DOMINANT DSX-DSS Right angle domiled Datasheet

DOMINANT
Opto Technologies
Innovating Illumination
TM
DATA SHEET:
Right Angle DomiLED
InGaN : DSx-DSS
DomiLED
Synonymous with function and performance, the DomiLED series is
perfectly suited for a variety of cross-industrial applications due to its
small package outline, durability and superior brightness.
TM
Features:
>
>
>
>
>
>
>
>
>
High brightness surface mount LED.
Designed for sideway illumination.
120° viewing angle.
Small package outline.
Qualified according to JEDEC moisture sensitivity Level 2.
Compatible to IR reflow soldering.
Environmental friendly; RoHS compliance.
Compliance to auntomotive standard; AEC-Q101.
Passed Corrosion Resistant Test. Appx. 4.1
Applications:
>
>
>
>
Automotive:
Interior applications, eg: switches, telematics, climate control system,
dash board, etc.
Consumer Appliances: LCD illumination as in PDAs, LCD TV.
Display: full color display video notice board.
Industry: white goods (eg: Oven, microwave, etc.).
© 2005 DomiLED is a trademark of DOMINANT Opto Technologies.
All rights reserved. Product specifications are subject to change without notice.
1
03/10/2016 V6.0
DOMINANT
TM
InGaN : DSx-DSS
Opto Technologies
Innovating Illumination
Optical Characteristics at Tj=25˚C
Part Ordering
Number
Color
Viewing
Angle˚
Luminous Intensity @ IF = 20mA IV (mcd) Appx. 1.1
Min.
Typ.
Max.
DSB-DSS-ST2-1
Blue, 470nm
120
180.0
220.0
450.0
DST-DSS-WX1-1
True Green, 525nm
120
1125.0
1700.0
2240.0
DST-DSS-VW1-1
True Green, 525nm
120
715.0
950.0
1400.0
Electrical Characteristics at Tj=25˚C
Vf @ If = 20mA Appx. 3.1
Part Number
Vr @ Ir = 10uA
Min. (V)
Typ. (V)
Max. (V)
Min. (V)
2.9
3.2
3.8
5.0
DSx-DSS
Absolute Maximum Ratings
Maximum Value
Unit
DC forward current
20
mA
Peak pulse current; (tp ≤ 10µs, Duty cycle = 0.005)
100
mA
5
V
ESD threshold (HBM)
1000
V
LED junction temperature
120
˚C
Operating temperature
-40 … +100
˚C
Storage temperature
-40 … +100
˚C
80
mW
- Junction / ambient, Rth JA
460
K/W
- Junction / solder point, Rth JS
(Mounting on FR4 PCB, pad size >= 5 mm2 per pad)
240
K/W
Reverse voltage; Ir (max) = 10uA
Power dissipation (at room temperature)
Thermal resistance
2
03/10/2016 V6.0
DOMINANT
TM
InGaN : DSx-DSS
Opto Technologies
Innovating Illumination
Wavelength Grouping
Color
DSB;Blue
DST; True Green
Group
Wavelength distribution (nm) Appx. 2.2
Full
465 - 475
A
465 - 470
B
470 - 475
Full
520 - 535
A
520 - 525
B
525 - 530
C
530 - 535
3
03/10/2016 V6.0
DOMINANT
TM
InGaN : DSx-DSS
Opto Technologies
