ASMT-JB31-NNP01 [AVAGO]
3W Mini Power LED Light Source Small footprint and low profi le; 3W小功率LED光源体积小巧,低的简介型号: | ASMT-JB31-NNP01 |
厂家: | AVAGO TECHNOLOGIES LIMITED |
描述: | 3W Mini Power LED Light Source Small footprint and low profi le |
文件: | 总16页 (文件大小:241K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
ASMT-Jx3x
3W Mini Power LED Light Source
Data Sheet
Description
Features
Available in Deep Red, Red, Red Orange, Amber, Green,
Blue, Royal Blue, Cool White, Neutral White and Warm
White
The 3W Mini Power LED Light Source is a high perfor-
mance energy efficient device which can handle high
thermal and high driving current. Option with electrically
isolated metal slug is also available.
Small footprint and low profile
Symmetrical outline
Energy efficient
The White Mini Power LED is available in the range of color
temperature from 2700K to 10000K.
Direct heat transfer from metal slug to mother board
Compatible with reflow soldering process
High current operation
Long operation life
Wide viewing angle
The low profile package design and ultra small footprint is
suitable for a wide variety of applications especially where
space and height is a constraint.
The package is compatible with reflow soldering process.
To facilitate easy pick & place assembly, the LEDs are
packed in EIA-compliant tape and reel.
Silicone encapsulation
Non-ESD sensitive (threshold > 16kV)
MSL 1 products
Applications
Sign backlight
Safety, exit and emergency sign lightings
Specialty lighting such as task lighting and reading
lights
Retail display
Commercial lighting
Accent or marker lightings, strip or step lightings
Portable lightings, bicycle head lamp, torch lights.
Decorative lighting
Architectural lighting
Pathway lighting
Street lighting
Pedestrian street lighting
Tunnel lighting
Horticulture
CAUTION: Customer is advised to keep the LEDs in the MBB when not in use as prolonged exposure to
environment might cause the silver plated leads to tarnish, which might cause difficulties in soldering.
Package Dimensions
5.0
4.0
0.8
Lens
NC
Anode Lead
NC
Cathode Mark
NC
Cathode Lead
Metal Slug
0.65
NC
Body
0.60
Ø 1.70
Figure 1. ASMT-Jx3x package outline drawing
Notes:
1. All dimensions in millimeters.
2. Metal slug is connected to anode for electrically non-isolated option.
3. Tolerance is 0.1 mm unless otherwise specified.
4. Terminal finish: Ag plating.
5. Corresponding NC (No Connection) leads adjacent to anode and cathode leads can be electrically short.
2
Part Numbering System
ASMT- J x1 3 x2 – x3 x4 x5 x6 x7
Packaging Option
Color Bin Selection
Maximum Flux Bin Selection
Minimum Flux Bin Selection
Dice Type
N – InGaN
A – AlInGaP
Heat Sink
0 – Electrically Non-isolated
1 – Electrically Isolated
Color
D – Deep Red
R – Red
H – Red Orange
A – Amber
G – Green
B – Blue
L – Royal Blue
W – Cool White
N – Neutral White
Y – Warm White
Note:
1. Please refer to Page 10 for selection details.
Device Selection Guide (T = 25°C)
J
Luminous Flux (lm) /
Radiometric Power (mW), Φ
Electrically
Isolated
[1,2]
V
Test Current Dice
Part Number
Color
Min.
Typ.
Max.
