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Электронный компонент: LXHL-PE01

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Technical Datasheet DS25
Introduction
Luxeon
is a revolutionary, energy efficient and ultra compact new light
source, combining the lifetime and reliability advantages of Light Emitting
Diodes with the brightness of conventional lighting.
Luxeon Emitters give you total design freedom and unmatched brightness,
creating a new world of light.
Luxeon Emitters can be purchased in reels for high volume assembly.
For more information, consult your local Lumileds representative.
For high volume applications, custom Luxeon power light source designs
are available upon request, to meet your specific needs.
Luxeon Emitter
Features
Highest flux per LED family
in the world
Very long operating life (up to
100k hours)
Available in White, Green,
Blue, Royal Blue, Cyan, Red,
Red Orange, and Amber
Lambertian, Batwing or Side
Emitting radiation pattern
More energy efficient than
incandescent and most
halogen lamps
Low voltage DC operated
Cool beam, safe to the touch
Instant light (less than 100 ns)
Fully dimmable
No UV
Superior ESD protection
Typical Applications
Reading lights (car, bus, aircraft)
Portable (flashlight, bicycle)
Mini accent/Uplighters/
Downlighters/Orientation
Fiber optic alternative/
Decorative/Entertainment
Bollards/Security/Garden
Cove/Undershelf/Task
Traffic signaling/Beacons/ Rail
crossing and Wayside
Indoor/Outdoor Commercial
and Residential Architectural
Automotive Ext (Stop Tail Turn,
CHMSL, Mirror Side Repeat)
Edge lit signs (Exit, point of sale)
LCD Backlights/Light Guides
power light source
Luxeon Emitter is available in white, green, blue, royal blue,
cyan, red, red orange and amber.
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Luxeon Emitter DS25 (4/05)
2
Mechanical Dimensions
Batwing
Notes:
1.
The anode side of the device is denoted by a hole in the lead frame. Electrical insulation between the case and the board
is required--slug of device is not electrically neutral. Do not electrically connect either the anode or cathode to the slug.
2.
All dimensions are in millimeters.
3.
All dimensions without tolerances are for reference only.
Lambertian
Notes:
1.
The anode side of the device is denoted by a hole in the lead frame. Electrical insulation between the case and the board
is required--slug of device is not electrically neutral. Do not electrically connect either the anode or cathode to the slug.
2.
All dimensions are in millimeters.
3.
All dimensions without tolerances are for reference only.
Drawings not to scale
Drawings not to scale
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Luxeon Emitter DS25 (4/05)
3
Mechanical Dimensions, Continued
Side Emitting
Notes:
1.
The anode side of the device is denoted by a hole in the lead frame. Electrical insulation between the case and the board
is required--slug of device is not electrically neutral. Do not electrically connect either the anode or cathode to the slug.
