SONY ILX535

ILX535K
5300 pixel × 3 line CCD Linear Sensor (Color)
For the availability of this product, please contact the sales office.
Description
The ILX535K is a reduction type CCD linear sensor
developed for color image scanner. The distance
between lines is only 4 line (32µm). This sensor reads
A4-size documents at a density of 600DPI.
16 NC
NC
8
15 NC
NC
9
14 φ2
Blue
1
Driver
13 φROG-R
12 φROG-G
S5300
S5300
Clamp Pulse
Generator
A
A
A
A
A
A
AA
AA
VOUT-G 3
VOUT-R 2
4
VDD
B
5300
5300
VOUT-B 20
1
1
5300
Clamp
Clamp
13 φROG-R
Clamp
G
D14
D15
R
D63
S1
φ1 10
φ1
7
10
NC
1
17 NC
φRS
6
21
NC
GND
18 NC
Driver
5
Read Out Gate
NC
CCD Register
19 NC
Red
4
Read Out Gate
VDD
CCD Register
20 VOUT-B
Green
3
φROG-B 11
Driver
11 φROG-B
Driver
14
φ2
S5300
VOUT-G
Read Out Gate
21 GND
CCD Register
2
D14
D15
VOUT-R
22 GND
S1
1
D63
φRS
D14
Pin Configuration (Top View)
D15
V
°C
°C
S1
Absolute Maximum Ratings
• Supply voltage
VDD
15
• Operating temperature
–10 to +55
• Storage temperature
–30 to +80
Block Diagram
D63
Features
• Number of effective pixels: 15900 pixels
(5300 pixels × 3)
• Pixel size:
8µm × 8µm (8µm pitch)
• Distance between line: 32µm (4 Lines)
• Number of output
3 (R, G, B)
• Single-sided readout
• Clamp circuit are on-chip
• Ultra high sensitivity/Ultra low lag
• Single 12V power supply
• Maximum data rate:
9MHz (3MHz × 3)
• Input Clock Pulse:
CMOS 5V drive
• Package:
22 pin Plastic-DIP (400 mil)
22 pin DIP (Plastic)
12 φROG-G
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.
–1–
E97446D98-PS
ILX535K
Pin Description
Pin No.
Symbol
Description
Pin No.
Symbol
Description
1
φRS
Clock pulse input
12
φROG-G
Clock pulse input
2
VOUT-R
Signal out (red)
13
φROG-R
Clock pulse input
3
VOUT-G
Signal out (green)
14
φ2
Clock pulse input
4
VDD
12V power supply
15
NC
NC
5
NC
NC
16
NC
NC
6
NC
NC
17
NC
NC
7
NC
NC
18
NC
NC
8
NC
NC
19
NC
NC
9
NC
NC
20
VOUT-B
Signal out (blue)
10
φ1
Clock pulse input
21
GND
GND
11
φROG-B
Clock pulse input
22
GND
GND
Recommended Supply Voltage
Item
Min.
Typ.
Max.
Unit
VDD
11.4
12
12.6
V
Clock Characteristics
Item
Symbol
Min.
Typ.
Max.
Unit
Input capacity of φ1, φ2
Cφ1, Cφ2
—
800
—
pF
Input capacity of φRS
CφRS
—
10
—
pF
Input capacity of φROG∗1
CφROG
—
10
—
pF
∗1 It indicates that φROG-R, φROG-G, φROG-B as φROG.
Clock Frequency
Item
Symbol
φ1, φ2, φRS
fφ1, fφ2, fφRS
Min.
Typ.
Max.
Unit
—
1
3
MHz
Input Clock Pulse Voltage Condition
Item
φ1, φ2, φRS, φROG
pulse voltage
Min.
Typ.
Max.
Unit
High level
4.75
5.0
5.25
V
Low level
—
0
0.1
V
–2–
ILX535K
Electrooptical Characteristics (Note 1)
Ta = 25°C, VDD = 12V, fφRS = 1MHz, Input clock = 5Vp-p,
Light source = 3200K, IR cut filter CM-500S (t = 1.0mm)
Item
Symbol
Min.
Typ.
Max.
