Green : 555 nm
Yellow : 570 nm
Orange : 605 nm
Red : 660 nm
Features
Recommended Applications
Electric Household Appliances, OA/FA, Other General Applications
Page 1
Single Color (Green, Yellow, Orange or Red)
Lead–free soldering compatible
RoHS compliant
Light emitting surface (Outer size)
Product features
10 x 10 mm (10 x 10 mm) (L x W)
MU93 Series
Single Color / Light Bar Module
Peak wavelength
Soldering methods
Soldering methods
Packing
More than 2kV(HBM)
Plastic bag
TTW (Through The Wave) soldering and manual soldering
Green, Yellow : GaP
Orange : GaAsP
Red : GaAlAs
Die materials
2006.7.31
Color and Luminous Intensity
MIN. TYP. I
F
MU93-5001 GaP 1.5 3 20
MU93-4001 GaP 4 8 20
MU93-3001 GaAsP 4 8 20
MU93-2001 GaAlAs 4 8 20
Absolute Maximum Ratings
P
d
mW
I
F
mA
I
FRM
mA
I
F
mA/
I
FRM
mA/
V
R
V
T
opr
T
stg
1 I
FRM
Measurement condition : Pulse Width 1ms, Duty 1/20
Electro-Optical Characteristics
Conditions
TYP.
MAX.
Reverse Current V
R
=4V I
R
MAX. μA
Peak Wavelength I
F
=20mA λ
p
TYP. nm
Spectral Line Half
Width I
F
=20mA ⊿λ TYP. nm
3001 2001
5001 4001 3001 2001
4.00
4
60
30
300
0.33
1.33
4
1.33
4
100
0.33
75
30
100
0.33
Symbol
Forward Current
75
30
Pulse Forward Current
1
5001 4001
Part No. Material
Yellow
Emitted Color
Green
Item
Power Dissipation
Reverse Voltage
Derating
(Ta=25 or higher)
Operating Temperature
Storage Temperature
1
Orange
Red
Orange
Red
1
1
Yellow
Resin Color
Green
Number of
Chips
1
Iv (mcd)
Luminous Intensity
Unit
Absolute Maximum Ratings
-30+85
-30+85
75
30
100
0.33
1.33
4
Forward Voltage VI
F
=20mA
Item
V
F
Symbol Characteristics Unit
2.2
2.5
100
555
30
2.1
2.5
100
570
30 30
1.7
2.0
100
660
30
2.2
2.5
100
605
MU93 Series
Single Color / Light Bar Module
Page 2
2005.1.7
(Ta=25)
(Ta=25)
Page 3
2005.1.7
Single Color / Light Bar Module
MU93 Series
Forward Current vs. Relative Intensity
Condition : Ta = 25
Forward Current IF(mA)
Relative Intensity
Technical Data(5001)
Forward Voltage vs. Forward Current
Condition : Ta = 25
Forward Voltage VF(V)
Forward Current IF(mA)
Ambient Temperature vs. Forward Voltage
Ambient Temperature : Ta()
Forward Voltage VF(V)
Ambient Temperature vs. Relative Intensity
Condition : IF=20mA
Ambient Temperature : Ta()
Relative Intensity
Page 4
2005.1.7
Single Color / Light Bar Module
MU93 Series
Derating
Ambient Temperature vs. Maximum Forward Current
Repetition Frequency : f 50Hz
Ambient Temperature : Ta()
Maximum Forward Current : IFMAX. (mA)
Power Dissipation vs. Ambient Temperature
Ambient Temperature : Ta()
Power Dissipation : Pd (mW)
Dynamic Drive Rating
Duty cycle vs. Maximum Forward Current
Condition : Ta = 25
Duty (%)
Maximum Forward Current : IF MAX. (mA)
Pulse Width vs. Maximum Tolerable Peak Current
Condition : Ta = 25
Pulse Width : tw (μs)
IFpeak Max./IFDC MAX.
