E00Z39A1Z-PS

Sony reserves the right to change products and specifications without prior notice. This information does not convey any license by
any implication or otherwise under any patents or other right. Application circuits shown, if any, are typical examples illustrating the
operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits.

ICX282AQF

24 pin SOP (Plastic)

Description

The ICX282AQF is a diagonal 11mm (Type 2/3)

interline CCD solid-state image sensor with a square
pixel array and 5.07M effective pixels. Frame readout
allows all pixels' signals to be output independently
within approximately 1/3.75 second. In addition, output
is possible using various addition and pulse elimination
methods. This chip features an electronic shutter with
variable charge-storage time. Adoption of a design
specially suited for frame readout ensures a saturation
signal level equivalent to that when using field readout.
High resolution and high color reproducibility are
achieved through the use of R, G, B primary color
mosaic filters as the color filters. Further, high
sensitivity and low dark current are achieved through
the adoption of Super HAD CCD technology.

This chip is suitable for applications such as

electronic still cameras, PC input cameras, etc.

Features
· High horizontal and vertical resolution
· Supports 10 types of readout modes

Frame readout mode, 2

speed mode (1), 2

speed mode (2), 8

speed mode,

center scan mode (1), center scan mode (2), center scan mode (3),
center scan mode (4), AF mode (1), AF mode (2)

· Square pixel
· Horizontal drive frequency: 22.5MHz
· No voltage adjustments (reset gate and substrate bias are not adjusted.)
· R, G, B primary color mosaic filters on chip
· High sensitivity, low dark current, excellent anti-blooming characteristics
· Continuous variable-speed shutter
· Horizontal register, reset gate: 3.3V drive
· 24-pin high-precision plastic package

Device Structure
· Interline CCD image sensor
· Image size:

Diagonal 11mm (Type 2/3)

· Total number of pixels:

2658 (H)

1970 (V) approx. 5.24M pixels

· Number of effective pixels: 2588 (H)

1960 (V) approx. 5.07M pixels

· Number of active pixels:

2580 (H)

1944 (V) approx. 5.02M pixels

· Number of recommended recording pixels:

2560 (H)

1920 (V) approx. 4.92M pixels

· Chip size:

9.74mm (H)

7.96mm (V)

· Unit cell size:

3.4µm (H)

3.4µm (V)

· Optical black:

Horizontal (H) direction: Front 12 pixels, rear 58 pixels
Vertical (V) direction:

Front 8 pixels, rear 2 pixels

· Number of dummy bits:

Horizontal 28
Vertical 1 (even fields only)

· Substrate material:

Silicon

Optical black position

(Top View)

Pin 1

Pin 13

Super HAD CCD is a registered trademark of Sony Corporation. Super HAD CCD is a CCD that drastically improves sensitivity by introducing
newly developed semiconductor technology by Sony Corporation into Sony's high-performance HAD (Hole-Accumulation Diode) sensor.

Diagonal 11mm (Type 2/3) Frame Readout CCD Image Sensor with Square Pixel for Color Cameras

ICX282AQF

Block Diagram and Pin Configuration

(Top View)

Note)

: Photo sensor

GND

OUT

SUB

Horizontal register

r
tical register

Pin Description

Pin No.

Symbol

Description

Pin No.

Symbol

Description

GND

Vertical register transfer clock

GND

OUT

GND

SUB

DC bias is generated within the CCD, so that this pin should be grounded externally through a

capacitance of 0.1µF.

Signal output

Supply voltage

Reset gate clock

Horizontal register transfer clock

GND

Substrate clock

Substrate bias

Protective transistor bias

Horizontal register transfer clock

ICX282AQF

Absolute Maximum Ratings

Item

, V

OUT

SUB

, V

SUB (

A to C

)

, V

SUB

, H

, GND

SUB (

A, B

)

SUB

, V

OUT

RG, C

SUB

GND

, V

GND (

A to C

)

, H

GND (

A, B

)

, V

(

A to C

)

, V

, H

, GND V

(

A, B

)

Voltage difference between vertical clock input pins

(

A, B

)

, H

(

A, B

)

Against

SUB

Against GND

Against V

Between input
clock pins

Storage temperature

Guaranteed temperature of performance

Operating temperature

40 to +12

50 to +15

50 to +0.3

40 to +0.3

25 to

0.3 to +22

10 to +18

10 to +6.5

0.3 to +28

0.3 to +15

to +15

6.5 to +6.5

10 to +16

30 to +80

10 to +60

10 to +75

°C

Ratings

Unit

Remarks

+24V (Max.) when clock width < 10µs, clock duty factor < 0.1%.

+16V (Max.) is guaranteed for turning on or off power supply.

