NICHIA NCSU276A-P1U395 Built-in esd protection device Datasheet

NICHIA STS-DA1-3417 <Cat.No.150123>
NICHIA CORPORATION
SPECIFICATIONS FOR UV LED
NCSU276AT-P1
● Pb-free Reflow Soldering Application
● Built-in ESD Protection Device
● RoHS Compliant
NICHIA STS-DA1-3417 <Cat.No.150123>
SPECIFICATIONS
(1) Absolute Maximum Ratings
Item
U375
U395
Symbol
Absolute Maximum Rating
Unit
Forward Current
IF
700
mA
Pulse Forward Current
IFP
1000
mA
Power Dissipation
PD
2.87
W
Junction Temperature
TJ
110
°C
Forward Current
IF
700
mA
Pulse Forward Current
IFP
1000
mA
Power Dissipation
PD
2.87
W
Junction Temperature
TJ
130
°C
IR
85
mA
Allowable Reverse Current
Operating Temperature
Topr
-10~85
°C
Storage Temperature
Tstg
-40~100
°C
* Absolute Maximum Ratings at TS=25°C.
* IFP conditions with pulse width ≤10ms and duty cycle ≤10%.
(2) Initial Electrical/Optical Characteristics
Item
U375
Condition
Typ
Max
Unit
Forward Voltage
VF
IF=500mA
3.55
-
V
Radiant Flux
Φe
IF=500mA
510
-
mW
λp
IF=500mA
375
-
nm
Δλ
IF=500mA
9.0
-
nm
VF
IF=500mA
3.5
-
V
Radiant Flux
Φe
IF=500mA
640
-
mW
Peak Wavelength
λp
IF=500mA
395
-
nm
Δλ
IF=500mA
12
-
nm
RθJS
-
14.4
17.5
°C/W
Peak Wavelength
Spectrum Half Width
Forward Voltage
U395
Symbol
Spectrum Half Width
Thermal Resistance
* Characteristics at TS=25°C.
* Radiant Flux value as per CIE 127:2007 standard.
* RθJS is Thermal Resistance from junction to TS measuring point.
* It is recommended to operate the LEDs at a current greater than 10% of the sorting current to stabilize the LED characteristics.
1
NICHIA STS-DA1-3417 <Cat.No.150123>
RANKS
Item
Rank
Forward Voltage
Radiant Flux
Peak Wavelength
Min
Max
M2
3.9
4.1
Lk2
3.6
3.9
Lk1
3.3
3.6
K2
3.1
3.3
P37d22
990
1080
P37d21
910
990
P36d22
835
910
P36d21
765
835
P35d22
700
765
P35d21
640
700
P34d22
590
640
P34d21
540
590
P33d22
495
540
P33d21
455
495
P32d22
415
455
P32d21
380
415
U395
390
400
U375
370
380
Unit
V
mW
nm
* Ranking at TS=25°C.
* Forward Voltage Tolerance: ±0.05V
* Radiant Flux Tolerance: ±6%
* Peak Wavelength Tolerance: ±3nm
* LEDs from the above ranks will be shipped.
The rank combination ratio per shipment will be decided by Nichia.
Radiant Flux Ranks by Peak Wavelength
Ranking by
P32d21
P34d21
P36d21
Radiant Flux
P32d22
P34d22
P36d22
Ranking by
P33d21
P35d21
P37d21
Peak Wavelength
P33d22
P35d22
P37d22
U375
U395
2
NICHIA STS-DA1-3417 <Cat.No.150123>
OUTLINE DIMENSIONS
* 本製品はRoHS指令に適合しております。
This product complies with RoHS Directive.
管理番号 No.
