LZ1-30CW00-0000 [ETC]
LED EMITTER WHT 227LM MINI MCPCB;型号: | LZ1-30CW00-0000 |
厂家: | ETC |
描述: | LED EMITTER WHT 227LM MINI MCPCB PC |
文件: | 总17页 (文件大小:884K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
High Luminous Efficacy
Cool White LED Emitter
LZ1-00CW00
Key Features
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High Luminous Efficacy Cool White LED
Ultra-small foot print – 4.4mm x 4.4mm
Surface mount ceramic package with integrated glass lens
Low Thermal Resistance (10°C/W)
High Luminous Flux density
Spatial color uniformity across radiation pattern
New industry standard for Lumen Maintenance
Autoclave complaint (JEDEC JESD22-A102-C)
JEDEC Level 1 standard for Moisture Sensitivity Level
Lead (Pb) free and RoHS compliant
Reflow solderable (up to 6 cycles)
Emitter available on Standard or Miniature MCPCB (optional)
Typical Applications
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Architectural lighting
Street lighting
Display Backlighting
Flashlight and Portable lighting
Signaling
Automotive
Description
The LZ1-00CW00 White LED emitter provides power in an extremely small package. With a 4.4mm x 4.4mm ultra-
small footprint, this package provides exceptional luminous flux density, up to 5 times greater than competitors’
equivalent products. LED Engin’s patent-pending thermally insulated phosphor layer provides a spatially uniform
color across the radiation pattern and a consistent CCT over time and temperature. The high quality materials
used in the package are chosen to optimize light output and minimize stresses which results in monumental
reliability and lumen maintenance. The robust product design thrives in outdoor applications with high ambient
temperatures and high humidity.
COPYRIGHT © 2015 LED ENGIN. ALL RIGHTS RESERVED.
LZ1-00CW00 (2.5-02/06/15)
LED Engin | 651 River Oaks Parkway | San Jose, CA 95134 USA | ph +1 408 922 7200 | fax +1 408 922 0158 | em sales@ledengin.com | www.ledengin.com
Part number options
Base part number
Part number
Description
LZ1-00CW00-xxxx
LZ1-10CW00-xxxx
LZ1-30CW00-xxxx
LZ1 emitter
LZ1 emitter on Standard Star MCPCB
LZ1 emitter on Miniature round MCPCB
Bin kit option codes
CW, Cool White (5000K – 6500K)
Min
flux
Bin
Kit number
suffix
Chromaticity bins
Description
1U, 1A, 1B, 1V, 1Y, 1D, 1C, 1X, 2U, 2A, 2B, 2V, 2Y,
2D, 2C, 2X, 3U, 3A, 3B, 3V, 3Y, 3D, 3C, 3X
0000
P
full distribution flux; full distribution CCT
2U, 2Y, 3U, 2A, 2D, 3A, 2B, 2C, 3B, 2V, 2X, 3V
1U, 1A, 1B, 1V, 1Y, 1D, 1C, 1X, 2U, 2A, 2B, 2V
0055
0065
P
P
full distribution flux; 5500K bin
full distribution flux; 6500K bin
Notes:
1. Default bin kit option is -0000
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LED Engin | 651 River Oaks Parkway | San Jose, CA 95134 USA | ph +1 408 922 7200 | fax +1 408 922 0158 | em sales@ledengin.com | www.ledengin.com
Cool White Chromaticity Groups
0.40
3X
0.38
0.36
0.34
0.32
0.30
0.28
3V
3C
2X
2C
3B
2V
Planckian Locus
3D
1X
1C
2B
3A
3U
1V
3Y
2D
2Y
2A
2U
1B
1D
1Y
1A
1U
0.28
0.30
0.32
0.34
0.36
0.38
CIEx
Standard Chromaticity Groups plotted on excerpt from the CIE 1931 (2°) x-y Chromaticity Diagram.
Coordinates are listed below in the table.
