DomiLED InGaN White DDW-LJG - Catalogue-v10

DOMINANT
Opto Technologies
Innovating Illumination
DomiLED
TM
DATA SHEET:
DomiLEDTM
InGaN White : DDW-LJG
TM
With the intense colors that seem to glow with energy and its significant
brightness, DomiLED white LED is a highly reliable design device. Its
dynamic nature makes it perfect choice for lighthing applications, office
and home applications and standard industrial applications.
TM
Features:
> High brightness surface mount LED.
> Based on InGaN technology.
>
>
>
>
>
>
>
120° viewing angle.
Small package outline (LxWxH) of 3.2 x 2.8 x 1.8mm.
Qualified according to JEDEC moisture sensitivity Level 2.
Compatible to IR reflow soldering.
Environmental friendly; RoHS compliance.
Compliance to automotive standard; AEC-Q101.
Superior corrosion resistant.
Applications:
> Automotive: interior applications, eg: switches, telematics,
climate control system, dashboard, etc.
> Consumer appliances: LCD illumination as in PDAs, LCD TV.
> Communication: mobile phone flash light, backlights in mobile
phone display.
> Display: full color display video notice board.
>
Industrial: general lighting
© 2005 DomiLED is a trademark of DOMINANT Opto Technologies.
All rights reserved. Product specifications are subject to change without notice.
1
13/05/2016 V10.0
DOMINANT
TM
InGaN White: DDW-LJG
Opto Technologies
Innovating Illumination
Optical Characteristics at Tj=250C
Part Ordering
Number
Color
DDW-LJG-WX1-1
White
120
DDW-LJG-W2X-1
White
120
Viewing
Angle˚
Luminous Intensity @ IF = 20mA IV (mcd)
Min.
Typ.
Max.
Luminous Flux
Typ.
1125.0
1800.0
2240.0
5250.0
1400.0
2240.0
2850.0
6534.0
NOTE
1. All part number above comes in a quantity of 2000 units per reel.
2. Luminous intensity is measured with an accuracy of ± 11%.
3. Color binning is carried for all units as per the color binning table. Only one color group is allowed for each reel.
4. InGaN wavelength is very sensitive to drive current. Operating at lower current is not recommended and may yield unpredictable performace
Current pushing should is used for dimming purposes.
Electrical Characteristics at Tj=250C
Part Number
Vf @ If = 20 mA
Min. (V)
Typ. (V)
Max. (V)
Vr @ Ir = 10 µA
Min. (V)
2.8
3.1
3.3
5.0
DDW-LJG
Forward Voltage, Vf is measured with an accuracy of ± 0.1 V.
Absolute Maximum Ratings
Maximum Value
Unit
DC forward current
30
mA
Peak pulse current; (tp ≤ 10µs, Duty cycle = 0.10)
100
mA
5
V
ESD threshold (HBM)
2000
V
LED junction temperature
125
˚C
Operating temperature
-40 … +100
˚C
Storage temperature
-40 … +100
˚C
110
mW
340
K/W
180
K/W
Reverse voltage; Ir max = 10µA
Power dissipation (at room temperature)
Thermal resistance
- Junction / ambient, Rth JA
- Junction / solder point, Rth JS
(Mounting on FR4 PCB, pad size >= 16 mm2 per pad)
2
13/05/2016 V10.0
DOMINANT
TM
InGaN White: DDW-LJG
Opto Technologies
Innovating Illumination
DDW, White Color Grouping
4
0.3045
0.2715
0.3005
0.2825
0.3130
0.2840
0.3100
0.2970
0.3386
0.3235
0.3386
0.3426
0.3484
0.3388
0.3484
0.3571
0.3130
0.2840
0.3100
0.2970
0.3205
0.2956
0.3197
0.3131
0.3582
0.3542
0.3582
0.3715
White Bin Structure
1
0.2960
0.2590
0.291
0.2680
0.3045
0.2715
0.3005
0.2825
0.3288
0.3081
0.3288
0.3282
0.3386
0.3235
0.3386
0.3426
0.3100
0.2970
0.3070
0.3120
0.3197
0.3131
0.3189
0.3302
0.3484
0.3388
0.3484
0.3571
0.3900
0.3800
0.3700
PL
0.3600
OL
0.3500
NL
0.3400
0.3300
ML
0.3200
0.3100
OK
NK
MK
LL
0.3000
PK
LK
KL
0.2900
KK
JL
0.2800
0.2700
JK
0.2600
0.2500
0.2400
0.2300
0.2700
0.2800
0.2900
0.3000
0.3100
0.3200
0.3300
0.3400
0.3500
0.3600
0.3700
Chromaticity coordinate groups are measured with an accuracy of ± 0.01.