NCSU276A-P1
STS-DA7-6805
(単位 Unit:±0.2)
mm)
(単位 Unit: mm, 公差 Tolerance:
3.5
0.4
3.5
Anode Mark
2
2.9
3.2
1
3.2
0.5
Cathode
K
Anode
項目 Item
内容 Description
パッケージ材質
Package Materials
セラミックス
Ceramics
封止樹脂材質
Encapsulating Resin
Materials
シリコーン樹脂
Silicone Resin
電極材質
Electrodes Materials
金メッキ
Au-plated
レンズ材質
Lens Materials
シリコーン樹脂
Silicone Resin
質量
Weight
0.030g (TYP)
A
保護素子
Protection Device
3
NICHIA STS-DA1-3417 <Cat.No.150123>
SOLDERING
• Recommended Reflow Soldering Condition(Lead-free Solder)
1 to 5°C per sec
260°CMax
10sec Max
Pre-heat
180 to 200°C
60sec Max
Above 220°C
120sec Max
• Recommended Soldering Pad Pattern
4.1
3.5
0.6
(単位 Unit: mm)
* This LED is designed to be reflow soldered on to a PCB. If dip soldered or hand soldered,
Nichia cannot guarantee its reliability.
* Reflow soldering must not be performed more than twice.
* Avoid rapid cooling. Ramp down the temperature gradually from the peak temperature.
* Nitrogen reflow soldering is recommended. Air flow soldering conditions can cause optical degradation,
caused by heat and/or atmosphere.
* Since the silicone used in the encapsulating resin is soft, do not press on the encapsulant resin.
Pressure can cause nicks, chip-outs, encapsulant delamination and deformation, and wire breaks, decreasing reliability.
When using automatic pick and place machine, use a pick up nozzle which does not directly apply stress
to the encapsulation of the LEDs.
Recommended conditions:
Using a nozzle designed for the LEDs is recommended. (See Figure below)
* The nozzle must not have any direct contact with the encapsulating resin.
0.4
1.9
0.5
Direct contact with the encapsulating resin may result in internal disconnections causing the LED not to illuminate.
Φ3.5
4.5
A
0.15
A部拡大
Expansion of A
(単位 Unit: mm)
4
NICHIA STS-DA1-3417 <Cat.No.150123>
* Repairing should not be done after the LEDs have been soldered.
It should be confirmed beforehand whether the characteristics of the LEDs will or will not be damaged by repairing.
* When soldering, do not apply stress to the LED while the LED is hot.
* The recommended soldering pad pattern is designed for attachment of the LED without problems.
When precise mounting accuracy is required, such as high-density mounting, ensure that the size and shape of the pad
are suitable for the circuit design.
* When flux is used, it should be a halogen free flux. Ensure that the manufacturing process is not designed in a manner
where the flux will come in contact with the LEDs.
* Make sure that there are no issues with the type and amount of solder that is being used.
5
NICHIA STS-DA1-3417 <Cat.No.150123>
TAPE AND REEL DIMENSIONS
テーピング部 Tape
1.75 ±0.1
Anode Mark
Nxxx276x
STS-DA7-6949
(単位 Unit: mm)
0.3±0.05
3.7 ±0.1
2±0.054±0.1
12 +0.3
-0.1
8±0.1
5.5 ±0.05
Φ1.5+0.1
-0
管理番号 No.
2.25±0.1
Φ1.5+0.2
-0
3.7±0.1
エンボスキャリアテープ
Embossed Carrier Tape
トレーラ部/リーダ部 Trailer and Leader
トップカバーテープ
Top Cover Tape
引き出し方向
Feed
Direction
トレーラ部最小160mm(空部)
Trailer 160mm MIN(Empty Pockets)
LED装着部
Loaded Pockets
引き出し部最小100mm(空部)
Leader with Top Cover Tape
100mm MIN(Empty Pocket)
リーダ部最小400mm
Leader without Top Cover Tape 400mm MIN
リール部 Reel
330±2
17.5±1
13.5±1
* 数量は1リールにつき 3500個入りです。
Reel Size: 3500pcs
21 ±
* JIS C 0806電子部品テーピングに準拠しています。
0.
8
Φ1
3 ± 0.
2
Φ80 ±1
Φ
ラベル
Label
The tape packing method complies with JIS C 0806
(Packaging of Electronic Components on Continuous Tapes).
* 実装作業の中断などでエンボスキャリアテープをリールに巻き取る場合、
エンボスキャリアテープを強く(10N以上)締めないで下さい。
LEDがカバーテープに貼り付く可能性があります。
When the tape is rewound due to work interruptions,
no more than 10N should be applied to
the embossed carrier tape.
