HBG5066X [STANLEY]
Single Color High Brightness ヵ5 Type; 单色高亮度ヵ5型型号: | HBG5066X |
厂家: | STANLEY ELECTRIC CO.,LTD. |
描述: | Single Color High Brightness ヵ5 Type |
文件: | 总27页 (文件大小:424K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
5066X Series
Single Color High Brightness φ5 Type
Features
Package
φ5 Round shape type,
HBG,HPG : Pale Green Clear epoxy
HPY,HAY : Pale Yellow Clear epoxy
HAA : Pale Orange Clear epoxy
HBR : Pale Red Clear epoxy
・Outer Dimension φ5 Round shape type
・Operation temperature range.
Product features
Storage Temperature
Operating Temperature
・Lead–free soldering compatible
・RoHS compliant
:-30℃~100℃
:-30℃~85℃
Green
: 558nm (HBG)
: 567nm (HPG)
Yellow Green : 572nm (HPY)
Dominant wavelength
Yellow
Orange
Red
: 590nm (HAY)
: 606nm (HAA)
: 647nm (HBR)
HBG, HPG,HAY,HAA : 8 deg.
HPY : 10 deg.
Half Intensity Angle
HBR : 6 deg.
Die materials
HBG,HPG,HPY : GaP HAY,HAA : GaAsP HBR : GaAlAs
Sorted by luminous intensity per rank taping
Rank grouping parameter
Soldering methods
TTW (Through The Wave) soldering and manual soldering
ESD
More than 2kV(HBM)
Bulk : 200pcs(MIN.)
Packing
Recommended Applications
Amusement Equipment, Electric Household Appliances, OA/FA, Other General Applications
Page 1
2006.7.31
5066X Series
Single Color High Brightness φ5 Type
Color and Luminous Intensity
(Ta=25℃)
Dominant
Wavelength
Luminous Intensity
Iv (mcd)
Emitted
Color
Lens
Color
Part No.
Material
d (nm)
λ
TYP.
IF
MIN.
TYP.
IF
Green
Green
HBG5066X
HPG5066X
HPY5066X
HAY5066X
HAA5066X
HBR5066X
GaP
GaP
558
567
572
590
606
647
20
20
20
20
20
20
100
150
20
Pale
Green
150
200
100
160
200
200
300
150
250
300
20
20
20
20
20
GaP
Yellow Green
Yellow
Pale
Yellow
Clear
GaAsP
GaAsP
GaAlAs
Pale
Orange
Pale
Orange
Red
Red
Page 2
2004.10.29
5066X Series
Single Color High Brightness φ5 Type
Absolute Maximum Ratings
(Ta=25℃)
Absolute Maximum Ratings
Item
S ymbol
Unit
HB G
125
HP G
125
HP Y
125
HAY
125
HAA
HB R
100
Power Dissipation
Pd
IF
125
50
mW
mA
Forward Current
Pulse Forward
50
50
50
50
50
IF R M
100
100
100
100
100
300
mA
1
※
Current
De ra ting
(Ta=25 or higher)
℃
I
F
0.67
4
0.67
4
0.67
4
0.67
4
0.67
4
0.67
4
mA/
℃
⊿
Reverse Voltage
VR
Topr
Tstg
V
Ope ra ting
Temperature
S torage
-30 +85
~
℃
℃
-30 +100
~
Temperature
※1 IFRM Measurement condition : Pulse Width≦1ms., Duty≦1/20.
Page 3
2004.10.29
5066X Series
Single Color High Brightness φ5 Type
Electro-Optical Characteristics
(Ta=25℃)
Characteristics
Item
Symbol
VF
Unit
V
Conditions
IF=20mA
HBG
2.1
HPG
2.1
HPY
2.1
HAY
HAA
2.2
HBR
1.7
TYP.
MAX.
MAX.
TYP.
2.2
2.5
20
Forward Voltage
Reverse Current
2.5
20
2.5
20
2.5
20
2.5
20
2.0
100
660
647
30
VR=4V
IR
A
μ
Peak Wavelength IF=20mA
555
558
30
560
567
30
570
572
30
580
590
30
605
606
30
nm
nm
λp
λd
⊿λ
Dominant
IF=20mA
TYP.
Wavelength
Spectral Line Half
IF=20mA
TYP.
nm
Width
Half Intensity
IF=20mA
Angle
2
θ
1/2 TYP.
8
8
10
8
8
6
deg.
Page 4
2004.10.29
5066X Series
Single Color High Brightness φ5 Type
(Ta=25℃)
Luminous Intensity Rank
IV(mcd)
HBG
IF=20mA
HPG
IF=20mA
HPY
IF=20mA
HAY
IF=20mA
HAA
IF=20mA
HBR
IF=20mA
Rank
MIN. MAX. MIN. MAX. MIN. MAX. MIN. MAX. MIN. MAX. MIN. MAX.
