GREEN HIGH FLUX LED
HT300
Technical Datasheet
This revolutionary package design allows the
lighting designer to reduce the number of
LEDs required and provide a more uniform
and unique illuminated appearance than with
other LED solutions.
This package LEDs are designed for high
current operation and high flux output
application. But the package’s design features
better thermal management characteristics
than other LED solutions. Because of these
advantages, this product have many
applications. Such as automotive tail, stop and
turn signal lamps, and electronic signs etc.
Application
• Automotive exterior lighting
• Electronic signs and signals
• Channel letter / lighting
• Decorative lighting
• Specialty Lighting
Features
• High flux output and high luminance
• Designed for high current operation
• Uniform color
• Low profile and low thermal resistance
• Packaged in tubes for use with
automatic insertion equipment
-1-
<061201> Rev. 1.4
서식번호 : QP-7-03-05 (Rev.00)
GREEN HIGH FLUX LED
Outline Dimensions
HT300
Unit : mm
CHAMFER 1.25 X 1.25
CATHODE
7.62 ± 0.5
ANODE
7.62 ± 0.5
5.0°
3 ± 0.2
1.9
4.4
2.5 ± 0.5
1.4 MAX
0.4 ± 0.2
1.5±0.2
0.5
0.76 ± 0.1
5.08 ± 0.2
5.08 ± 0.3
Notes : Protruded epoxy is 1.4mm maximum.
-2-
<061201> Rev. 1.4
서식번호 : QP-7-03-05 (Rev.00)
7.5 ± 0.5
GREEN HIGH FLUX LED
Electro-Optical Characteristics (
T
a
= 25ºC,
I
F
=40mA )
Item
Luminous Flux
[1]
Luminous Intensity
Dominant Wavelength
[3]
Forward Voltage
[4]
View Angle
Thermal Resistance
Optical Efficiency
Reverse Current (at
V
R
=
5V)
Symbol
Ф
V
[2]
I
V
Value
Min.
2.0
-
516
-
Typ.
3.0
6000
526
4.0
30
200
-
-
18
-
-
5
Max.
-
-
532
4.6
HT300
Unit
lm
mcd
nm
V
deg.
ºC /W
lm/W
λ
d
V
F
2
θ
½
R
θ
J-A
ŋ
opt
I
R
µ
A
Absolute Maximum Ratings (
T
a
= 25ºC )
Item
DC Forward Current
Forward Peak Pulse Current
Reverse Voltage
Power Dissipation
Operating Temperature
Storage Temperature
Solder Temperature
Symbol
I
F
I
FP
[5]
V
R
P
D
T
opr
T
stg
T
S
Value
40
100
5
184
-30 ~ 85
-40 ~ 100
260ºC for 5second
[6]
Unit
mA
mA
V
mW
ºC
ºC
ºC
Notes :
[1] SSC maintains a tolerance of
±10%
on flux and power measurements.
[2]
Ф
V
is the total luminous flux output as measured with an integrated sphere.
[3] Dominant wavelength is derived from the CIE 1931 Chromaticity diagram.
A tolerance of
±0.5nm
for dominant wavelength
[4] A tolerance of
±0.05V
on forward voltage measurements
[5]
t
≤
0.1ms,
D
= 1/10
[6] No closer than 1.5mm from the base of the stopper.
-3-
<061201> Rev. 1.4
서식번호 : QP-7-03-05 (Rev.00)
GREEN HIGH FLUX LED
Reliability Tests
Item
Life Test
High Temperature Operating
Low Temperature Operating
Thermal Shock
Resistance to soldering Heat
ESD
(Human Body Model)
High Temperature Storage
Low Temperature Storage
Temperature Humidity
Storage
Temperature Humidity
Operating
HT300
Condition
T
a
= RT,
I
F
= 40mA
T
a
= 85ºC,
I
F
= 10mA
T
a
= -30ºC,
I
F
= 40mA
T
a
= -40ºC (15min) ~ 100º (15min)
(Transfer time : 10sec, 1Cycle = 30min)
T
s
= 255
±
5ºC,
t
= 4
±
1sec
1kV, 1.5kΩ ; 100pF
T
a
= 100ºC
T
a
= -40ºC
T
a
= 85ºC,
RH
= 85%
T
a
= 85ºC,
RH
= 85%,
I
F
= 10mA
Note
1000hrs
1000hrs
1000hrs
100
cycles
1 time
1 time
1000hrs
1000hrs
1000hrs
500hrs
Failures
0/22
0/22
0/22
0/40
0/22
0/22
0/22
0/22
0/22
0/22
< Judging Criteria For Reliability Tests >
V
F
I
R
Ф
V
Notes :
[1] USL : Upper Standard Level
[2] LSL : Lower Standard Level.
USL
[1]
X 1.2
USL X 2.0
LSL
[2]
X 0.5
-4-
<061201> Rev. 1.4
서식번호 : QP-7-03-05 (Rev.00)
GREEN HIGH FLUX LED
Characteristic Diagrams
T
a
=
25ºC
100
HT300
2.0
T
a
=
25ºC
Relative Luminous Flux
Forward Current(mA)
1.5
10
1.0
0.5
1
0.0
0
20
40
60
80
100
2.2
3.0
3.8
4.6
5.4
6.2
Forward Voltage [V]
Forward Current [mA]
Forward Voltage vs. Forward Current
Forward Current vs. Relative Flux
50
T
a
=
25ºC
540
T
a
=
25ºC
Dominant Wavelength [nm]
-20
0
20
40
60
O
536
532
528
524
520
516
512
Forward Current I
F
[mA]
40
30
20
10
0
-40
80
100
0
20
40
60
80
100
Ambient Temperature T
A
[ C]
Forward Current [mA]
Ambient Temperature vs. Forward Current
Forward Current vs. Dominant Wavelength
-5-
<061201> Rev. 1.4
서식번호 : QP-7-03-05 (Rev.00)
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