Color Sensor Package ADJD-E622-QR999 high performance, small size
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ADJD-E622-QR999
Color Sensor Package
ADJD-E622-QR999 high performance, small size, cost effective light voltage converting sensor. sensor combines photodiode array three transimpedance amplifiers single monolithic CMOS solution. With (R), Green Blue color filters coated over photodiode array, sensor converts light analog voltage outputs, denoted VROUT, VGOUT VBOUT, respectively. sensor packaged 5x5x0.75 [mm] surface mount QFN-16 package.
Features
Convert light R,G,B voltage output Monolithic CMOS solution comprises array photodiode coated with R,G, color filter integrated with transimpedance amplifier. Independent gain selection options each R,G,B channel sets photodiode array design minimize effect contamination optical aperture misalignment Qualified Automotive AEC-Q100 Standard (Grade Rbust package small size 0.75
Applications
Ideal choice light sensor automotive applications such dashboard lighting, automotive interior lighting, infotainment navigational panel. Other potential applications such environmental lighting, cabin lighting, decorative lighting, general color detection, industrial process, etc. also coupled with Avago Technologies' patented color controller, HDJD-J822, form closed loop color management system
WARNING: Standard CMOS handling precautions should observed avoid static discharge.
THIS PRODUCT CERTIFIED WARRANTIED AUTOMOTIVE APPLICATIONS. CUSTOMER INTENDS AUTOMOTIVE APPLICATIONS, THEY THEIR RISK. AVAGO WILL RESPONSIBLE CLAIM PRODUCT FAILURE DURING OPERATION RELIABILITY ASSESSMENT.
Package Dimension
Bottom View
0.30
5.0±0.15
5.0±0.15
Note: Dimensions millimeters (mm)
Part Numbering System
ADJD-E Gain Selection (GS) Option 999: component level 000,001,010,011,100,101,110,111 Packing Type Tape Reel Product Packaging Product component without filter (QFN 5x5)
0.75±0.10
Theory Operation
integral R,G,B color filters photodiode array detect R,G,B components light falling sensor. photodiode convert R,G,B light components into photocurrents. integrated transimpedence amplifiers R,G,B components then converts photocurrent analog voltage outputs. voltage output each R,G,B channel increases linearly with increasing light intensity.
Sensor Block Diagram
ADJD-E622-QR999
Name Normal Operation GSGRN2 GSGRN1 GSRED2 GSRED1 GSRED0 GSBLUE0 GSBLUE1 GSGRN Analog output voltage BLUE Analog output voltage GREEN Analog output voltage Supply Gain Selection Green Gain Selection Green Gain Selection Gain Selection Gain Selection connection connection Gain Selection Blue Gain Selection Blue Gain Selection Green Ground
GSBLUE Gain Selection Blue
Absolute Maximum Ratings [1,2]
Parameter Supply Voltage Storage Temperature Operating Temperature Human Body Model Rating Machine Model Rating Charge Device Model Rating
Note: Subjecting part stresses beyond those listed under this section cause permanent damage device. These stress ratings only imply that devices will function beyond these ratings. Exposure extremes these conditions extended periods affect device reliability. Unless otherwise specified, voltages referenced ground. Maximum rating corner 750V
Symbol ESDHBM ESDMM ESDCDM
Unit
Notes
Recommended Operating Conditions
Parameter Operating Temperature Supply Voltage Sym. Min. Typ. Max. Units decoupling capacitor 100nF between ground recommended. Notes
Remarks: device with moisture sensitivity level optimized signal output, filters must added each voltage output.
Gain Selection GS:000 GS:101 GS:110 GS:111
Rext
Cext 6.8nF
Channel
VRout Signal Generator Cext Vout Rext
Lowpass Filter
illustration purpose, only channel shown. same circuit applies green blue channel.
