Sharp GL454, GL453 Datasheet

GL453/GL454

GL453/GL454

Bidirectional Emission Type
Infrared Emitting Diode

■ Features

1. Bidirectional light emission type

2. High output (Φ
20mA

)

: TYP. 1.3mW at I

eF

=

3. Compact package type

4. Long lead pin type (GL454

)

5. Epoxy resin package

■ Applications

1. Light source for tape-end detectors of
VHS type VCRs

■ Absolute Maximum Ratings

Parameter Symbol Rating Unit
Power dissipation P 75 mW
Forward current I

*1

Peak forward current I
Reverse voltage V
Operating temperature T
Storage temperature T

*2

Soldering temperature T

*1 Pulse width 100µs, Duty ratio = 0.01
*2 For 3 seconds at the position of 1.8mm from the bottom face

of resin package

<=

F

FM

R

opr

stg

sol

(

Ta = 25˚C

50 mA

1A
6V

- 25 to + 85

- 40 to + 85
260 ˚C

■ Outline Dimensions

GL453

MAX.

Rest of gate

± 0.2

4.2

MAX.

+ 1.5

- 1.0

18.0

GL454

MAX.

Rest of gate

± 0.2

4.2

MAX.

+ 1.5

- 1

42.0

)

± 0.2

3.0

1.5

0.3

0.51.8
2 - R1.1

C 0.65

0.5

MIN.

0.3

Resin burr 1.0

2.54

12

± 0.2

3.0

1.5

0.3

0.5

2 - R1.15

1.8
C 0.65

0.5

MIN.

0.3

Resin burr 1.0

2.54

21

2 - 0.4

4.0

2 - 0.4

4.0

± 0.2

1.7

Pink
transparent
epoxy resin

1 Anode
2 Cathode

± 0.2

1.7

Pink
transparent
epoxy resin

19

3.0

1 Anode
2 Cathode

(

Unit: mm

1

2

1

2

)

˚C
˚C

“ 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,

data books, etc. Contact SHARP in order to obtain the latest version of the device specification sheets before using any SHARP's device.”

GL453/GL454

■ Electro-optical Characteristics

Parameter Symbol Conditions MIN. TYP. MAX. Unit
Forward voltage V
Peak forward voltage V
Reverse current I
Terminal capacitance
Radiant flux

Peak emission wavelength λ
Half intensity wavelength ∆λ I

F

FM

R

C

t

Φ

e

p

(

Ta= 25˚C

IF= 20mA - 1.2 1.5 V
IFM= 0.5A - 3.0 4.0 V
VR=3V - - 10 µA
V= 0, f= 1MHz - 30 - pF
IF= 20mA 0.85 1.3 1.95 mW
IF= 5mA - 950 - nm

= 5mA - 45 - nm

F

)

Fig. 1 Forward Current vs. Fig. 2 Peak Forward Current vs. Duty Ratio

Ambient Temperature

60

50

)

40

mA

(

F

30

20

Forward current I

10

0

-25

0 25 10050 75 85

Ambient temperature Ta (˚C

)

10000

)
mA

(

1000

FM

100

Peak forward current I

10

-3

10

10

-2

Duty ratio

-1

10

Pulse width

<=

100µs

T

= 25˚C

a

1