UOT MSL-204HW Alled Datasheet

Unity Opto Technology Co., Ltd.
MSL-204B/UB/MB
MSL-204TG/UTG/MTG
MSL-204W
MSL-204UW
MSL-204MW
MSL-204HW
MSL-204UG
MSL-204UYL
MSL-204SO
MSL-204UOL
MSL-204DR
MSL-204TUOL
MSL-204TUYL
Technical Data
ALLEDs
01/07/2003
Features
l
Package : white P-LCC-2 package with clear epoxy
Feature of the device : extremely wide viewing
angle; ideal for backlighting and coupling in
light guides
l Wavelength : 640 nm (red), 625 nm (red)
605 nm (orange), 590 nm (amber),
573nm (green), 525 nm (true green),
470 nm (blue)
o
l Viewing angle : Lambertian Emitter (120 )
l Technology : AlGaAs (red)
AlInGaP (red, orange, amber, green)
InGaN (True green, blue)
l Optical efficiency : 1.5 lm/W (super-red,
orange, yellow), 2.5 lm/W (green),
0.6 lm/W (pure green)
l Grouping parameter : luminous intensity
l Assembly methods : suitable for all SMT assembly methods
l Soldering methods : IR reflow soldering and TTW soldering
l Preconditioning : acc. to JEDEC Level 2
l Taping : 8-mm tape with 2000/reel, φ180mm
l
Applications
l
Automotive
Backlighting
l Lighting
: Dashboards , stop lamps , turn signals
: LCDs , Key pads , advertising
: Signal & symbol luminare , marker lights
Substitution of micor incandescent lamps
l Displays
: Indoor & outdoor signboards ,
Message boards
l Status indicators : Comsumer & industrial electronics
l
1
Unit : mm (inch)
Package Dimensions
Notes :
1. All dimensions are in millimeters (inches)
2. Polarity of MSL-204DR is inverted
Recommended Solder Patterns
Method of Taping / Polarity and Orientation Packing unit 2000/reel
Notes :
1. All dimensions are in millimeters (inches)
2. Polarity of MSL-204DR is inverted
2
Selection Guide
Color of
Emission
Part Number
Color of the
Light Emitting
Area
Luminous
Intensity
IV (mcd) @ 20mA
Luminous
Flux
ΦV (mlm) @ 20mA
MSL-204B
Blue
40
120
MSL-204UB
Blue
80
230
MSL-204MB
Blue
120
345
MSL-204TG
Green
140
410
MSL-204UTG
Green
280
810
Green
500
1440
Yellow-Green
80
230
120
350
150
440
MSL-204MTG
MSL-204UG
MSL-204UYL
Yellow
MSL-204SO
Orange
Colorless clear
MSL-204UOL
Red
150
440
MSL-204DR
Red
50
150
MSL-204TUYL
Yellow
180
520
MSL-204TUOL
Red
300
870
MSL-204W
White
130
380
MSL-204UW
White
200
580
MSL-204MW
White
400
1160
MSL-204HW
White
200
580
Luminous Intensity Groups
C1 :
0.28 ~
0.36
C2 :
0.36 ~
D1 :
0.45 ~
Maximum Ratings
P1 :
45
~
56
0.45
P2 :
56
~
71
0.56
Q1 :
71
~
90
Value
Parameter
Symbol
Unit
UOL,SO
B,UB,MB
UYL,UG
TG,UTG
D2 :
0.56 ~
0.71
Q2 :
90
~
112
E1 :
0.71 ~
0.90
R1 :
112
~
140