1
2
3
4
Cx
0.2960
0.2910
0.3005
0.3045
Cy
0.2590
0.2680
0.2825
0.2715
Cx
0.291
0.2850
0.2960
0.3005
Cy
0.2680
0.2790
0.2955
0.2825
Cx
0.3045
0.3005
0.3100
0.3130
Cy
0.2715
0.2825
0.2970
0.2840
Cx
0.3005
0.2960
0.3070
0.3100
Cy
0.2825
0.2955
0.3120
0.2970
Cx
0.3288
0.3288
0.3386
0.3386
Cy
0.3081
0.3282
0.3426
0.3235
Cx
0.3288
0.3288
0.3386
0.3386
Cy
0.3282
0.3453
0.3591
0.3426
Cx
0.3386
0.3386
0.3484
0.3484
Cy
0.3235
0.3426
0.3571
0.3388
Cx
0.3386
0.3386
0.3484
0.3484
Cy
0.3426
0.3591
0.3730
0.3571
Cx
0.3100
0.3197
0.3205
0.3130
Cy
0.2970
0.3131
0.2956
0.2840
Cx
0.3070
0.3189
0.3197
0.3100
Cy
0.3120
0.3302
0.3131
0.2970
Bin
JK
JL
KK
KL
NK
NL
OK
OL
LK
LL
3
13/05/2016 V10.0
DOMINANT
TM
InGaN White: DDW-LJG
Opto Technologies
Innovating Illumination
1
2
3
4
Cx
0.3197
0.3288
0.3288
0.3205
Cy
0.3131
0.3282
0.3081
0.2956
Cx
0.3189
0.3288
0.3288
0.3197
Cy
0.3302
0.3452
0.3282
0.3131
Cx
0.3484
0.3484
0.3582
0.3582
Cy
0.3388
0.3571
0.3715
0.3542
Cx
0.3484
0.3484
0.3582
0.3582
Cy
0.3571
0.3730
0.3792
0.3715
Bin
MK
ML
PK
PL
InGaN wavelength is very sensitive to drive current. Operating at lower current is not recommended and may yield unpredictable performance.
Current pulsing should be used for dimming purposes.
4
13/05/2016 V10.0
DOMINANT
TM
InGaN White: DDW-LJG
Opto Technologies
Innovating Illumination
DDW, White Color Grouping
White Bin Structure
0.44
0.42
0.40
E3
0.38
E4
E1
0.36
C3
0.34
C1
0.32
A1
0.28
C4
C2
A3
0.30
E2
A4
A2
0.26
0.24
0.22
0.20
0.18
0.16
0.26
0.28
0.30
0.32
0.34
0.36
Chromaticity coordinate groups are measured with an accuracy of ± 0.01.
1
2
3
4
Cx
0.2775
0.2900
0.2900
0.2775
Cy
0.2732
0.2939
0.3114
0.2907
Cx
0.2775
0.2900
0.2900
0.2775
Cy
0.2557
0.2764
0.2939
0.2732
Cx
0.2900
0.3025
0.3025
0.2900
Cy
0.2939
0.3146
0.3321
0.3114
Cx
0.2900
0.3025
0.3025
0.2900
Cy
0.2764
0.2971
0.3146
0.2939
Cx
0.3025
0.3150
0.3150
0.3025
Cy
0.3146
0.3354
0.3529
0.3321
Cx
0.3025
0.3150
0.3150
0.3025
Cy
0.2971
0.3179
0.3354
0.3146
Cx
0.3150
0.3275
0.3275
0.3150
Cy
0.3354
0.3561
0.3736
0.3529
Cx
0.3150
0.3275
0.3275
0.3150
Cy
0.3179
0.3386
0.3561
0.3354
Cx
0.3275
0.3400
0.3400
0.3275
Cy
0.3561
0.3768
0.3943
0.3736
Cx
0.3275
0.3400
0.3400
0.3275
Cy
0.3386
0.3593
0.3768
0.3561
Cx
0.3400
0.3525
0.3525
0.3400
Cy
0.3768
0.3975
0.4150
0.3943
Cx
0.3400
0.3525
0.3525
0.3400
Cy
0.3593
0.3800
0.3975
0.3768
Bin
A1
A2
A3
A4
C1
C2
C3
C4
E1
E2
E3
E4
5
13/05/2016 V10.0
DOMINANT
TM
InGaN White: DDW-LJG
Opto Technologies
Innovating Illumination
Luminous Intensity Group at Tj=25˚C
Luminous Intensity
IV (mcd)
Brightness Group
W1
1125.0 ... 1400.0
W2
1400.0 ... 1800.0
X1
1800.0 ... 2240.0
X2
2240.0 ... 2850.0
Luminous intensity is measured with an accuracy of ± 11%.