Technical Data(5001)
Page 5
2005.1.7
Single Color / Light Bar Module
MU93 Series
Forward Current vs. Relative Intensity
Condition : Ta = 25
Forward Current IF(mA)
Relative Intensity
Technical Data(4001)
Forward Voltage vs. Forward Current
Condition : Ta = 25
Forward Voltage VF(V)
Forward Current IF(mA)
Ambient Temperature vs. Forward Voltage
Ambient Temperature : Ta()
Forward Voltage VF(V)
Ambient Temperature vs. Relative Intensity
Condition : IF=20mA
Ambient Temperature : Ta()
Relative Intensity
Page 6
2005.1.7
Single Color / Light Bar Module
MU93 Series
Derating
Ambient Temperature vs. Maximum Forward Current
Repetition Frequency : f 50Hz
Ambient Temperature : Ta()
Maximum Forward Current : IFMAX. (mA)
Power Dissipation vs. Ambient Temperature
Ambient Temperature : Ta()
Power Dissipation : Pd (mW)
Dynamic Drive Rating
Duty cycle vs. Maximum Forward Current
Condition : Ta = 25
Duty (%)
Maximum Forward Current : IF MAX. (mA)
Pulse Width vs. Maximum Tolerable Peak Current
Condition : Ta = 25
Pulse Width : tw (μs)
IFpeak Max./IFDC MAX.
Technical Data(4001)
Page 7
2005.1.7
Single Color / Light Bar Module
MU93 Series
Forward Current vs. Relative Intensity
Condition : Ta = 25
Forward Current IF(mA)
Relative Intensity
Technical Data(3001)
Forward Voltage vs. Forward Current
Condition : Ta = 25
Forward Voltage VF(V)
Forward Current IF(mA)
Ambient Temperature vs. Forward Voltage
Ambient Temperature : Ta()
Forward Voltage VF(V)
Ambient Temperature vs. Relative Intensity
Condition : IF=20mA
Ambient Temperature : Ta()
Relative Intensity
Page 8
2005.1.7
Single Color / Light Bar Module
MU93 Series
Derating
Ambient Temperature vs. Maximum Forward Current
Repetition Frequency : f 50Hz
Ambient Temperature : Ta()
Maximum Forward Current : IFMAX. (mA)
Power Dissipation vs. Ambient Temperature
Ambient Temperature : Ta()
Power Dissipation : Pd (mW)
Dynamic Drive Rating
Duty cycle vs. Maximum Forward Current
Condition : Ta = 25
Duty (%)
Maximum Forward Current : IF MAX. (mA)
Pulse Width vs. Maximum Tolerable Peak Current
Condition : Ta = 25
Pulse Width : tw (μs)
IFpeak Max./IFDC MAX.
Technical Data(3001)
Page 9
2005.1.7
Single Color / Light Bar Module
MU93 Series
Forward Current vs. Relative Intensity
Condition : Ta = 25
Forward Current IF(mA)
Relative Intensity
Technical Data(2001)
Forward Voltage vs. Forward Current
Condition : Ta = 25
Forward Voltage VF(V)
Forward Current IF(mA)
Ambient Temperature vs. Forward Voltage
Ambient Temperature : Ta()
Forward Voltage VF(V)
Ambient Temperature vs. Relative Intensity
Condition : IF=20mA
Ambient Temperature : Ta()
Relative Intensity
Page 10
2005.1.7
Single Color / Light Bar Module
MU93 Series
Derating
Ambient Temperature vs. Maximum Forward Current
Repetition Frequency : f 50Hz
Ambient Temperature : Ta()
Maximum Forward Current : IFMAX. (mA)
Power Dissipation vs. Ambient Temperature
Ambient Temperature : Ta()
Power Dissipation : Pd (mW)
Dynamic Drive Rating
Duty cycle vs. Maximum Forward Current
Condition : Ta = 25
Duty (%)
Maximum Forward Current : IF MAX. (mA)
Pulse Width vs. Maximum Tolerable Peak Current
Condition : Ta = 25
Pulse Width : tw (μs)
IFpeak Max./IFDC MAX.