ICX282AQF

setting is the V

voltage of the vertical clock waveform, or the same voltage as the V

power supply

for the V driver should be used.

Do not apply a DC bias to the substrate clock and reset gate clock pins, because a DC bias is generated

within the CCD.

Clock Voltage Conditions

Readout clock voltage

Vertical transfer clock
voltage

Horizontal transfer
clock voltage

Reset gate clock
voltage

Substrate clock voltage

Item

VH1

, V

VH2

VH3

, V

VH4

VL1

, V

VL2

VL3

, V

VL4

VH3

VH4

VHH

VHL

VLH

VLL

RGLH

RGLL

RGL

RGLm

SUB

Symbol

14.55

0.05

0.2

8.0

6.8

0.25

3.0

0.05

0.5

3.0

21.5

Min.

15.0

7.5

3.3

1.65

3.3

22.5

Typ.

15.45

0.05

7.0

8.05

0.1

0.6

0.9

0.5

3.6

0.05

3.6

0.4

0.5

23.5

Max. Unit

Waveform
diagram

= (V

VH1

+ V

VH2

)/2

= (V

VL3

+ V

VL4

)/2

= V

n V

n (n = 1 to 4)

High-level coupling

Low-level coupling

Cross-point voltage

Low-level coupling

Remarks

DC Characteristics

Supply current

Item

Symbol

7.0

Min.

Unit

Remarks

Typ.

Max.

10.0

4.0

Bias Conditions

Supply voltage

Protective transistor bias

Substrate clock

Reset gate clock

Item

SUB

Symbol

15.0

Min.

Unit

Remarks

Typ.

Max.

14.55

15.45

ICX282AQF

Clock Equivalent Circuit Constant

Note 1)

= A, C for each vertical transfer clock capacitance.

Note 2) The relationships of V1A = V1C and V3A = V3C are established for each vertical transfer clock

capacitance.

Note 3) C

V1A1C

and C

V3A3C

are sufficiently small relative to other capacitance between vertical transfer

clocks, and are also below the measurement limit, so these are omitted from the equivalent circuit
diagrams and the above table.

, C

V1B

, C

V3B

, C

V1B2

, C

V3B4

V23

, C

V41

V23B

, C

V41B

V1B3B

, C

V1B3

V24

, C

SUB

, R

GND

Symbol

Capacitance between vertical transfer clock
and GND

Capacitance between horizontal transfer clock
and GND

Capacitance between horizontal transfer clocks

Capacitance between reset gate clock and GND

Capacitance between substrate clock and GND

Vertical transfer clock series resistor

Vertical transfer clock ground resistor

Horizontal transfer clock series resistor

Item

Min.

1800

6800

5600

560

680

180

270

330

120

100

110

1500

7.5

Typ.

Max.

Unit

Horizontal transfer clock equivalent circuit

Vertical transfer clock equivalent circuit

(

= A, C)

(

= A, C)

V23B

V23

V3B

V3B4

V1B3B

V41B

V41

V1B

V1B3

V1B2

V24

GND

Capacitance between vertical transfer clocks

Remarks

ICX282AQF

Drive Clock Waveform Conditions

(1) Readout clock waveform

(2) Vertical transfer clock waveform

= (V

VH1

+ V

VH2

)/2

= (V

VL3

+ V

VL4

)/2

= V

n V

n (n = 1 to 4)

100%

90%

10%

twh

VH1

VHH

VHL

VLH

VL1

VLL

VHL

VHH

VLH

VLL

VHL

VL3

VHL

VH3

VHH

VH2

VHH

VHL

VLH

VL2

VLL

VHL

VLH

VLL

VHL

VH4

VHH

VL4

, V

ICX282AQF

(3) Horizontal transfer clock waveform

Cross-point voltage for the H

rising side of the horizontal transfer clocks H

and H

waveforms is V

The overlap period for twh and twl of horizontal transfer clocks H

and H

is two.

(4) Reset gate clock waveform

RGLH

is the maximum value and V

RGLL

is the minimum value of the coupling waveform during the period from

Point A in the above diagram until the rising edge of RG.

In addition, V

RGL

is the average value of V

RGLH

and V

RGLL

RGL

= (V

RGLH

+ V

RGLL

)/2

Assuming V

RGH

is the minimum value during the interval with twh, then:

= V

RGH

RGL

Negative overshoot level during the falling edge of RG is V

RGLm

(5) Substrate clock waveform

100%

90%

10%

SUB

(A bias generated within the CCD)

twh

SUB

, H

10%

90%

twh

twl

two

RG waveform

RGLH

RGH

RGL

RGLL

RGLm

twh

twl

Point A

ICX282AQF

Clock Switching Characteristics (Horizontal drive frequency: 22.5MHz)

Min.

two

Typ. Max.

