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Ver2.0
A1 PROs
AI325CA
1/3 inch CCD Image Sensor for NTSC Camera
GENERAL DESCRIPTION
The AI325CA is a 250K pixels CCD area sensor for NTSC 1/3 inch video cameras. Buried photodiodes and micro lenses are adopted for low noise, low smear and high sensitivity. A chrominance signal is achieved by the adoption of Yellow, Magenta, Cyan and Green complementary color mosaic filters. This product also has the features of strong antiblooming and electronic shutter with variable charge-storage time. 16 Pin Plastic - DIP ( Top View )
V V V
4 3 2
1 2 3
16 H 15 H
2 1
V1 4 GND 5 VNC 6 GG
NC VSS 7 VOUT 8
14 NC 13 V VRG
RG
12 VP 11 VSUB 10 GND 9 VDD
FEATURES
* Micro lens arrays for high sensitivity * Ye, Mg, Cy and G complementary color mosaic filters * Excellent blooming suppression * TTL level(5V) operation on HCCD & RG electrodes * 16 pin plastic DIP type package * Variable electronic shutter of 1/60 to 1/100,000 sec * High sensitivity and low smear * Low image lag
STRUCTURE
Optical black position ( Top View ) * Architecture : IT - CCD * Optical size : 1/3 inch format * Chip size : 6.0(H) x 5.2(V) * Number of effective pixels : 510 (H) x 492 (V) about 250K pixels * Number of total pixels : 537 (H) x 505 (V) about 270K pixels * Pixel size : 9.65 (H) x 7.5 (V) 2 * Optical black area Horizontal direction : Front 2 pixels Rear 25 pixels Vertical direction : Front 12 pixels Rear 1 pixels * Number of dummy bits Horizontal : 16 Vertical : 1 ( Even field only )
Pin1
1
Unit : Pixels
492
12
2
Pin9
510
25
1
AI325CA
BLOCK DIAGRAM
VOUT
8
NC
7
NC
6
GND
5
V
4
1
V
3
2
V
2
3
V
1
4
PD
VCCD
HCCD
9
10
11
12
13
14
15
16
VDD
GND VSUB
VP
VRG
NC
H
1
H
2
PIN DESCRIPTION
Pin 1 2 3 4 5 6 7 8 Symbol V V V V
4 3 2 1
Description
Vertical register transfer clock 4 Vertical register transfer clock 3 Vertical register transfer clock 2 Vertical register transfer clock 1 Ground No connection No connection CCD output signal
Pin 9 10 11 12 13 14 15 16
Symbol VDD GND VSUB VP VRG NC H H
1 2
Description
Output amplifier drain bias Ground Substrate (Overflow drain) bias Protection bias Reset gate clock No connection Horizontal register transfer clock 1 Horizontal register transfer clock 2
GND NC NC VOUT
ABSOLUTE MAXIMUM RATINGS
Parameter
Substrate voltage Supply voltage
Symbol
VSUB - GND VDD, VOUT - GND VDD, VOUT - VSUB V 1, 2, 3, 4 - GND V 1, 2, 3, 4 - VP V 1, 2, 3, 4 - VSUB H
1,
Value
-0.3 to +55 -0.3 to +18 -55 to +10 -10 to +20 -0.3 to +27 -55 to +10 -10 to +15 -10 to +15
4
Unit
V V V V V V V V V V V V C C
Vertical clock input voltage
Horizontal clock input voltage Between vertical clock input pins Between horizontal clock and vertical clock input pins Output pin voltage Protective circuit voltage Storage temperature Operation temperature
H
X
2
- GND
Y
V H
1,
-V
2
H
-V
-17 to +17 -10 to +15 -55 to +10 -65 to 0.3 -30 to 80 -10 to 60
RG - GND RG - VSUB VP - VSUB TSTG TOPR
* Protective circuit voltage(VP) is induced to the image sensor before VDD supplied power voltage.
