WICOP2_Application Note_CN

Application Brief
WICOP2
New Generation of WICOP
介绍
为了保证WICOP2系列产品的光效和稳定的性能，本应用手册针对WI
COP2系列产品的组装与处理进行了建议，
梗概
本手册针对如下产品进行了组装与处理的建议
Z8 YXX-WA-CN
XX
Designates packaging size
( 19 for 1.81x1.81mm size, 15 for 1.41x1.41mm size)
A
White Color (0 for Cool, N for Neutral, W for Warm)
N
Designates CRI (7 for CRI min.70, 8 for CRI min. 80, 9 for CRI min. 90)
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Table of Contents
Index
•
Introduction
1
•
Scope
1
•
Table of Contents
2
•
Component
3
•
Printed Circuit Board Design Guideline
6
•
Thermal Measurement Guideline
8
•
Assembly Process Guideline
10
•
Array Design Guideline
13
•
WICOP2 Characteristic Graph
15
•
Company Information
19
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1. 内容
1.1 描述
Anode
0,3
0,56
Cathode
0,56
WICOP2是基于CSP技术的产品 。他们具有体积小，功率高，等特点。WICOP2
也是使用高亮度的InGaN芯片，无ESD防护二极管的设置。
WICOP2的底部包含两个大小相同的正负电极(见图一) 。
1,41
BOTTOM VIEW
Z8Y19
SIDE VIEW
Cathode
BOTTOM VIEW
Z8Y15
SIDE VIEW
Figure 1. WICOP 2 Z8Y19, Z8Y15 Solder Pad Dimensions.
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1.2 光学中心
Z8Y19 的发光中心是距离LED边缘0.955mm的位置。Z8Y15的发光中心是距离LE
D边缘0.705mm的位置(见图二)
0.905mm
0.705mm
Z8Y15
Z8Y19
Figure 2. Optical Centers of the WICOP 2 Series
1.3 手工作业注意事项
不适合的处理方式会造成LED芯片的损伤，会影响LED的亮度和可靠性。为了
尽量减小在处理过程中对LED的损伤，WICOP2的拾取应该是用自动SMT设备或
者真空镊子来吸取。当处理完LED后请不要用手或金属镊子触碰，也要避免压
迫LED表面。(见图三a)
贴装LED后请不要再将LED翻转，不要将多层PCB堆在一起。因为LED的表面为
软质的硅胶.WICOP2的表面的污损会造成硅胶的损伤，此外对LED的的压迫也
会造成硅胶层或者内部芯片的损伤。如果需要手工拾取，建议使用塑料材质
镊子夹取(见图三b)
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Figure 3 (a). Incorrect handling of WICOP 2 LEDs
Figure 3 (b). correct handling
of WICOP 2 LEDs with plastic tweezers
Figure 3 (b). Incorrect handling of WICOP 2 LEDs
1.4 清理
WICOP2 LED应该避免直接接触灰尘和污物。灰尘和污物会使LED光通量降低。
如果需要清理LED表面建议使用压缩气体在距离6 ”的位置来清理，压缩气体
枪喷嘴最好大小为20 psi .
1.5 电极隔离
WICOP2底部有2个电极相距0.3mm。为了避免电流冲击或者损伤WICOP2，每
个电极的设计都需要依照相关标准进行。
1.6 结构文件
WICOP2的结构文件（2D,3D文件）可以申请
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2. 印制电路设计指导
WICOP2可以设计焊接在附铜的基板上（MCPCB）。为了使设计更加优化，建
议PCB尽量减少LED到散热器上的热阻。并且正负极之间不要印制PSR来避免失
效的情况。
No
PSR
2.1 焊管脚
Figure 4. Recommended open PSR between Anode and Cathode.
0,56
ST
0,3
0,56
Anode
0,3
0,56
Cathode
0,56
为了使LED更好的挥特性，WICOP2需要焊接在具有相匹配焊垫的PCB上。具体
焊垫大小尺寸请参见图4.
WICOP2的电极也是PCB和LED间的散热垫。为了使热量更好的从LED散到PCB，
建议最好将附铜层扩大到距离中心4mm的面积.
1,41
1,41
0,98
0,34
0,98
0,34
Figure 5 (a). Recommended PCB Footprint for. Y19 All dimensions in mm.
0,91
0,91
0,31
0,31
0,3
Cathode
Figure 5 (b). Recommended PCB Footprint for. Y15 All dimensions in mm.
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2.2 Silk Color
The performance of an WICOP 2 can be impacted by the color of the silk screen
used on the PCB. There can be an efficacy loss due to optical absorption by a black
color. It is recommended to either use yellow color for the silk screen or not to use
any markings around a WICOP 2 as shown in Figure 5.
X
O
Figure 5. WICOP 2 Silk color Recommendations
2.3 PCB Artwork
The PCB design for the WICOP 2 Series can impact the thermal performance of
the end product.
Figure 6 shows two different artwork designs for the same circuit.
The red pattern indicate the copper traces. Wide copper traces should be used to
allow a robust thermal path for the anode and cathode pads.
X
O
Figure 6. PCB layout recommendations
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2.4 PSR (Photo Solder Resist)
Seoul Semiconductor recommends a PCB with high optical reflectivity PSR for the
WICOP 2. Because of the radiation pattern of the LED, the reflectivity of the PCB