Unit
Remarks
V/(lx · s)
Note 2
Red
RR
6.2
9.5
12.8
Green
RG
12.3
19
25.6
Blue
RB
7.5
11.5
15.5
Sensitivity nonuniformity
PRNU
—
4
20
%
Note 3
Saturation output voltage
VSAT
2.0
2.5
—
V
Note 4
Red
SER
0.15
0.26
—
Green
SEG
0.10
0.13
—
lx · s
Note 5
Blue
SEB
0.12
0.21
—
Dark voltage average
VDRK
—
2
5
mV
Note 6
Dark signal nonuniformity
DSNU
—
4
12
mV
Note 6
Image lag
IL
—
0.02
—
%
Note 7
Supply current
IVDD
—
30
50
mA
—
Total transfer efficiency
TTE
92
98
—
%
—
Output impedance
ZO
—
300
—
Ω
—
Offset level
VOS
—
6.3
—
V
Note 8
Sensitivity
Saturation
exposure
Notes
1) In accordance with the given electrooptical characteristics, the black level is defined as the average value
of D2, D3 to D12.
2) For the sensitivity test light is applied with a uniform intensity of illumination.
3) PRNU is defined as indicated below. Ray incidence conditions are the same as for Note 2.
VOUT-G = 500mV (Typ.)
PRNU =
(VMAX – VMIN) /2
VAVE
× 100 [%]
Where the 5300 pixels are divided into blocks of 100. The maximum output of each block is set to VMAX,
the minimum output to VMIN and the average output to VAVE.
4) Use below the minimum value of the saturation output voltage.
5) Saturation exposure is defined as follows.
SE =
VSAT
R
Where R indicates RR, RG, RB, and SE indicates SER, SEG, SEB.
6) Optical signal accumulated time τ int stands at 5ms.
7) VOUT-G = 500mV (Typ.)
VOUT
8) Vos is defined as the right side.
VOUT indicates VOUT-R, VOUT-G, and VOUT-B.
AAA
AA
AAAAA
AAAAA
VOS
GND
–3–
VOUT
φRS
φ2
φ1
φROG
0
5
0
5
0
5
0
5
–4–
AAAAAA
D62
D15
D14
D13
4
Dummy signal (63 pixels)
S2
S1
D63
1-line output period
Optical black (49 pixels)
D61
D3
D2
3
D1
2
1
Noto) The transfer pulses (φ1, φ2) must have more than 5370 cycles.
VOUT indicates VOUT-R, VOUT-G, VOUT-B.
Clock Timing Chart 1
ILX535K
D70
D65
D64
S5300
S5299
S5298
ILX535K
Clock Timing Chart 2
t4
t5
φROG
t2
t6
t7
φ1
t1
t3
φ2
Clock Timing Chart 3
t7
t6
φ1
φ2
t14
t10
t11
t9
φRS
t8
t13
VOUT
AAAAAAAAA
AAAAAAAAA
t12
–5–
AAA
AAA
ILX535K
Clock Pulse Recommended Timing
Symbol
Item
Min.
Typ.
Max.
Unit
φROG, φ1 pulse timing
t1
50
100
—
ns
φROG pulse high level period
t2
800
1000
—
ns
φROG, φ1 pulse timing
t3
800
1000
—
ns
φROG pulse rise time
t4
0
5
10
ns
φROG pulse fall time
t5
0
5
10
ns
φ1 pulse rise time/φ2 pulse fall time
t6
0
20
60
ns
φ1 pulse fall time/φ2 pulse rise time
t7
0
20
60
ns
φRS pulse high level period
t8
50
—
ns
φRS, φ1 pulse timing 1
t9
80
250∗1
250∗1
—
ns
φRS pulse rise time
t10
0
10
30
ns
φRS pulse fall time
t11
0
10
30
ns
t12
—
70
—
ns
t13
—
10
—
ns
t14
50
250∗1
—
ns
Signal output delay time
φRS, φ1/φ2 pulse timing 2
∗1 These timing is the recommended condition under fφRS = 1MHz.
–6–
0.1µF
47µF/16V
IC1
∗ Data rate fφRS = 1MHz
12V
φRS
VOUT-R
5.1kΩ
100Ω
Tr1
2
1
5.1kΩ
VOUT-G
100Ω
4
7
6
8
9
2Ω
φ1
10
φROG-B
11
IC1
IC1
IC1: 74AC04
Tr1 : 2SC2785
Application circuits shown are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for
any problems arising out of the use of these circuits or for any infringement of third party patent and other right due to same.
