KAC-9618 Eastman Kodak Company, KAC-9618 Datasheet - Page 17

KAC-9618

Manufacturer Part Number

KAC-9618

Description

IC SENSOR IMAGE VGA MONO 48-CLCC

Manufacturer

Eastman Kodak Company

Type

CMOS Imagingr

Datasheet

1.KAC-9618.pdf (43 pages)

Specifications of KAC-9618

Pixel Size

7.5µm x 7.5µm

Active Pixel Array

648H x 488V

Frames Per Second

Voltage - Supply

3.3V

Package / Case

48-CLCC

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

LM9618IEA
LM9618IEA

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

KAC-9618

Manufacturer:

IXYS

Quantity:

2 100

Current page: 17 of 43
Download datasheet (2Mb)

IMAGE SENSOR SOLUTIONS

Functional Description

5.5

In some cases it is desirable to reduce the time during which the

pixels in the array are allowed to integrate incident light without

changing the frame rate.

This is known as Partial Fame Integration and can be achieved

by resetting pixels in a given row ahead of the row being

selected for readout as shown in Figure 20. The number of Hclk

clocks required to process a partial frame is given by:

Where:

The Integration time is subject to the following limits:

www.kodak.com/go/imagers 585-722-4385

Progressive Scan

Interlace

Sub-Sampled

time

Row n

Partial Frame Integration

Hclk

Mode

is the number of Hclk clock cycles required to

process & shift out one row of pixels.

is the number of rows ahead of the current row

to be reset. (See the Integration Time High and

Low registers).

New I

of the first frame after the UpdateSettings bit is

set in the UPDATE register.

Frame

Delay

time

Hclk

values only take effect at the beginning

= RN

Row 0

time

Hclk *

<= SWN

<= 2* (SWN

<= 0.5 * (SWN

Row 1

(continued)

time

Programmable Row Delay

rows +

Limit

Figure 20. Partial and Full Frame Integration

rows +

Row 2

delay

)

Partial Frame Integration

Full Frame integration

Full Integration Time

Frame N

Row x

Row CDS, Reset Row x+∆ & Shift

Row CDS, Reset Row x & Shift

5.6

The electro-optic transfer curve of the pixel array is linear. While

a linear response is satisfactory for capturing images containing

similar brightness levels, it is not always satisfactory for captur-

ing images with a large variation of brightness levels.

For a fixed integration time, pixels capturing bright areas of a

scene will saturate much faster than pixels capturing darker

regions. When there is a large variation in the light intensities

between the dark and light regions it is not possible to simulta-

neously capture the detail in both regions. One would have to be

sacrificed.

Since the response of the human eye to light is non-linear, a

non- linear response such as that shown with the dashed curve

in figure 21 would allow the detail in both the light and dark

regions of the image to be captured and seen.

The timing and control circuit built into the KAC-9618 allows the

linear response of the electro-optic response to be modified into

a piece-wise linear response (approximate gamma)

Partial Integration

Figure 21. Linear & Non Linear Transfer Responses

Modification of Linear Response Curve

Time

BP1

Row x+∆ Row n

Saturation level

BP2

Email:imagers@kodak.com

Frame

Delay

Illumination (Lux)

Row 0

KAC-9618 Eastman Kodak Company, KAC-9618 Datasheet - Page 17

KAC-9618

Specifications of KAC-9618

Available stocks

Related parts for KAC-9618