The LEDs may stick to the top cover tape.
6
NICHIA STS-DA1-3417 <Cat.No.150123>
PACKAGING - TAPE & REEL
シリカゲルとともにリールをアルミ防湿袋に入れ、熱シールにより封をします。
Reels are shipped with desiccants in heat-sealed moisture-proof bags.
シリカゲル
Desiccants
リール
Reel
管理番号 No.
Nxxxxxxx
STS-DA7-1109B
ラベル Label
UV LED
TYPE Nxxxxxxx
*******
LOT YMxxxx-RRR
QTY.
PCS
RoHS
熱シール
Seal
NICHIA CORPORATION 491 OKA, KAMINAKA, ANAN, TOKUSHIMA, JAPAN
警告ラベル Warning and Explanatory Labels
アルミ防湿袋
Moisture-proof Bag
LE
LED 放射
D
ビームを直接見たり触れたり
UV LED
LED
LED RADIATION
RADIATION
AVOID
EXPOSURE
TO
AVOID
EXPOSURE
TO BEAM
ビームを直接見たり触れたり
しないこと
しないこと
E
クラス3B
クラス3B LLED製品
D 製品
BEAM
3B
T
PRODUC
CLAS 3B LED PRODUCT
LED
CLASS
S
アルミ防湿袋を並べて入れ、ダンボールで仕切ります。
Moisture-proof bags are packed in cardboard boxes
with corrugated partitions.
ラベル Label
UV LED
TYPE Nxxxxxxx
*******
RANK RRR
QTY.
PCS
RoHS
NICHIA CORPORATION
491 OKA, KAMINAKA, ANAN, TOKUSHIMA, JAPAN
Nichia
LED
* 客先型名を*******で示します。
客先型名が設定されていない場合は空白です。
******* is the customer part number.
If not provided, it will not be indicated on the label.
* ロット表記方法についてはロット番号の項を
参照して下さい。
For details, see "LOT NUMBERING CODE"
in this document.
* 本製品はテーピングしたのち、輸送の衝撃から保護するためダンボールで梱包します。
Products shipped on tape and reel are packed in a moisture-proof bag.
They are shipped in cardboard boxes to protect them from external forces during transportation.
* 取り扱いに際して、落下させたり、強い衝撃を与えたりしますと、製品を損傷させる原因になりますので注意して下さい。
Do not drop or expose the box to external forces as it may damage the products.
* ダンボールには防水加工がされておりませんので、梱包箱が水に濡れないよう注意して下さい。
Do not expose to water. The box is not water-resistant.
* 輸送、運搬に際して弊社よりの梱包状態あるいは同等の梱包を行って下さい。
Using the original package material or equivalent in transit is recommended.
7
NICHIA STS-DA1-3417 <Cat.No.150123>
LOT NUMBERING CODE
Lot Number is presented by using the following alphanumeric code.
YMxxxx - RRR
Y - Year
Year
Y
2013
D
2014
E
2015
F
2016
G
2017
H
2018
I
M - Month
Month
M
Month
M
1
1
7
7
2
2
8
8
3
3
9
9
4
4
10
A
5
5
11
B
6
6
12
C
xxxx-Nichia's Product Number
RRR-Ranking by Wavelength, Ranking by Radiant Flux, Ranking by Forward Voltage
8
NICHIA STS-DA1-3417 <Cat.No.150123>
DERATING CHARACTERISTICS
NCSU276A-P1
管理番号 No. STS-DA7-6795
周囲温度-許容順電流特性
Ambient Temperature vs
Allowable Forward Current
Derating1
はんだ接合部温度(カソード側)-許容順電流特性
Solder Temperature(Cathode Side) vs
Allowable Forward Current
Derating2
RθJA =27.4°C/W
1000
800
(36, 700)
許容順電流
600
400
(85, 230)
200
Allowable Forward Current(mA)
許容順電流
Allowable Forward Current(mA)
1000
800
(63, 700)
600
400
(85, 370)
200
0
0
0
20
40
60
80
100
120
0
20
40
60
80
100
周囲温度
はんだ接合部温度(カソード側)
Ambient Temperature(°C)
Solder Temperature(Cathode Side)(°C)
デューティー比-許容順電流特性
Duty Ratio vs
Allowable Forward Current
Duty
120
T A =25°C
許容順電流
Allowable Forward Current(mA)
10000
1000
700
100
1
10
100
デューティー比
Duty Ratio(%)
* 本特性はピーク波長ランクU375に対応しています。
The graphs above show the characteristics for U375 LEDs of this product.