2
AI325CA
BIAS CONDITION
Parameter
Output amplifier drain voltage Substrate voltage adjustment range Fluctuation range after substrate voltage adjustment Reset gate clock voltage adjustment range Fluctuation range after reset gate voltage adjustment Protection bias
Symbol
VDD VSUB VSUB VRG VRG VP
Min
14.5 5 -1 0 -3
Typ
15.0
Max
15.5 15 1 4 3
Unit
V V V V %
Remark
*
Set to low level of vertical transfer clock
* No adjustment of reset gate clock voltage is necessary when reset gate clock is driven as indicated below. Parameter
Reset gate clock voltage VRG 8.5 9.0 9.5 V
Symbol
VRGL
Min
-0.2
Typ
0.0
Max
0.2
Unit
V
Remarks
DC CHARACTERISTICS
Parameter Output amplifier drain current Symbol IDD Min - Typ 3 Max - Unit
DRIVING CONDITION
Parameter
Vertical clock high voltage Vertical clock middle voltage Vertical clock low voltage Horizontal clock high voltage Horizontal clock low voltage RG clock voltage difference Substrate clock voltage
Symbol
VH1, VH3 VM1, 2, 3, 4 VL1, 2, 3, 4 HH1, 2 HL1, 2 RGHL VSUB
Min
14.5 -0.2 -9.0 4.5 -0.5 4.7 23
Typ
15.0 0.0 -8.5 5.0 0.0 5.0 24
Max
15.5 0.2 -8.0 5.5 0.5 5.3 25
Unit
V V V V V V V
3
AI325CA
ELECTRO-OPTICAL PERFORMANCE ( Ta = 25 C )
Item
Sensitivity Saturation signal Smear Blooming Video signal shading Uniformity between video signal channels Dark signal level Dark signal shading Flicker Y Flicker B-Y, R-Y Line crawl R, G, B, W Image lagging
Symbol
SENS VSAT SMR BL OSNU Sr Sb VDARK DSNU FY FCr, FCb LCr, LCb, LCg, LCw Lag
Min
65 900
Typ
80
Max
Unit
mV/Lux mV
Measurement Method
1 2 3 4 7 9 9 6 8 5 10 11 12
Remark
Temp=60 C
0.015 1 25 10 10 2 2 2 5 20 0.5
% % % % % mV mV % % % %
Temp=60 C Temp=60 C
4
AI325CA
MESUREMENT METHOD
1. Sensitivity Set to SILC ( Standard Illumination Conditions* ) Measure the average value of signal output ( VOUT ) Calculate the efficiency of VOUT to light intensity 2. VSAT Adjust light intensity to 200 times of SILC Measure the average value of signal output 3. Smear Adjust light intensity to 200 times of SILC & readout clock Measure the signal output at horizontal optical black ( VHOPB ) Measure the signal output at vertical blanking dummy ( VVBD ) Smear = { (VVBD - VHOPB) / VSAT } 100 ( % ) 4. Blooming Adjust light intensity to 200 times of SILC & readout clock Measure the signal output at horizontal optical black (VHOPB ) Measure the signal output at blooming dummy area ( VBD ) Blooming = { ( VBD - VHOPB ) / VSAT } 100 ( % ) 5. OSNU Set to SILC Measure the average value of signal output ( VOUT ) Measure the maximum value and the minimum value of signal output OSNU = ( VMAX - VMIN ) / VOUT 100 (%) 6. Sr, Sb Set to SILC Measure the average value of signal output ( VOUT ) Measure the maximum value and minimum value of chroma output Sr = ( CrMAX - CrMIN ) / VOUT 100 (%) Sb= ( CbMAX - CbMIN ) / VOUT 100 (%)
7. VDARK Measure the average value of signal output at dark condition 8. DSNU Measure the voltage difference between minimum and maximum of dark signal
5
AI325CA
9. FY Set to SILC Measure the average value of signal output ( VOUT ) Measure the difference of signal output between even field and odd field FLK = ( VOUT/ VOUT ) 100 (%) 10. FCr, FCb Set to SILC using the R,B optical filter respectively Measure the average value of chroma signal output Measure the difference of chroma signal output between even field and odd field FCi = ( VCiOUT / VCiOUT ) 100 (%) ( i = r,b ) 11. LCr, LCb, LCg, LCw Set to SILC using the W,R,B,G optical filter respectively Measure the average value of signal output Measure the difference of signal output between signal lines of the same field ( Vlw, Vlr, Vlg, Vlb) Lci = ( VliOUT / ViOUT ) 100 (%) ( i = w,r,g,b ) 12. Lag Light a strobe lamp as follow
TG
V1 odd V2 even V3 odd V4 even
Str
Lag = { V2(out)+V3(out)+V4(out) } / V1(out) * Standard Illumination Conditions Measure the average value of output of linear region At this time, measure the light intensity of illumination at CCD face plate Define SILC with above Light source: Tungsten lamp(3100K) Use a standard test lens at F8
6
AI325CA
+15V 100 C2223 1M 100 9 VDD 10 GND 11 -9V RG 12 VSUB VP 13 VRG 33 14 NC 8 VOUT NC NC GND 7 6 5
KDS226
VR 10K
3.3K
CCD output
3.9K
0.1
V-DRIVER
Ai1002(3)
VSUB
AI325CA
V V 15 H V
1
4
2
V 3 2
1
V
2
APPLICATION CIRCUIT
H H
1
33
2
1
3
V 16 H 33 V
2
3
4
1
V
4
7
AI325CA
PACKAGE DIMENSION (16 PIN PLASTIC-DIP)
B 6.1
UNIT = mm
1.The center of the effective image area relative to " B " and " B' "is (H, V) = (6.1, 5.7) 0.15mm.
R0 DE .5 PT H= 0.4
V
2. The rotation angle of the effective image area relative to H and V is 1.5
H B
: GLASS LID
5.7
2.5 0.10
R
0.3
0.3
12.20 8.9
0.1 3 0.3
11.40 9.70
0.1 0.10
0.32
1.57
0.64 0.10
5 0.25
3.08
1.40
0.10
5 10.73 0.05
R0.3
0.30 0.46
1.27
0.10 0.10 1.27 11.80 0.05 0.10 0.05 1.27X7=8.89
3.55
0.25 11.43 0.3
8

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