SHARP GL3HS43

LED Lamps
GL30
❑ 43 Series
.
Ype
GL30043 Series &~~(T-l) Cy’’nder ‘ ‘ED
■ Model No.
GL3UR43 Red (Super-luminosity)
GL3LR43 Red (High-luminosity)
GL3TR43 Red (High-luminosity)
GL3PR43 Red
GL3HD43 Red
GL3HS43 Sunset orange
GL3HY43 Yellow
GL3EG43 Yellow-green
GL3KG43 Green
B Outline Dimensions
(Unit: mm)
GaAIAs/GaAIAs
GaAIAs/GaAs
GaAIAs/GaAs
GaP
GaAsP/GaP
GaAsP/GaP
GaAsP/GaP
GaP
GaP
H Features
1. @3mm(T-l) all resin mold
2. Colored transparency lens type
3. Wide viewing angle
k
:+1
, ,0
0
!-’,
.....
1 2
Pin connections
1, Anode
?. Cathode
Unspecified tolerance : fO.2mm
■ Absolute Maximum Ratings
(Ta=25°C)
GL3UR43 GL3LR43 GL3PR43 GL3HD43 GL3EG43
Parameter
Symbol
GL3TR43
GL3HS43 GL3KG43
Unit
GL3HY43
XI
Power dissipation
P
75
110
23
84
84
mW
Continuous forward current
IF
30
50
10
30
30
mA
Peak forward current
Im1501300150
\50150\mA
—
0.40
0.67
0.13
0.40
0.40 mA~C
—
4.00
0.67
0.67
0.67
0.67 mAAC
Reverse voltage
VR
Operating temperature
Topr
Storage temperature
Tscg
X2 Soldering
temperature
T’,oI
4
5
5
–25
I
to
5
v
5
+85
%
– 2 5 t o +100
“c
I “c
260(within 5 seconds)
Xl Duty ratio = 1/10 , Pulse width = O.lms
Duty ratio = 1/16 , Pulse width < lms for GL3LR43 and GL3TR43
X2 At the position of 1.6mm from the bottom face of resin package
“In the absence of con f!rmotlon by dev{ce spsctftcatlon sh&ts, SHARP takes no responstb(l!ty for any defxts that wcur m equipment using any of SHARPS dev[ces,
shown m catalogs, data books, etc. Contact SHARP m order to obtain the latest version of the dev!ce s~lf[cat!on sheets before using any SHARPS devlm”
55
GL3D ~43 S e r i e s
LED Lamps
GL3UR43 (Red)
■ Electro-optical Characteristics
Symbol
Parameter
Forward voltage
VF
~+ Luminous intensity
I\
Peak emission wavelength
Spectrum radiation bandwidth
A,
JA
Reverse current
[f{
Terminal capacitance
c,
Response frequency
f,
(Ta=25”C)
\’fIx. TYP. \fAx. [“nit
— 185 2.5
~
Model No.
GL3UR43
Conditions
I~=20m4
GL3LR43
IF=zoM.~
GL3UR43
It:=20mA
GL3LR13
I~=20mA
GL3UR43
~7R=3~
GL3[JR43
\= O\’ f=MHz
GL3(;R43
–
100
–
660
–
20
-
—
100
–
25
–
—
8
–
50
—
mcd
nm
nm
/! .A
pF
MHz
X3 T o l e r a n c e : +30%
9
Characteristics Diagrams
Forward Current vs.
Forward Voltage
I F2 –2j”~l
Forwar[l >[jltagc VI. (V)
Relative Luminous Intensity vs.
Ambient Temperature
lIF=20m.41
Luminous Intensity vs.
Forward Current
‘],, =?s~[l
Forwdrri t .rrerlt IF (m,!)
Spectrum Distribution
Ambient temperature Ta (“C)
— SHARP
(Ta=2Stl
Radiation Diagram
lTa=25°C1
GL30 ❑ 43 Series
LED Lamps
GL3LR43 (Red) / GL3TR43 (Red)
■ Electro-optical Characteristics
Parameter
Model No,
GL3LR43
GL3TR43
GL3LR43
GL3TR43
GL3LR43
GL3TR43
GL3LR43
GL3TR43
GL3LR43
GL3TR43
GL3LR43
GL3TR43
GL3LR43
GL3TR43
Symbol
Forward voltage
VF
~~Luminous intensity
1!