9
NICHIA STS-DA1-3417 <Cat.No.150123>
DERATING CHARACTERISTICS
NCSU276A-P1
管理番号 No. STS-DA7-6796
周囲温度-許容順電流特性
Ambient Temperature vs
Allowable Forward Current
Derating1
はんだ接合部温度(カソード側)-許容順電流特性
Solder Temperature(Cathode Side) vs
Allowable Forward Current
Derating2
RθJA =27.4°C/W
1000
800
(57, 700)
(85, 430)
400
200
許容順電流
600
Allowable Forward Current(mA)
許容順電流
Allowable Forward Current(mA)
1000
800
(83, 700)
(85, 670)
600
400
200
0
0
0
20
40
60
80
100
120
0
20
40
60
80
100
周囲温度
はんだ接合部温度(カソード側)
Ambient Temperature(°C)
Solder Temperature(Cathode Side)(°C)
デューティー比-許容順電流特性
Duty Ratio vs
Allowable Forward Current
Duty
120
T A =25°C
許容順電流
Allowable Forward Current(mA)
10000
1000
700
100
1
10
100
デューティー比
Duty Ratio(%)
* 本特性はピーク波長ランクU395に対応しています。
The graphs above show the characteristics for U395 LEDs of this product.
10
NICHIA STS-DA1-3417 <Cat.No.150123>
OPTICAL CHARACTERISTICS
NCSU276A-P1
管理番号 No. STS-DA7-6797
* 本特性は参考です。
All characteristics shown are for reference only and are not guaranteed.
発光スペクトル
Spectrum
TA =25°C
IFP=500mA
Spectrum
1.0
相対発光強度
Relative Emission Intensity(a.u.)
0.8
0.6
0.4
0.2
0.0
300
350
400
450
500
550
600
波長
Wavelength(nm)
Directivity1
指向特性
Directivity
TA =25°C
IFP=500mA
-20°
-10°
0°
10°
20°
30°
-30°
40°
放射角度
Radiation Angle
-40°
50°
-50°
-60°
60°
-70°
70°
80°
-80°
-90°
90°
1
0.5
0
0.5
1
相対放射強度
Relative Radiant Intensity(a.u.)
* 本特性はピーク波長ランクU375に対応しています。
The graphs above show the characteristics for U375 LEDs of this product.
11
NICHIA STS-DA1-3417 <Cat.No.150123>
OPTICAL CHARACTERISTICS
NCSU276A-P1
管理番号 No. STS-DA7-6798
* 本特性は参考です。
All characteristics shown are for reference only and are not guaranteed.
発光スペクトル
Spectrum
TA =25°C
IFP=500mA
Spectrum
1.0
相対発光強度
Relative Emission Intensity(a.u.)
0.8
0.6
0.4
0.2
0.0
300
350
400
450
500
550
600
波長
Wavelength(nm)
Directivity1
指向特性
Directivity
TA =25°C
IFP=500mA
-20°
-10°
0°
10°
20°
30°
-30°
40°
放射角度
Radiation Angle
-40°
50°
-50°
-60°
60°
-70°
70°
80°
-80°
-90°
90°
1
0.5
0
0.5
1
相対放射強度
Relative Radiant Intensity(a.u.)
* 本特性はピーク波長ランクU395に対応しています。
The graphs above show the characteristics for U395 LEDs of this product.
12
NICHIA STS-DA1-3417 <Cat.No.150123>
FORWARD CURRENT CHARACTERISTICS / TEMPERATURE CHARACTERISTICS
NCSU276A-P1
管理番号 No. STS-DA7-6799
* 本特性は参考です。
All characteristics shown are for reference only and are not guaranteed.