Technical Data(2001)
Package Dimensions
Page 11
(Unit: mm)
Single Color / Light Bar Module
MU93 Series
(Tolerance:±0.25 mm)
2006.7.31
2005.1.7
Single Color / Light Bar Module
MU93 Series
Page 12
TTW (Through The Wave) soldering Conditions
Pre-heating
Solder Bath Temp.
Dipping Time
100
60 s
1) The dip soldering process shall be 2 times maximum.
2) The product shall be cooled to normal temperature before the second dipping process.
Manual Soldering Conditions
265
5 s
(MAX.) Resin surface temperature
(MAX.)
(MAX.)
(MAX.)
Iron tip temp.
Soldering time and frequency 3 s
2 times
400
(MAX.)
(MAX.)
(MAX.) (30 W Max.)
Position At least 3.0 mm away from resin body
Position At least 3.0 mm away from resin body
2005.1.7
Single Color / Light Bar Module
MU93 Series
Page 13
Reliability Testing Result
Failure Criteria
Reliability Testing Result App lic able S tandar d T est ing Conditions Dur ation F a ilur e
Room Temp.
Operating Life
EIAJ ED-
4701/100(101) Ta = 25, I
F
= Maxium Rated Current 1,000 h 0/10
Resistance to
Soldering Heat
EIAJ ED-
4701/300(302) 260±5, 3mm from package base 10sec 0/10
Temperature Cycling EIAJ ED-
4701/100(105)
Minimum Rated Storage Temperature(30min)
Normal Temperature(15min)
Maximum Rated Storage Temperature(30min)
Normal Temperature(15min)
5 cycles 0/10
Wet High Temp.
Storage Life
EIAJ ED-
4701/100(103) Ta = 60±2, RH = 90±5% 1,000 h 0/10
High Temp.
Storage Life
EIAJ ED-
4701/200(201) Ta = Maximum Rated Storage Temperature 1,000 h 0/10
Low Temp.
Storage Life
EIAJ ED-
4701/200(202) Ta = Minimum Rated Storage Temperature 1,000 h 0/10
Lead Tension EIAJ ED-
4701/400(401) 5N,1time 10sec 0/10
Vibration,
Variable Frequency
EIAJ ED-
4701/400(403)
98.1m/s
2
(10G), 100 2KHz sweep for 20min.,
XYZ each direction 2 h 0/10
Lead Bend EIAJ ED-
4701/400(401) 2.5N,←→ 90° 2 times 0/10
Shock JIS C 7201
A-8 It falls on wood engraving from height of 75cm. 3 times 0/10
Items Symbols Conditions Failure criteria
Luminous Intensity Iv I
F
=20mA Testing Min. Value Spec. Min. Value x 0.5
Forward Voltage V
F
I
F
=20mA Testing Max. Value Spec. Max. Value x 1.2
Reverse Current I
R
V
R
=4V Testing Max. Value Spec. Max. Value x 2.5
Cosmetic Appearance - - No notable, decoloration, deformation and cracking
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 described in the data sheets are made to be used in standard electronic applications such as
office automation appliances, communication devices, audio visual, home appliances, and measuring
instruments.
5) If the products in the data sheets are to be used for purposes other than the above which requires high level
reliability and safety where failure and or malfunction of the product may cause death or other serious effects
on the human body such as airplane, space activity, transportation, medical, nuclear), please contact our sales
personnel.
6) 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.
7) No part of this data sheet may be reprinted or reproduced without prior written permission from Stanley
Electric Co., Ltd.
8) The most updated edition of this data sheet can be obtained from the address below:
http://www.stanley-components.com
2005.1.7
Single Color / Light Bar Module
MU93 Series
Page 14