Vf Binning (Optional)
Vf Bin @ 20mA
Group
Forward
Wavelength
Voltage (V)
distribution (nm)
V1
2.75 ... 3.05
V2
3.05 ... 3.35
Forward voltage, Vf is measured with an accuracy of ± 0.1 V.
Please consult sales and marketing for special part number to incorporate Vf binning.
6
13/05/2016 V10.0
DOMINANT
InGaN White: DDW-LJG
Opto Technologies
Innovating Illumination
Relative Luminous Intensity Vs Forward Current
Lumionous
Vs
Forward Current
Relative
Intensity
VsIntensity
Forward
Current
IVLumionous
/IVRelative
(20mA)
=
f(IF);
Tj
= 25°C
= f(I ); T = 25°C
I /I (20mA)
0.6
0.8
0.4
0.6
0.2
0.4
0.0
0.8
1.0
0.6
0.8
0.4
0.6
0.2
0.4
0.0
0.2
50
0
30
35
2015
25
30
ForwardForward
CurrentCurrent
IF (mA) IF (mA)
25
30
F
Forward Current
IF (mA)
1510
20
25
15
20
10
15
105
2520
3025
Forward
Current
(mA) IF (mA)
Forward
Current
0.0
Forward
Current
IFIF(mA)
50
10 5
1510
2015
2520
3025
Maximum
Current Vs Temperature
Maximum Current
Vs Temperature
I
=
f
(T)
I
=
f
(T)
F Current
Forward
Current IF (mA)
Forward
(mA)
Maximum
Current
VsIFFTemperature
35
Maximum
Current
Vs Temperature
Maximum Current
Vs Temperature
I =f(T)
IF = f (T)
IF =Ff (T)
30
35
Ta
Ta
0
35
Current I (mA)
Forward
Forward Current I (mA)F
105
Ta
Ta
20
25
15
20
10
15
5
10
Ta = AmbientTTemperature
a = Ambient Temperature
∆Cx, ∆Cy
0.04
0.03
100
0.02
100
0.01
0.00
-0.01
10
-0.02 0.1
10
-0.03 0.1
80
-0.04
20
15
15
10
10
5
I (mA)
25
20
0
10
5
1
1
10
1
10
10
1
Duty Ratio, %
Duty Ratio, %
15
20
10
5
2.8
2.9
2.9
3.0
3.0
3.1
3.23.1
3.33.2
3.3
Forward
VoltageV
VF (V)
Forward
Voltage
VVoltage
Forward
(V)
F (V)
F
2.8
2.9
3.0
3.1
3.2
2.9
3.0
3.1
3.2
3.3
Relative
Spectral Emission
Relative Spectral
Emission
= f(Ȝ);
= F25°C;
IF = 20mA
Irel = f(Ȝ);
Tj =Irel
25°C;
IF T
=j 20mA
Forward
Voltage
VF (V)
Forward
Voltage
V
(V)
3.3
Relative Spectral Emission
1.0
Relative
Spectral
Relative
Irel =Spectral
f(λ);
TEmission
=
25°C;Emission
IF = 20mA
j
= f(Ȝ);
= 25°C; IF =
20mA
Irel = f(Ȝ); Tj =Irel25°C;
IF T=j 20mA
0.9
1.0
0.8
0.9
0.7
0.8
0.6
0.7
0.5
0.6
0.4
0.5
0.3
0.4
0.2
0.3
0.1
0.2
0.0
4000.1350
450
400
500
0.0
100350
0.0
400 350
450
500 450
550 500
600 550
650 600
700 650
750 700
800 750
850 800
400
450
550
500
600
550
650
600
700
650
750
700
800
750
850
800
850
Ȝ (nm)
WavelengthWavelength
Ȝ (nm)
850
WavelengthWavelength
Ȝ (nm)
Ȝ (nm)
Wavelength λ (nm)
Allowable Forward Current Vs Duty Ratio
Allowable
Current
Duty Ratio
( TForward
= 25°C;
tp ≤Vs10μs
)
j