Operating Temp. range
T OP
MTG
-40 ~ +100
E2 :
0.90 ~
1.12
R2 :
140
~
180
Storage Temp. range
T stg
-40 ~ +100
TUYL,TUOL
125
C
o
C
o
F1 :
1.12 ~
1.40
S1 :
180
~
224
Junction temperature
Tj
F2 :
1.40 ~
1.80
S2 :
224
~
280
Forward current
IF
30
C
mA
G1 :
1.80 ~
2.24
T1 :
280
~
355
Surge current
I FM
0.5
A
G2 :
2.24 ~
2.80
T2 :
355
~
450
t < 10ms, D=0.005
H1 :
2.80 ~
3.55
U1 :
450
~
560
Reverse Voltage
VR
H2 :
3.55 ~
4.50
U2 :
560
~
710
Power dissipation
P tot
80
85
mW
J1 :
4.50 ~
5.60
V1 :
710
~
900
Thermal resistance
J2 :
5.60 ~
7.10
V2 :
900
~
1120
(Junction/ambient)
R th JA
500
400
K/W
K1 :
7.10 ~
9.00
AA :
1120
~
1400
Thermal resistance
K2 :
9.00 ~
11.20
AB :
1400
~
1800
(Junction/soldering point)
R th JS
280
180
K/W
L1 :
11.20 ~
14.00
BA :
1800
~
2240
mounted on PC board FR4 (pad size 16 mm )
L2 :
14.00 ~
18.00
BB :
2240
~
2800
M1 :
18.00 ~
22.40
CA :
2800
~
3550
M2 :
22.40 ~
28.00
CB :
3550
~
4500
N1 :
28.00 ~
35.50
DA :
4500
~
5600
N2 :
35.50 ~
45.00
DB :
5600
~
7100
5
2
Luminous intensity is tested at a current pulse duration
of 25 ms and an accuracy of +/- 11%
3
110
o
V
Optical Characteristics at TA=25oC
Color,
Viewing
Optical
Temperature
Spectral
Luminous
Peak
Dominant
Angle
Efficiency
Coefficient
Bandwidth
Intensity
Wavelength
Wavelength
2θ 1/2
@IF=20mA
of VF
at 50%
IV (mcd) @ 20mA
(lm / W)
@IF=20mA,Tcv
Irel max
(mV /K)
(nm)
Part Number
λpeak (nm)
λd (nm)
(Degrees)
Min.
Typ.
Typ.
Typ.
Typ.
MSL-204B
22.4
40
468
470
120
2
-2.6
26
MSL-204UB
35.5
80
468
470
120
3
-2.6
26
MSL-204MB
70
120
468
470
120
6
-1.6
27
MSL-204TG
71
140
523
525
120
6
-3.1
36
MSL-204UTG
140
280
518
525
120
11
-3.1
35
MSL-205MTG
280
500
518
525
121
18
-3.1
35
MSL-204UG
35.5
80
576
572
120
6
-2.6
16
MSL204UYL
56
120
592
590
120
9
-2.3
16
MSL-204SO
71
150
611
605
120
11
-2.3
20
MSL-204UOL
71
150
633
625
120
11
-2.3
20
MSL-204DR
28
50
657
640
120
4
-2.5
20
MSL-204TUYL
90
180
594
592
120
9
-2.3
16
MSL-204TUOL
140
300
633
625
120
11
-2.3
20
Temperature
Viewing
Luminous
Part Number
Chromaticity Coordinates (Typ.)
Intensity
Coefficient
Angle
Optical
2θ 1/2
Efficiency
of VF
IV (mcd) @ 20mA
x
y
(Degrees)
@IF=20mA
@IF=20mA, Tcv
Typ.
Typ.
Typ.
Typ.
(lm / W)
(mV /K)
MSL-204W
130
0.33
0.33
120
4
-2.6
MSL-204UW
200
0.33
0.33
120
6
-2.6
MSL-204MW
400
0.33
0.33
120
6
-2.6
MSL-204HW
200
0.33
0.33
120
5
-2.6
Thermal
Thermal
Device Type
Forward
Reverse
Voltage
Current
Resistance
Resistance
VF (Volts)
IR (uA)
RθJ-S (oC/W)
RθJ-A(oC/W)
Typ.
@IF = 20mA
Min. Typ. Max Min.
@ VR = 5V
Typ.
Typ.
