AVAGO ASMT-MWH2

ASMT-Mx6x & ASMT-MxHx
MoonstoneTM ½W Power LED Light Source
Data Sheet
Description
Features
½W Power LED Light Source is a high performance energy
efficient device which can handle high thermal and high
driving current. The exposed pad design has excellent
heat transfer from the package to the motherboard. Option with electrically isolated metal slug is also available
• Available in Cool White and Warm White color
The Cool White Power LED is available in various color
temperature ranging from 4000K to 10000K and Warm
White Power LED ranging from 2600K to 4000K.
• Available in diffuse and non-diffuse version
• Available in both electrical isolated and non-isolated
metal slug
• Energy efficient
• Exposed pad for excellent heat transfer
• Suitable for reflow soldering process
The low profile package design is suitable for a wide variety of applications especially where height is a constraint.
• High current operation
The package is compatible with reflow soldering. This will
give more freedom and flexibility to the light source designer.
• Wide viewing angle
Applications
• Long operation life
• Silicone encapsulation
• ESD HBM Class 3B, > 8000
• MSL 4 products
• Sign backlight
• High junction temperature of 145°C
• Safety, exit and emergency sign lightings
Specifications
• Specialty lighting such as task lighting and reading
lights
• Retail display
• Commercial lighting
• Accent or marker lightings, strip or step lightings
• InGaN Technology
• 3.5V, 150mA (typical)
• 110 viewing angle
Package Dimensions
1
ANODE
2
CATHODE
3
Heatsink (2 options)
a. Electrically Isolated
b. Electrically non-isolated
10.00
3.30
1.27
8.50
METAL SLUG
3
5.26
10.60
8.50
8.00
1.30
5.25
1
2
2.00
0.81
5.08
LED
NOTES:
1. ALL DIMENSIONS IN MILLIMETERS.
2. TOLERANCE IS ± 0.1 mm UNLESS OTHERWISE SPECIFIED.
Notes:
1. All dimensions in millimeters.
2. Tolerance is ± 0.1 mm unless otherwise specified.
+
ZENER
–
Device Selection Guide at Junction Temperature Tj = 25°C
Luminous Flux,
Φv[1,2] (lm)
Color
Part Number
Min
Typ
Max
Test Current
(mA)
Cool White
ASMT-MW60
19.5
30
43.0
150
Non-isolated
InGaN
Warm White
ASMT-MY60
15
25
33
150
Non-isolated
InGaN
Cool White Diffuse
ASMT-MWH0
15
25
43.0
150
Non-isolated
InGaN
Warm White Diffuse
ASMT-MYH0
11.5
20
33
150
Non-isolated
InGaN
Cool White
ASMT-MW62
19.5
30
43.0
150
Isolated
InGaN
Warm White
ASMT-MY62
15
25
33
150
Isolated
InGaN
Cool White Diffuse
ASMT-MWH2
15
25
43.0
150
Isolated
InGaN
Warm White Diffuse
ASMT-MYH2
11.5
20
33
150
Isolated
InGaN
Notes:
1. ΦV is the total luminous flux output as measured with an integrating sphere at 25ms mono pulse condition.
2. Flux tolerance is ±10 %
Part Numbering System
ASMT – M x x x – N x1 x2 x3 x4
Packing Option
0 – Tube
1 – Tape & reel
Color Bin Selection
Max Flux Bin Selection
Min Flux Bin Selection
0 – Electrically non-isolated Metal Slug
2 – Electrically Isolated Metal Slug
6 – Clear
H – Di use
Color
W – Cool White
Y – Warm White
Metal Slug
Dice
Technology
Absolute Maximum Ratings at TA = 25°C
Parameter
ASMT-Mx60
Units
DC Forward Current [1]
150
mA
Peak Pulsing Current [2]
300
mA
Power Dissipation
525
mW
LED Junction Temperature
145
°C
Operating Ambient Temperature Range
-40 to +120
°C
Storage Temperature Range
-40 to +120
°C
Notes:
1. DC forward current – derate linearly based on Figure 5.
2. Pulse condition duty factor = 10%, Frequency = 1kHz
Optical Characteristics (TA = 25°C)
Correlated Color Temperature,
CCT (Kelvin)
Viewing Angle 2θ½ [1]
(Degrees)
Luminous Efficiency
(lm/W)
Part Number
Color
Min
Max
Typ
Typ
ASMT-MW6x
Cool White
4000
10000
110
57
ASMT-MY6x
Warm White
2600
4000
110
48
ASMT-MWHx
Cool White Diffuse
4000
10000
120
48
ASMT-MYHx
Warm White Diffuse
2600
4000
120
38
Notes:
1. θ½ is the off-axis angle where the luminous intensity is ½ the peak intensity.