( Tj = 25°C; tp ” 10ȝs )
1000
10
100
100
10
100
100
25
15
10
0.9
1.0
0.8
0.9
0.7
0.8
0.6
0.7
0.5
0.6
0.4
0.5
0.3
0.4
0.2
0.3
0.1
0.2
0.0
0.1350
100
Ratio, %
Duty Ratio, Duty
%
0.1
j
20
15
0
2.7
2.8
¨Cy
0.1
F
25
20
0
302.7
¨Cx
10
F
5
0
2.7
2.8
100
100
Forward
Current Vs
Forward Voltage
Forward Current
Vs Forward
Voltage
= f(VF); Tj = 25°C
I = f(V ); T =IF 25°C
05
302.7
∆Cx,Coordinate
∆Cy = f(IShift
);Tj =Forward
25°C Current
Chromaticity
F Vs
¨Cx, ¨Cy = f(IF);Tj = 25°C
Allowable
Allowable
ForwardForward
Current Current
IF( mA ) IF( mA )
¨Cx,
¨Cy Forward
Allowable
Forward
CurrentCurrent
IF( mA )IF( mA )
Allowable
0
30
25
1.0
05
0
10
70
80
90
10
20
30 20
40 30
50 40
60 50
70 60
80
90 100
Ta = AmbientTTemperature
a = Ambient Temperature
Temperature
T(°C)
Temperature
T(°C)
0
0
0
10
20
30
40
50
60
70
80
90 100
0
10
20
30
40
50
60
70
80
90
Allowable
Forward
Current
Vs Duty
Ratio
Allowable Forward
Current
Vs Duty
Ratio
(”
TTemperature
=T(°C)
25°C;
)
( TTemperature
) tp ” 10ȝs
T(°C)
j 10ȝs
j = 25°C; tp
Temperature T(°C)
1000
1000
Allowable Forward
Current
Vs Duty
Ratio
Allowable
Forward
Current
Vs Duty Ratio
( Tj = 25°C; tp(”Tj10ȝs
) tp ” 10ȝs )
= 25°C;
Chromaticity
1000
1000 Coordinate Shift Vs Forward Current
50
30
25
IF( )mA )
Current
Forward
Allowable
Allowable
Forward Current
IF( mA
0.0
0.2
1.0
1.2
30
Irel
0.8
1.0
ForwardForward
CurrentCurrent
IF (mA) IF (mA)
1.0
1.2
1.2
1.4
30
Relative
Luminous
Intensity
Irel
Intensity
Luminous
Relative
Relative
Luminous
Intensity
Irel
Luminous
Intensity
Irel
RelativeRelative
Luminous
Intensity
Irel
1.2
1.4
Luminous
Intensity
Irel
RelativeRelative
Luminous
Intensity
Irel
Irel
Intensity
Luminous
Relative
Relative
Luminous
Intensity
Irel
Relative
Luminous
Intensity
Irel
1.4
1.6
Forward Current Vs Forward Voltage
Forward
Current Vs
Forward Voltage
Forward Current
Voltage
I Vs=Forward
f(V= Ff(V
); T
=
25°C
IF = f(VFF); Tj =IF25°C
F); jTj = 25°C
Current F
Forward
Forward
Forward
CurrentCurrent
IF (mA) IF (mA)
IV/IV(20mA) =Vf(IVF); Tj = 25°C F j
1.6
Relative Lumionous
Forward Current
Relative Lumionous
Intensity VsIntensity
Forward Vs
Current
/IV(20mA)
= f(IF); Tj = 25°C
IV/IV(20mA) =IVf(I
F); Tj = 25°C
1.4
1.6
1.6
t
70
TM
100
10
30
ForwardCurrent
Current IF (mA)
Forward
IF (mA
7
0.1
1
10
Duty
Ratio,
Duty
Ratio,
% %
100
13/05/2016 V10.0
DOMINANT
TM
InGaN White: DDW-LJG
Opto Technologies
Innovating Illumination
Radiation Pattern
20°
10°
0°
40°