MSL-204B
-
3.5
4.0 0.01
10
180
400
MSL-204UB
-
3.5
4.0 0.01
10
180
400
MSL-204MB
-
3.5
4.0 0.01
10
180
400
MSL-204TG
-
3.5
4.0 0.01
10
180
400
MSL-204UTG
-
3.5
4.0 0.01
10
180
400
MSL-204MTG
-
3.5
4.0 0.01
10
180
400
MSL-204UG
-
2.0
2.5 0.01
10
280
500
MSL-204UYL
-
2.0
2.5 0.01
10
280
500
MSL-204SO
-
2.0
2.5 0.01
10
280
500
MSL-204UOL
-
2.0
2.5 0.01
10
280
500
MSL-204DR
-
1.8
2.4 0.01
10
280
500
MSL-204TUYL
-
2.0
2.7 0.01
10
280
500
MSL-204TUOL
-
2.0
2.7 0.01
10
280
500
MSL-204W
3.5
4.0 0.01
10
180
400
MSL-204UW
3.5
4.0 0.01
10
180
400
MSL-204MW
3.5
4.0 0.01
10
180
400
MSL-204HW
3.4
4.0 0.01
50
180
400
Voltages are tested at a current pulse dration of 1 ms and a accuracy of ±0.05V
4
Relative spektrale Emission Irel = f (λ), TA = 25oC, IF = 20mA
V(λ) = Standard eye response curve
true
green
blue
green amber orange
red
100
Irel
80
60
Vλ
40
20
0
400
450
500
550
600
650
700
λ
Forward Current IF = f (VF)
Relative Luminous Intensity IV/IV (20mA) = f (IF)
o
TA = 25oC
TA = 25 C
IF
50
IV
2.0
1.8
40
1.6
1.4
30
1.2
1.0
GREEN/BLUE
20
0.8
0.6
RED/ORANGE/
YELLOW
10
0.4
0.2
0
1.2
0.0
1.6
2.0
2.4
2.8
3.2
3.6
4.0
0
10
20
30
mA 40
IF
VF
Max. Permissible Forward Current IF = f (TA)
IF
Radiation Characteristic Irel = f (ϕ)
0o
40
10o
20o
mA
30o
30
TS
40o
TA
20
1.0
50o
0.9
60o
70o
10
TA temp. ambient
TS temp. solder point
80o
90o
0.8
0
0
20
40
60
80
0.7
100
o
T ( C)
5
0.5
0.3
0.1
0.2
0.4
0.6
IR Reflow Soldering Profile
Temperature-Profile
Temp
240oC Max.
5sec. Max.
2.5~5oC / sec.
o
2.5~5 C / sec.
Pre-heating
120~150oC
40sec. Max.
Above 200oC
120sec. Max.
Time
6
Unity ALLED Bin Codes
Category Code
C
B
Luminous Intensity Group
C1 : 0.28 ~ 0.36
P1 : 45 ~ 56
C2 : 0.36 ~ 0.45
P2 : 56 ~ 71
D1 : 0.45 ~ 0.56
Q1 : 71 ~ 90
D2 : 0.56 ~ 0.71
Q2 : 90 ~ 112
E1 : 0.71 ~ 0.90
R1 : 112 ~ 140
E2 : 0.90 ~ 1.12
R2 : 140 ~ 180
F1 : 2.12 ~ 1.40
S1 : 180 ~ 224
F2 : 1.40 ~ 1.80
S2 : 224 ~ 280
G1 : 1.80 ~ 2.24
T1 : 280 ~ 355
G2 : 2.24 ~ 2.80
T2 : 355 ~ 450
H1 : 2.80 ~ 3.55
U1 : 450 ~ 560
H2 : 3.55 ~ 4.50
U2 : 560 ~ 710
J1 : 4.50 ~ 5.60
V1 : 710 ~ 900
J2 : 5.60 ~ 7.10
V2 : 900 ~ 1120
K1 : 7.10 ~ 9.00
AA : 1120 ~ 1400
K2 : 9.00 ~ 11.20
AB : 1400 ~ 1800
L1 : 11.20 ~ 14.00
BA : 1800 ~ 2240
L2 : 14.00 ~ 18.00
BB : 2240 ~ 2800
M1 : 18.00 ~ 22.40
CA : 2800 ~ 3550
M2 : 22.40 ~ 28.00
CB : 3550 ~ 4500
N1 : 28.00 ~ 35.50
DA : 4500 ~ 5600
N2 : 35.50 ~ 45.00
DB : 5600 ~ 7100
Luminous intensity is tested at a current pulse duration
of 25 ms and an accuracy of +/- 11%
Dominant Wavelength (in nanometers) @ IF=20mA
B
C
BIN
A
P/N
minimum maximum minimum maximum minimum maximum
UOL
Red
615
621
621
627
627
633
TG
Green
519
525
525
531
531
537
B
Blue
464
468
468
472
472
476
Wavelength groups are tested at a current pulse duration
of 25 ms and an accuracy of +/- 1nm
7
Unity White ALLED Bin Codes
Category Code
C
B
Luminous Intensity Group
MSL-204W
MSL-204MW
MSL-204UW
MSL-204HW
C1 : 0.28 ~ 0.36
P1 : 45 ~ 56
C2 : 0.36 ~ 0.45
P2 : 56 ~ 71
D1 : 0.45 ~ 0.56
Q1 : 71 ~ 90
D2 : 0.56 ~ 0.71
Q2 : 90 ~ 112
E1 : 0.71 ~ 0.90
R1 : 112 ~ 140
E2 : 0.90 ~ 1.12
R2 : 140 ~ 180
F1 : 2.12 ~ 1.40
S1 : 180 ~ 224
F2 : 1.40 ~ 1.80
S2 : 224 ~ 280
G1 : 1.80 ~ 2.24
T1 : 280 ~ 355
G2 : 2.24 ~ 2.80
T2 : 355 ~ 450