Electrical Characteristic (TA = 25°C)
Forward Voltage VF
(Volts) @ IF = 150mA
Reverse Voltage VR
(Volts)
Thermal Resistance Rθj-ms
(°C/W)[1]
Dice Type
Typ.
Max.
Max.
Typ.
InGaN
3.5
4.0
5
27
Note:
1. Rθj-ms is Thermal Resistance from LED junction to metal slug.
200
COOL WHITE DIFFUSED
WARM WHITE DIFFUSED
COOL WHITE
WARM WHITE
0.9
RELATIVE INTENSITY
0.8
0.7
0.6
0.5
0.4
0.3
0.2
175
150
FORWARD CURRENT - mA
1.0
0.1
100
75
50
25
0.0
380
430
480
530
580
630
WAVELENGTH - nm
680
730
0.50
1.00
3.50
4.00
70
90
0.9
RELATIVE INTENSITY
0.8
0.7
0.6
0.5
0.4
COOL WHITE DIFFUSED
WARM WHITE DIFFUSED
COOL WHITE
WARM WHITE
0.3
0.2
0.1
0
20
40
60
80
100
120
140
160
180
0.0
200
-90
-70
-50
Figure 4. Radiation Pattern
180
150
R JA = 140°C/W
120
R JA = 120°C/W
R JA = 100°C/W
90
60
30
0
10
20
30
40
50
60
TA AMBIENT TEMPERATURE - °C
70
80
90
Figure 5. Maximum forward current vs. ambient temperature. Derated
based on TJMAX = 145°C, RθJA = 100°C/W, 120°C/W and 140°C/W
350
8.40 ± 0.10
17.00 ± 0.20
WARD VOLTAGE SHIFT (mV)
10.70 ± 0.10
-30
-10
10
OFF-AXIS ANGLE(°)
Figure 3. Relative Luminous Flux vs. Mono Pulse Current
IF MAX FORWARD CURRENT - mA
3.00
1.0
MONO PULSE CURRENT - mA
0
1.50
2.00
2.50
FORWARD VOLTAGE - V
Figure 2. Forward Current vs Forward Voltage
1.30
1.20
1.10
1.00
0.90
0.80
0.70
0.60
0.50
0.40
0.30
0.20
0.10
0.00
0
0.00
780
Figure 1. Relative Intensity vs. Wavelength
RELATIVE LUMINOUS FLUX (Φv) - lm
125
300
250
200
150
100
50
0
-50
30
50
0
20
30
40
50
60
TA AMBIENT TEMPERATURE - °C
70
80
90
350
RELATIVE FORWARD VOLTAGE SHIFT (mV)
10.70 ± 0.10
TEMPERATURE
10 to 30 SEC.
/W
217 °C
200 °C
255 - 260 °C
3°C/SEC. MAX.
8.40 ± 0.10
-6°C/SEC. MAX.
150 °C
17.00 ± 0.20
3 °C/SEC. MAX.
1.00 ± 0.10
100 SEC. MAX.
60 - 120 SEC.
3.1 ± 0.10
80
TIME
90
(Acc. to J-STD-020C)
5.08 ± 0.10
0.10
Figure 7. Recommended soldering land pattern
350
100
300
250
200
150
100
50
0
90
-50
-100
-150
-200
-250
-300
-40
80
RELATIVE LOP (%)
RELATIVE FORWARD VOLTAGE SHIFT (mV)
Figure 6. Recommended Reflow Soldering
0.10
-15
10
35
Figure 8. Temperature vs. relative forward voltage shift
Flux Bin Limit[1] (For reference only) [X1 X2]
Flux (lm) at 150mA
135 145
Bin
Min
Max
A
5.5
7.0
B
7.0
9.0
C
9.0
11.5
D
11.5
15.0
E
15.0
19.5
F
19.5
25.5
G
25.5
33.0
H
33.0
43.0
Tolerance for each bin limits is ±10 %
70
60
50
40
30
½W COOL WHITE
20
½W WARM WHITE
10
TEMPERATURE - °C
E
25
10
60
85
0
25
35
45
55
65
75 85
95 105
JUNCTION TEMPERATURE (°C)
115 125
Figure 9. Relative LOP vs Junction Temperature for InGaN Devices
135 145
300
250
200
150
100
50
0
-50
-100
-150
-200
-250
-300
-40
Color Bin Selections [X3]
Individual reel will contain parts from one full bin only.