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LED Engin | 651 River Oaks Parkway | San Jose, CA 95134 USA | ph +1 408 922 7200 | fax +1 408 922 0158 | em sales@ledengin.com | www.ledengin.com
Cool White Bin Coordinates
Bin code CIEx
0.3068
CIEy
Bin code CIEx
0.3048
CIEy
0.3207
0.329
Bin code CIEx
0.3028
CIEy
Bin code CIEx
0.3005
CIEy
0.3113
0.3186
0.3059
0.2993
0.3113
0.3186
0.3261
0.312
0.3059
0.3186
0.3243
0.33
0.3304
0.3391
0.329
0.3207
0.3304
0.3391
0.3481
0.3373
0.329
0.3391
0.3462
0.3538
0.3417
0.335
0.3462
0.3538
0.3616
0.349
0.3417
0.3538
0.3616
0.3687
0.3554
0.349
0.3616
0.3687
0.376
0.3415
0.3509
0.3391
0.3304
0.3415
0.3509
0.3602
0.3481
0.3391
0.3509
0.3602
0.369
0.3538
0.3462
0.3602
0.369
0.3762
0.3616
0.3538
0.369
0.3144
0.3161
0.3093
0.3068
0.3144
0.3221
0.3231
0.3161
0.3144
0.3222
0.329
0.313
0.3115
0.3099
0.3115
0.3028
0.3005
0.3099
0.3196
0.3205
0.3115
0.3099
0.3196
0.329
1U
1Y
2U
2Y
3U
3Y
1A
1D
2A
2D
3A
3D
0.3144
0.3068
0.3048
0.313
0.3213
0.3221
0.3144
0.313
0.3215
0.329
0.329
0.3222
0.3215
0.329
0.3371
0.3366
0.329
0.3186
0.3113
0.3207
0.329
0.3373
0.3261
0.3186
0.329
0.335
0.3417
0.33
0.3243
0.335
0.3417
0.349
0.3369
0.33
0.3417
0.349
0.3554
0.3427
0.3369
0.349
0.3554
0.362
0.3487
0.3427
0.3554
1B
1C
2B
2C
3B
3C
0.313
1V
1X
2V
2X
3V
3X
0.3048
0.3028
0.3115
0.3205
0.3213
0.313
0.3115
0.3207
0.329
0.329
0.318
0.312
0.329
0.329
0.3231
0.3222
0.329
0.3215
0.3207
0.329
0.3376
0.3371
0.329
0.3207
0.3196
0.329
0.3243
0.33
0.3369
0.3245
0.318
0.3366
0.3361
0.329
0.3381
0.3376
0.329
0.329
0.3366
0.344
0.33
0.329
0.329
0.329
0.3381
0.348
0.3369
0.3428
0.3299
0.3245
0.3369
0.3428
0.3487
0.3339
0.3299
0.3428
0.3371
0.3451
0.344
0.3366
0.3371
0.3451
0.3533
0.3515
0.344
0.3376
0.3463
0.3451
0.3371
0.3376
0.3463
0.3551
0.3533
0.3451
0.3463
0.3762
0.384
0.3429
0.3361
0.3366
0.344
0.3463
0.3376
0.3381
0.348
0.3687
0.3616
0.3762
0.384
0.3907
0.376
0.3515
0.3495
0.3429
0.344
0.3571
0.3551
0.3463
0.348
0.362
0.3554
0.3687
0.3687
0.384
0.3451
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LED Engin | 651 River Oaks Parkway | San Jose, CA 95134 USA | ph +1 408 922 7200 | fax +1 408 922 0158 | em sales@ledengin.com | www.ledengin.com
Luminous Flux Bins
Table 1:
Minimum
Maximum
Typical
Luminous Flux (ΦV)
@ IF = 1200mA[2]
(lm)
Bin
Code
Luminous Flux (ΦV)
@ IF = 1000mA[1,2]
(lm)
Luminous Flux (ΦV)
@ IF = 1000mA[1,2]
(lm)
P
Q
182
228
228
285
229
282
Notes for Table 1:
1. Luminous flux performance guaranteed within published operating conditions. LED Engin maintains a tolerance of ± 10% on flux measurements.
2. Future products will have even higher levels of luminous flux performance. Contact LED Engin Sales for updated information.