Unit

Remarks

Item

Horizontal
transfer clock

Symbol

, H

1B,

, H

Spectral Sensitivity Characteristics (excludes lens characteristics and light source characteristics)

Min.

twh

Typ. Max. Min. Typ. Max. Min. Typ. Max. Min. Typ. Max.

twl

2.47

2.0

2.67

2.58

0.5

6.5

9.5

0.5

6.5

350

9.5

0.5

Unit

µs

Remarks

During
readout

When using
CXD3400N

During
imaging,
tf

tr 2ns

During drain
charge

Item

Readout clock

Vertical transfer
clock

Horizontal
transfer clock

Reset gate
clock

Substrate clock

Symbol

, V

, H

SUB

1.0

0.8

0.6

0.4

0.2

400

450

500

550

Wave Length [nm]

Relativ

e Response

600

650

700

ICX282AQF

Image Sensor Characteristics

(Ta = 25°C)

Item

G sensitivity

Sensitivity
comparison

Saturation signal

Smear

Video signal shading

Dark signal

Dark signal shading

Line crawl G

Line crawl R

Line crawl B

Lag

Symbol

Vsat

Vsat2

SHg

Vdt

Lcg

Lcr

Lcb

Lag

Min.

225

0.38

0.43

450

900

Typ.

280

0.53

0.58

Max.

365

0.68

0.73

3.8

0.5

Unit

Measurement
method

Remarks

1/30s accumulation,
no line addition

No line addition

Ta = 60°C

2-line addition

Frame readout mode

speed mode (1)

speed mode

Zone 0 and

Zone 0 to

Ta = 60°C, 3.75 frame/s

Ta = 60°C, 3.75 frame/s,

Frame readout mode, 2

speed mode (1), and center scan modes (1), (2), (3) and (4).

When the accumulation time is constant, 2-line addition modes have a sensitivity double that of modes
without line addition.

speed mode (2), 8

speed mode, and AF mode (1), (2)

After closing the mechanical shutter, the smear can be reduced to below the detection limit by performing
vertical register sweep operation. This is also the same for 2

speed mode (2) and center scan modes (3)

and (4).

Smear can be reduced by approximately 30dB to a level of approximately 116dB (typ.) by performing the
following sequence.

Vertical register high-speed transfer

Readout (SG)

Mechanical shutter closed

Signal output

Excludes vertical dark signal shading caused by vertical register high-speed transfer.

Ignored region

Effective pixel region

Zone 0,

Zone

2588 (H)

1960 (V)

Zone Definition of Video Signal Shading

ICX282AQF

Measurement System

Image Sensor Characteristics Measurement Method

Measurement conditions

(1) In the following measurements, the device drive conditions are at the typical values of the bias and clock

voltage conditions, and the frame readout mode is used.

(2) In the following measurements, spot blemishes are excluded and, unless otherwise specified, the optical

black level (OB) is used as the reference for the signal output, which is taken as the value of the Gr/Gb

signal output or the R/B signal output of the measurement system.

Color coding of this image sensor & Readout

The primary color filters of this image sensor are arranged in the

layout shown in the figure on the left (Bayer arrangement).

Gr and Gb denote the G signals on the same line as the R signal

and the B signal, respectively.

For frame readout, the A1 and A2 lines are output as signals in

the A field, and the B1 and B2 lines in the B field.

Horizontal register

Color Coding Diagram

CCD

C.D.S

S/H

AMP

CCD signal output [

Gr/Gb channel signal output [

R/B channel signal output [

Note) Adjust the amplifier gain so that the gain between [

A] and [

B], and between [

A] and [

C] equals 1.

ICX282AQF

Readout modes list

The readout method, frame rate, number of output lines and other information for each readout mode are

shown in the table below.

Readout
method

Frame
readout

2/4 lines

Frame
readout

4/16 lines

2/4 lines

Frame
readout

4/16 lines

High-speed

sweep for

preventing smear

Yes

None

Yes

None

Addition
method

None

Vertical
2 lines

None

Vertical
2 lines

Frame rate [frame/s]

3.75

7.49

6.66

29.97

14.985

11.988

59.94

119.88

NTSC

3.57

7.14

6.25

12.5

100

PAL

1960

980

245

NTSC: 484, PAL: 587

246

968

NTSC: 492, PAL: 620

NTSC: 104, PAL: 128

NTSC: 34,

PAL: 46

Number of output

effective image data

lines

Mode

Frame
readout

speed (1)

speed (2)

speed

Center scan
(1)

Center scan
(2)

Center scan
(3)

Center scan
(4)

AF (1)

AF (2)

26.35

7.02

ICX282AQF

Description of frame readout mode

The output methods for the following readout modes are shown below.