Operating Conditions Electrical Requirements Electrical Characteristics 25°C,
Parameter Dark voltage Max. output voltage swing Supply current Irradiance Responsivity Sym. VOMAX GS:111, GS:111, GS:111, Irradiance Responsivity GS:110, GS:110, GS:110, Irradiance Responsivity GS:101, GS:101, GS:101, Irradiance Responsivity GS:100, GS:100, GS:100, Irradiance Responsivity GS:011, GS:011, GS:011, Irradiance Responsivity GS:010, GS:010, GS:010, Irradiance Responsivity GS:001, GS:001, GS:001, Irradiance Responsivity GS:000, GS:000, GS:000, Saturation Irradiance GS:111, GS:111, GS:111, Saturation Irradiance GS:110, GS:110, GS:110,
Remark
Min.
Typ.
Max.
Unit (mW/cm2)
(Blue Channel) (Green Channel) (Red Channel) (Blue Channel) (Green Channel) (Red Channel) (Blue Channel) (Green Channel) (Red Channel) (Blue Channel) (Green Channel) (Red Channel) (Blue Channel) (Green Channel) (Red Channel) (Blue Channel) (Green Channel) (Red Channel) (Blue Channel) (Green Channel) (Red Channel) (Blue Channel) (Green Channel) (Red Channel) (Blue Channel) (Green Channel) (Red Channel) (Blue Channel) (Green Channel) (Red Channel)
0.39 0.26 0.18 0.47 0.34 0.23
(mW/cm2)
(mW/cm2)
(mW/cm2)
(mW/cm2)
(mW/cm2)
(mW/cm2)
(mW/cm2)
mW/cm2
mW/cm2
Parameter Saturation Irradiance
Sym. Remark GS:101, GS:101,
Min. Typ. (Blue Channel) (Green Channel) 0.67 0.43 0.29 0.78 0.59 0.40 0.94 0.78 0.53 1.18 0.94 0.71 1.57 1.18 0.85 2.35 1.57 1.34
Max. Unit mW/cm2
GS:101, (Red Channel) Saturation Irradiance GS:100, (Blue Channel) GS:100,
mW/cm2
(Green Channel) (Red Channel)
GS:100, Saturation Irradiance
GS:011, (Blue Channel) 011, (Green Channel) 011,
mW/cm2
(Red Channel) (Blue Channel)
Saturation Irradiance
GS:010,
mW/cm2
GS:010, (Green Channel) GS:010, (Red Channel) GS:001, GS:001,
Saturation Irradiance
(Blue Channel) (Green Channel)
mW/cm2
GS:001, (Red Channel) Saturation Irradiance GS:000, (Blue Channel) GS:000, GS:000, Output rise time
mW/cm2
(Green Channel) (Red Channel)
GS:000 GS101 Test Condition: Refer note (min peak GS:110 GS:111 Test Condition: Refer note (min peak
Output fall time
GS:000 GS101 Test Condition: Refer note (min peak GS:110 GS:111 Test Condition: Refer note (min peak
Notes: Test condition: rise fall time measured with lowpass filter added sensor output: Test condition: using blue diffuse light peak wavelength 460nm spectral half width 25nm light source. Test condition: using green diffuse light peak wavelength 542nm spectral half width 35nm light source. Test condition: using diffuse light peak wavelength 645nm spectral half width 20nm light source. Saturation irradiance (Max output voltage swing)/(Irradiance responsivity)
Gain Selection GS:000 GS:101 GS:110 GS:111
Rext
Cext 6.8nF
Color Sensor
Channel Signal Generator Rout Rext Cext RCLowpass Filter
Vout
Remarks: illustration purpose, only channel shown. same circuit applies green blue channel.
Test Circuit
Gain Selection Feedback Resistor Table
Note: Gains selections, applicable each Red, Green Blue Channel. Gain selections each channel selected independently each other. Feedback resistor value proportional responsivity. Refer block diagram below. indicates that connected ground. indicates connection.
Feedback Resistor, 11.7
GS(2:1:0)
Feedback resistor
Typical Characteristics
Relative Responsivity
Wavelength (nm)
Figure Spectral Responsivity Note: Test condition when Gain Selection Jumpers GSBLUE2=1 GSBLUE1=1 GSBLUE0=1 GSGRN2=1 GSGRN1=1 GSGRN0=1 GSRED2=1 GSRED1=1 GSRED0=1
which 0=connect Ground, 1=no connection. Refer Gain Selection Feedback Resistor Table.