H1 : 2.80 ~ 3.55
U1 : 450 ~ 560
H2 : 3.55 ~ 4.50
U2 : 560 ~ 710
J1 : 4.50 ~ 5.60
V1 : 710 ~ 900
J2 : 5.60 ~ 7.10
V2 : 900 ~ 1120
K1 : 7.10 ~ 9.00
AA : 1120 ~ 1400
K2 : 9.00 ~ 11.20 AB : 1400 ~ 1800
L1 : 11.20 ~ 14.00 BA : 1800 ~ 2240
L2 : 14.00 ~ 18.00 BB : 2240 ~ 2800
M1 : 18.00 ~ 22.40 CA : 2800 ~ 3550
M2 : 22.40 ~ 28.00 CB : 3550 ~ 4500
N1 : 28.00 ~ 35.50 DA : 4500 ~ 5600
N2 : 35.50 ~ 45.00 DB : 5600 ~ 7100
Luminous intensity is tested at a current pulse duration
of 25 ms and an accuracy of ± 11%
Dominant Wavelength (in nanometers) @ IF=20mA
1
2
3
4
Bin Code
X
Y
X
Y
X
Y
X
Y
NA
0.264
0.317
0.283
0.353
0.283
0.305
0.264
0.267
NB
0.264
0.267
0.283
0.305
0.296
0.276
0.280
0.248
NC
0.283
0.353
0.330
0.400
0.330
0.380
0.283
0.325
ND
0.285
0.325
0.330
0.380
0.330
0.360
0.283
0.305
NE
0.283
0.305
0.330
0.360
0.330
0.339
0.287
0.295
NF
0.287
0.295
0.330
0.339
0.330
0.318
0.296
0.276
NG
0.296
0.276
0.330
0.318
0.33
0.298
0.296
0.256
NH
0.330
0.400
0.361
0.415
0.361
0.385
0.330
0.360
NI
0.330
0.360
0.361
0.385
0.361
0.351
0.330
0.318
Chromaticity coordinate groups are tested at a current pulse duration of 25 ms and a tolerance of ±0.01
8
Surface Mount Moisture Sensitivity Specifications
1. Controlling Moisture
Unity Opto Technology, in its design of packing materials and packing methods, takes into consideration the susceptibility of
some Unity packages to moisture induced damage. The risk of this damage is caused when the LED lens plastic encapsulation
material is exposed to increases or decreases in the Relative Humidity of the surrounding environment.
Such damage may include delamination between the die and the LED lens plastic encapsulation material, which may result in
open connections due to broken wire bonds. Moisture in the package having reached a critical level will fracture the package
in order to escape when exposed to peak temperature conditions, typical in soldering practices.
Therefore, the control of moisture levels in the LED package is critical to reduce the risk of moisture-induced failures. Please
follow JEDEC-STD-033A standards for handling moisture sensitive devices.
2. Packaging SMD devices:
Unity packages all SMD devices into dry pack bags (moisture barrier bags).
Unity includes a desiccant pouch in each bag. Testing confirms that the desiccant pouch greatly reduces the presence of
moisture by maintaining the environment in the bag, thus protecting the devices during shipment and storage.
3. Handling Dry Packed Parts
Upon receipt, the bags should be inspected for damage to ensure that the bag’s integrity has been maintained. Inspection
should verify that there are no holes, gouges, tears, or punctures of any kind that may expose the contents of the bag.
To open the bag, simply cut across the top of the bag as close to the original seal as possible being careful not to damage the
contents. Once open the desired quantity of units should be removed and the bag resealed. If the bag is left open longer than
2 hours, the desiccant pouch should be replaced with a dry desiccant and the bag should be sealed immediately to avoid
moisture damage.
9
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