順電圧-順電流特性
Forward Voltage vs
Forward Current
周囲温度-順電圧特性
Ambient Temperature vs
Forward Voltage
VfIf
TA =25°C
1000
TaVf
IFP=500mA
4.5
500
順電圧
Forward Voltage(V)
順電流
Forward Current(mA)
4.0
100
3.5
3.0
10
2.5
2.5
3.0
3.5
4.0
4.5
-60 -40 -20
順電圧
Forward Voltage(V)
0
20
40
60
80
100 120
周囲温度
Ambient Temperature(°C)
周囲温度-相対放射束特性
順電流-相対放射束特性
Forward Current vs
Relative Radiant Flux
Ambient Temperature vs
Relative Radiant Flux
IfIv
TA =25°C
3.0
TaIv
IFP=500mA
1.4
相対放射束
Relative Radiant Flux(a.u.)
相対放射束
Relative Radiant Flux(a.u.)
2.5
2.0
1.5
1.0
1.2
1.0
0.8
0.5
0.0
0.6
0
200
400
600
800
1000
1200
順電流
Forward Current(mA)
-60 -40 -20
0
20
40
60
80
100 120
周囲温度
Ambient Temperature(°C)
* 本特性はピーク波長ランクU375に対応しています。
The graphs above show the characteristics for U375 LEDs of this product.
13
NICHIA STS-DA1-3417 <Cat.No.150123>
FORWARD CURRENT CHARACTERISTICS / TEMPERATURE CHARACTERISTICS
NCSU276A-P1
管理番号 No. STS-DA7-6800
* 本特性は参考です。
All characteristics shown are for reference only and are not guaranteed.
順電圧-順電流特性
Forward Voltage vs
Forward Current
周囲温度-順電圧特性
Ambient Temperature vs
Forward Voltage
VfIf
TA =25°C
1000
TaVf
IFP=500mA
4.5
500
順電圧
Forward Voltage(V)
順電流
Forward Current(mA)
4.0
100
3.5
3.0
10
2.5
2.5
3.0
3.5
4.0
4.5
-60 -40 -20
順電圧
Forward Voltage(V)
20
40
60
80
100 120
周囲温度
Ambient Temperature(°C)
周囲温度-相対放射束特性
順電流-相対放射束特性
Forward Current vs
Relative Radiant Flux
Ambient Temperature vs
Relative Radiant Flux
IfIv
TA =25°C
2.5
TaIv
IFP=500mA
1.4
2.0
相対放射束
Relative Radiant Flux(a.u.)
相対放射束
Relative Radiant Flux(a.u.)
0
1.5
1.0
0.5
0.0
1.2
1.0
0.8
0.6
0
200
400
600
800
1000
1200
順電流
Forward Current(mA)
-60 -40 -20
0
20
40
60
80
100 120
周囲温度
Ambient Temperature(°C)
* 本特性はピーク波長ランクU395に対応しています。
The graphs above show the characteristics for U395 LEDs of this product.
14
NICHIA STS-DA1-3417 <Cat.No.150123>
FORWARD CURRENT CHARACTERISTICS / TEMPERATURE CHARACTERISTICS
NCSU276A-P1
管理番号 No. STS-DA7-6801
* 本特性は参考です。
All characteristics shown are for reference only and are not guaranteed.
順電流-ピーク波長特性
Forward Current vs
Peak Wavelength
TA =25°C
IfλD
381
ピーク波長
Peak Wavelength(nm)
379
377
375
373
371
369
10
100
1000
順電流
Forward Current(mA)
周囲温度-ピーク波長特性
Ambient Temperature vs
Peak Wavelength
IFP= 500mA
TaλD
381
ピーク波長
Peak Wavelength(nm)
379
377
375
373
371
369
-60 -40 -20
0
20
40
60
80
100 120
周囲温度
Ambient Temperature(°C)
* 本特性はピーク波長ランクU375に対応しています。
The graphs above show the characteristics for U375 LEDs of this product.
15
NICHIA STS-DA1-3417 <Cat.No.150123>
FORWARD CURRENT CHARACTERISTICS / TEMPERATURE CHARACTERISTICS
NCSU276A-P1
管理番号 No. STS-DA7-6802
* 本特性は参考です。
All characteristics shown are for reference only and are not guaranteed.
