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Features:
1. Emitted Color : Super Orange Red, Green
and Super Blue
2. Lens Appearance : Water Clear
3. Bi-color type.
4. 3.2x1.0x2.0mm(1204) standard package
5. Suitable for all SMT assembly methods.
6. Compatible with infrared and vapor phase
reflow solder process.
7. Compatible with automatic placement
equipment.
8. This product doesn’t contain restriction
Substance, comply ROHS standard.
Applications:
1. Automotive : Dashboards, stop lamps,
turn signals.
2. Backlighting : LCDs, Key pads advertising.
3. Status indicators : Comsumer & industrial
electronics.
4. General use.
Absolute Maximum Ratings(Ta=25)
Parameter Symbol Super Orange Red Green Super Blue Unit
Power Dissipation Pd 100 120 120 mW
Forward Current IF 30 30 30 mA
Peak Forward Current 1 IFP 100 100 100 mA
Reverse Volage VR 5 V
Operating Temperature Topr -25~80 -
Storage Temperature Tstg -30~85 -
Soldering Temperature Tsol See Page5 -
1 Condition for IFp is pulse of 1/10 duty and 0.1msec width.
Package Dimensions:
NOTES:
1.All dimensions are in millimeters (inches).
2.Tolerance is ± 0.10mm (0.004”) unless otherwise specified.
3.Specifications are subject to change without notice.
Ver.2.0 Page 1 of 8
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Electrical and optical characteristics(Ta=25)
Parameter Symbol Condition Color Min. Typ. Max. Unit
Forward Voltage Vf IF=20mA
Super Orange Red
Green
Super Blue
-
2.1
3.5
3.5
2.6
3.8
3.8
V
Luminous Intensity Iv IF=20mA
Super Orange Red
Green
Super Blue
42
94
42
80
180
80
- mcd
Reverse Current IR VR=5V
Super Orange Red
Green
Super Blue
- -
100
1
1
µA
Peak Wave Length λp IF=20mA
Super Orange Red
Green
Super Blue
-
630
525
470
- nm
Dominant Wave Length λd IF=20mA
Super Orange Red
Green
Super Blue
620
510
460
-
630
520
470
nm
Spectral Line Half-width Δλ IF=20mA
Super Orange Red
Green
Super Blue
-
20
30
30
- nm
Veiwing Angle 2θ1/2 I
F=20mA
Super Orange Red
Green
Super Blue
- 100 - deg
Typical Electro-Optical Characteristics Curves
(B,G)
(R)
Fig.5 Relative luminous intensity vs. forward current
Relative luminous intensity (@20mA)
3.0
0
1.0
5
2.0
4.0
0
Forward current (mA)
10
20
40
30
50
40
Forward current (mA)
10 20 30 50
(G)
(B)
(R)
4
Forward voltage(V)
123 5
Fig.3 Forward current vs. forward voltage
Fig.1 Relative intensity vs. wavelength
Relative radiant intensity
0
400
0.5
1.0
(B)
600
Wavelength (nm)
500
(G)
700
(R)
RADIATION DIAGRAM
RELATIVE RADIANT INTENSITY
0.7
0.8
0.9
1.0
0.10.5 0.3 0.2
-40
0
Relative luminous intensity
(Normalized @ 20mA)
0.5
1.0
1.5
2.5
2.0
3.0
Ambient temperature Ta( C)
-20
A
0
010
20
70
0.4
90
0.6
80
60
50
40
20
30
40 60
Fig.4 Relative luminous intensity vs.
Fig.2 Forward current derating curve
vs. ambient temperature
Forward Current (mA)
1010
0
20
30
40
50
60
Ambient temperature Ta( C)
ambient temperature
4020 60 80 100
Ver.2.0 Page 2 of 8
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Tapping and packaging specifications(Units: mm)
Package Method:(unit:mm)
230
245
334
Aluminum Foil Bag
220
645
230
167
6 box/carton
Bar Code Label
3000 pcs/reel
10 bag/box
215
Ver.2.0 Page 3 of 8
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Bin Limits
Intensity Bin Limits (JD)(At20mA)
BIN CODE Min. (mcd) Max. (mcd)
N 37.0 72.0
P 55.0 110.0
Q 82.0 160.0
R 120.0 240.0
Intensity Bin Limits (GK)(At20mA)
BIN CODE Min. (mcd) Max. (mcd)
Q 82.0 160.0
R 120.0 240.0
S 180.0 360.0
T 280.0 550.0
Color Bin Limits (GK)(At20mA)
BIN CODE Min. (nm) Max. (nm)
4 509 516
5 514 521
VF Bin Limits (GK) (At20mA)
BIN CODE Min. (mcd) Max. (mcd)
H 2.95 3.25
J 3.15 3.45
K 3.35 3.65
L 3.55 3.85
Ver.2.0 Page 4 of 8
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Bin Limits
Intensity Bin Limits (BE) (At20mA)
BIN CODE Min. (mcd) Max. (mcd)
N 37.0 72.0
P 55.0 110.0
Q 82.0 160.0
R 120.0 240.0
Color Bin Limits (BE) (At20mA)
BIN CODE Min. (nm) Max. (nm)
2 459 466
3 464 471
VF Bin Limits (BE) (At20mA)
BIN CODE Min.(v) Max.(v)
H 2.95 3.25
J 3.15 3.45
K 3.35 3.65
L 3.55 3.85
BINx-x x x-x x x
VF BIN CODE(BE)
Color BIN CODE(BE)
Intensity BIN CODE(BE)
VF BIN CODE (GK)