(mA)
350
350
350
350
350
350
350
350
350
350
350
350
350
350
Technology
Metal Slug
ASMT-JD30-ALN01 Deep Red
175mW
51.7
240mW
58.0
355mW
87.4
AllnGaP
AllnGaP
AllnGaP
AllnGaP
InGaN
InGaN
InGaN
InGaN
InGaN
InGaN
InGaN
InGaN
inGaN
InGaN
No
No
No
No
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
ASMT-JR30-AST01
ASMT-JH30-ARS01
ASMT-JA30-ARS01
Red
Red Orange
Amber
39.8
48.0
67.2
39.8
48.0
67.2
ASMT-JG31-NTU01 Green
ASMT-JB31-NMP01 Blue
ASMT-JB31-NNP01
67.2
78.0
99.6
13.9
20.0
30.6
18.1
25.0
30.6
ASMT-JL31-NPQ01 Royal Blue
ASMT-JL31-NPR01
355 mW
355 mW
67.2
435 mW
450 mW
85.0
515 mW
595 mW
113.6
113.6
113.6
113.6
99.6
ASMT-JW31-NTV01 Cool White
ASMT-JW31-NUV01
87.4
95.0
ASMT-JN31-NTV01 Neutral White 67.2
85.0
ASMT-JN31-NUV01
ASMT-JY31-NSU01 Warm White
Notes:
87.4
51.7
95.0
70.0
1.
Φ is the total luminous flux / radiometric power output as measured with an integrating sphere at 25 ms mono pulse condition.
V
2. Flux tolerance is 10ꢀ
3
Absolute Maximum Ratings
Parameter
DC Forward Current [1]
AllnGaP
700
InGaN
Units
mA
mA
mW
°C
700
Peak Pulsing Current
1500
2400
Power Dissipation
1820
2730
LED Junction Temperature
Operating Metal Slug Temperature Range at 350 mA
Operating Metal Slug Temperature Range at 700 mA
Storage Temperature Range
Soldering Temperature
Reverse Voltage [2]
125
135
-40 to +115
-40 to +100
-40 to +120
-40 to +120
-40 to +105
-40 to + 120
Refer to Figure. 25
Not recommended
°C
°C
°C
Note:
1. Derate linearly based on Figure 9 for AlInGaP and Figure 21 for InGaN.
2. Not designed for reverse bias operation.
Optical Characteristics at 350 mA (T = 25°C)
J
Peak
Wavelength,
Dominant
Wavelength,
Viewing Angle,
Luminous Efficiency
(lm/W)
[1]
[2]
(nm)
D
(nm)
2
(°)
PEAK
½
Part Number
Color
Typ.
660
635
625
598
519
454
454
450
450
Typ.
640
625
615
590
525
460
460
455
455
Typ.
165
165
165
165
165
165
165
165
165
Typ.
ASMT-JD30-ALN01
ASMT-JR30-AST01
ASMT-JH30-ARS01
ASMT-JA30-ARS01
ASMT-JG31-NTU01
ASMT-JB31-NMP01
ASMT-JB31-NNP01
ASMT-JL31-NPQ01
ASMT-JL31-NPR01
Deep Red
Red
Not Applicable
79
Red Orange
Amber
Green
65
65
70
Blue
18
22
Royal Blue
Not Applicable
Not Applicable
Correlated Color Temperature,
CCT (Kelvin)
Viewing Angle,
Luminous Efficiency
(lm/W)
[2]
2
(°)
½
Part Number
Color
Min.
Max.
Typ.
140
140
140
140
140
Typ.
76
85
76
85
63
ASMT-JW31-NTV01 Cool White
ASMT-JW31-NUV01
4500
4500
3500
3500
2700
10000
10000
4500
ASMT-JN31-NTV01 Neutral White
ASMT-JN31-NUV01
4500
ASMT-JY31-NSU01 Warm White
Notes:
3500
1. The dominant wavelength, , is derived from the CIE Chromaticity Diagram and represents the color of the device.
D
2.
is the off-axis angle where the luminous intensity is ½ the peak intensity.
½
4
Electrical Characteristic at 350 mA (T = 25°C)
J
Forward Voltage,
V (Volts)
F
Thermal Resistance,
[1]
R (°C/W)
j-ms
Dice Type
AllnGaP
InGaN
Min.
1.7
Typ
2.1
3.2
Max.
2.3
Typ.
9
2.8
3.5
9
Note:
1. R
is Thermal Resistance from LED junction to metal slug.
j-ms
Optical and Electrical Characteristic at 700 mA (T = 25°C)
J
Luminous Flux (lm) /
Radiometric Power (mW),
Forward Voltage,
V (Volts)
F
V
Part Number
Color
Typ.