1st field

2nd field

speed mode (1)

2/4-line readout

Frame readout mode

Note) Blacked out portions in the diagram indicate pixels which are not read out.

1. Frame readout mode

In this mode, all pixel signals are divided into two fields and output.

All pixel signals are read out independently, making this mode suitable for high resolution image capturing.

2. 2

speed mode (1) 2/4-line readout

All effective area signals are output in half the time of frame readout mode by reading out 2 lines for every 4

lines.

The number of output lines is halved, but all color signals can be output in a single field, so exposure

completed is read out (SG), making high-speed shutter operation possible.

However, note that the Gr and Gb line readout timings have a time difference of approximately 6.7µs

(150clk).

In addition, using high-speed sweep transfer and the mechanical shutter is recommended to suppress

smear.

Smear is reduced by approximately 30dB by performing the following sequence.

Vertical register high-speed transfer

Readout (SG)

Mechanical shutter closed

Signal output

17 (V1A)

16 (V3B)

15 (V1B)

14 (V3A)

13 (V1C)

12 (V3B)

11 (V1B)

10 (V3A)

9 (V1C)

8 (V3B)

7 (V1B)

6 (V3C)

5 (V1A)

4 (V3B)

3 (V1B)

2 (V3C)

1 (V1A)

OUT

17 (V1A)

16 (V3B)

15 (V1B)

14 (V3A)

13 (V1C)

12 (V3B)

11 (V1B)

10 (V3A)

9 (V1C)

8 (V3B)

7 (V1B)

6 (V3C)

5 (V1A)

4 (V3B)

3 (V1B)

2 (V3C)

1 (V1A)

OUT

17 (V1A)

16 (V3B)

15 (V1B)

14 (V3A)

13 (V1C)

12 (V3B)

11 (V1B)

10 (V3A)

9 (V1C)

8 (V3B)

7 (V1B)

6 (V3C)

5 (V1A)

4 (V3B)

3 (V1B)

2 (V3C)

1 (V1A)

OUT

ICX282AQF

1st field

2nd field

speed mode

4/16-line readout

speed mode (2) 2-line addition

Note) Blacked out portions in the diagram indicate pixels which are not read out.

3. 2

speed mode (2) 2-line addition

In this mode, the Gr line is read out in the 1st field and the Gb line in the 2nd field, 2 lines are transferred

during the horizontal blanking period, and 2 lines are added in the horizontal register.

All pixel signals are divided into two fields and output in approximately half the time (slightly longer than half)

of frame readout mode.

At this time, the sensitivity (for 1/30s accumulation) and saturation signal level are double that during frame

readout mode, allowing high sensitivity imaging with a wide dynamic range.

4. 8

speed mode, 4/16-line readout

All effective area signals are output in 1/8 the time of frame readout mode by reading out 4 lines for every 16

lines, transferring 4 lines during the horizontal blanking period, and adding 2 lines in the horizontal register.

The number of output lines is 245 lines.

However, note that the Gr and Gb line readout timings have a time difference of approximately 6.7µs

(150clk).

This mode emphasizes processing speed over vertical resolution, making it suitable for AE/AF and other

control and for image verification on LCD viewfinders.

17 (V1A)

16 (V3B)

15 (V1B)

14 (V3A)

13 (V1C)

12 (V3B)

11 (V1B)

10 (V3A)

9 (V1C)

8 (V3B)

7 (V1B)

6 (V3C)

5 (V1A)

4 (V3B)

3 (V1B)

2 (V3C)

1 (V1A)

OUT

17 (V1A)

16 (V3B)

15 (V1B)

14 (V3A)

13 (V1C)

12 (V3B)

11 (V1B)

10 (V3A)

9 (V1C)

8 (V3B)

7 (V1B)

6 (V3C)

5 (V1A)

4 (V3B)

3 (V1B)

2 (V3C)

1 (V1A)

OUT

17 (V1A)

16 (V3B)

15 (V1B)

14 (V3A)

13 (V1C)

12 (V3B)

11 (V1B)

10 (V3A)

9 (V1C)

8 (V3B)

7 (V1B)

6 (V3C)

5 (V1A)

4 (V3B)

3 (V1B)

2 (V3C)

1 (V1A)

OUT

ICX282AQF

5. Center scan mode (1) 484-line output

This mode sweeps the undesired portions by vertical register high-speed transfer, and outputs only the vertical

968-pixel region of the picture center by reading out 2 lines for every 4 lines (like 2

speed mode (1)).

The number of output lines is 484 lines.

The frame rate is increased (approximately 15 frames/s) by setting the number of vertical output lines to that

of VGA mode, making this mode suitable for VGA moving pictures. (However, the angle of view is equivalent

to 2

electronic zoom.)