Forward Voltage Bins
Table 2:
Minimum
Forward Voltage (VF)
@ IF = 1000mA[1]
(V)
Maximum
Forward Voltage (VF)
@ IF = 1000mA[1]
(V)
Bin
Code
0
3.20
4.2
Notes for Table 2:
1. LED Engin maintains a tolerance of ± 0.04V for forward voltage measurements.
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LED Engin | 651 River Oaks Parkway | San Jose, CA 95134 USA | ph +1 408 922 7200 | fax +1 408 922 0158 | em sales@ledengin.com | www.ledengin.com
Absolute Maximum Ratings
Table 3:
Parameter
Symbol
Value
Unit
mA
mA
mA
V
°C
°C
°C
DC Forward Current at Tjmax=135°C[1]
DC Forward Current at Tjmax=150°C[1]
Peak Pulsed Forward Current[2]
Reverse Voltage
IF
IF
IFP
VR
Tstg
TJ
1200
1000
2000
See Note 3
-40 ~ +150
150
Storage Temperature
Junction Temperature
Soldering Temperature[4]
Allowable Reflow Cycles
Tsol
260
6
121°C at 2 ATM,
100% RH for 168 hours
Autoclave Conditions[5]
> 8,000 V HBM
Class 3B JESD22-A114-D
ESD Sensitivity[6]
Notes for Table 3:
1.
Maximum DC forward current is determined by the overall thermal resistance and ambient temperature.
Follow the curves in Figure 10 for current derating.
2:
3.
4.
5.
6.
Pulse forward current conditions: Pulse Width ≤ 10msec and Duty cycle ≤ 10%.
LEDs are not designed to be reverse biased.
Solder conditions per JEDEC 020D. See Reflow Soldering Profile Figure 5.
Autoclave Conditions per JEDEC JESD22-A102-C.
LED Engin recommends taking reasonable precautions towards possible ESD damages and handling the LZ1-00CW00 in an electrostatic protected area (EPA).
An EPA may be adequately protected by ESD controls as outlined in ANSI/ESD S6.1.
Optical Characteristics @ TC = 25°C
Table 4:
Parameter
Symbol
Typical
Unit
Luminous Flux (@ IF = 1000mA)
Luminous Efficacy (@ IF = 350mA)
Correlated Color Temperature
Color Rendering Index (CRI)
Viewing Angle[1]
ΦV
227
90
5500
75
85
125
lm
lm/W
K
CCT
Ra
2Θ1/2
Θ0.9V
Degrees
Degrees
Total Included Angle[2]
Notes for Table 4:
1.
2.
Viewing Angle is the off axis angle from emitter centerline where the luminous intensity is ½ of the peak value.
Total Included Angle is the total angle that includes 90% of the total luminous flux.
Electrical Characteristics @ TC = 25°C
Table 5:
Parameter
Symbol
Typical
Unit
Forward Voltage (@ IF = 1000mA)
Forward Voltage (@ IF = 1200mA)
VF
VF
3.6
3.7
V
V
Temperature Coefficient
of Forward Voltage
ΔVF/ΔTJ
RΘJ-C
-2.8
10
mV/°C
°C/W
Thermal Resistance
(Junction to Case)
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LED Engin | 651 River Oaks Parkway | San Jose, CA 95134 USA | ph +1 408 922 7200 | fax +1 408 922 0158 | em sales@ledengin.com | www.ledengin.com
IPC/JEDEC Moisture Sensitivity Level
Table 6 - IPC/JEDEC J-STD-20D.1 MSL Classification:
Soak Requirements
Floor Life
Conditions
Standard
Conditions
Accelerated
Level
1
Time
Time (hrs)
Time (hrs)
Conditions
≤ 30°C/
168
+5/-0
85°C/
85% RH
Unlimited
n/a
n/a
85% RH
Notes for Table 6:
1.
The standard soak time includes a default value of 24 hours for semiconductor manufacturer’s exposure time (MET) between bake and bag and
includes the maximum time allowed out of the bag at the distributor’s facility.
Average Lumen Maintenance Projections
Lumen maintenance generally describes the ability of a lamp to retain its output over time. The useful lifetime for
solid state lighting devices (Power LEDs) is also defined as Lumen Maintenance, with the percentage of the original
light output remaining at a defined time period.
Based on long-term WHTOL testing, LED Engin projects that the LZ Series will deliver, on average, 70% Lumen
Maintenance at 65000 hours of operation at a forward current of 1000 mA. This projection is based on constant
current operation with junction temperature maintained at or below 125°C.
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Mechanical Dimensions (mm)
Pin Out
Function
Pad
1
Cathode
Anode
2
3
Anode
4
5[2]
Cathode
Thermal
1
2
5
4
3
Figure 1: Package outline drawing.
Notes for Figure 1:
1.
2.
Unless otherwise noted, the tolerance = ± 0.20 mm.