Typ.
2.4
2.4
2.4
2.4
3.6
3.6
3.6
3.6
3.6
3.6
3.6
3.6
3.6
3.6
ASMT-JD30-ALN01
ASMT-JR30-AST01
ASMT-JH30-ARS01
ASMT-JA30-ARS01
ASMT-JG31-NTU01
ASMT-JB31-NMP01
ASMT-JB31-NNP01
ASMT-JL31-NPQ01
ASMT-JL31-NPR01
ASMT-JW31-NTV01
ASMT-JW31-NUV01
ASMT-JN31-NTV01
ASMT-JN31-NUV01
ASMT-JY31-NSU01
Deep Red
Red
480mW
104.0
86.0
Red Orange
Amber
Green
86.0
125.0
34.0
Blue
43.0
Royal Blue
740 mW
765 mW
150.0
160.0
150.0
160.0
120.0
Cool White
Neutral White
Warm White
5
AlInGaP
1
0.9
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0
2.2
2
OTHERS
DEEP RED
AMBER
1.8
1.6
1.4
1.2
1
0.8
0.6
0.4
0.2
0
RED ORANGE
RED
DEEP RED
520 535 550 565 580 595 610 625 640 655 670 685 700
0
100
200
300
400
500
600 700
WAVELENGTH - nm
DC FORWARD CURRENT - mA
Figure 2. Relative Intensity vs. Wavelength for Deep Red, Red, Red Orange
and Amber.
Figure 3. Relative Luminous Flux/ Radiometric Power vs. Mono Pulse Current.
700
650
600
550
500
450
400
350
300
250
200
150
100
50
1
0.9
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0
0
0
0.5
1
1.5
2
2.5
-90
-60
-30
0
30
60
90
FORWARD VOLTAGE - V
ANGULAR DISPLACEMENT - DEGREES
Figure 4. Forward Current vs. Forward Voltage.
Figure 5. Radiation Pattern Deep Red, Red, Red Orange and Amber.
1.80
1.80
1.60
1.40
1.20
1.00
0.80
0.60
0.40
tp
1.60
1.40
1.20
1.00
0.80
0.60
0.40
0.20
0.00
tp
T
D =
IF
D =
0.05
0.10
0.25
0.50
1.00
T
D =
0.05
0.10
0.25
0.50
1.00
tp
tp
T
D =
IF
0.20
0.00
T
0.00001 0.0001 0.001
0.01
0.1
1
10
100
0.00001 0.0001 0.001
0.01
0.1
1
10
100
tp - PULSE DURATION - sec
tp - PULSE DURATION - sec
Figure 6. Maximum pulse current vs. ambient temperature.
Derated based on TA = 25°C, RJ-A = 30°C/W.
Figure 7. Maximum pulse current vs. ambient temperature.
Derated based on TA = 85°C, RJ-A = 30°C/W.
6
240.0
220.0
200.0
180.0
160.0
140.0
120.0
100.0
80.0
60.0
40.0
20.0
0.0
1.00
0.80
0.60
0.40
0.20
0.00
-0.20
DEEP RED
RED
RED ORANGE
AMBER
DEEP RED
RED
RED-ORANGE
AMBER
-0.40
-50
-25
0
25
50
75
100
125
-50
-25
0
25
50
75
100
125
JUNCTION TEMPERATURE,TJ - °C
JUNCTION TEMPERATURE,TJ - °C
Figure 8. Relative Light Output vs. Junction Temperature.
Figure 9. Forward Voltage Shift vs. Junction Temperature.
800
700
600
500
800
700
600
500
400
400
RTJ-MS = 9°C/W
RTJ-A = 20°C/W
300
300
200
100
0
RTJ-A = 25°C/W
RTJ-A = 30°C/W
200
100
0
0
20
40
60
80
100
120
140
0
20
40
60
80
100
120
140
AMBIENT TEMPERATURE, TA - °C
METAL SLUG TEMPERATURE, TMS - °C
Figure 10. Maximum Forward Current vs. Ambient Temperature.