0.03000 0.02500
Dark Voltage
0.02000 0.01500 0.01000 0.00500 0.00000 Temperature (°C)
Figure Dark Voltage Operating Temperature
GS:000
Voltage Output
Irradiance (mW/cm2)
GS:001 GS:010 GS:011 GS:100 GS:101 GS:110 GS:111
Figure Voltage Output Blue Channel Irradiance
Voltage Output
GS:000 GS:001 GS:010 GS:011 GS:100 GS:101 GS:110 GS:111 (mW/cm2)
Irradiance
Figure Voltage Output Green Channel Irradiance
GS:000 GS:001 GS:010 GS:011 GS:100 GS:101 GS:110 GS:111
Voltage Output
Irradiance (mW/cm
Figure Voltage Output Channel Irradiance
Recommended Reflow Profile
recommended that Henkel Pb-free solder paste LF310 used soldering ADJD- E622-QR999. Below recommended reflow profile.
-peak -reflow 218°C Delta -flux 2°C/sec Delta -cooling 2°C/sec -max 160°C -min 120°C
Delta -ramp 1°C/sec
-pre 40-60
-reflow
Figure Recommended Reflow Soldering Profile
Lead Recommended Land Design
IPC-SM-782 used standard landpad design. Recommended finishing gold plated.
Lead Recommended Stencil Design
stencil thickness 2.18mm (6mils) this package recommended.
3.19 3.19
2.18mm
Figure
Figure
Recommendations Handling Storage ADJD E622 QR999
This product qualified Moisture Sensitive Level Jedec J-STD-020. Precautions when handling this moisture sensitive product important ensure reliability product. refer Avago Application Note AN5305 Handling Moisture Sensitive Surface Mount Devices details. Storage before Unopened moisture barrier (MBB) stored 30°C 90%RH less maximum year recommended open prior assembly (e.g. IQC) should also sealed with moisture absorbent material (Silica Gel) indicator card (cobalt chloride) indicate moisture within Control after opening humidity indicator card (HIC) shall read immediately upon opening components must kept <30°C/60%RH time high temperature related process including soldering, curing rework need completed within 168hrs Control unfinished reel unused components, they need stored sealed with desiccant desiccator <5%RH Control assembled boards soldered with components subjected other high temperature processes, need stored sealed with desiccant desiccator <5%RH ensure components have exceeded their floor life 168hrs Baking required "10%" "15%" indicator turns pink components exposed condition >30°C/60%RH time. components floor life exceeded 168hrs Recommended baking condition component form): 125°C 24hrs
Package Tape Reel Dimensions Carrier Tape Dimensions
4.00 0.10 NOTE 2.00 0.05 NOTE 1.55 0.05 0.50 TYP. 1.75 5.50 0.05 12.00 0.10 SECTION PITCH: WIDTH: 5.30 5.30 2.20 8.00 12.00
8.00 0.10
1.50 (MIN.)
0.30 0.05 SECTION NOTES: MEASURED ABOVE BASE POCKET. PITCHES CUMULATIVE TOLERANCE DIMENSIONS MILLIMETERS (mm).
Reel Dimensions
R10.65 +1.5* 12.4
R5.2
55.0 178.0
176.0 EMBOSSED RIBS RAISED: 0.25 WIDTH: 1.25
BACK VIEW
18.0 MAX.*
NOTES: *MEASURED AREA. FLANGE EDGES ROUNDED.
WARNING: Standard CMOS handling precautions should observed avoid static discharge.
THIS PRODUCT CERTIFIED WARRANTIED AUTOMOTIVE APPLICATIONS. CUSTOMER INTENDS AUTOMOTIVE APPLICATIONS, THEY THEIR RISK. AVAGO WILL RESPONSIBLE CLAIM PRODUCT FAILURE DURING OPERATION RELIABILITY ASSESSMENT.
product information complete list distributors, please site:
www.avagotech.com
Avago, Avago Technologies, logo trademarks Avago Technologies, Limited United States other countries. Data subject change. Copyright 2007 Avago Technologies Limited. rights reserved. AV01-0143EN January 2007
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