ZnSe WHITE LED

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ZnSe WHITE LED
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RLZS-1608
(Chip type LED, 1.6mm x 0.8mm x 0.6mm)
1. SPECIFICATION:
1.1 Absolute maximum ratings at Ta=25℃
Parameter
Symbol
Value
Unit
Power dissipation
Pd
60
mW
DC forward current
If
20
mA
Peak forward current
Ifpm
20
mA
Reverse voltage
Vr
10
V
Operating temperature range
Topt
-20∼+75
℃
Storage temperature range
Tstg
-40∼+100
℃
Notes)
・The half-life of the optical output at 25℃ is over 3,000hrs at the above If condition.
Recommended If at 75℃ is 2.5mA. The half-life under such condition is over 1,000hrs.
・
The half-life of the LED is inversely proportional to the square of the operating current.
・
The If-Ta curve is also shown in sheet 1.）
（
1.2 Typical electrical/optical properties at Ta=25℃
Parameter
Symbol
Condition
If=20mA
Forward voltage
Vf
If=1mA
Reverse voltage
Vr
Ir=1μA
ESD threshold
VESD
100pF/1.5kΩ
Peak wavelength 1
λp1
If=20mA
Peak wavelength 2
λp2
Rank A
Luminous
Iv
If=20mA
Rank N
intensity
Rank S
Viewing angle
If=20mA
2θ1/2
Min.
2.45
2.34
5
2
481
595
250
150
50
130
Typ.
2.65
2.37
>30
8
484
605
300
200
100
150
Max.
2.90
2.40
>30
487
615
350
250
150
180
Notes）
Peak wavelength 1 and 2 refers to emissions from the active layer and the substrate,
・
respectively. White color is obtained by mixing these two light emissions.
Rank S type employs optical diffuser inside epoxy lens.
・
・If-Vf, Po-If, and Po-Ta characteristics of a typical white LED is shown in sheet 2.
A typical Viewing Angle data is shown in Sheet 3.
・
Unit
V
V
kV
nm
mcd
degree
1.3 White color Rank classification of chromaticity at Ta=25℃
(If=20mA)
X
Y
0.20
0.20
Rank B
0.08
0.23
0.28
0.33
Rank Y
0.345
0.43
0.37
0.395
0.285
0.25
x
y
0.285
0.25
Rank P
0.23
0.345
0.33
0.37
Rank O
0.43
0.56
0.395
0.44
0.34
0.28
X
0.34
0.39
x
0.39
0.58
Y
0.28
0.31
y
0.31
0.42
Notes）
(x,y) is chromatic coordinates in CIE color diagram. Rank areas are shown in Sheet 4.
・
Tolerance of chromaticity is +/-0.02.
・
The correlated color temperature for Rank B varies from 12,000K to infinity.
・
For Rank P, it varies from 5,000K to 12,000K. For Rank Y, it varies from 3,000K to 5,000K.
For Rank O, it varies from 1,600K to 3,000K.
The narrower color ranks which the customer requires can be offered by a special contract
・
between the two parties.
・The color of White LED is changed a little by an operating current
・A typical light emission spectrum of the white LED (Rank P) is shown in sheet 1.
2 OUTLINE DIMENSIONS AND MATERIALS
Please refer to Sheet 5.
Material as follows; Chip: Zinc Selenide (ZnSe) and ZnSe-related compound
Resin: Epoxy Resin
Substrate: Fiber-reinforced Epoxy
3 PRODUCT NAME INDICATION
Product Number
・
The first seven characters show model number. Followings are representative of ranks.
RLZS-1608▲■
▲ - Ranking by Luminous Intensity
■ - Ranking by Color
・Lot Number
The first five characters show model number. Followings are representative of ranks.
YYMM-○XXX□
YY - Year (02 for 2002, 03 for 2003,….)
MM - Month (01 for Jan., 02 for Feb., ….)
○ - Epitaxial Chamber suffix (L,….)
XXX - Product Number (representative lot number of epitaxial growth)
- Substrate dopant suffix (P for Aluminum, C for Iodine)
□
4 RELIABILITY
4.1 Test Item and Result
Test Item
Test Condition
Result
Consecutive operating
lifetime test
If=20mA / DC, Ta=25℃, t=1,000hours
0/18
High temperature
storage lifetime test
Ta=85℃, t=1,000hours
0/18
Temperature humidity
storage lifetime test
Ta=60℃, RH=90%, t=1,000hours
0/18
Reflow heat test
T=240℃(Max), t=10sec.
Reflow soldering
0/18
Note)
The reliability guarantee criterion is defined by MIL-S-19500H. The data shows LTPD is 15%.
・
4.2 Criteria For Judging The Damage
Item
Symbol
Test Conditions
Forward Voltage
Vf
If=20mA
Luminous Intensity
Iv
If=20mA
Note)
U.S.L.: Upper Standard Level., L.S.L: Lower Standard Level.
・
Criteria for Judgement
Min.
Max.
U.S.L.x1.1
L.S.L.x0.5
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5 CAUTIONS
Care should be taken after due consideration when using LEDs.
5.1 Storage
・ Store at room temperature (25±3℃) and under low humidity (RH lower than 50%).
5.2 Static Electricity
・ Static electricity or surge voltage damages the LEDs. It is recommended to use a wristband or
an anti-electrostatic glove when handling the LEDs.
5.3 Soldering Conditions
・ Reflow soldering should be performed at the peak temperature under 240℃ and less than 10
seconds.
・ Hand repair soldering should be performed at temperatures under 300℃ and less than 3
seconds. (one time only)
5.4 Cleaning
・ It is recommended to use isopropyl alcohol as a solvent for cleaning the LEDs. When using
other solvents, it should be confirmed before hand whether the solvents dissolve the resin or
not. Freon solvent should not be used to clean the LEDs because of worldwide regulations.
・ Do not clean the LEDs by the ultrasonic. When it is absolutely necessary, the influence of
ultrasonic cleaning on the LEDs depends on the factors such as ultrasonic power and the
assembled condition. Before cleaning pre-test should be done to confirm will not cause any
damage to the LEDs.
5.5 Others
・ Care must be taken to ensure that the reverse voltage will not exceed the absolute maximum
rating when using the LEDs with matrix drive.
・ These LEDs described in this spec. sheets are intended to be used for ordinary electronic
equipment. Potential applications of these LEDs include displays or backlighting for in-door
instruments or mobile gear.
・ Any conditions for pulse operation for LED over Ifpm are not recommended.
・ The formal specifications must be exchanged and signed by both parties before large volume
purchase begins.
・ The appearance and specifications of the product may be modified for improvement without
notice.