Tr1
3
5
12
13
14
15
16
17
18
19
20
φROG-G
21
2Ω
φROG-R
22
100Ω
Tr1
VOUT-B
φ2
GND
5.1kΩ
GND
φRS
VOUT-B
VOUT-R
NC
VOUT-G
NC
VDD
NC
NC
NC
NC
–7–
NC
NC
NC
φ2
NC
φROG-R
φ1
φROG-G
φROG-B
Application Circuit∗
ILX535K
ILX535K
Example of Representative Characteristics (VDD = 12V, Ta = 25°C)
Spectral sensitivity characteristics (Standard characteristics)
1
Relative sensitivity
0.8
0.6
0.4
0.2
0
400
450
500
550
600
650
700
Wavelength [nm]
Dark signal output temperature characteristics
(Standard characteristics)
Integration time output voltage characteristics
(Standard characteristics)
10
Output voltage rate
Output voltage rate
5
1
0.5
0.1
1
0.5
0.1
0
10
20
30
40
50
60
1
5
10
Ta – Ambient temperature [°C]
τ int – Integration time [ms]
Offset level vs. VDD characteristics
(Standard characteristics)
Offset level vs. temperature characteristics
(Standard characteristics)
12
12
Ta = 25°C
10
VOS – Offset level [V]
VOS – Offset level [V]
10
8
6
∆VOS
∆VDD
4
0.6
2
0
11.4
8
6
∆VOS
∆Ta
4
+0.5mV/°C
2
0
12
12.6
0
VDD [V]
10
20
30
40
50
Ta – Ambient temperature [°C]
–8–
60
ILX535K
Notes of 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 sensor.
e) For the shipment of mounted substrates, use boxes treated for prevention of static charges.
2) Notes on Handling CCD Packages
The following points should be observed when handling and installing packages.
a) Remain within the following limits when applying static load to the package:
(1) Compressive strength: 39N/surface (Do not apply load more than 0.7mm inside the outer perimeter
of the glass portion.)
(2) Shearing strength: 29N/surface
(3) Tensile strength: 29N/surface
(4) Torsional strength: 0.9Nm
,
,
Cover glass
0.9Nm
,,
,,
,,
,,
Plastic portion
39N
29N
29N
Adhesive
Ceramic portion
(1)
(2)
(3)
(4)
b) In addition, 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 ceramic portion.
Therefore, for installation, either use an elastic load, such as a spring plate, or an adhesive.
c) Be aware that any of the following can cause the package to crack or dust to be generated.
(1) Applying repetitive bending stress to the external leads.
(2) Applying heat to the external leads for an extended period of time with soldering iron.
(3) Rapid cooling or heating.
(4) Prying the plastic portion and ceramic portion away at a support point of the adhesive layer.
(5) Applying the metal a crash or a rub against the plastic portion.
Note that the preceding notes should also be observed when removing a component from a board
after it has already been soldered.
d) The notch of the plastic portion 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 or ceramic may overlap
with the notch of the plastic portion.
–9–
ILX535K
3) 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 grounded
30W soldering iron and solder each pin in less then 2 seconds. For repairs and remount, cool
sufficiently.
c) To dismount an imaging device, do not use a solder suction equipment. When using an electric desoldering
tool, ground the controller. For the control system, use a zero cross type.
4) Dust and dirt protection
a) Operate in clean environments.
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 the glass surface is 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.
5) Exposure to high temperatures or humidity will affect the characteristics. Accordingly avoid storage or
usage in such conditions.
6) CCD image sensors are precise optical equipment that should not be subject to mechanical shocks.
– 10 –
5.0 ± 0.3
– 11 –
V
H
7.9 ± 0.3
1
55.7 ± 0.3
Plastic, Ceramic
GOLD PLATING
42ALLOY
5.43g
LS-B12-01(E)
PACKAGE MATERIAL
LEAD TREATMENT
LEAD MATERIAL
PACKAGE MASS
DRAWING NUMBER
2.54
0.3
M
*53.00 or 54.2
0.51
11
12
22pin DIP(400mil)
42.4(8µmX5300pixels)
No.1 Pixel(Green)
22
PACKAGE STRUCTURE
4.0 ± 0.5
Unit: mm
*7.3 or 9.0
10.16
10.0 ± 0.3
3.58
*The dimension of cover glass is 54.2 X 9.0mm or 53.0 X 7.3mm.
2. The thickness of the cover glass is 0.7mm, and the refractive index is 1.5.
1. The height from the bottom to the sensor surface is 2.38 ± 0.3mm.
4.28 ± 0.5
0˚to 9˚
0.25
Package Outline
ILX535K