6. Center scan mode (2) 246-line output

This mode sweeps the undesired portions by vertical register high-speed transfer, and outputs only the vertical

492-pixel region of the picture center by reading out 2 lines for every 4 lines (like 2

speed mode (1)).

The number of output lines is 246 lines.

This mode is suitable for enlarged display when verifying image on LCD viewfinders.

Center scan mode (1) 484-line output

Center scan mode (2) 246-line output

Undesired portion
(Swept by vertical register high-speed transfer)

Picture center cut-out portion

V: 968 pixels

Undesired portion
(Swept by vertical register high-speed transfer)

Picture center cut-out portion

V: 492 pixels

Center scan mode (3) 968-line output

Center scan mode (4) 492-line output

Undesired portion
(Swept by vertical register high-speed transfer)

Picture center cut-out portion

V: 968 pixels

Undesired portion
(Swept by vertical register high-speed transfer)

Picture center cut-out portion

V: 492 pixels

ICX282AQF

AF mode (1), (2)

9. AF modes (1), (2)

The AF modes are used to achieve even higher-speed AF control than 8

speed mode.

AF mode (1) outputs only the ver tical 832-pixel (in NTSC mode) region of the picture center at

approximately 60 frames/s by reading out 4 lines for every 16 lines (like 8

speed mode).

AF mode (2) outputs only the ver tical 272-pixel (in NTSC mode) region of the picture center at

approximately 120 frames/s by reading out 4 lines for every 16 lines (like 8

speed mode).

The number of output lines for each mode is shown below.

NTSC mode

PAL mode

AF mode (1)

AF mode (2)

60 frame/s

50 frame/s

104 lines

128 lines

120 frame/s

100 frame/s

34 lines

46 lines

Undesired portion
(Swept by vertical register high-speed transfer)

Picture center cut-out portion

V: 832 pixels

AF mode (1)

V: 272 pixels

AF mode (2)

7. Center scan mode (3) 968-line output

This mode sweeps the undesired portions by vertical register high-speed transfer, and outputs only the

vertical 968-pixel region of the the picture center divided into two fields (like frame readout mode).

The number of output lines is 968 lines.

This mode is used to shorten the frame rate when shooting 2

electronic zoom image.

8. Center scan mode (4) 492-line output

This mode sweeps the undesired portions by vertical register high-speed transfer, and outputs only the

vertical 492-pixel region of the picture center divided into two fields (like frame readout mode).

The number of output lines is 492 lines.

This mode is used to shorten the frame rate when shooting 4

electronic zoom image.

ICX282AQF

Definition of standard imaging conditions

(1) Standard imaging condition

Use a pattern box (luminance: 706cd/m

, color temperature of 3200K halogen source) as a subject.

(Pattern for evaluation is not applicable.) Use a testing standard lens with CM500S (t = 1.0mm) as an IR

cut filter and image at F5.6. The luminous intensity to the sensor receiving surface at this point is defined

as the standard sensitivity testing luminous intensity.

(2) Standard imaging condition

Image a light source (color temperature of 3200K) with a uniformity of brightness within 2% at all angles.

Use a testing standard lens with CM500S (t = 1.0mm) as an IR cut filter. The luminous intensity is

adjusted to the value indicated in each testing item by the lens diaphragm.

G sensitivity, sensitivity comparison

Set to the standard imaging condition

. After setting the electronic shutter mode with a shutter speed

of 1/100s, measure the signal outputs (V

, V

and V

) at the center of each Gr, Gb, R and B channel

screen, and substitute the values into the following formulas.

= (V

+ V

)/2

Sg = V

[mV]

Rr = V

Rb = V

Saturation signal

Set to the standard imaging condition

II:

After adjusting the luminous intensity to 20 times the intensity

with the average value of the Gr signal output, 150mV, measure the minimum values of the Gr, Gb, R and

B signal outputs.

Smear

Set to the standard imaging condition

. With the lens diaphragm at F5.6 to F8, first adjust the average

value of the Gr signal output to 150mV. Measure the average values of the Gr signal output, Gb signal

output, R signal output and B signal output (Gra, Gba, Ra, Ba), and then adjust the luminous intensity to

500 times the intensity with the average value of the Gr signal output, 150mV.

After the readout clock is stopped and the charge drain is executed by the electronic shutter at the

respective H blankings, measure the maximum value (Vmax [mV]) independent of the Gr, Gb, R and B

signal outputs, and substitute the values into the following formula.

The smear for modes other than frame readout mode is calculated from the storage time and signal

addition method. As a result, 2

speed mode (2) is the same, 2

speed mode (1) is double, and 8

speed

mode is 4 times that for frame readout mode.

