KODENSHI LG-209D Photointerrupters(transmissive) Datasheet

Photointerrupters(Transmissive)
KODENSHI
LG-209
DIMENSIONS
(Unit : mm)
The LG–209 photointerrupter combine high output GaAs
IRED with Photo IC.The sensor makes possible easy
development of object detecting systems with
highperformance,high reliability and small equipment size.
LG-209L : High level output at shielding
LG-209D : Low level output at shielding
FEATURES
•PWB direct mount type
•GAP :2.4mm
•With the installation positioning boss
•Low–boy type(installation height :5.4mm )
APPLICATIONS
•Printers
•Facsimiles
•Vending machines
•Amusement machines
MAXIMUM RATINGS
Item
Input
Output
Power dissipation
Forward current
Reverse voltage
Pulse forward current *1
Supply voltage
Low level output current
Power dissipation
Operating temp.*2
Storage temp.*2
Soldering temp.*3
(Ta=25℃)
Symbol
Rating
Unit
PD
IF
VR
IFP
VCC
ICL
P
Topr.
Tstg.
Tsol.
100
60
5
1
17
30
200
-20~+85
-30~+85
260
mW
mA
V
A
V
mA
mW
℃
℃
℃
*1. pulse width :tw≦100 μ
sec.period :T=10msec.
*2. No icebound or dew
*3. For MAX.5 seconds at the position of 1mm from the package
ELECTRO-OPTICAL CHARACTERISTICS
Item
Symbol
Forward voltage
Reverse current
Peak wavelength
Operating supply voltage rang
Low level output voltage
Input
High level output voltage
Low level supply current
High level supply current
L →H threshold input current *4
Hysteresis *5
Transmisson
L →H propagation time
H →L propagation time
Rise time
Fall time
VF
IR
λp
VCC
VOL
VOH
ICCL
ICCH
IFLH
IFHL/IFLH
tPLH
tPHL
tr
tf
Input
(Ta=25℃)
Conditions
Min.
IF=20mA
VR=5V
IF =20mA
Typ.
Max.
Unit.
1.2
1.4
10
V
μA
nm
V
V
V
mA
mA
mA
μsec.
μsec.
μsec.
μsec.
940
4.5
VCC =5V,IF =0mA,IOL =16mA
VCC =5V,IF =12mA,RL=10kΩ
VCC =5V,IF =0mA
VCC =5V,IF =20mA
VCC=5V,RE=10kΩ
VCC=5V,RE=10kΩ
VCC =5V,IF =18mA,RL =3.3kΩ
*4. IFLH represents forward current when output changes from low to high.
*5. IFHLrepresents forward current when output changes from high to low.
- 1-
0.3
16.5
0.4
4.5
0.60
3
2
5
0.83
1
3
0.6
0.02
10
10
12
0.98
Photointerrupters(Transmissive)
LG-209
Power dissipation Vs.
Ambient temperature
Relative threshold input current Vs.
Supply voltage
Forward current Vs.
Forward voltage
Relative threshold input current Vs.
Ambient temperature
- 2-
Low level output voltage Vs.
Low level output current
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