Innovating Illumination
Luminous Intensity Group at Tj=25˚C
Luminous Intensity Appx. 1.1
IV (mcd)
Brightness Group
S1
180.0 ... 224.0
S2
224.0 ... 285.0
T1
285.0 ... 355.0
T2
355.0 ... 450.0
V1
715.0 ... 900.0
V2
900.0 ... 1125.0
W1
1125.0 ... 1400.0
W2
1400.0 ... 1800.0
X1
1800.0 ... 2240.0
4
03/10/2016 V6.0
DOMINANT
TM
InGaN : DSx-DSS
Opto Technologies
Innovating Illumination
Relative Luminous Intensity Vs Forward Current
Relative Luminous
Intensity Vs
Forward
Luminous
Intensity
VsCurrent
Forward Current
IV/IVRelative
(20mA)
= f(I);F);
Tj
= 25°C
T = 25°C
I /I (20mA)I =/If(I(20mA)
= f(I ); T = 25°C
0.6
0.4
0.2
0.4
0.2
0.0
0.8
0.6
0.6
0.4
0.4
0.2
0.2
0.0
0
0.0
0.2
0.0
0
5
10
10 15
15 20
Forward
Current
(mA)
Forward
Current I IF(mA)
Forward
Current
IF (mA)IF (mA)
Forward
Current
25
20
15
20
15
10
15
10
5
15
Ta
15
Ts
Ta
Ta
10
10
Ts
Ta
Ta
5
Ta=AmbientTemperature
Ta=AmbientTemperature
Ts=SolderPointTemperature
5
T =SolderPointTemperature
10
5
s
10
5
10
5
15
Forward Current Vs Forward Voltage
Forward Current Vs Forward Voltage
I = f(V ); T = 25°C
IF = f(VF); Tj =F 25°CF j
Forward Current Vs Forward Voltage
IF = f(VF); Tj = 25°C
15
10
10
5
5
0
5 2.7
20
0
2.8
2.7
0
20
0
2.7
2.8
2.7
0.9
1.0
0.8
0.9
0.7
1.0
0.8
0.6
0.9
0.7
0.5
0.8
0.6
0.4
0.7
0.5
0.3
0.6
0.4
0.2
0.5
0.3
0.1
0.4
0.2
3.1
3.0
3.2
3.1
3.3
3.2
3.3
3.3
2.9
3.0
3.1
3.2
3.3
Relative
Spectral
Emission
Relative
Spectral
Emission
Irel =
f(λ);
T
= 25°C;
I = 20mA
= f(Ȝ);I jT=j =20mA
25°C; IF =F20mA
Irel = f(Ȝ);
Tj =Irel25°C;
Forward
VoltageF VF (V)
0.9
1.0
Relative Spectral Emission
0.8
0.9
Irel = f(Ȝ); Tj = TrueGreen
25°C; IF = 20mA
Blue
TrueGreen
0.7
0.8
Blue
Blue 0.6
Blue
3.0
2.9
Forward
Voltage
V
F (V)
Forward
VoltageV
VF (V)
Forward
Voltage
(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
Forward
Voltage VF (V)
Forward
Voltage
(V)
Irel = f(Ȝ);
Tj =I 25°C;
I = V20mA
rel = f(Ȝ);FTj =F25°C; IF = 20mA
Relative Spectral Emission
1.0
2.8
Blue
2.9
2.8
0.7
TrueGreenTrueGreen
0.5
0.6
TrueGreen
0.4
0.5
0.3
0.4
0.2
0.3
0.1
0.2
10
10
10
0.1
0.1
0.1
(nm)
100
10
10
0.1
0.1
1
10
1
Duty Ratio, %
Duty Ratio, %
1
10
1
Duty Ratio,Duty
% Ratio, %
1
10
10
10
100
100
100
100
TrueGreen
0.010
5.00
4.00
3.00
2.00
5
0.000
-0.010
0.00
Blue
-0.015
-1.00
0
5
10
15
20
Forward
Current
(mA)
Forward
Current IIFF (mA)
Duty Ratio,
%%
Duty
Ratio,
0.005
-0.005
1.00
-2.00
100
0.015
6.00
¨Cx, ¨Cy
100
100
Relative Wavelength Ȝ
100
0.020
7.00
Relative Wavelength λrelrel (nm)
100
Allowable
Forward
Current
IF( mAI)F( mA )
Allowable
Forward
Current
0.0
0.3
Ta=AmbientTemperature