Thermal contact, Pad 5, is electrically connected to the Anode, Pads 2 and 3. Do not connect any pad to the thermal contact, Pad # 5. When mounting the
LZ1-00CW00 onto a MCPCB, by default its dielectric layer provides for the necessary electrical insulation in between all contact pads. LED Engin offers LZ1-
10CW00 and LZ1-30CW00 MCPCB options which provide for electrical insulation between all contact pads. Please refer to Application Note MCPCB Option 1
and Option 3, or contact a LED Engin sales representative for more information.
Recommended Solder Pad Layout (mm)
Figure 2: Recommended solder mask opening (hatched area) for anode, cathode, and thermal pad.
Unless otherwise noted, the tolerance = ± 0.20 mm.
Note for Figure 2:
1.
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LED Engin | 651 River Oaks Parkway | San Jose, CA 95134 USA | ph +1 408 922 7200 | fax +1 408 922 0158 | em sales@ledengin.com | www.ledengin.com
Reflow Soldering Profile
Figure 3: Reflow soldering profile for lead free soldering.
Typical Radiation Pattern
100
90
80
70
60
50
40
30
20
10
0
-90 -80 -70 -60 -50 -40 -30 -20 -10 0 10 20 30 40 50 60 70 80 90
Angular Displacement (Degrees)
Figure 4: Typical representative spatial radiation pattern.
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LED Engin | 651 River Oaks Parkway | San Jose, CA 95134 USA | ph +1 408 922 7200 | fax +1 408 922 0158 | em sales@ledengin.com | www.ledengin.com
Typical Relative Spectral Power Distribution
1
0.9
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0
350
400
450
500
550
600
650
700
750
800
Wavelength (nm)
Figure 5: Relative spectral power vs. wavelength @ TC = 25°C.
Typical Relative Light Output
140
120
100
80
60
40
20
0
0
200
400
600
800
1000
1200
1400
1600
IF - Forward Current (mA)
Figure 6: Typical relative light output vs. forward current @ TC = 25°C.
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LED Engin | 651 River Oaks Parkway | San Jose, CA 95134 USA | ph +1 408 922 7200 | fax +1 408 922 0158 | em sales@ledengin.com | www.ledengin.com
Typical Relative Light Output over Temperature
120
110
100
90
80
70
60
0
20
40
60
80
100
120
Case Temperature (°C)
Figure 7: Typical relative light output vs. case temperature.
Typical Forward Current Characteristics
1600
1400
1200
1000
800
600
400
200
0
2.9
3
3.1
3.2
3.3
3.4
3.5
3.6
3.7
3.8
3.9
VF - Forward Voltage (V)
Figure 8: Typical forward current vs. forward voltage @ TC = 25°C.
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LED Engin | 651 River Oaks Parkway | San Jose, CA 95134 USA | ph +1 408 922 7200 | fax +1 408 922 0158 | em sales@ledengin.com | www.ledengin.com
Current De-rating
1600
1400
1200
1000
(Rated)
800
600
400
200
RΘJ-A = 9°C/W
RΘJ-A = 13°C/W
RΘJ-A = 17°C/W
0
0
25
50
75
100
125
150
Maximum Ambient Temperature (ºC)
Figure 9: Maximum forward current vs. ambient temperature based on TJ(MAX) = 150°C.
Notes for Figure 9:
1.
2.
RΘJ-C [Junction to Case Thermal Resistance] for the LZ1-00CW00 is typically 10°C/W.
RΘJ-A [Junction to Ambient Thermal Resistance] = RΘJ-C + RΘC-A [Case to Ambient Thermal Resistance].
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LED Engin | 651 River Oaks Parkway | San Jose, CA 95134 USA | ph +1 408 922 7200 | fax +1 408 922 0158 | em sales@ledengin.com | www.ledengin.com
Emitter Tape and Reel Specifications (mm)
Figure 10: Emitter carrier tape specifications (mm).
Figure 11: Emitter reel specifications (mm).
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LED Engin | 651 River Oaks Parkway | San Jose, CA 95134 USA | ph +1 408 922 7200 | fax +1 408 922 0158 | em sales@ledengin.com | www.ledengin.com
LZ1 MCPCB Family
Emitter + MCPCB
Thermal Resistance
(oC/W)
Diameter
Typical Vf Typical If
Part number Type of MCPCB
(mm)
(V)
(mA)
LZ1-1xxxxx
LZ1-3xxxxx
1-channel Star
1-channel Mini
19.9
11.5
10.5 + 1.5 = 12.0
10.5 + 2.0 = 12.5
3.6
3.6
1000
1000
Mechanical Mounting of MCPCB
.