Color BIN CODE(GK)
Intensity BIN CODE(GK)
Intensity BIN CODE(JD)
Ver.2.0 Page 5 of 8
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Reliability Test
Classification Test Item Reference Standard Test Conditions Result
Operation Life MIL-STD-750:1026
MIL-STD-883:1005
JIS-C-7021 :B-1
Connect with a power If=20mA
Ta=Under room temperature
Test time=1,000hrs
0/20
High
Temperature
High Humidity
Storage
MIL-STD-202:103B
JIS-C-7021 :B-11
Ta=+65±5
RH=90%-95%
Test time=240hrs 0/20
High
Temperature
Storage
MIL-STD-883:1008
JIS-C-7021 :B-10
High Ta=+85±5
Test time=1,000hrs 0/20
Endurance
Test
Low
Temperature
Storage
JIS-C-7021 :B-12
Low Ta=-35±5
Test time=1,000hrs 0/20
Temperature
Cycling
MIL-STD-202:107D
MIL-STD-750:1051
MIL-STD-883:1010
JIS-C-7021 :A-4
-35 ~ +25 ~ +85 ~ +25
60min 20min 60min 20min
Test Time=5cycle 0/20
Thermal Shock MIL-STD-202:107D
MIL-STD-750:1051
MIL-STD-883:1011
-35±5 ~+85±5
20min 20min
Test Time=10cycle
0/20
Environmental
Test
Solder
Resistance MIL-STD-202:201A
MIL-STD-750:2031
JIS-C-7021 :A-1
Preheating
140-160,within 2 minutes.
Operation heating
235(Max.), within 10seconds. (Max.)
0/20
Judgment criteria of failure for the reliability
Measuring items Symbol Measuring conditions Judgement criteria for failure
Forward voltage VF ( V) IF=20mA Over Ux1.2
Reverse current IR(uA) VR=5V Over Ux2
Luminous intensity Iv ( mcd ) IF=20mA Below SX0.5
Note: 1.U means the upper limit of specified characteristics. S means initial value.
2.Measurment shall be taken between 2 hours and after the test pieces have been returned to
normal ambient conditions after completion of each test.
Ver.2.0 Page 6 of 8
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Soldering :
1. Manual Of Soldering
The temperature of the iron tip should not be higher than 300(572) and Soldering within 3
seconds per solder-land is to be observed.
2. Reflow Soldering
Preheating : 140~160±5,within 2 minutes.
Operation heating : 235(Max.) within 10 seconds.(Max)
Gradual Cooling (Avoid quenching).
3. DIP soldering (Wave Soldering) :
Preheating : 120~150,within 120~180 sec.
Operation heating : 245℃±5 within 5 sec.260 (Max)
Gradual Cooling (Avoid quenching).
Handling :
Care must be taken not to cause to the epoxy resin portion of BRIGHT LEDs while it is exposed to
high temperature.
Care must be taken not rub the epoxy resin portion of BRIGHT LEDs with hard or sharp article such
as the sand blast and the metal hook.
Temperature
Time
OVER 2 MIN.
4 /SEC. MAX.
4 /SEC. MAX.
10 SEC. MAX.
235 MAX.
140~160
Temperature
Time
120~180 sec.
Preheat
245 ±5℃ within 5 sec.
Soldering heat Max. 260
120~150
Ver.2.0 Page 7 of 8
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Notes for designing:
Care must be taken to provide the current limiting resistor in the circuit so as to drive the BRIGHT
LEDs within the rated figures. Also, caution should be taken not to overload BRIGHT LEDs with
instantaneous voltage at the turning ON and OFF of the circuit.
When using the pulse drive care must be taken to keep the average current within the rated figures.
Also, the circuit should be designed so as be subjected to reverse voltage when turning off the
BRIGHT LEDs.
Storage:
In order to avoid the absorption of moisture, it is recommended to solder BRIGHT LEDs as soon as
possible after unpacking the sealed envelope.
If the envelope is still packed, to store it in the environment as following:
(1) Temperature : 5-30(41)Humidity : RH 60Max.
(2) After this bag is opened, devices that will be applied to infrared reflow, vapor-phase reflow, or
equivalent soldering process must be:
a. Completed within 24 hours.
b. Stored at less than 30% RH.
(3) Devices require baking before mounting, if:
(2) a or (2) b is not met.
(4) If baking is required, devices must be baked under below conditions:
12 hours at 60±3.
Package and Label of Products:
(1) Package: Products are packed in one bag of 3000 pcs (one taping reel) and a label is attached
on each bag.
(2) Label:
BRIGHT LED LOGO
Part No.
Quantity
BIN.
Sealing Date
x
xx xx xx
Year Month Day
Manufacture Location
Ver.2.0 Page 8 of 8