2.
Caution must be used in handling this device to avoid damage to the lens surfaces that will reduce optical efficiency.
3.
All dimensions are in millimeters.
4.
All dimensions without tolerances are for reference only.
Drawings not to scale
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Flux Characteristics at 350mA, Junction Temperature, T
J
= 25C
Table 1.
M
Miin
niim
mu
um
m L
Lu
um
miin
no
ou
us
s
T
Ty
yp
piic
ca
all L
Lu
um
miin
no
ou
us
s
F
Fllu
ux
x ((llm
m)) o
orr
F
Fllu
ux
x ((llm
m)) o
orr
R
Ra
ad
diio
om
me
ettrriic
c
R
Ra
ad
diio
om
me
ettrriic
c
L
Lu
ux
xe
eo
on
n
P
Po
ow
we
err ((m
mW
W))
P
Po
ow
we
err ((m
mW
W))
R
Ra
ad
diia
attiio
on
n
C
Co
ollo
orr
E
Em
miitttte
err
V
[1,2]
V
[2]
P
Pa
atttte
errn
n
White
[5]
LXHL BW02
30.6
45
Warm White
LXHL BW03
13.9
20
Green
LXHL BM01
30.6
53
Cyan
LXHL BE01
30.6
45
Blue
[3]
LXHL BB01
8.2
16
Batwing
Royal blue
[4]
LXHL BR02
145 mW
220 mW
Red
LXHL BD01
13.9
27
Red
LXHL BD03
30.6
42
Red Orange
LXHL BH03
39.8
55
Amber
LXHL BL01
10.7
25
Amber
LXHL BL03
23.5
42
White
LXHL PW01
30.6
45
Green
LXHL PM01
30.6
53
Cyan
LXHL PE01
30.6
45
Blue
[3]
LXHL PB01
8.2
16
Lambertian
Royal Blue
[4]
LXHL PR03
145 mW
220 mW
Red
LXHL PD01
30.6
44
Red Orange
LXHL PH01
39.8
55
Amber
LXHL PL01
23.5
42
White
LXHL DW01
23.5
40.5
Green
LXHL DM01
23.5
48
Cyan
LXHL DE01
23.5
40.5
Blue
[3]
LXHL DB01
8.2
14.5
Side Emitting
Royal blue
[4]
LXHL DR01
115 mW
198 mW
Red
LXHL DD01
30.6
40
Red Orange
LXHL DH01
39.8
50
Amber
LXHL DL01
23.5
38
Notes for Table 1:
1.
Minimum luminous flux or radiometric power performance guaranteed within published operating conditions. Lumileds
maintains a tolerance of 10% on flux and power measurements.
2.
Luxeon types with even higher luminous flux levels will become available in the future. Please consult your Lumileds
Authorized Distributor or Lumileds sales representative for more information.
3.
Minimum flux value for 470 nm devices. Due to the CIE eye response curve in the short blue wavelength range, the
minimum luminous flux will vary over the Lumileds' blue color range. Luminous flux will vary from a minimum of 6.3 lm
at 460 nm to a typical of 20 lm at 480 nm due to this effect. Although the luminous power efficiency is lower in the short
blue wavelength range, radiometric power efficiency increases as wavelength decreases. For more information, consult
the Luxeon Design Guide, available upon request.
4.
Royal Blue product is binned by radiometric power and peak wavelength rather than photometric lumens and
dominant wavelength.
5.
In July 2003 Lumileds announced a second generation white batwing product using a new phosphor deposition process
resulting in improved color uniformity, LXHL BW02.
Luxeon Emitter DS25 (4/05)
4
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Luxeon Emitter DS25 (4/05)
5
Optical Characteristics at 350mA, Junction Temperature, T
J
= 25C
Table 2.
T
Te
em
mp
pe
erra
attu
urre
e
D
Do
om
miin
na
an
ntt W
Wa
av
ve
elle
en
ng
gtth
h
[1]