Ta=AmbientTemperature
0
0.0
0.1
0.1 450 500 550 600 650 700 750 800 850
0 T =SolderPointTemperature
10 020 T 10
30 20
40 30
50 40
60 50
70 60
80 70
90 100
400 450 500 550 600 650 700 750 800 850
80 110
90 100 110 350 400 350
s
s=SolderPointTemperature
0.2
5
Temperature
T(°C)
WavelengthWavelength
Ȝ (nm)
Temperature T(°C)
0
0.0
0
0.0
Ȝ (nm)
450 400
500 450
550 500
600 550
650 600
700 650
750 700
800 750
850 800 850
0 Ta=AmbientTemperature
10 20
30 20
40 30
50 40
60 50
70 60
80 70
90 100
0
10
80 110
90 100 0.1
110 350 400 350
Allowable
Forward
Current
Vs
Duty
Ratio
Ts=SolderPointTemperature
Allowable
Forward
Current
Vs Duty Ratio
T(°C)
Temperature
T(°C)
Temperature
T(°C)
Wavelength
λ
(nm)
Wavelength
Ȝ
(nm)
Wavelength
Ȝ
(nm)
( TTemperature
=
25°C;
t
”
10ȝs
)
j
( pTj = 25°C; tp ” 10ȝs )
0
0.0
1000
1000Allowable
350 400 450 500 550 600 650 700 750 800 850
0
10
20 30 Allowable
40 50 Current
60 Vs
70Current
80 Ratio
90 Duty
100Ratio
110
Forward
Duty
Forward
Vs
( Tj = 25°C;(tpT”j =10ȝs
) tp ” 10ȝs )
25°C;
Temperature T(°C)
Wavelength Ȝ (nm)
Relative Wavelength
Shift Vs Forward Current
Forward Current Vs Duty Ratio
1000 Allowable
1000
Relative
Wavelength
Shift
Allowable
Forward
Current
Vs
Duty Ratio
λdom
=
f(I
); TjVs=Forward
25°C Current
(T
=
25°C;
t
≤
10μs)
p
Ȝdom = f(IFF); Tj = 25°C
( Tj j = 25°C; tp ” 10ȝs
)
8.00
1000
FCurrent
Allowable
Forward
IF( mA )IF( mA )
Allowable
Forward
Current
0
20
0
1.0
2.7
Ts
Ts
20
10
15
Forward Current IF (mA)
20
20
15
20
Ts
20
15
20
F Current IF (mA)
Forward
0
5 10
10 15
15 20
5
Maximum Maximum
Current VsCurrent
Temperature
Vs Temperature
IF = Current
f (T)
Forward
Current
IF (mA)
Forward
IFIF=(mA)
f (T)
20 Maximum Current Vs Temperature
IF = f (T)
20
Forward Current I (mA)
5
25
25
F
ForwardForward
Current
ICurrent
F (mA) Current
IF (mA) IF (mA)
Forward
0
Maximum
Current Vs Temperature
25
5
10VsCurrent
Maximum
Vs 15
Temperature
Maximum
Current
Temperature
IF I=F=f(T)
f (T) IF = f (T)
0.0
250
IF( )mA )
Current
Forward
Allowable
Allowable
Forward Current
I ( mA
j
IF (mA)
Current
Forward
Forward
Current
Forward
Current
IF (mA)IF (mA)
0.8
0.6
0.4
F
Relative
Luminous
Intensity
Relative
Luminous
Intensity
Irel IIrel
Intensity
Luminous
Relative
rel
Relative
Luminous
Intensity
Irel
Relative
Luminous
Intensity
Irel
1.0
0.8
0.6
j
Relative Luminous Intensity Irel
Relative
Luminous
Intensity
Irel
Relative
Luminous
Intensity
Irel
Irel
Intensity
Luminous
Relative
RelativeRelative
Luminous
Intensity
Irel
Luminous
Intensity
Irel
Relative
Luminous
Intensity
Irel
1.2