A
B
C
D
E
100
140
200
280
400
200
280
400
560
-
150
210
300
420
600
300
420
600
840
-
200
280
400
560
800
400
560
800
1120
-
100
140
200
280
400
200
280
400
560
-
160
224
320
448
640
320
448
640
896
-
200
280
400
560
800
400
560
800
1120
1600
※Please contact our sales staff concerning rank designation.
Page 5
2004.10.29
5066X Series
Single Color High Brightness φ5 Type
Technical Data(HBG)
Spectral Distribution
Relative Intensity vs. Wavelength
Spatial Distribution Example
Condition : Ta = 25℃, IF = 20mA
Condition : Ta = 25℃
Wavelength [nm]
Forward Voltage vs. Forward Current
Forward Current vs. Relative Intensity
Condition : Ta = 25℃
Condition : Ta = 25℃
Forward Voltage VF(V)
Forward Current IF(mA)
Page 6
2004.10.29
5066X Series
Single Color High Brightness φ5 Type
Technical Data(HBG)
Derating
Ambient Temperature vs. Relative Intensity
Ambient Temperature vs. Maximum Forward Current
Repetition Frequency : f ≧ 50Hz
Condition : IF=20mA
Ambient Temperature : Ta(℃)
Ambient Temperature : Ta(℃)
Ambient Temperature vs. Forward Voltage
Power Dissipation vs. Ambient Temperature
Ambient Temperature : Ta(℃)
Ambient Temperature : Ta(℃)
Page 7
2004.10.29
5066X Series
Single Color High Brightness φ5 Type
Technical Data(HBG)
Dynamic Drive Rating
Duty cycle vs. Maximum Forward Current
Pulse Width vs. Maximum Tolerable Peak Current
Condition : Ta = 25℃
Condition : Ta = 25℃
Duty (%)
Pulse Width : tw (μs)
Page 8
2004.10.29
5066X Series
Single Color High Brightness φ5 Type
Technical Data(HPG)
Spectral Distribution
Relative Intensity vs. Wavelength
Spatial Distribution Example
Condition : Ta = 25℃, IF = 20mA
Condition : Ta = 25℃
Wavelength [nm]
Forward Voltage vs. Forward Current
Forward Current vs. Relative Intensity
Condition : Ta = 25℃
Condition : Ta = 25℃
Forward Voltage VF(V)
Forward Current IF(mA)
Page 9
2004.10.29
5066X Series
Single Color High Brightness φ5 Type
Technical Data(HPG)
Derating
Ambient Temperature vs. Relative Intensity
Ambient Temperature vs. Maximum Forward Current
Repetition Frequency : f ≧ 50Hz
Condition : IF=20mA
Ambient Temperature : Ta(℃)
Ambient Temperature : Ta(℃)
Ambient Temperature vs. Forward Voltage
Power Dissipation vs. Ambient Temperature
Ambient Temperature : Ta(℃)
Ambient Temperature : Ta(℃)
Page 10
2004.10.29
5066X Series
Single Color High Brightness φ5 Type
Technical Data(HPG)
Dynamic Drive Rating
Duty cycle vs. Maximum Forward Current
Pulse Width vs. Maximum Tolerable Peak Current
Condition : Ta = 25℃
Condition : Ta = 25℃
Duty (%)
Pulse Width : tw (μs)
Page 11
2004.10.29
5066X Series
Single Color High Brightness φ5 Type
Technical Data(HPY)
Spectral Distribution
Relative Intensity vs. Wavelength
Spatial Distribution Example
Condition : Ta = 25℃, IF = 20mA
Condition : Ta = 25℃
Wavelength [nm]
Forward Voltage vs. Forward Current
Forward Current vs. Relative Intensity
Condition : Ta = 25℃
Condition : Ta = 25℃
Forward Voltage VF(V)
Forward Current IF(mA)
Page 12
2004.10.29
5066X Series
Single Color High Brightness φ5 Type
Technical Data(HPY)
Derating
Ambient Temperature vs. Relative Intensity
Ambient Temperature vs. Maximum Forward Current
Repetition Frequency : f ≧ 50Hz
Condition : IF=20mA
Ambient Temperature : Ta(℃)
Ambient Temperature : Ta(℃)
Ambient Temperature vs. Forward Voltage
Power Dissipation vs. Ambient Temperature
Ambient Temperature : Ta(℃)
Ambient Temperature : Ta(℃)
Page 13
2004.10.29
5066X Series
Single Color High Brightness φ5 Type
Technical Data(HPY)
Dynamic Drive Rating
Duty cycle vs. Maximum Forward Current
Pulse Width vs. Maximum Tolerable Peak Current
Condition : Ta = 25℃
Condition : Ta = 25℃