(PSR) can impact the optical efficacy.
It is recommended that the reflectivity of the PSR is greater than 80%.
首尔建议使用PSR 型号为 P/N : RPW-8000-xx (Tamura)
2.5 最小距离
Seoul Semiconductor recommends a minimum edge to edge spacing between
adjacent WICOP 2 of 0.2mm.
The spacing of multiple WICOP 2 can impact the performance of a LED system in
two ways.
1) Heat dissipation: Close spacing of the LEDs may limit the PCB’s to ability to
dissipate the heat from the LEDs.
2) Optical Absorption: Close spacing of the LEDs could impact the light output due
to optical absorption or cross talk between adjacent LEDs.
More information on this can be found in the array guidelines(Section 5).
3. 热测量指导
本部分介绍了如何测试和确定LED结温，来验证不同应用是否超出了LED规格
书所规定的结温.LED的P/N结到焊盘的热阻可以在规格书上找到。对WICOP2来
说，电极也是散热垫。结合这些事实LED的结温可以用如下公式来计算：
Tj = TS + RƟjs • Pelectrical
在这个公式中Pelectrical是LED自身的消耗功率，Ts测试点是LED底部的任意一
个电极。其中两个电极都是与PCB的附铜层相连 的。
Due to the size of the WICOP 2, it may be difficult to measure the thermal pad
temperature directly. Therefore, a practical way to determine the WICOP 2 junction
temperature is by measuring the temperature Ts of a predetermined sensor pad on
the PCB close to the WICOP 2 with a thermocouple as shown in Figure 7.
To ensure accurate readings, the thermocouple must make direct contact with the
copper of the PCB onto which the WICOP 2 electrode pads are soldered, i.e. any
solder mask or other masking layer must be first removed before mounting the
thermocouple onto the PCB.
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Figure 7. Recommended Ts configuration
下面几点建议可以帮助您确定大概Ts测温点的位置，以便在LED阵列应用中避
免超过最大的结温：
a. 如果在PCB上没有设计对称的附铜层，最好把Ts测温点放置在电极（正极或
负极）旁边，在这个电极上热扩散到PCB是最受阻碍的。即该电极焊接在附
铜最少的地方。
b. 如果LED使用不同电流驱动，一般都是测量LED最大功率状态时。
在1.5mm厚的Al-MCPCB（2oz 附铜 或者80~100µm 厚，导热率5W/m·K ）时，
LED从P/N结到Ts测温点的热阻是3K/W。
如果LED 基板设计有很多LED数量时，还需要额外测试这些LED中心部位的温度
才是最准确的。
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4. 矩阵设计指导
4.1 印制板设计
为了设计适合的WICOP2印制电路板和管脚PCB(见图4)，要求板材的厚度为80~
100μm。小巧的线路布局是为了避免焊接部分开焊和避免锡膏偶然的造成正
负极短接，隐隐正负极之间仅有300μm的距离(见图 2.1 WICOP 2 Solder
Footprint)
4.2 拾取和安放
WICOP2 LED 需要使用自动贴片机来进行，吸嘴形式见图8
鉴于拾取和贴装的实验，首尔半导体建议依照下列要求进行：
1. 吸嘴的顶部应正对在LED表面平坦的位置。
2. 吸嘴顶部应该进行清理不要有任何污染。
3. 在最初的生产过程中，需要在显微镜下检查WICOP2的顶部，确认发光部
位没有收到任何损伤，尤其是没有被吸嘴等贴装过程损害。
Items
Outer diameter X
Y15
1.2~1.6 mm
Y19
1.6~1.75 mm
Inner diameter Y
0.5~0.65 mm
0.95~1.05
Materials
Rubber or Ceramic
Figure 8. Pick and place nozzle design and dimensions
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4.3 焊锡膏
首尔半导体建议使用免清洗锡膏，成分组成： SnAgCu (tin/silver/copper)
4.4 印制电路
建议印制板的厚度0.08~0.1mm。为了保证印制板的品质，建议参考如下要求：
1. 印制板需要保持平滑，没有毛刺，没有污染。
2. 印制板需要保持一致的厚度。
3. 印制板和PCB的位置公差应该足够小，保证锡膏在印刷后不会从管脚处流
出。
Items
Squeeze
conditions
Stencil mask
Remark
Pressure
2.5-5.0Kgf/㎠
Distance
2-4mm
Velocity
20-100mm/sec
Thickness
0.08~0.10mm
Vacuum
0.5±0.05mpa
Solder paste area
X, Y Tolerance
60~70%
±150 um
Table 1. Stencil mask and soldering information.
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4.5 回流焊工艺
WICOP2可应用于标准回流焊焊接工艺，下图为温度曲线的参考具体参数参见
Figure 9 and Table 2
Figure 9. Solder reflow profile.
Table 2. Recommended reflow conditions
Profile Feature
Pb-Free Assembly
Average ramp-up rate (Tsmax to Tp)
3° C/second max.
Preheat
- Temperature Min (Tsmin)
- Temperature Max (Tsmax)
- Time (Tsmin to Tsmax) (ts)
150 °C
180 °C
80-120 seconds
Time maintained above:
- Temperature (TL)
- Time (tL)
217~220°C
80-100 seconds
Peak Temperature (Tp)
250~255℃
Time within 5°C of actual Peak
Temperature (tp)2
20-40 seconds
Ramp-down Rate
6 °C/second max.
Time 25°C to Peak Temperature
8 minutes max.
Atmosphere
Nitrogen (O2<1000ppm)