1.0
1.2
1.0
0.8
V V F
1.2
Relative Luminous Intensity Vs Forward Current
Relative Luminous Intensity Vs Forward Current
I /IV(20mA) = f(IF); Tj = 25°C
IV/IV(20mA) V= f(I
F); Tj = 25°C
1.2
1.0
Relative
Luminous Intensity Vs Forward Current
IV/IV(20mA) = f(IF); Tj = 25°C
1.0
0.8
Forward Current IF (mA)
Forward
CurrentCurrent
IF (mA) IF (mA)
Forward
V V
1.2
Forward Current Vs Forward Voltage
Forward Current
Vs Current
ForwardVs
Voltage
Forward
); Tj Forward
= 25°CVoltage
IF = f(VIFF);=
Tj If(V
=F 25°C
F F); T
= f(V
j = 25°C
03/10/2016 V6.0
-0.020
0
DOMINANT
TM
InGaN : DSx-DSS
Opto Technologies
Innovating Illumination
Relative Forward Voltage Vs Junction Temperature
Relative Forward Voltage Vs Junction Temperature
∆VF =¨VVF F= -VFV- FV(25°C)
= f(T ); IF =20mA
F(25°C) = f(Tj); IF j= 20mA
30°
20°
10°
0°
40°
Relative
Forward Voltage
¨VF∆V
(V) (V)
Voltage
Forward
Relative
F
1.0
0.8
0.6
50°
0.4
60°
70°
0.2
80°
0
90°
0.5
2.0
0.4
1.8
0.3
Relative Luminous Intensity Irel
Radiation Pattern
TrueGreen
0.2
0.1
0.0
Blue
-0.1
-0.2
-0.3
1.4
1.2
1.0
0.8
0.6
0.4
0.2
-0.4
-0.5
1.6
-50
-30
-10
10
30
50
70
90
110
0.0
130
Junction Temperature
Temperature T j(°C)
Junction
Tj(°C)
Relative Luminous Intensity Vs Junction Temperature
Relative Luminous Intensity Vs Junction Temperature
IV/IV(25°C)
= f(T ); I = 20mA
I /I (25°C) = f(T );j I =F 20mA
V
j
Relative Wavelength Vs Junction Temperature
Relative Wavelength Vs Junction Temperature
∆λdom ¨Ȝ
=dom
λdom
(25°C) = f(Tj); IF =20mA
= Ȝdom -- Ȝλdom
dom (25°C) = f(Tj); IF = 20mA
V
2.0
10.0
0.030
1.8
8.0
0.025
1.6
1.4
TrueGreen
1.2
1.0
0.8
Blue
0.6
0.4
0.2
0.0
-50
-30
-10
10
30
50
70
90
110
JunctionTemperature
Temperature T j(°C)
Junction
Tj(°C)
0.015
4.0
0.010
TrueGreen
2.0
0.005
0.0
-2.0
-4.0
Blue
-0.010
-0.020
-8.0
-0.025
-50
-30
-10
10
30
50
70
90
110
130
JunctionTemperature
Temperature T j(°C)
Junction
T (°C)
j
6
0.000
-0.005
-0.015
-6.0
-10.0
130
0.020
6.0
¨Cx, ¨Cy
Relative Wavelength ¨Ȝdom (nm)
Wavelength ∆λdom(nm)
Relative
Relative Luminous Intensity Irel
Relative Luminous Intensity Irel
V
03/10/2016 V6.0
-0.030
-50
DOMINANT
TM
InGaN : DSx-DSS
Opto Technologies
Innovating Illumination
DomiLED • InGaN : DSx-DSS 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
Epoxy
Soldering Leads
Sn-Sn Plating
7
03/10/2016 V6.0
DOMINANT
TM
InGaN : DSx-DSS
Opto Technologies
Innovating Illumination
Recommended Solder Pad
8
03/10/2016 V6.0
DOMINANT
TM
InGaN : DSx-DSS
Opto Technologies
Innovating Illumination
Taping and orientation
• Reels come in quantity of 2500 units.