Sm = 20

log

(

Vsm

)

[dB] (1/10V method conversion value)

100

500

Gra + Gba + Ra + Ba

ICX282AQF

Video signal shading

Set to the standard imaging condition

. With the lens diaphragm at F5.6 to F8, adjusting the luminous

intensity so that the average value of the Gr signal output is 150mV. Then measure the maximum value

(Grmax [mV]) and minimum value (Grmin [mV]) of the Gr signal output and substitute the values into the

following formula.

SHg = (Grmax Grmin)/150

100 [%]

Dark signal

Measure the average value of the signal output (Vdt [mV]) with the device ambient temperature of 60°C

and the device in the light-obstructed state, using the horizontal idle transfer level as a reference.

Dark signal shading

After measuring 5, measure the maximum (Vdmax [mV]) and minimum (Vdmin [mV]) values of the dark

signal output and substitute the values into the following formula.

Vdt = Vdmax Vdmin [mV]

Line crawl

Set to the standard imaging condition

. Adjusting the luminous intensity so that the average value of the

Gr signal output is 150mV, and then insert R, G and B filters and measure the difference between G signal

lines (

Glr,

Glg,

Glb [mV]) as well as the average value of the G signal output (Gar, Gag, Gab).

Substitute the values into the following formula.

Lci =

100 [%] (i = r, g, b)

Lag

Adjust the Gr channel output generated by the strobe light to 150mV. After setting the strobe light so that it

strobes with the following timing, measure the residual signal amount (Vlag). Substitute the value into the

following formula.

Lag = (Vlag/150)

100 [%]

Gli

Gai

Light

V1A/V1B/V1C

Strobe light timing

Output

Vlag (lag)

Gr signal output 150mV

ICX282AQF

Drive Circuit

Substrate bias
control signal
V

SUB

Cont.

Mechanical
shutter mode

Substrate bias

SUB pin voltage

GND

2ms

20ms

Internally
generated value
V

SUB

XSUB

XV3

XSG3B

XSG3A

XV1

XSG1B

XSG1A

XV4

XV2

XV3

XSG3C

XV1

XSG1C

0.1

0.01

3.3/20V

0.1

1.8k

100k

CCD OUT

2SK1875

SUB

Cont.

VR1 (2.7k)

CXD3400N

10 11 12

24 23 22 21 20 19 18 17 16 15 14 13

ICX282

(BOTTOM VIEW)

3.3/16V

1/35V

3.3V

7.5V 15V

GND

OUT

SUB

GND

Notes)
Substrate bias control
1. The saturation signal level decreases when exposure is performed using the mechanical shutter, so control

the substrate bias.

2. A saturation signal level equivalent to that for continuous exposure can be assured by connecting a 2.7k

grounding registor to the CCD C

SUB

pin.

Drive timing precautions
1. Blooming occurs in modes (2

speed (1), 8

speed, etc.) where exposure is not completed by closing the

mechanical shutter, so do not ground the connected 2.7k

resistor.

2. tf is slow, so the internally generated voltage V

SUB

may not drop to a sufficiently low level if the substrate

bias control signal is not set to high level 30ms before entering the exposure period and the 2.7k

resistor

connected to the C

SUB

pin is not grounded.

3. The blooming signal generated during exposure in mechanical shutter mode is swept by providing one

field or more (two fields is recommended) of idle transfer through vertical register high-speed sweep
transfer from the time the mechanical shutter closes until sensor readout is performed. However, note that
the V

potential and the

SUB pin DC voltage sag at this time.

4. When exposure time is several seconds or more, we recommend the sequence that the substrate bias

control is performed just before the completion of exposure (Mechanical shutter is closed.), not before the
start of exposure.

ICX282A

Drive Timing Chart (Vertical Sequence) 8

××
××
×

Speed Mode

Frame Readout Mode (or 2

××
××
×

Speed Mode (1)) / Electronic Shutter Normal Operation

Act.

CCD
OUT

V1A

SUB

TRG

Mechanical
shutter

SUB

Cont.

OPEN

V1B/C

V3A

V3B/C

A output signal B output signal C output signal

D output signal (ODD)

D output signal (EVEN)

Output after
frame readout

E output signal F output signal

speed mode

Exposure operation

Frame readout mode

The B and C output signals contain a blooming component and should therefore not be used.

Apply 20 or more electronic shutter pulses at the start of exposure for the recording image. If less than 20 pulses are applied, the electronic shutter may occur a discharge error.

ICX282A

Drive Timing Chart (Vertical Sequence) 8

××
××
×

Speed Mode

××
××
×

Speed Mode (1) / Electronic Shutter Normal Operation

The substrate bias control signal (V

SUB

Cont.) should not be used in the above sequence.