Table parameters established based on SMIC: M705-GRN360-K2-V (solder paste)
注意事项
(1) 不要进行重复焊接。如果必须要重复焊接的话，需要仔细的检查和维修。
(2) 在加热时不要对LED施加任何压力。
推荐
(3) 回流焊接后不要弯折PCB板。
(1) TOV/IR Test 1.8v~2.1v at 1uA (per LED)
(4) 回流焊后不要对PCB进行任何清洗。
(5) 焊接后建议开关电流(@0.1~1mA)
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5. WICOP 2 阵列设计指导
首尔半导体建议LED和LED的最小间距为0.2mm。太近距离会导致热量过于集中
从而影响LED。
5.1 效率与距离的关系
LED的出光效率与LED的位置有关。LED位置太近会导致光通的损失。下面的数
据说明了距离为1mm是效率的变化情况(Figure 11).
测试信息，LED驱动到2W/Pkg。 PCB使用1.5mm厚度的 Al-MCPCB, 1.5mm X
1.5mm 大小的板材， 2oz 的附铜。
Figure 10. Simulation and device configurations
Figure 11. Simulation and Device test results.
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测试结果表明光会被临近的LED所吸收具体数据见Figure 8。这部分损失并不是
热损。具体测试条件是25°C脉冲驱动LED到2W的情况测试的。模拟和实际测试
结果稍有不同，单是光效的变化趋势是一致的。这些细微的差距可以看做是LE
D在焊接时的损失。
5.2 结温与距离的关系
将WICOP2 LED设计的过于紧凑会导致热的相互影响。LED数量和PCB的配置可
以擦考结温的热模拟模型。 Figures 12 和 13 是不同距离时的热模拟结果
Figure 12. Thermal simulation configurations.
Figure 13. Thermal simulation results depend on WICOP 2s’ distance.
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6. WICOP2 Characteristics Graph (Z8Y19)

Junction Temperature vs. Relative Luminous Output, IF = 700mA
120
Relative luminous flux [%]
100
80
60
40
X
Y
25
111.8
50
106.0
70
102.3
85
100
100
96.4
125
91.1
145
87.1
X
Y
25
0.14
50
0.06
70
0.02
20
0
25
50
75
100
125
o
Junction Temperature [ C]