• Reel diameter is 180 mm.
9
03/10/2016 V6.0
DOMINANT
TM
TM
InGaN :: DSx-DSS
AllnGaP
DDx-xRS
Opto
Opto Technologies
Technologies
Innovating
Innovating Illumination
Illumination
Packaging Specification
10
10
03/10/2016
28/10/2010 V6.0
V8.0
DOMINANT
TM
InGaN : DSx-DSS
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 f
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 barc
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
Average 1pc Right Angle DomiLED
1 completed bag (2500pcs)
0.010
0.034
240 ± 10
190
10
Weight
Weight(gram)
(gram)
Cardboard
Box
DOMINANT TM
For Right Angle DomiLED
Cardboard Box
Size
Dimensions (mm)
Empty Box
Weight (kg)
Reel / Box
Super Small
325 x 225 x 190
0.38
7 reels MAX
Small
325 x 225 x 280
0.54
11 reels MAX
Medium
570 x 440 x 230
1.46
48 reels MAX
Large
570 x 440 x 460
1.92
96 reels MAX
11
03/10/2016 V6.0
DOMINANT
TM
InGaN : DSx-DSS
Opto Technologies
Innovating Illumination
Recommended Pb-free Soldering Profile
Classification Reflow Profile (JEDEC J-STD-020C)
300
255-260˚C
10-30s
275
250
Temperature (˚C)
Ramp-up
3˚C/sec max.
217˚C
225
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)
12
03/10/2016 V6.0
DOMINANT
TM
InGaN : DSx-DSS
Opto Technologies
Innovating Illumination
Appendix
1)
Brightness:
1.1
Luminous intensity is measured with an internal reproducibility of ± 8 % and an expanded uncertainty of
± 11 % (according to GUM with a coverage factor of k=3).
1.2
Luminous flux is measured with an internal reproducibility of ± 8 % and an expanded uncertainty of ± 11 %
(according to GUM with a coverage factor of k=3).
2)
Color:
2.1
Chromaticity coordinate groups are measured with an internal reproducibility of ± 0.005 and an expanded
uncertainty of ± 0.01 (accordingly to GUM with a coverage factor of k=3).
2.2
DOMINANT wavelength is measured with an internal reproducibility of ± 0.5nm and an expanded uncertainty
of ± 1nm (accordingly to GUM with a coverage factor of k=3).
3)
Voltage:
3.1
Forward Voltage, Vf is measured with an internal reproducibility of ± 0.05V and an expanded uncertainty of
± 0.1V (accordingly to GUM with a coverage factor of k=3).
4)
Corrosion Robustness:
4.1
Test conditions: 40 °C / 90 % rh / 15 ppm H2S / 336 h.
= Stricter than IEC 60068-2-43 (H2S) [25 °C / 75% rh / 10 ppm H2S / 21 days].
13
03/10/2016 V6.0
DOMINANT
TM
InGaN : DSx-DSS
Opto Technologies
Innovating Illumination
Revision History
Page
Subjects
Date of Modification
-
Initial release
04 Aug 2010
1, 9
- Update product photo
- Error in carrier tape
21 Jun 2012
1
Update Application
13 Sep 2013
2
Add new partno: DST-DSS-WX1-1
Add Thermal Resistance
25 Oct 2013
1, 6, 8, 10
5, 6, 7, 13
Add Fetures
Add Notes in Packaging Outline
Update Carrier Tape
Update Packaging Specification
10 Mar 2016
Update Features
Update Graph
Update Package Outline
Add Appendix
03 Oct 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 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.
14
03/10/2016 V6.0
DOMINANT
TM
Opto Technologies
InGaN : DSx-DSS
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]
Similar pages