Derated based on TJMAX = 125°C, RJ-A = 20°C/W, 25°C/W and 30°C/W.
Figure 11. Maximum Forward Current vs. Ambient Temperature.
Derated based on TJMAX = 125°C, RJ-MS = 9°C/W.
7
InGaN
1.0
0.9
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0.0
1
0.9
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0
GREEN
BLUE
WARM WHITE
COOL WHITE
ROYAL BLUE
380 405 430 455 480 505 530 555 580 605 630
WAVELENGTH - nm
380 430 480 530 580 630 680 730 780
WAVELENGTH - nm
Figure 12. Relative Intensity vs. Wavelength for Cool and Warm White.
Figure 13. Relative Intensity vs. Wavelength for Blue and Green.
2
1.8
1.6
1.4
1.2
1
700
650
600
550
500
450
400
350
300
250
200
150
100
50
0.8
0.6
0.4
0.2
0
0
0
100
200
300
400
500
600
700
0
0.5
1
1.5
2
2.5
3
3.5
4
MONO PULSE CURRENT - mA
FORWARD VOLTAGE - V
Figure 14. Relative Luminous Flux vs. Mono Pulse Current.
Figure 15. Forward Current vs. Forward Voltage.
1
0.9
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0
1
0.9
0.8
0.7
BLUE
GREEN
0.6
0.5
0.4
0.3
0.2
0.1
0
-90
-60
-30
0
30
60
90
-90
-60
-30
0
30
60
90
ANGULAR DISPLACEMENT - DEGREES
ANGULAR DISPLACEMENT - DEGREES
Figure 16. Radiation Pattern for Blue and Green.
Figure 17. Radiation Pattern for Cool White and Warm White.
8
3.00
2.80
2.60
2.40
2.20
2.00
1.80
1.60
1.40
1.20
1.00
0.80
0.60
0.40
0.20
0.00
3.00
2.80
2.60
2.40
2.20
2.00
1.80
1.60
1.40
1.20
1.00
0.80
0.60
0.40
0.20
0.00
tp
tp
tp
T
tp
T
D =
IF
D =
IF
T
T
D =
D =
0.05
0.10
0.25
0.50
1.00
0.05
0.10
0.25
0.50
1.00
0.00001 0.0001 0.001
0.01
0.1
1
10
100
0.00001 0.0001 0.001
0.01
0.1
1
10
100
tp - PULSE DURATION - sec
tp - PULSE DURATION - sec
Figure 18. Maximum pulse current vs. ambient temperature.
Derated based on TA = 25°C, RJ-A = 30°C/W
Figure 19. Maximum pulse current vs. ambient temperature.
Derated based on TA = 85°C, RJ-A = 30°C/W
0.35
0.30
0.25
0.20
0.15
0.10
0.05
0.00
-0.05
-0.10
120.0
110.0
100.0
90.0
80.0
70.0
60.0
50.0
40.0
30.0
20.0
10.0
0.0
BLUE
GREEN
ROYAL BLUE
WHITE
-0.15
BLUE
ROYAL BLUE
-0.20
-0.25
WHITE
GREEN
-0.30
-0.35
-50 -25
0
25
50
75 100 125 150
-50 -25
0
25
50
75 100 125 150
JUNCTION TEMPERATURE, TJ -°C
JUNCTION TEMPERATURE, TJ -°C
Figure 20. Relative Light Output vs. Junction Temperature.
Figure 21. Forward Voltage Shift vs. Junction Temperature.
800
700
600
500
400
800
700
600
500
400
RTJ-A = 20°C/W
RTJ-MS = 9°C/W
300
300
RTJ-A = 25°C/W
RTJ-A = 30°C/W
200
200
100
0
100
0
0
20
40
60
80
100
120
140
0
20
40
60
80
100
120
140
AMBIENT TEMPERATURE, TA - °C
METAL SLUG TEMPERATURE, TMS - °C
Figure 22. Maximum Forward Current vs. Ambient Temperature.