順電流-ピーク波長特性
Forward Current vs
Peak Wavelength
TA =25°C
IfλD
401
ピーク波長
Peak Wavelength(nm)
399
397
395
393
391
389
10
100
1000
順電流
Forward Current(mA)
周囲温度-ピーク波長特性
Ambient Temperature vs
Peak Wavelength
IFP= 500mA
TaλD
401
ピーク波長
Peak Wavelength(nm)
399
397
395
393
391
389
-60 -40 -20
0
20
40
60
80
100 120
周囲温度
Ambient Temperature(°C)
* 本特性はピーク波長ランクU395に対応しています。
The graphs above show the characteristics for U395 LEDs of this product.
16
NICHIA STS-DA1-3417 <Cat.No.150123>
RELIABILITY
(1) Tests and Results
Reference
Test
Standard
Resistance to
Soldering Heat
(Reflow Soldering)
Temperature Cycle
JEITA ED-4701
Tsld=260°C, 10sec, 2reflows,
300 301
Precondition: 30°C, 70%RH, 168hr
JEITA ED-4701
-40°C(30min)~25°C(5min)~
100 105
100°C(30min)~25°C(5min)
High Temperature
JEITA ED-4701
Storage
200 201
Low Temperature
JEITA ED-4701
Storage
200 202
Test
Test Conditions
Duration
Failure
Criteria
#
Units
Failed/Tested
#1
0/10
100cycles
#1
0/10
TA=100°C
1000hours
#1
0/10
TA=-40°C
1000hours
#1
0/10
TA=25°C, IF=500mA
1000hours
#1
0/10
TA=25°C, IF=700mA
1000hours
#1
0/10
Room Temperature
Operating Life
Condition 1
Room Temperature
Operating Life
Condition 2
U375
High Temperature
TA=85°C, IF=200mA
1000hours
#1
0/10
U395
Operating Life
TA=85°C, IF=350mA
1000hours
#1
0/10
60°C, RH=90%, IF=350mA
500hours
#1
0/10
TA=-10°C, IF=500mA
1000hours
#1
0/10
48minutes
#1
0/10
#1
0/10
Temperature Humidity
Operating Life
Low Temperature
Operating Life
Vibration
Electrostatic Discharges
JEITA ED-4701
200m/s2, 100~2000~100Hz,
400 403
4cycles, 4min, each X, Y, Z
JEITA ED-4701
HBM, 2kV, 1.5kΩ, 100pF, 3pulses,
300 304
alternately positive or negative
NOTES:
1) RθJA≈27.4°C/W
2) Measurements are performed after allowing the LEDs to return to room temperature.
(2) Failure Criteria
Criteria #
#1
Items
Conditions
Failure Criteria
Forward Voltage(VF)
IF=500mA
>Initial value×1.1
Radiant Flux(ΦE)
IF=500mA
<Initial value×0.7
17
NICHIA STS-DA1-3417 <Cat.No.150123>
CAUTIONS
(1) Storage
Conditions
Storage
Temperature
Humidity
Time
Before Opening Aluminum Bag
≤30°C
≤90%RH
Within 1 Year from Delivery Date
After Opening Aluminum Bag
≤30°C
≤70%RH
≤168hours
65±5°C
-
≥24hours
Baking
● Product complies with JEDEC MSL 3 or equivalent. See IPC/JEDEC STD-020 for moisture-sensitivity details.
● Absorbed moisture in LED packages can vaporize and expand during soldering, which can cause interface delamination
and result in optical performance degradation. Products are packed in moisture-proof aluminum bags
to minimize moisture absorption during transportation and storage.
Included silica gel desiccants change from blue to red if moisture had penetrated bags.
● After opening the moisture-proof aluminum bag, the products should go through the soldering process
within the range of the conditions stated above. Unused remaining LEDs should be stored with silica gel desiccants
in a hermetically sealed container, preferably the original moisture-proof bags for storage.
● After the “Period After Opening” storage time has been exceeded or silica gel desiccants are no longer blue,
the products should be baked. Baking should only be done once.