Cool White
Warm White
0
Full Distribution
0
Full Distribution
A
A only
A
A only
B
B only
B
B only
C
C only
C
C only
D
D only
D
D only
E
E only
E
E only
F
F only
F
F only
G
G only
Z
A and B only
H
H only
Y
B and C only
Z
A and B only
W
C and D only
Y
B and C only
V
D and E only
W
C and D only
U
E and F only
V
D and E only
Q
A, B and C only
U
E and F only
P
B, C and D only
T
F and G only
N
C, D and E only
S
G and H only
M
D, E and F only
Q
A, B and C only
J
Special Color Bin
P
B, C and D only
1
A, B, C and D only
N
C, D and E only
2
E, F, G and H only
M
D, E and F only
3
B, C, D and E only
L
E, F and G only
4
C, D, E and F only
K
F, G and H only
5
A, B, C, D and E only
J
Special Color Bin
6
B, C, D, E, and F only
1
A, B, C and D only
2
E, F, G and H only
3
B, C, D and E only
4
C, D, E and F only
5
A, B, C, D and E only
6
B, C, D, E, and F only
Primary Color Binning
Cool White
Color Limits (Chromaticity Coordinates)
Bin A
X
Y
0.367
0.400
0.362
0.372
0.329
0.345
0.329
0.369
Warm White Color Limits (Chromaticity Coordinates)
Bin A
X
Y
0.452
0.434
0.488
0.447
0.470
0.414
0.438
0.403
Bin B
X
Y
0.362
0.372
0.356
0.330
0.329
0.302
0.329
0.302
Bin B
X
Y
0.438
0.403
0.470
0.414
0.452
0.384
0.424
0.376
Bin C
X
Y
0.329
0.369
0.329
0.345
0.305
0.322
0.301
0.342
Bin C
X
Y
0.407
0.393
0.418
0.422
0.452
0.434
0.438
0.403
Bin D
X
Y
0.329
0.345
0.329
0.302
0.311
0.285
0.305
0.322
Bin D
X
Y
0.395
0.362
0.407
0.393
0.438
0.403
0.424
0.376
Bin E
X
Y
0.303
0.333
0.307
0.311
0.283
0.284
0.274
0.301
Bin E
X
Y
0.381
0.377
0.387
0.404
0.418
0.422
0.407
0.393
Bin F
X
Y
0.307
0.311
0.311
0.285
0.290
0.265
0.283
0.284
Bin F
X
Y
0.373
0.349
0.381
0.377
0.407
0.393
0.395
0.362
Bin G
X
Y
0.388
0.417
0.379
0.383
0.362
0.372
0.367
0.400
Bin H
X
Y
0.379
0.383
0.369
0.343
0.356
0.330
0.362
0.372
Tolerances ± 0.01
Tolerances ± 0.01
0.48
0.46
G
0.38
A
4.0k
0.36
4.5k
C
H
B
0.34
5.6k
0.32
Black Body Curve
7k D
E
0.30
F
10k
0.28
0.26
0.24
0.24 0.26 0.28 0.30 0.32 0.34 0.36 0.38 0.40 0.42 0.44
X - COORDINATE
Y - COORDINATE
Y - COORDINATE
0.44
0.42
0.40
0.44
A
0.42
C
0.40
0.38
0.36
E
4.0k
F
3.5k
D
3.0k
B
2.6k
Black Body Curve
0.34
0.32
0.34 0.36 0.38 0.40 0.42 0.44 0.46 0.48 0.50 0.52
X - COORDINATE
Sub-Color Binning
(Only Applicable for Color Bin A to Bin D and Bin G to Bin H)
Color Limits
Cool White
Color Limits (Chromaticity Coordinates)
Bin A1
X
Y
0.364
0.383
0.367
0.400
0.348
0.385
Bin A2
X
Y
0.364
0.383
0.362
0.372
Bin A3
X
Y
0.329
0.357
Bin A4
X
Y
Bin B1
Cool White
Color Limits (Chromaticity Coordinates)
0.347
0.372
Bin D1
X
Y
0.329
0.345
0.329
0.331
0.317
0.320
0.316
0.333
0.346
0.359
0.347
0.372
Bin D2
X
Y
0.329
0.331
0.329
0.320
0.318
0.310
0.317
0.320
0.329
0.369
0.348
0.385
0.347
0.372
Bin D3
X
Y
0.329
0.320
0.329
0.302
0.320
0.293
0.318
0.310
0.329
0.345
0.329
0.357
0.347
0.372
0.346
0.359
Bin D4
X
Y
0.316
0.333
0.317