Derated based on TJMAX = 135°C, RJ-A = 20°C/W, 25°C/W and 30°C/W
Figure 23. Maximum Forward Current vs. Metal Slug Temperature.
Derated based on TJMAX = 135°C, RJ-MS = 9°C/W
9
0.80
Solder
Pad
ø1.90
Slug
Indepdent
∅3.2
1.32
Solder
Pad
Figure 25. Recommended pick and place
nozzle tip. Inner diameter = 3.2 mm
Figure 24. Recommended soldering land pattern
10 - 30 SEC.
255 - 260°C
3°C/SEC. MAX.
217°C
200°C
6°C/SEC. MAX.
150°C
3°C/SEC. MAX.
100 SEC. MAX.
60 - 120 SEC.
TIME
(Acc. to J-STD-020C)
Figure 26. Recommended Reflow Soldering Profile
Note: For detail information on reflow soldering of Avago surface mount
LEDs, do refer to Avago Application Note AN 1060 Surface Mounting
SMT LED Indicator Components.
10
Flux Bin Limit [x , x ]
Option Selection Details
4
5
Luminous Flux (lm)/
Radiometric Power (mW)
at 350 mA
ASMT-J x 3 x – x x x x x
3 4 5 6 7
1
2
x – Minimum Flux Bin Selection
4
x – Maximum Flux Bin Selection
5
Color
Blue
Bin ID
M
N
P
Min.
13.9
Max.
18.1
x – Color Bin Selection
6
x – Packaging Option
7
18.1
23.5
23.5
30.6
Q
R
30.6
39.8
Other Colors
39.8
51.7
S
51.7
67.2
T
67.2
87.4
U
87.4
99.6
V
99.6
113.6
225.0
275.0
355.0
435.0
515.0
595.0
Deep Red
and
Royal Blue
L
175.0
225.0
275.0
355.0
435.0
515.0
M
N
P
Q
R
Tolerance for each bin limits is 10ꢀ
Color Bin Selection (x )
6
Individual reel will contain parts from one color bin selection only.
Cool White
Warm White
Selection
Bin ID
Selection
Bin ID
0
Full Distribution
VM, UM, VN and UN
WM, VM, WN and VN
XM, WM, XN and WN
UN, VN, U0 and V0
WN, VN, W0 and V0
XN, WN, X0 and W0
V0, U0, VP and UP
W0, V0, WP, VP and WQ
X0, W0, XP, WP and WQ
Y0
0
E
Full Distribution
E
NM, MM, N1 and M1
PM, NM, P1 and N1
QM, PM, Q1 and P1
M1, N1, M0 and N0
P1, N1, P0 and N0
Q1, P1, Q0 and P0
N0, M0, NA and MA
P0, N0, PA and NA
Q0, P0, QA and PA
F
F
G
H
J
G
H
J
K
L
K
L
M
N
P
Q
M
N
Other Colors
YA
Selection
Bin ID
Neutral White
0
Full Distribution
A and B
Selection
Bin ID
Z
0
E
F
G
H
J
Full Distribution
SM, RM, S1 and R1
TM, SM, TN and S1
S1, R1, S0 and R0
TN, S1, T0 and S0
S0, R0, SA and RA
T0, S0, TP and SA
Y
B and C
W
V
C and D
D and E
Q
P
A, B and C
B, C and D
C, D and E
D, E and F
N
M
K
11
0.48
0.46
0.44
0.42
0.40
0.38
0.36
0.34
0.32
0.42
0.40
0.38
0.36
0.34
0.32
0.30
0.28
0.26
4500K
2700K
2850K
5000K
3050K
NM
3250K
PM
MM
UM
UN
U0
UP
3500K
QM
5650K
VM
VN
V0
6300K
XM
M1
N1
P1
N0
WM
WN
W0
Q1
Q0
7000K
M0
P0
MA
XN
X0
VP
NA
PA
WP
WQ
QA
10000K
BLACK BODY CURVE
BLACK BODY CURVE
Y0
YA
XP
0.26 0.28
0.30 0.32
0.34 0.36
0.38 0.40
0.38
0.40
0.42
0.44
0.46
0.48
0.50
X-COORDINATE
X-COORDINATE
Figure 27. Color bin Structure for Cool White
Figure 28. Color bin structure for Warm White
0.46
0.44
3500K