● Although the leads or electrode pads (anode and cathode) of the product are plated with gold,
prolonged exposure to a corrosive environment might cause the gold plated the leads or electrode pads to tarnish,
and thus leading to difficulties in soldering. If unused LEDs remain, they must be stored in a hermetically sealed container.
Nichia recommends using the original moisture-proof bag for storage.
● Do not use sulfur-containing materials in commercial products. Some materials, such as seals and adhesives, may contain sulfur.
The contaminated plating of LEDs might cause an open circuit. Silicone rubber is recommended as a material for seals.
Bear in mind, the use of silicones may lead to silicone contamination of electrical contacts inside the products,
caused by low molecular weight volatile siloxane.
● To prevent water condensation, please avoid large temperature and humidity fluctuations for the storage conditions.
● Do not store the LEDs in a dusty environment.
● Do not expose the LEDs to direct sunlight and/or an environment where the temperature is higher than
normal room temperature.
(2) Directions for Use
● When designing a circuit, the current through each LED must not exceed the Absolute Maximum Rating.
Operating at a constant current per LED is recommended. In case of operating at a constant voltage, Circuit B is recommended.
If the LEDs are operated with constant voltage using Circuit A, the current through the LEDs may vary due to the variation
in Forward Voltage characteristics of the LEDs.
(A)
(B)
...
...
● This product should be operated using forward current. Ensure that the product is not subjected to
either forward or reverse voltage while it is not in use. In particular, subjecting it to continuous reverse voltage
may cause migration, which may cause damage to the LED die. When used in displays that are not used for a long time,
the main power supply should be switched off for safety.
● It is recommended to operate the LEDs at a current greater than 10% of the sorting current to stabilize the LED characteristics.
● Ensure that excessive voltages such as lightning surges are not applied to the LEDs.
● For outdoor use, necessary measures should be taken to prevent water, moisture and salt air damage.
● This LED also emits visible light. Please take notice of visible light spectrum,
in case you use this LED as light source of sensors etc.
18
NICHIA STS-DA1-3417 <Cat.No.150123>
(3) Handling Precautions
● Do not handle the LEDs with bare hands as it will contaminate the LED surface and may affect the optical characteristics:
it might cause the LED to be deformed and/or the wire to break, which will cause the LED not to illuminate.
● When handling the product with tweezers, be careful not to apply excessive force to the resin.
Otherwise, The resin can be cut, chipped, delaminate or deformed, causing wire-bond breaks and catastrophic failures.
● Dropping the product may cause damage.
● Do not stack assembled PCBs together. Failure to comply can cause the resin portion of the product to be cut, chipped,
delaminated and/or deformed. It may cause wire to break, leading to catastrophic failures.
(4) Design Consideration
● Although Nichia recommends using a copper PCB for this product, customer is advised to verify the PCB with the products
before use. Stress during soldering can cause the glass lens to break and/or the solder joints to crack.
● PCB warpage after mounting the products onto a PCB can cause the package to break.
The LED should be placed in a way to minimize the stress on the LEDs due to PCB bow and twist.
● The position and orientation of the LEDs affect how much mechanical stress is exerted on the LEDs placed near the score lines.
The LED should be placed in a way to minimize the stress on the LEDs due to board flexing.
● Board separation must be performed using special jigs, not using hands.
● If an aluminum PCB is used, customer is advised to verify the PCB with the products before use.
Thermal stress during use can cause the solder joints to crack.
● When substances commonly found in ink adhere to the resin of this product, it may reduce the radiant flux and
may change the material properties. Materials, such as dustproof glass, should be used to protect the LEDs.
(5) Electrostatic Discharge (ESD)
● The products are sensitive to static electricity or surge voltage. ESD can damage a die and its reliability.
When handling the products, the following measures against electrostatic discharge are strongly recommended:
Eliminating the charge
Grounded wrist strap, ESD footwear, clothes, and floors
Grounded workstation equipment and tools
ESD table/shelf mat made of conductive materials
● Ensure that tools, jigs and machines that are being used are properly grounded and
that proper grounding techniques are used in work areas. For devices/equipment that mount the LEDs,
protection against surge voltages should also be used.