Junction Temperature vs. Relative Forward Voltage, IF = 700mA
0.25
0.20
0.15
 VF
0.10
85
0
0.05
100
-0.03
0.00
125
-0.06
145
-0.09
-0.05
-0.10
-0.15
-0.20
25
50
75
100
125
o
Junction Temperature [ C]
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
Forward Current vs. Forward Voltage, TJ = 85℃
2.2
2.0
Forward Current [A]
1.8
1.6
X
Y
2.71
0.1
2.88
0.3
3.01
0.5
1.4
3.12
0.7
1.2
3.26
1.0
1.0
3.40
1.4
0.8
3.44
1.6
0.6
3.48
1.8
0.4
3.51
2.0
X
Y
100
16.2
300
46.9
500
74.1
700
100
1000
136.1
1400
179.4
1600
198.9
1800
216.3
2000
233.7
0.2
0.0
2.6
2.8
3.0
3.2
3.4
3.6
Forward Voltage [V]

Forward Current vs. Relative Luminous Flux, TJ = 85℃
240
Relative Luminous Flux [%]
220
200
180
160
140
120
100
80
60
40
20
0
0
200
400
600
800
1000 1200 1400 1600 1800 2000
Forward Current [mA]
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7. WICOP2 Characteristics Graph (Z8Y15)

Junction Temperature vs. Relative Luminous Output, IF = 700mA
120
Relative luminous flux [%]
100
80
60
40
X
Y
25
111.8
50
106.0
70
102.3
85
100
100
96.4
125
91.1
145
87.1
20
0
25
50
75
100
125
o
Junction Temperature [ C]

Junction Temperature vs. Relative Forward Voltage, IF = 700mA
0.30
X
Y
0.25
25
0.26
0.20
40
0.17
80
0.01
 VF
0.15
85
0
0.10
100
-0.04
0.05
125
-0.08
130
-0.09
145
-0.12
0.00
-0.05
-0.10
-0.15
25
50
75
100
125
o
Junction Temperature [ C]
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
Forward Current vs. Forward Voltage, TJ = 85℃
1.4
Forward Current [A]
1.2
1.0
0.8
0.6
0.4
X
Y
2.52
0.1
2.74
0.3
2.93
0.5
3.09
0.7
3.16
0.8
3.23
0.9
3.30
1.0
3.36
1.1
3.42
1.2
X
Y
100
18.2
300
49.1
500
76.0
700
100
800
111.2
900
121.8
1000
131.9
1100
141.6
1200
151.0
0.2
0.0
2.4
2.6
2.8
3.0
3.2
3.4
3.6
Forward Voltage [V]

Forward Current vs. Relative Luminous Flux, TJ = 85℃
160
Relative Luminous Flux [%]
140
120
100
80
60
40
20
0
0
100 200 300 400 500 600 700 800 900 1000 1100 1200
Forward Current [mA]
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Company Information
Published by
Seoul Semiconductor © 2013 All Rights Reserved.
Company Information
Seoul Semiconductor (www.SeoulSemicon.com) manufacturers and packages a wide selection of
light emitting diodes (LEDs) for the automotive, general illumination/lighting, Home appliance, signage
and back lighting markets. The company is the world’s fifth largest LED supplier, holding more than
10,000 patents globally, while offering a wide range of LED technology and production capacity in
areas such as “nPola”, "Acrich", the world’s first commercially produced AC LED, and "Acrich MJT Multi-Junction Technology" a proprietary family of high-voltage LEDs.
The company’s broad product portfolio includes a wide array of package and device choices such as
Acrich and Acirch2, high-brightness LEDs, mid-power LEDs, side-view LEDs, and through-hole type
LEDs as well as custom modules, displays, and sensors.
Legal Disclaimer
Information in this document is provided in connection with Seoul Semiconductor products. With
respect to any examples or hints given herein, any typical values stated herein and/or any information
regarding the application of the device, Seoul Semiconductor hereby disclaims any and all warranties
and liabilities of any kind, including without limitation, warranties of non-infringement of intellectual
property rights of any third party. The appearance and specifications of the product can be changed
to improve the quality and/or performance without notice.
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