3800K
4100K
0.42
0.40
0.38
0.36
0.34
0.32
RM
R1
4500K
SM
S1
S0
TM
TN
R0
T0
RA
SA
BLACK BODY CURVE
TP
0.34
0.36
0.38
0.40
0.42
0.44
X-COORDINATE
Figure 29. Color bin structure for Neutral White
12
Color Bin Limits
Warm
White
Color Limits
(Chromaticity Coordinates)
Cool
White
Color Limits
(Chromaticity Coordinates)
Bin MM
Bin M1
Bin M0
Bin MA
Bin NM
Bin N1
Bin N0
Bin NA
Bin PM
Bin P1
Bin P0
Bin PA
Bin QM
Bin Q1
Bin Q0
Bin QA
x
y
0.471
0.451
0.460
0.430
0.473
0.432
0.486
0.455
Bin UM
Bin UN
Bin U0
Bin UP
Bin VM
Bin VN
Bin V0
Bin VP
Bin WM
Bin WN
Bin W0
Bin WP
Bin WQ
Bin XM
Bin XN
Bin X0
Bin XP
Bin YO
Bin YA
x
y
0.365
0.386
0.367
0.400
0.348
0.385
0.347
0.372
x
y
0.460
0.430
0.453
0.416
0.467
0.419
0.473
0.432
x
y
0.365
0.386
0.362
0.372
0.346
0.359
0.347
0.372
x
y
0.453
0.416
0.444
0.399
0.459
0.403
0.467
0.419
x
y
0.362
0.372
0.360
0.357
0.344
0.344
0.346
0.359
x
y
0.459
0.403
0.444
0.399
0.436
0.384
0.451
0.389
x
y
0.360
0.357
0.357
0.342
0.343
0.331
0.344
0.344
x
y
0.454
0.446
0.444
0.426
0.460
0.430
0.471
0.451
x
y
0.329
0.357
0.329
0.369
0.348
0.385
0.347
0.372
x
y
0.444
0.426
0.438
0.412
0.453
0.416
0.460
0.430
x
y
0.329
0.345
0.329
0.357
0.347
0.372
0.346
0.359
x
y
0.438
0.412
0.429
0.394
0.444
0.399
0.453
0.416
x
y
0.329
0.331
0.329
0.345
0.346
0.359
0.344
0.344
x
y
0.444
0.399
0.429
0.394
0.422
0.379
0.436
0.384
x
y
0.329
0.331
0.344
0.344
0.343
0.331
0.329
0.320
x
y
0.438
0.440
0.430
0.421
0.444
0.426
0.454
0.446
x
y
0.329
0.369
0.329
0.357
0.315
0.344
0.314
0.355
x
y
0.430
0.421
0.424
0.407
0.438
0.412
0.444
0.426
x
y
0.329
0.345
0.316
0.333
0.315
0.344
0.329
0.357
x
y
0.424
0.407
0.416
0.389
0.429
0.394
0.438
0.412
x
y
0.329
0.345
0.329
0.331
0.317
0.320
0.316
0.333
x
y
0.429
0.394
0.416
0.389
0.410
0.374
0.422
0.379
x
y
0.329
0.331
0.329
0.320
0.318
0.310
0.317
0.320
x
y
0.421
0.433
0.414
0.414
0.430
0.421
0.438
0.440
x
y
0.329
0.320
0.329
0.310
0.319
0.300
0.318
0.310
x
y
0.414
0.414
0.409
0.400
0.424
0.407
0.430
0.421
x
y
0.301
0.342
0.314
0.355
0.315
0.344
0.303
0.333
x
y
0.409
0.400
0.402
0.382
0.416
0.389
0.424
0.407
x
y
0.305
0.322
0.303
0.333
0.315
0.344
0.316
0.333
x
y
0.416
0.389
0.402
0.382
0.396
0.367
0.410
0.374
x
y
0.308
0.311
0.305
0.322
0.316
0.333
0.317
0.320
Tolerance: 0.01
x
y
0.308
0.311
0.317
0.320
0.319
0.300
0.311
0.293
x
y
0.308
0.311
0.283
0.284
0.274
0.301
0.303
0.333
x
y
0.308
0.311
0.311
0.293
0.290
0.270
0.283
0.284
Tolerance: 0.01
13
Neutral
White
Color Limits
(Chromaticity Coordinates)
Dominant Wavelength (nm)
at 350 mA
Bin RM
Bin R1
Bin R0
Bin RA
Bin SM
Bin S1
Bin S0
Bin SA
Bin TM
Bin TN
Bin T0
Bin TP
x
y
0.421
0.433
0.414
0.414
0.397
0.406
0.402
0.423
Color
Bin ID
–
Min.