Relative Forward
Voltage
¨VF (V) ∆V (V)
Voltage
Forward
Relative
F
1.0
0.8
50°
0.6
60°
0.4
70°
0.2
80°
0
90°
0.5
2
0.4
1
0.3
1
0.2
1
Relative Luminious Flux Ɏrel
30°
Relative Forward Voltage Vs Junction Temperature
Relative Forward Voltage Vs Junction Temperature
∆VF =
- VFF(25°C)
=j);f(T
IF =20mA
¨VV
(25°C) = f(T
IF =j);20mA
F=
F VF - V
0.1
0.0
-0.1
-0.2
-0.3
-50
-30
-10
10
30
50
70
90
110
130
Junction Temperature T (°C)
j
Junction Temperature
Tj(°C)
Relative Luminous Intensity Vs Junction Temperature
Wavelength
Vs
Temperature
Relative
Luminious
Intensity
VsIJunction
Junction
Temperature
IVRelative
/I
(25°C)
=- Ȝf(T
);
= 20mA
V¨Ȝ I /I= Ȝ
j(25°C)
f(T ); I = 20mA
(25°C)
= f(T
); IF = =20mA
dom
dom
j
V
j
Chromaticity Coordinate Shift Vs Junction Temperature
Chromaticity Coordinate Shift Vs Junction Temperature
∆Cx, ¨Cx,
∆Cy¨Cy
= =f(T
); I = 20mA
f(Tj); I F= 20mA
F
j
0.05
1.8
8.0
0.04
1.6
6.0
0.03
1.4
4.0
0.02
1.2
2.0
1.0
0.0
0.8
-2.0
0.6
-4.0
-0.02
0.4
-6.0
-0.03
0.2
-8.0
-0.04
0.0
-10.0
-50
-30
-50
¨Cx, ¨Cy
∆Cx , ∆Cy
2.0 10.0
Relative Wavelength ¨Ȝdom(nm)
Relative Luminous
Luminious Flux
Ɏrel
Irel
Intensity
Relative
dom
V V
-10
-30
10
30
50
70
90
110
-10
10
30
50
70
90
Junction Temperature T j(°C)
Temperature
T j(°C)
JunctionJunction
Temperature
T (°C)
130
110
F
¨Cy
0.01
¨Cx
0.00
-0.01
-0.05
130
-50
-30
-10
10
30
50
70
90
110
130
Junction Temperature
T j(°C)T (°C)
Junction
Temperature
j
j
8
1
0
0
0
0
-0.4
-0.5
1
13/05/2016 V10.0
0
DOMINANT
TM
InGaN White: DDW-LJG
Opto Technologies
Innovating Illumination
DomiLED • InGaN White: DDW-LJG Package Outlines
TM
Note : Primary thermal path is through Cathode lead of LED package.
Material
Material
Lead-frame
Cu Alloy With Ag Plating
Package
High Temperature Resistant Plastic, PPA
Encapsulant
Silicone Resin
Soldering Leads
Sn-Sn Plating
9
13/05/2016 V10.0
DOMINANT
TM
InGaN White: DDW-LJG
Opto Technologies
Innovating Illumination
Recommended Solder Pad
10
13/05/2016 V10.0
DOMINANT
TM
InGaN White: DDW-LJG
Opto Technologies
Innovating Illumination
Taping and orientation
• Reels come in quantity of 2000 units.
• Reel diameter is 180 mm.
11
13/05/2016 V10.0
DOMINANT
TM
InGaN White: DDW-LJG
Opto Technologies
Innovating Illumination
Packaging Specification
12
13/05/2016 V10.0
DOMINANT
TM
InGaN White: DDW-LJG
Opto Technologies
Innovating Illumination
Packaging Specification
Existing BPL
Moisture sensitivity
level size - 87mm x 45mm.