Apply 20 or more electronic shutter pulses at the start of exposure for the recording image. If less than 20 pulses are applied, the electronic shutter may occur a discharge error.

Act.

CCD
OUT

V1A

SUB

TRG

Mechanical
shutter

SUB

Cont.

OPEN

V1C

V3A

V1B

V3C

V3B

A output signal B output signal C output signal

D output signal

G output signal

F output signal

Output after 2

Speed Mode (1)

E output signal

H output signal

speed mode

Exposure operation

speed mode (1)

ICX282A

Drive Timing Chart (Vertical Sequence) 8

××
××
×

Speed Mode

××
××
×

Speed Mode (1) / High-speed Shutter Operation

The substrate bias control signal (V

SUB

Cont.) should not be used in the above sequence.

Apply 20 or more electronic shutter pulses at the start of exposure for the recording image. If less than 20 pulses are applied, the electronic shutter may occur a discharge error.

Act.

CCD
OUT

V1A

SUB

TRG

Mechanical
shutter

SUB

Cont.

OPEN

V1C

V3A

V1B

V3C

V3B

A output signal B output signal C output signal

D output signal

G output signal

F output signal

Output after 2

Speed Mode (1)

E output signal

H output signal

speed mode

Exposure operation

speed mode (1)

ICX282A

Drive Timing Chart (Vertical Sync) NTSC/PAL Frame Readout Mode

2894fH. However, 2076H in NTSC mode is 950 clk, and 2177H in PAL mode is 2656 clk.
Also, the number of high-speed sweep transfer stages and the transfer speed differ for the 1st field and 2nd field sides, so the fields should not be reversed.

1956

1954

1960

1958

1060

2076

Exposure period

All pixel output period

CCD
OUT

V3A/B/C

V1A/B/C

"a"

"b"

"d"

SUB

TRG

Mechanical
shutter

SUB

Cont.

PAL

2177

2072

OPEN

2068

1060

1055

1069

1084

1955

1953

1959

1957

"c"

NTSC

ICX282A

Drive Timing Chart (Vertical Sync)

Frame Readout Mode / Center Scan Mode (3) / Center Scan Mode (4)

××
××
×

Speed Mode (1)

Center Scan Mode (1)

Center Scan Mode (2)

''c'' Enlarged

V1A/B/C

V3A/B/C

Frame readout mode / Center scan mode (3) / Center scan mode (4): 71H
2

speed mode: 48H, Center scan mode (1): 11H, Center scan mode (2): 17H

2894

270

2894

H1A/B

Frame readout mode: #1970
Center scan mode (3): #1970
Center scan mode (4): #1970
2

speed mode (1):

#1335

Center scan mode (1): #305
Center scan mode (2): #472

ICX282A

Drive Timing Chart (Vertical Sync) NTSC/PAL 2

××
××
×

Speed Mode (2) 2-line addition

3102fH. However, 1089H and 1090H in NTSC mode are 1700 clk and 1699 clk, respectively, and 1161H in PAL mode is 1680 clk.
Also, the number of high-speed sweep transfer stages and the transfer speed differ for the 1st field and 2nd field sides, so the fields should not be reversed.

1958

1960

1956

1954

565

1090

Exposure period

Signal output period

CCD
OUT

V3A/B/C

V1A/B/C

" f "

"g"

" i "

SUB

TRG

Mechanical
shutter

SUB

Cont.

PAL

1161

OPEN

1080

565

561

573

586

1957

1959

1955

1953

"h"

NTSC

ICX282A

Drive Timing Chart (Vertical Sync) NTSC/PAL Center Scan Mode (4) 492-line output (in NTSC mode)

2894fH. However, 649H in NTSC mode is 1563 clk, and 778H in PAL mode is 1362 clk.
Also, the number of high-speed sweep transfer stages and the transfer speed differ for the 1st field and 2nd field sides, so the fields should not be reversed.

347

372

357

400

372

357

400

"a"

"b"

"k"

"d"

"k"

647

V3A/B/C

V1A/B/C

SUB

TRG

735

OPEN

737

739

741

736

738

740

742

CCD
OUT

Mechanical
shutter

SUB

Cont.

Exposure period

All pixel output period

PAL

NTSC

"c"

649

778

ICX282AQF

Notes on Handling

1) Static charge prevention

CCD image sensors are easily damaged by static discharge. Before handling be sure to take the following

protective measures.

a) Either handle bare handed or use non-chargeable gloves, clothes or material.

Also use conductive shoes.

b) When handling directly use an earth band.

c) Install a conductive mat on the floor or working table to prevent the generation of static electricity.

d) Ionized air is recommended for discharge when handling CCD image sensors.

e) For the shipment of mounted substrates, use boxes treated for the prevention of static charges.

