boost of up to 24dB

â¢ White balance control that enables setting of proper color

temperature and can be programmed for automatic or

manual operation.

â¢ Separate saturation, brightness, hue, and sharpness

adjustments allow for further fine-tuning of the picture

quality and characteristics.

The OV8610/OV8110 image sensor also provides control over

the White Balance ratio for increasing/decreasing the image

field Red/Blue component ratio. The sensor provides a default

setting that may be sufficient for many applications.

Windowing

The windowing feature of the OV8610/OV8110 image sensors

allows user-definable window sizing as required by the

application. Window size setting (in pixels) ranges from 2 x 2 to

800 x 600, and can be positioned anywhere inside the 824 x

615 boundary. Note that modifying window size and/or position

does not change frame or data rate. The OV8610 imager alters

the assertion of the HREF signal to be consistent with the

programmed horizontal and vertical region. The default output

window is 800 x 600.

HREF

column

column start

column end

Display

Window

Figure 4. Windowing

Sensor Array

Bondary

OmniVision Technologies, Inc. 930 Thompson Place Sunnyvale, CA 94085 U.S.A.

Tel: (408) 733-3030 Fax: (408) 733-3061

e-mail: info@ovt.com

Website: http://www.ovt.com

Version 1.3, August 27, 2001

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