MCPCB bending should be avoided as it will cause mechanical stress on the emitter, which could lead to
substrate cracking and subsequently LED dies cracking.
.
To avoid MCPCB bending:
o
o
Special attention needs to be paid to the flatness of the heat sink surface and the torque on the screws.
Care must be taken when securing the board to the heat sink. This can be done by tightening three M3
screws (or #4-40) in steps and not all the way through at once. Using fewer than three screws will
increase the likelihood of board bending.
o
o
It is recommended to always use plastics washers in combinations with the three screws.
If non-taped holes are used with self-tapping screws, it is advised to back out the screws slightly after
tightening (with controlled torque) and then re-tighten the screws again.
Thermal interface material
.
.
.
To properly transfer heat from LED emitter to heat sink, a thermally conductive material is required when
mounting the MCPCB on to the heat sink.
There are several varieties of such material: thermal paste, thermal pads, phase change materials and thermal
epoxies. An example of such material is Electrolube EHTC.
It is critical to verify the material’s thermal resistance to be sufficient for the selected emitter and its operating
conditions.
Wire soldering
.
To ease soldering wire to MCPCB process, it is advised to preheat the MCPCB on a hot plate of 125-150oC.
Subsequently, apply the solder and additional heat from the solder iron will initiate a good solder reflow. It is
recommended to use a solder iron of more than 60W.
.
It is advised to use lead-free, no-clean solder. For example: SN-96.5 AG-3.0 CU 0.5 #58/275 from Kester (pn:
24-7068-7601)
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LZ1-1xxxxx
1 channel, Standard Star MCPCB (1x1) Dimensions (mm)
Notes:
Unless otherwise noted, the tolerance = ± 0.2 mm.
Slots in MCPCB are for M3 or #4-40 mounting screws.
LED Engin recommends plastic washers to electrically insulate screws from solder pads and electrical traces.
LED Engin recommends using thermal interface material when attaching the MCPCB to a heat sink.
The thermal resistance of the MCPCB is: RΘC-B 1.5°C/W
Components used
MCPCB:
HT04503
(Bergquist)
(Diodes, Inc., for 1 LED die)
(Vishay Semiconductors, for 1 LED die)
ESD/TVS Diode: BZT52C5V1LP-7
VBUS05L1-DD1
Pad layout
MCPCB
Pad
Ch.
String/die Function
1,2,3
4,5,6
Cathode -
Anode +
1
1/A
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LZ1-3xxxxx
1 channel, Mini Round MCPCB (1x1) Dimensions (mm)
Notes:
Unless otherwise noted, the tolerance = ± 0.20 mm.
LED Engin recommends using thermal interface material when attaching the MCPCB to a heat sink.
The thermal resistance of the MCPCB is: RΘC-B 2.0°C/W
Components used
MCPCB:
HT04503
(Bergquist)
(Diodes, Inc., for 1 LED die)
(Vishay Semiconductors, for 1 LED die)
ESD/TVS Diode: BZT52C5V1LP-7
VBUS05L1-DD1
Pad layout
MCPCB
Pad
Ch.
String/die Function
1
2
Anode +
Cathode -
1
1/A
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Company Information
LED Engin, based in California’s Silicon Valley, develops, manufactures, and sells advanced LED emitters, optics and
light engines to create uncompromised lighting experiences for a wide range of entertainment, architectural,
general lighting and specialty applications. LuxiGen™ multi-die emitter and secondary lens combinations reliably
deliver industry-leading flux density, upwards of 5000 quality lumens to a target, in a wide spectrum of colors
including whites, tunable whites, multi-color and UV LEDs in a unique patented compact ceramic package. Our
LuxiTuneTM series of tunable white lighting modules leverage our LuxiGen emitters and lenses to deliver quality,
control, freedom and high density tunable white light solutions for a broad range of new recessed and
downlighting applications. The small size, yet remarkably powerful beam output and superior in-source color
mixing, allows for a previously unobtainable freedom of design wherever high-flux density, directional light is
required.
LED Engin is committed to providing products that conserve natural resources and reduce greenhouse emissions.
LED Engin reserves the right to make changes to improve performance without notice.
Please contact sales@ledengin.com or (408) 922-7200 for more information.
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