Peak emission wavelength
A,
AA
Spectrum radiation bandwidth
Reverse current
IR
Terminal capacitance
LI
Response frequency
f,
Conditions
IF=20mA
I~=20mA
IF=20mA
IF=20mA
IF=20mA
IF=20mA
IF=20mA
IF=20mA
VR=4V
VR=4V
V=OV f=l MHz
V=OV f=l MHz
–
–
(Ta =25°C )
MIN. TYP. MAX. Unit
— 1,75 2.2
v
1.75 2.2
40
–
20
– ‘cd
20
10
—
660
–
660
–
‘m
20
–
—
20
–
‘m
—
10
PA
—
—
10
–
30
–30
–
‘F
–
8
– MHZ
—
8
–
X3 Tolerance: +30%
H Characteristics Diagrams
Forward Current vs.
Forward Voltage
I r,, :25”[ )
Luminous Intensity vs.
Forward Current
10
11111
I
u!!!
1
Iii
Forward
voltage
VF (v)
iii
Forward Current Derating Curve
(,~a =~~.~ ,
IZIIIY 1 ,.
I
A
Ulll
F o r w a r d c u r r e n t Ip (ml)
Relative Luminous Intensity vs.
Ambient Temperature
II, -21)m II
Spectrum Distribution
Imblent temperature, Ta (“C)
Radiation Diagram
(Ta =25-L I
d(n)
z
h
.<
z
~
.-c
loo
,“”
:
.5
5U
j
u
.: :,
~
“
&
1(1
.,,
“
2“
4“
60
8“
!lrrlbicnt temperature Ta ~“(.
I
,M
Wavelength A (nm )
SHARP
C7
GL3U ❑ 43 Series
LED Lamps
GL3PR43 (Red) / GL3HD43 (Red)
H Electro-optical Characteristics
Parameter
Symbol
Forward voltage
VF
~~Luminous intensity
I\/
A,
Peak emission wavelength
AA
Spectrum radiation bandwidth
Reverse current
IR
Terminal capacitance
Ct
Response frequency
f,
Model No.
GL3PR43
GL3HD43
GL3PR43
GL3HD43
GL3PR43
GL3HD43
GL3PR43
GL3HD43
GL3PR43
GL3HD43
GL3PR43
GL3HD43
GL3PR43
GL3HD43
(Ta=25”C)
MIN. TYP. MAX. Unit
—
1.9
2.3
~
—
2.0
2.8
1.0
3.0
–
mcd
Conditions
I~=5mA
IF=20mA
IF=5mA
IF=20mA
IF=5mA
IF=20mA
IF=5mA
IF=20mA
1
VR=4V
VR=4V
V = O V f=l MHz
V = O V f=lMHz
–
–
70
..”
-
75
“
1
–
1
—
—
695
635
100
35
–
–
–
–
—
—
10
55
20
4
4
10
–
–
–
–
–
–
—
—
‘m
‘m
,uA
pF
MHZ
X3 T o l e r a n c e : +30%
■ Characteristics Diagrams
Forward Current vs.
Forward Voltage
(’ra=25”cl
Luminous Intensity vs.
Forward Current
Forward Current Derating Curve
lTa=25”Cl
w
z
g
~
:1
:
.
m.
!
!
L
L
A
,,j
(1 3 (, ?
i
HDfl
1
v
I
u
,
.4
. .
!
do
E
EM
s
u
~ 20
!
I
,
$
~
L
10
0
–20
Relative Luminous Intensity vs.
Ambient Temperature, ;l~I;,:>I:A I
20
40
60
80
10II
Ambient temperature Ta (“C 1
Forward current IF (m.k)
Forward voltage VF (V)
O
Radiation Diagram
Spectrum Distribution
(Ta=25Tl
(Ta=25Tl
400
g
200
:
g
,0”
e
.:
.
.5
+ 3V
-30
h
.%
to
-40
50
+ 50
6 0
+W
50
~
u
.220
70
+ 7m
8 0
+ flr
~
2
10
_2(,
,,
~,,
,,,
90
60
80
100
W a v e l e n g t h A (rim)
SHARP
58
n
+W
LED Lamps
GL30
❑ 43 Series
GL3HS43 (Sunset orange) / GL3HY43 (Yellow)
■ Electro-optical Characteristics
Parameter
Symbol
Forward voltage
VF
~sLuminous intensity
Iv
2,
Peak emission wavelength
AA
Spectrum radiation bandwidth
X3
Reverse current
IR
Terminal capacitance
c,
Response frequency
fc
,---- -,
Unit
TYP.