D
D,,
C
Co
oe
effffiic
ciie
en
ntt o
off
T
To
otta
all
P
Pe
ea
ak
k W
Wa
av
ve
elle
en
ng
gtth
h
[2]

PP,,
S
Sp
pe
ec
cttrra
all
D
Do
om
miin
na
an
ntt
I
In
nc
cllu
ud
de
ed
d
V
Viie
ew
wiin
ng
g
o
orr C
Co
ollo
orr T
Te
em
mp
pe
erra
attu
urre
e
[3]
H
Ha
allff w
wiid
dtth
h
[4]
W
Wa
av
ve
elle
en
ng
gtth
h
A
An
ng
glle
e
[5]
A
An
ng
glle
e
[6]
R
Ra
ad
diia
attiio
on
n
C
CC
CT
T
(
(n
nm
m))
(
(n
nm
m//
o
o
C
C))
(
(d
de
eg
grre
ee
es
s))
(
(d
de
eg
grre
ee
es
s))
P
Pa
atttte
errn
n
C
Co
ollo
orr
M
Miin
n..
T
Ty
yp
p..
M
Ma
ax
x..

1
1//2
2

D
D
/
/

TT
J
J

0
0..9
90
0V
V
2
2

11//22
White
4500K
5500 K
10000 K
110
110
Warm White
2850K
3300K
3800K
110
110
Green
520 nm
530 nm
550 nm
35
0.04
110
110
Cyan
490 nm
505 nm
520 nm
30
0.04
110
110
Batwing
Blue
460 nm
470 nm
490 nm
25
0.04
110
110
Royal Blue
[2]
440 nm
455 nm
460 nm
20
0.04
110
110
Red
620.5 nm
625 nm
645 nm
20
0.05
110
110
Red Orange
613.5 nm
617 nm
620.5nm
20
0.06
110
110
Amber
584.5 nm
590 nm
597 nm
14
0.09
110
110
White
4500 K
5500 K
10000 K
160
140
Green
520 nm
530 nm
550 nm
35
0.04
160
140
Cyan
490 nm
505 nm
520 nm
30
0.04
160
140
Lambertian
Blue
460 nm
470 nm
490 nm
25
0.04
160
140
Royal Blue
[2]
440 nm
455 nm
460 nm
20
0.04
160
140
Red
620.5 nm
627 nm
645 nm
20
0.05
160
140
Red Orange
613.5 nm
617 nm
620.5 nm
20
0.06
160
140
Amber
584.5 nm
590 nm
597 nm
14
0.09
160
140
Optical Characteristics at 350mA, Junction Temperature, T
J
= 25C, Cont.
Table 3.
T
Te
em
mp
pe
erra
attu
urre
e
T
Ty
yp
piic
ca
all
D
Do
om
miin
na
an
ntt W
Wa
av
ve
elle
en
ng
gtth
h
[1]

D
D,,
C
Co
oe
effffiic
ciie
en
ntt o
off
T
To
otta
all F
Fllu
ux
x
T
Ty
yp
piic
ca
all
P
Pe
ea
ak
k W
Wa
av
ve
elle
en
ng
gtth
h
[2]

PP,,
S
Sp
pe
ec
cttrra
all
D
Do
om
miin
na
an
ntt
P
Pe
errc
ce
en
ntt
A
An
ng
glle
e
o
orr C
Co
ollo
orr T
Te
em
mp
pe
erra
attu
urre
e
[3]
H
Ha
allff w
wiid
dtth
h
[4]
W
Wa
av
ve
elle
en
ng
gtth
h
w
wiitth
hiin
n
o
off P
Pe
ea
ak
k
R
Ra
ad
diia
attiio
on
n
C
CC
CT
T
(
(n
nm
m))
(
(n
nm
m//
o
o
C
C))
f
fiirrs
stt 4
45
5
[7]
I
In
ntte
en
ns
siitty
y
[8]
P
Pa
atttte
errn
n
C
Co
ollo
orr
M
Miin
n..
T
Ty
yp
p..
M
Ma
ax
x..

1
1//2
2

D
D
/
/

TT
J
J
C
Cu
um
m
4
45
5

P
Pe
ea
ak
k
White
4500 K
5500 K
10000 K
<15%
75 85
Green
520 nm
530 nm
550 nm
35
0.04
<15%
75 85
Cyan
490 nm
505 nm
520 nm
30
0.04
<15%
75 85
Side Emitting
Blue
460 nm
470 nm
490 nm
25
0.04
<15%
75 85
Royal Blue
[2]
440 nm
455 nm
460 nm
20
0.04
<15%
75 85
Red
620.5 nm
627 nm
645 nm
20
0.05
<15%
75 85
Red Orange
613.5 nm
617 nm
620.5 nm
20
0.06
<15%
75 85
Amber
584.5 nm
590 nm
597 nm
14
0.09
<15%
75 85
Notes: (for Tables 2 & 3)
1. Dominant wavelength is derived from the CIE 1931 Chromaticity diagram and represents the perceived color. Lumileds
maintains a tolerance of 0.5nm for dominant wavelength measurements.
2. Royal Blue product is binned by radiometric power and peak wavelength rather than photometric lumens and dominant
wavelength. Lumileds maintains a tolerance of 2nm for peak wavelength measurements.
3. CCT 5% tester tolerance.
4. Spectral width at of the peak intensity.
5. Total angle at which 90% of total luminous flux is captured.
6.
is the off axis angle from lamp centerline where the luminous intensity is of the peak value.
7. Cumulative flux percent within 45 from optical axis.
8. Off axis angle from lamp centerline where the luminous intensity reaches the peak value.