Duty (%)
Pulse Width : tw (μs)
Page 14
2004.10.29
5066X Series
Single Color High Brightness φ5 Type
Technical Data(HAY)
Spectral Distribution
Relative Intensity vs. Wavelength
Spatial Distribution Example
Condition : Ta = 25℃, IF = 20mA
Condition : Ta = 25℃
Wavelength [nm]
Forward Voltage vs. Forward Current
Forward Current vs. Relative Intensity
Condition : Ta = 25℃
Condition : Ta = 25℃
Forward Voltage VF(V)
Forward Current IF(mA)
Page 15
2004.10.29
5066X Series
Single Color High Brightness φ5 Type
Technical Data(HAY)
Derating
Ambient Temperature vs. Relative Intensity
Ambient Temperature vs. Maximum Forward Current
Repetition Frequency : f ≧ 50Hz
Condition : IF=20mA
Ambient Temperature : Ta(℃)
Ambient Temperature : Ta(℃)
Ambient Temperature vs. Forward Voltage
Power Dissipation vs. Ambient Temperature
Ambient Temperature : Ta(℃)
Ambient Temperature : Ta(℃)
Page 16
2004.10.29
5066X Series
Single Color High Brightness φ5 Type
Technical Data(HAY)
Dynamic Drive Rating
Duty cycle vs. Maximum Forward Current
Pulse Width vs. Maximum Tolerable Peak Current
Condition : Ta = 25℃
Condition : Ta = 25℃
Duty (%)
Pulse Width : tw (μs)
Page 17
2004.10.29
5066X Series
Single Color High Brightness φ5 Type
Technical Data(HAA)
Spectral Distribution
Relative Intensity vs. Wavelength
Spatial Distribution Example
Condition : Ta = 25℃, IF = 20mA
Condition : Ta = 25℃
Wavelength [nm]
Forward Voltage vs. Forward Current
Forward Current vs. Relative Intensity
Condition : Ta = 25℃
Condition : Ta = 25℃
Forward Voltage VF(V)
Forward Current IF(mA)
Page 18
2004.10.29
5066X Series
Single Color High Brightness φ5 Type
Technical Data(HAA)
Derating
Ambient Temperature vs. Relative Intensity
Ambient Temperature vs. Maximum Forward Current
Repetition Frequency : f ≧ 50Hz
Condition : IF=20mA
Ambient Temperature : Ta(℃)
Ambient Temperature : Ta(℃)
Ambient Temperature vs. Forward Voltage
Power Dissipation vs. Ambient Temperature
Ambient Temperature : Ta(℃)
Ambient Temperature : Ta(℃)
Page 19
2004.10.29
5066X Series
Single Color High Brightness φ5 Type
Technical Data(HAA)
Dynamic Drive Rating
Duty cycle vs. Maximum Forward Current
Pulse Width vs. Maximum Tolerable Peak Current
Condition : Ta = 25℃
Condition : Ta = 25℃
Duty (%)
Pulse Width : tw (μs)
Page 20
2004.10.29
5066X Series
Single Color High Brightness φ5 Type
Technical Data(HBR)
Spectral Distribution
Relative Intensity vs. Wavelength
Spatial Distribution Example
Condition : Ta = 25℃, IF = 20mA
Condition : Ta = 25℃
Wavelength [nm]
Forward Voltage vs. Forward Current
Forward Current vs. Relative Intensity
Condition : Ta = 25℃
Condition : Ta = 25℃
Forward Voltage VF(V)
Forward Current IF(mA)
Page 21
2004.10.29
5066X Series
Single Color High Brightness φ5 Type
Technical Data(HBR)
Derating
Ambient Temperature vs. Relative Intensity
Ambient Temperature vs. Maximum Forward Current
Repetition Frequency : f ≧ 50Hz
Condition : IF=20mA
Ambient Temperature : Ta(℃)
Ambient Temperature : Ta(℃)
Ambient Temperature vs. Forward Voltage
Power Dissipation vs. Ambient Temperature
Ambient Temperature : Ta(℃)
Ambient Temperature : Ta(℃)
Page 22
2004.10.29
5066X Series
Single Color High Brightness φ5 Type
Technical Data(HBR)
Dynamic Drive Rating
Duty cycle vs. Maximum Forward Current
Pulse Width vs. Maximum Tolerable Peak Current
Condition : Ta = 25℃
Condition : Ta = 25℃
Duty (%)
Pulse Width : tw (μs)
Page 23
2004.10.29
5066X Series
Single Color High Brightness φ5 Type
(Unit: mm)
Package Dimensions
Page 24
2007.10.12
5066X Series
Single Color High Brightness φ5 Type
TTW (Through The Wave) soldering Conditions
100 ℃
(MAX.)