Max.
Red
620.0
610.0
587.0
589.5
592.0
594.5
455.0
460.0
465.0
470.0
515.0
520.0
525.0
530.0
635.0
620.0
589.5
592.0
594.5
597.0
460.0
465.0
470.0
475.0
520.0
525.0
530.0
535.0
x
y
0.414
0.414
0.409
0.400
0.392
0.391
0.397
0.406
Red Orange
Amber
–
B
x
y
0.392
0.391
0.387
0.374
0.402
0.382
0.409
0.400
C
D
E
x
y
0.387
0.374
0.383
0.360
0.396
0.367
0.402
0.382
x
y
0.402
0.423
0.397
0.406
0.382
0.397
0.386
0.413
Blue
A
B
x
y
0.397
0.406
0.392
0.391
0.378
0.382
0.382
0.397
C
D
A
x
y
0.392
0.391
0.387
0.374
0.374
0.366
0.378
0.382
Green
B
x
y
0.387
0.374
0.383
0.360
0.370
0.351
0.374
0.366
C
x
y
0.386
0.413
0.382
0.397
0.365
0.386
0.367
0.400
D
Tolerance: 1 nm
x
y
0.382
0.397
0.378
0.382
0.362
0.372
0.365
0.386
x
y
0.378
0.382
0.374
0.366
0.360
0.357
0.362
0.372
Peak Wavelength (nm)
at 350 mA
x
y
0.374
0.366
0.370
0.351
0.357
0.342
0.360
0.357
Color
Bin ID
Min.
Max.
Deep Red
Royal Blue
-
650.0
440.0
445.0
450.0
455.0
670.0
445.0
450.0
455.0
460.0
Tolerance: 0.01
C
D
E
F
Tolerance: 2 nm
Packaging Option [x ]
Example
7
ASMT-JG31-NST01
Selection
Option
ASMT-JG31-Nxxxx– Green, InGaN, Electrically isolated
Heat Sink
1
Tape and Reel
X = S
– Minimum Flux Bin S
– Maximum Flux Bin T
– Full Distribution
4
X = T
5
X = 0
6
X = 1
7
– Tape and Reel Option
14
Tape and Reel – Option 1
ø1.5 0.1
4.00 .10
0.25 0.02
2.00 .05
1.75 0.01
5.50 .05
2.01 0.1
8.00 .10
ø1.5 0.25
8°
4.15 .10
0.25 0.02
Figure 30. Carrier Tape Dimensions
13.2 .5
16.0 .5
3 0.5
ø10
ø21.0 0.5
ø13.1 0.5
178 1
ø60 0.5
4 0.5
5 0.5
Notes:
1. Empty component pockets sealed with top cover tape.
2. 250 or 500 pieces per reel.
3. Drawing not to scale.
4. All dimensions are in millimeters.
Figure 31. Reel dimensions
15
USER FEED DIRECTION
CATHODE SIDE
PRINTED LABEL
Figure 32. Reeling Orientation
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 © 2005-2012 Avago Technologies. All rights reserved.
AV02-1941EN - May 16, 2012
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