GL390/GL390V
(Ta=25C)
I
F
60
mA
I
FM
1
A
V
R
6
V
P
150
mW
T
opr
C
T
stg
C
T
sol
260
C
GL390
GL390V
TYP. 13
TYP. 16
g
1
4.1
(1.0
)
(2.54)
2
1
1
2
GL390
GL390V
GL390/GL390V
TYP. 18
3.1
3.8
0.3
5.2
0.3
2
-
0.5
0.1
24.0
MIN.
2
-
0.5
0.1
2.0
+
0.1
-
0.3
0.2
+
0.5
-
0.2
0.8
MAX.
Features
Applications
Outline Dimensions
(Unit : mm)
1. Thin bow type resin mold package
(Resin area : 2.0 x 3.1 x 5.2 mm)
1. Cameras
2. Infrared remote controllers
Epoxy resin
Protruded resin
*
Tolerance :
0.2mm
g
1 Resin type
Pale blue transparent resin
Blue transparent resin
1 Anode
2 Cathode
Model Lineup
Absolute Maximum Ratings
Parameter
Symbol
Rating
Unit
*1
*2
Forward current
Peak forward current
Reverse voltage
Power dissipation
Operating temperature
Storage temperature
Soldering temperature
*1 Pulse width <=100
s, Duty ratio=0.01
*2 For 3 seconds at the position of 2.6 mm from the resin edge
Model
- 25 to 85
- 40 to 85
Radiant intensity (mW/sr)
Half intensity angle ( )
2. Low peak forward voltage (
GL390V
)
V
FM
: TYP. 1.9V at I
FM
=0.5A
Thin Bow Type Resin Mold
Package Infrared Emitting Diodes
data books, etc. Contact SHARP in order to obtain the latest version of the device specification sheets before using any SHARP's device.
"
"
In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that occur in equipment using any of SHARP's devices, shown in catalogs,
s
s
s
s
s
(Ta=25 C )
0
20
40
60
80
100
120
- 25
0
25
50
75 85 100
125
10
50
100
500
1000
5000
10000
10
- 3
10
- 2
10
- 1
1
T
a
= 25C
V
F
I
F
= 50mA
1.3
1.5
V
GL390
V
FM
I
FM
= 0.5A
-
-
2.2
3.5
V
GL390V
-
1.9
3.0
I
R
V
R
= 3V
-
-
10
A
GL390
I
E
I
F
= 50mA
7
13
-
mW/sr
GL390V
9
16
-
P
I
F
= 5mA
-
950
-
nm
I
F
= 5mA
-
45
-
nm
GL390
C
t
V
R
= 0 f = 1MHz
-
70
-
-
pF
GL390V
-
50
f
c
-
300
-
kHz
I
F
= 20mA
-
18
-
Electro-optical Characteristics
Parameter
Symbol
Conditions
MIN.
TYP.
MAX.
Unit
Peak forward voltage
Reverse current
Radiant intensity
Peak emission wavelength
Half intensity wavelength
Terminal capacitance
Response frequency
Half intensity angle
*3
Fig. 1 Forward Current vs. Ambient
Temperature
Forward current I
F
(
mA
)
Ambient temperature Ta (C )
Peak forward current I
FM
(
mA
)
Duty ratio
Pulse width <=100
s
GL390/GL390V
Forward voltage
*3
I
E
: Value obtained by converting the value in power of radiant fluxes emitted at the solid angle of 0.01 sr (steradian) in the direction of mechanical axis of
the lens portion into 1 sr or all those emitted from the light emitting diode.
Fig. 2 Peak Forward Current vs. Duty Ratio
s
GL390/GL390V
880
900
920
940
960
980
0
20
40
60
80
100
0
25
50
75
100
975
950
925
900
0
25
50
75
100
1
0.1
500
50
0
100
10
5
1
0.5
1.0
1.5
2.0
2.5
200
20
2
3.0
25C
0C
50C
0.2
0.5
2
5
10
20
3.5
I
F
= const.
F
(
mA
)
F
(V)
I
F
T
a
= 25C
I
F
=
const.
- 25
T
a
= 75C
- 25
1000
1000 1020 1040
Fig. 3 Spectral Distribution
Fig. 4 Peak Emission Wavelength vs.
Ambient Temperature
Fig. 6 Relative Radiant Flux vs. Ambient
Temperature
Relative radiant intensity (%)
Wavelength
(nm)
Forward current I
Forward voltage V
Peak emission wavelength
p (nm)
Ambient temperature Ta ( C )
Relative radiant flux
Ambient temperature Ta ( C)
= 5mA
Fig. 5-1 Forward Current vs. Forward Voltage
Fig. 5-2 Forward Current vs. Forward Voltage
E
(
mW/sr
)
F
(mA)
Fig. 7 Radiant Intensity vs. Forward Current
Radiant intensity I
Forward current I
F
(V)
Forward voltage V
Forward current I
(
mA
)
F
0
0.5
1.0
1.5
2.0
2.5
3.0
1
10
100
1000
+ 85C
+ 50C + 25C
0C
- 25C
: DC
: Pulse
0.1
10
100
1000
1
0.01
0.1
1
10
100
1000
Ta=25C
Pulse width 100
s
Duty ratio=0.01
GL390V
GL390
(GL390)
(GL390V)
- 20C
Angular displacement
Please refer to the chapter "Precautions for Use". (Page 78 to 93)
Fig. 8-1 Radiation Diagram (Horizontal Direction)
Fig. 8-2 Radiation Diagram (Vertical Direction)
Angular displacement
GL390/GL390V
0
- 90
- 80
- 70
- 60
- 50
+ 90
+ 80
+ 70
+ 60
+ 50
- 40
+ 40
- 30
+ 30
- 20
+ 20
- 10
+ 10
0
Relative radiant intensity (%)
- 90
- 80
- 70
- 60
- 50
- 40
- 30
+ 90
+ 80
+ 70
+ 60
+ 50
+ 40
+ 30
- 20
- 10
0
0
+ 10
+ 20
Relative radiant intensity (%)
q
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