Pre-heating
Solder Bath Temp.
Dipping Time
(MAX.)
(MAX.)
265℃
5 s
1) The dip soldering process shall be 2 times maximum.
2) The product shall be cooled to room temp. before the second dipping process.
※The detail is described to LED and Photodetector handling precautions of home page:
"Mounting through-hole Type Devices“ and "Soldering", and use it after the confirmation, please.
Manual Soldering Conditions
Iron tip temp.
Soldering time and frequency
(MAX.)
(MAX.)
400℃
3 s
2 times (MAX.)
※The detail is described to LED and Photodetector handling precautions of home page:
"Mounting through-hole Type Devices“ and "Soldering", and use it after the confirmation, please.
Page 25
2006.3.31
5066X Series
Single Color High Brightness φ5 Type
Reliability Testing Result
Reliability Testing
Applicable Standard
Testing Conditions
Duration
1,000 h
Failure
0/25
Result
Room Temp.
Operating Life
EIAJ ED-
4701/100(101)
F
Ta = 25℃, I = Maxium Rated Current
Resistance to
Soldering Heat
EIAJ ED-
4701/300(302)
260±5℃, 3mm from package base
10s
0/25
Minimum Rated Storage Temperature(30min)
~Normal Temperature(15min)
~Maximum Rated Storage Temperature(30min)
~Normal Temperature(15min)
EIAJ ED-
4701/100(105)
Temperature Cycling
5 cycles
0/25
Wet High Temp.
Storage Life
EIAJ ED-
4701/100(103)
Ta = 60±2℃, RH = 90±5%
1,000 h
1,000 h
1,000 h
10s
0/25
0/25
0/25
0/10
0/10
High Temp.
Storage Life
EIAJ ED-
4701/200(201)
Ta = Maximum Rated Storage Temperature
Ta = Minimum Rated Storage Temperature
10N,1time (□0.4 and Flat Package : 5N)
Low Temp.
Storage Life
EIAJ ED-
4701/200(202)
EIAJ ED-
4701/400(401)
Lead Tension
98.1m/s2 (10G), 100 ~ 2KHz sweep for 20min.,
XYZ each direction
Vibration,
Variable Frequency
EIAJ ED-
4701/400(403)
2 h
Failure Criteria
Items
Symbols
Conditions
Failure criteria
F
I Value of each product
Luminous Intensity
Luminous Intensity
Iv
Testing Min. Value < Spec. Min. Value x 0.5
Testing Max. Value ≧ Spec. Max. Value x 1.2
Testing Max. Value ≧ Spec. Max. Value x 2.5
F
I Value of each product
F
Forward Voltage
Reverse Current
V
Forward Voltage
R
V = Maximum Rated
R
I
Reverse Voltage V
Occurrence of notable decoloration,
deformation and cracking
Cosmetic Appearance
-
-
2007.8.31
Page 26
5066X Series
Single Color High Brightness φ5 Type
Special Notice to Customers Using the Products and
Technical Information Shown in This Data Sheet
1) The technical information shown in the data sheets are limited to the typical characteristics and circuit
examples of the referenced products. It does not constitute the warranting of industrial property nor the
granting of any license.
2) For the purpose of product improvement, the specifications, characteristics and technical data described in
the data sheets are subject to change without prior notice. Therefore it is recommended that the most
updated specifications be used in your design.
3) When using the products described in the data sheets, please adhere to the maximum ratings for operating
voltage, heat dissipation characteristics, and other precautions for use. We are not responsible for any
damage which may occur if these specifications are exceeded.
4) The products that have been described to this catalog are manufactured so that they will be used for the
electrical instrument of the benchmark (OA equipment, telecommunications equipment, AV machine, home
appliance and measuring instrument).
The application of aircrafts, space borne application, transportation equipment, medical equipment and
nuclear power control equipment, etc. needs a high reliability and safety, and the breakdown and the wrong
operation might influence the life or the human body. Please consult us beforehand if you plan to use our
product for the usages of aircrafts, space borne application, transportation equipment, medical equipment
and nuclear power control equipment, etc. except OA equipment, telecommunications equipment, AV
machine, home appliance and measuring instrument.
5) In order to export the products or technologies described in this data sheet which are under the
“Foreign Exchange and Foreign Trade Control Law,” it is necessary to first obtain an export permit from the
Japanese government.
6) No part of this data sheet may be reprinted or reproduced without prior written permission from Stanley
Electric Co., Ltd.
7) The most updated edition of this data sheet can be obtained from the address below:
http://www.stanley-components.com
Page 27
2007.8.31
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