MAX,
MIN.
Model No. Conditions
—
v
2.0 2,8
IF=20mA
GL3HS43
—
IF=20mA
2.0 2.8
GL3HY43
–
25
GL3HS43
IF=20mA
7,0
IF=20mA
– ‘cd
25
GL3HY43
7.0
—
IF=20mA
610
–
GL3HS43
—
IF=20mA
585
–
‘m
GL3HY43
—
IF=20mA
35
–
GL3HS43
—
IF=20mA
GL3HY43
30
–
‘m
—
—
10
GL3HS43 i VR=4V
..-.
—
—
10 i PA
GL3HY43 I VR=:4V
GL3HS43 IV=OV f=l MHz \ – I 1~ I – I
GL3HY43 I V=OV f=lMHz I – , -. I
1
—
GL3HS43 I –
4]–
—
41– ‘ H z
GL3HY43 I –
1
I
Tolerance: *30%
1
1
.-
■ Characteristics Diagrams
Forward Current vs.
Forward Voltage
Luminous Intensity vs.
Forward Current
(Ta=25tl
(Ta=25t)
50
30
;
&
20
~
10
*
.:
2
05
z
1
0.51 I 1, 1, r,
0
5
1
2
Forward voltage
V F (V)
1
3
1 t I !111
5
1
0
Forward current
1
20
1 1 J
w 50
I F (mA)
Ambient temperature Ta (“C)
Radiation Diagram
Spectrum Distribution
Relative Luminous Intensity vs.
Ambient Temperature
0F=20mA)
(Ta = 25~)
(Ta=25T)
lUU
–20’
g
>
g
h
.=
2
$
c
.-
–10
0
– 30
+ 3C
–40
+ 4W
w
z
.:
~()
2
G
.E
2
.2
=
:
.3
~
7 0
+70
2
-m
+W
–w
+W
+50
–m
2
–20
0
20
40
m
Ambient temperature Ta (“C)
80
,W
0
U!43
551,
6(H,
6.5,,
;,,,
+W
W a v e l e n g t h 2 (rim)
59
GL3D
LED Lam~s
❑ 43 Series
GL3EG43 (Yellow-green) / GL3KG43 (Green)
■ Electro-optical Characteristics
Symbol
Parameter
VF
Forward voltage
%:3 Lumlno”s
intensity
Iv
A,
Peak emission wavelength
AA
Spectrum radiation bandwidth
Reverse current
IR
Terminal capacitance
c,
f,
Response frequency
Model No.
GL3EG43
GL3KG43
GL3EG43
GL3KG43
GL3EG43
GL3KG43
GL3EG43
GL3KG43
GL3EG43
GL3KG43
GL3EG43
GL3KG43
GL3EG43
GL3KG43
(Ta=25”C)
MIN. TYP. MAX. Unit
2.8
2.1
~
—
2 !1
2.8
10 25
–
–
8.0
20
‘cd
—
565
–
nm
—
555
–
Conditions
IF=20mA
IF=20mA
IF=20mA
I~=20mA
IF=20mA
IF=20mA
IF=20mA
IF=20mA
—
—
VR=4V
VR=4V
V=OV f=l MHz
–
–
V=OV f=lMHz
–
—
–
30
25
—
—
35
4(I
4
4
–
–
‘m
10
,uA
10
–
–
–
–
PF
MHZ
X3 T o l e r a n c e : +30%
■ Characteristics Diagrams
Forward Current vs.
Forward Voltage
Luminous Intensity vs.
Forward Current
I ra =25”L I
Forward Current Derating Curve
(Ta=25”[
I
50
z
g
do
>
al
z
t
5
.
Q
z
$
8
L
,
k
2 01
& 0,05
~
I I I I
,
II !
L
,
I
I
,
I
I
!
I
I
L-
30
~~
10
0
l’orward current b (rr!)
Forward V[)[tage \’F (\ I
g
.
.<
2
~
.-c
[’h, =25”L I
,(
,,
2
0
.5
E
~
u
.2
~
2
1,0
Ambient tempc!rature Ta (“C)
60
O
?0
Ambient
411
temperature
fifl
U(I
1
[I(I
Ta (“C 1
Radiation Diagram
Spectrum Distribution
Relative Luminous Intensity vs.
Ambient Temperature
1, =2(1”1 .11
1(
21)
W a v e l e n g t h A (nm )
lTa=25”Cl