● If tools or equipment contain insulating materials such as glass or plastic,
the following measures against electrostatic discharge are strongly recommended:
Dissipating static charge with conductive materials
Preventing charge generation with moisture
Neutralizing the charge with ionizers
● The customer is advised to check if the LEDs are damaged by ESD
when performing the characteristics inspection of the LEDs in the application.
Damage can be detected with a forward voltage measurement at low current (≤1mA).
● ESD damaged LEDs may have current flow at a low voltage.
Failure Criteria: VF<2.0V at IF=0.5mA
19
NICHIA STS-DA1-3417 <Cat.No.150123>
(6) Thermal Management
● Proper thermal management is an important when designing products with LEDs. LED die temperature is affected
by PCB thermal resistance and LED spacing on the board. Please design products in a way that the LED die temperature
does not exceed the maximum Junction Temperature (TJ).
● Drive current should be determined for the surrounding ambient temperature (TA) to dissipate the heat from the product.
● The following equations can be used to calculate the junction temperature of the products.
1) TJ=TA+RθJA・W
2) TJ=TS+RθJS・W
*TJ=LED junction temperature: °C
TA=Ambient temperature: °C
TS=Soldering temperature (cathode side): °C
RθJA=Thermal resistance from junction to ambient: °C/W
RθJS=Thermal resistance from junction to TS measuring point: °C/W
W=Input power(IF×VF): W
Ts Point
(7) Cleaning
● The LEDs should not be cleaned with water, benzine, and/or thinner.
● If required, isopropyl alcohol (IPA) should be used. Other solvents may cause premature failure to the LEDs
due to the damage to the resin portion. The effects of such solvents should be verified prior to use.
In addition, the use of CFCs such as Freon is heavily regulated.
● When dust and/or dirt adheres to the LEDs, soak a cloth with Isopropyl alcohol (IPA), then squeeze it before wiping the LEDs.
● Ultrasonic cleaning is not recommended since it may have adverse effects on the LEDs
depending on the ultrasonic power and how LED is assembled.
If ultrasonic cleaning must be used, the customer is advised to make sure the LEDs will not be damaged prior to cleaning.
(8) Eye Safety
● In 2006, the International Electrical Commission (IEC) published IEC 62471:2006 Photobiological safety of lamps
and lamp systems, which added LEDs in its scope.
On the other hand, the IEC 60825-1:2007 laser safety standard removed LEDs from its scope.
However, please be advised that some countries and regions have adopted standards
based on the IEC laser safety standard IEC 60825-1:20112001, which still includes LEDs in its scope.
Most of Nichia's LEDs can be classified as belonging into either the Exempt Group or Risk Group 1.
High-power LEDs, that emit light containing blue wavelengths, may be classified as Risk Group 2.
Please proceed with caution when viewing directly any LEDs driven at high current, or viewing LEDs
with optical instruments which may greatly increase the damages to your eyes.
● Viewing a flashing light may cause eye discomfort. When incorporating the LED into your product,
please be careful to avoid adverse effects on the human body caused by light stimulation.
● The products are UV light LEDs, and radiate intense UV light during operation. Since UV light can be harmful to eyes,
do NOT look directly into the UV light, even through an optical instrument. In case of the light reflection,
UV protective glasses are required to use in order to avoid damage by the light.
20
NICHIA STS-DA1-3417 <Cat.No.150123>
(9) Others
● The LEDs described in this brochure are intended to be used for ordinary electronic equipment (such as office equipment,
communications equipment, measurement instruments and household appliances).
Consult Nichia's sales staff in advance for information on the applications in which exceptional quality
and reliability are required, particularly when the failure or malfunction of the LEDs may directly jeopardize life or
health (such as for airplanes, aerospace, submersible repeaters, nuclear reactor control system, automobiles,
traffic control equipment, life support systems and safety devices).
● The customer shall not reverse engineer by disassembling or analysis of the LEDs without having prior written consent
from Nichia. When defective LEDs are found, the customer shall inform Nichia directly before disassembling or analysis.
● The specifications and appearance of this product may change without notice;
Nichia does not guarantee the contents of this specification. Both the customer and Nichia
will agree on the official specifications of supplied products before the volume production of a program begins.
21
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