As part of improvement and also in response to customers’ request; BPL
Barcode label
changed to the following.
DOMINANT Opto Technologies
(L) Lot No : lotno
ML TEMP
2 260˚C
RoHS Compliant
(P) Part No : partno
(C) Cust No : partno
(Q) Quantity : quantity
(G) Grouping : group
(D) D/C : date code
Made in Malaysia
(S) S/N : serial no
New BPL size - 110mm x 55mm.
Additional information are now included in the label. 2D and 3D bar
Reel
implemented now
for every data field.
Label
Moisture absorbent material +
Moisture indicator
Issue No : 1
The reel, moisture absorbent material and moisture indicator are
sealed inside the moisture proof foil bag
Weight
Weight(gram)
(gram)
Average 1pc DomiLED/Multi DomiLED
1 completed bag (2000pcs)
0.034
0.034
240 ± 10
190
10
Cardboard
Box
DOMINANT TM
For DomiLED
TM
Cardboard Box
Size
Dimensions (mm)
Empty Box
Weight (kg)
Reel / Box
Super Small
325 x 225 x 190
0.38
9 reels MAX
Small
325 x 225 x 280
0.54
15 reels MAX
Medium
570 x 440 x 230
1.46
60 reels MAX
Large
570 x 440 x 460
1.92
120 reels MAX
13
13/05/2016 V10.0
DOMINANT
TM
InGaN White: DDW-LJG
Opto Technologies
Innovating Illumination
Recommended Pb-free Soldering Profile
Classification Reflow Profile (JEDEC J-STD-020C)
300
255-260˚C
10-30s
275
250
217˚C
225
Temperature (˚C)
Ramp-up
3˚C/sec max.
200
60-150s
175
150
125
Rampdown
6˚C/sec
max.
100
75
Preheat 60-180s
50
25
480s max
0
50
100
150
200
Time (sec)
14
13/05/2016 V10.0
DOMINANT
TM
InGaN White: DDW-LJG
Opto Technologies
Innovating Illumination
Revision History
Page
Subjects
Date of Modification
2
Add new partno: DDW-LJG-W2X-1
26 Jun 2013
7
Update graph: Relative Luminous Intensity
Vs Forward Current
13 Sep 2013
6
Add Vf Binning
09 Jan 2014
3, 8
Add Characteristic
Add Graph: Chromaticity Coordinate Shift
24 Mar 2014
8
Add Graph: Allowable Forward Current Vs
Duty Ratio
04 Aug 2014
1, 14
Add Features
Update Packaging Specification
1, 2, 6, 7, 8, 9
Add Features
Update Vf
Update Vf binning
Update Graph
Add Notes in Package Outline
16 Oct 2015
13 May 2016
NOTE
All the information contained in this document is considered to be reliable at the time of publishing. However, DOMINANT
Opto Technologies does not assume any liability arising out of the application or use of any product described herein.
DOMINANT Opto Technologies reserves the right to make changes at to any products in order to improve reliability, function
or design.
DOMINANT Opto Technologies products are not authorized for use as critical components in life support devices or systems
without the express written approval from the Managing Director of DOMINANT Opto Technologies.
15
13/05/2016 V10.0
DOMINANT
TM
Opto Technologies
InGaN White: DDW-LJG
Innovating Illumination
About Us
DOMINANT Opto Technologies is a dynamic Malaysian Corporation that is among the world’s leading SMT LED
Manufacturers. An excellence – driven organization, it offers a comprehensive product range for diverse industries
and applications. Featuring an internationally certified quality assurance acclaim, DOMINANT’s extra bright LEDs
are perfectly suited for various lighting applications in the automotive, consumer and communications as well as industrial sectors. With extensive industry experience and relentless pursuit of innovation, DOMINANT’s state-of-art
manufacturing, research and testing capabilities have become a trusted and reliable brand across the globe. More
information about DOMINANT Opto Technologies can be found on the Internet at http://www.dominant-semi.com.
Please contact us for more information:
DOMINANT Opto Technologies Sdn. Bhd
Lot 6, Batu Berendam, FTZ Phase III, 75350 Melaka, Malaysia.
Tel: +606 283 3566 Fax: +606 283 0566
E-mail: [email protected]
DOMINANT
Opto Technologies
Innovating Illumination
TM