2) Soldering

a) Make sure the package temperature does not exceed 80°C.

b) Solder dipping in a mounting furnace causes damage to the glass and other defects. Use a ground 30W

soldering iron and solder each pin in less than 2 seconds. For repairs and remount, cool sufficiently.

c) To dismount an image sensor, do not use a solder suction equipment. When using an electric desoldering

tool, use a thermal controller of the zero-cross On/Off type and connect it to ground.

3) Dust and dirt protection

Image sensors are packed and delivered by taking care of protecting its glass plates from harmful dust and

dirt. Clean glass plates with the following operations as required, and use them.

a) Perform all assembly operations in a clean room (class 1000 or less).

b) Do not either touch glass plates by hand or have any object come in contact with glass surfaces. Should

dirt stick to a glass surface, blow it off with an air blower. (For dirt stuck through static electricity ionized

air is recommended.)

c) Clean with a cotton bud and ethyl alcohol if grease stained. Be careful not to scratch the glass.

d) Keep in a case to protect from dust and dirt. To prevent dew condensation, preheat or precool when

moving to a room with great temperature differences.

e) When a protective tape is applied before shipping, just before use remove the tape applied for

electrostatic protection. Do not reuse the tape.

4) Installing (attaching)

a) Remain within the following limits when applying a static load to the package. Do not apply any load

more than 0.7mm inside the outer perimeter of the glass portion, and do not apply any load or impact to

limited portions. (This may cause cracks in the package.)

Plastic package

Cover glass

Compressive strength

50N

1.2Nm

Torsional strength

b) If a load is applied to the entire surface by a hard component, bending stress may be generated and the

package may fracture, etc., depending on the flatness of the bottom of the package. Therefore, for

installation, use either an elastic load, such as a spring plate, or an adhesive.

ICX282AQF

c) The adhesive may cause the marking on the rear surface to disappear, especially in case the regulated

voltage value is indicated on the rear surface. Therefore, the adhesive should not be applied to this area,

and indicated values should be transferred to other locations as a precaution.

d) The notch of the package is used for directional index, and that can not be used for reference of fixing.

In addition, the cover glass and seal resin may overlap with the notch of the package.

e) If the leads are bent repeatedly and metal, etc., clash or rub against the package, the dust may be

generated by the fragments of resin.

f) Acrylate anaerobic adhesives are generally used to attach CCD image sensors. In addition, cyano-acrylate

instantaneous adhesives are sometimes used jointly with acrylate anaerobic adhesives. (reference)

5) Others

a) Do not expose to strong light (sun rays) for long periods, as color filters will be discolored. When high

luminous objects are imaged with the exposure level controlled by the electronic iris, the luminance of

the image-plane may become excessive and discoloring of the color filter will possibly be accelerated. In

such a case, it is advisable that taking-lens with the automatic-iris and closing of the shutter during the

power-off mode should be properly arranged. For continuous using under cruel condition exceeding the

normal using condition, consult our company.

b) Exposure to high temperature or humidity will affect the characteristics. Accordingly avoid storage or

usage in such conditions.

c) Brown stains may be seen on the bottom or side of the package. But this does not affect the CCD

characteristics.

ICX282A

Son

y Cor

por

ation

Package Outline Unit: mm

PACKAGE STRUCTURE

PACKAGE MATERIAL

LEAD TREATMENT

LEAD MATERIAL

PACKAGE MASS

DRAWING NUMBER

Plastic

GOLD PLATING

1.23g

42 ALLOY

0.3

AS-A10-02(E)

16.2 ± 0.15

13.7

13.0

16.0 ± 0.1

8.0

2.5

14.2 ± 0.1

13.2

7.1

0.3

0.25

(0.6)

2.9 ± 0.15

0.5

2.4

0.8

1.27

0 ~ 10°

1.0

1. "A" is the center of the effective image area.

2. The two points "B" of the package are the horizontal reference.

The point "B'" of the package is the vertical reference.

3. The bottom "C" of the package, and the top of the cover glass "D are the height reference.

4. The center of the effective image area relative to "B" and "B' is (H, V) = (8.0, 7.1) ± 0.075mm.

5. The rotation angle of the effective image area relative to H and V is ±1°.

6. The height from the bottom "C" to the effective image area is 1.41 ± 0.10mm.

The height from the top of the cover glass "D" to the effective image area is 1.49 ± 0.15mm.

7. The tilt of the effective image area relative to the bottom "C" is less than 50µm.

The tilt of the effective image area relative to the top "D" of the cover glass is less than 50µm.

8. The thickness of the cover glass is 0.5mm, and the refractive index is 1.5.

he notch of the package is used only for directional index, they must not be used for reference

of fixing.

24 pin SOP

8.2

2.5

0.8

2.5

0.5

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