0.320
0.307
0.311
0.305
0.322
X
Y
0.362
0.372
0.360
0.357
0.344
0.344
0.346
0.359
Bin D5
X
Y
0.317
0.320
0.318
0.310
0.309
0.300
0.307
0.311
Bin B2
X
Y
0.360
0.357
0.358
0.343
0.343
0.331
0.344
0.344
Bin D6
X
Y
0.318
0.310
0.320
0.293
0.311
0.285
0.309
0.300
Bin B3
X
Y
0.358
0.343
0.356
0.330
0.341
0.314
0.343
0.331
Bin G1
X
Y
0.392
0.421
0.386
0.400
0.364
0.383
0.367
0.400
Bin B4
X
Y
0.329
0.331
0.329
0.345
0.346
0.359
0.344
0.344
Bin G2
X
Y
0.386
0.400
0.382
0.385
0.362
0.372
0.364
0.383
Bin B5
X
Y
0.329
0.331
0.344
0.344
0.343
0.331
0.329
0.320
Bin H1
X
Y
0.382
0.385
0.378
0.370
0.360
0.357
0.362
0.372
Bin B6
X
Y
0.343
0.331
0.341
0.314
0.329
0.302
0.329
0.320
Bin H2
X
Y
0.378
0.370
0.375
0.358
0.358
0.343
0.360
0.357
Bin C1
X
Y
0.329
0.369
0.329
0.357
0.315
0.344
0.314
0.355
Bin H3
X
Y
0.375
0.358
0.371
0.344
0.356
0.330
0.358
0.343
Bin C2
X
Y
0.329
0.357
0.329
0.345
0.316
0.333
0.315
0.344
Bin C3
X
Y
0.314
0.355
0.315
0.344
0.303
0.333
0.301
0.342
Bin C4
X
Y
0.315
0.344
0.316
0.333
0.305
0.322
0.303
0.333
Tolerances ± 0.01
0.44
0.42
0.40
G1
0.38
Y - COORDINATE
G2
A1
A3
0.36
C3
0.34
C4
0.32
7k
A4
C2
B4
5.6k
B5
D1
D2
D4
0.30
C1
D5
D6
H1
A2
B1
B2
4.5k
4.0k
H2
H3
Black Body Curve
B3
B6
D3
10k
0.28
0.26
0.24
0.24
0.26
0.28
0.30
0.32
0.34
X - COORDINATE
0.36
0.38
0.40
0.42
0.44
Package Tube – Option 0
1.00
5.80
4.65
5.50
37.00
5.45
10.10
8.30
535.00
TOP VIEW
FRONT VIEW
Tape & Reel – Option 1
END
START
Dim
Value
AO
8.80±0.10
BO
16.45±0.10
KO
3.60±0.10
W
24.0±0.10
P
16.0±0.10
Qty/Reel
250EA
Unit: mm
THERE SHALL BE A MINIMUM OF
160 mm OF EMPTY COMPONENT
POCKETS SEALED WITH COVER TAPE.
10
MOUNTED WITH
COMPONENTS
THERE SHALL BE A MINIMUM OF 390 mm OF EMPTY
COMPONENT POCKETS SEALED WITH COVER TAPE.
Reel Dimension
Handling Precaution:
The encapsulation material of the product is made of silicone for better reliability of the product. As silicone is a
soft material, please do not press on the silicone or poke
a sharp object onto the silicone. These might damage the
product and cause premature failure. During assembly or
handling, the unit should be held on the body (white epoxy).
DISCLAIMER: AVAGO’S PRODUCTS AND SOFTWARE ARE NOT SPECIFICALLY DESIGNED, MANUFACTURED OR AUTHORIZED FOR SALE AS PARTS, COMPONENTS OR ASSEMBLIES FOR THE PLANNING, CONSTRUCTION, MAINTENANCE OR
DIRECT OPERATION OF A NUCLEAR FACILITY OR FOR USE IN MEDICAL DEVICES OR APPLICATIONS. CUSTOMER IS SOLELY
RESPONSIBLE, AND WAIVES ALL RIGHTS TO MAKE CLAIMS AGAINST AVAGO OR ITS SUPPLIERS, FOR ALL LOSS, DAMAGE,
EXPENSE OR LIABILITY IN CONNECTION WITH SUCH USE.
For product information and a complete list of distributors, please go to our web site:
www.avagotech.com
Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries.
Data subject to change. Copyright © 2005-2008 Avago Technologies. All rights reserved.
AV02-1319EN - July 2, 2008