Sharp GP1L53V Datasheet

GP1L53V

GP1L53V

Compact, High Sensing
Accuracy Type
Photointerrupter

■ Features

1. Compact type

2. High sensing accuracy (Slit width: 0.5mm

3. High current transfer ratio
)

(CTR: MIN. 30% at I

= 1mA

F

4. PWB direct mounting type

■ Applications

1. OA equipment such as FDDs, printers,

facsimiles, etc.

2. VCRs

3. Optoelectronic switches

■ Outline Dimensions

)

4

1 Anode
2 Cathode

3.5
(

Both sides of

detector and emitter

10.0

MIN.

10.0

*Unspecified tolerances shall be as follows;

Dimensions(d)Tolerance

6.0< d<=18.0 ± 0.2

*( ): Reference dimensions

7.5

4 - 0.4

1.5

L53

±

0.3

13.7

+ 0.2

5.0

- 0.1

+

0.3

-

0.1

(

)

10.3

1

4

23

(

Unit : mm

Internal connection
diagram

3 Collector
4 Emitter

5.2

)

0.5

Slit width

d<=6.0 ± 0.1

4 - 0.45

23

1

(

2.54

C1.0

)

+ 0.3

- 0.1

)

■ Absolute Maximum Ratings

(

Ta = 25˚C

)

Parameter Symbol Rating Unit

Input

Forward current I

*1

Peak forward current I
Reverse voltage V

F

FM

R

50 mA

1A

6V
Power dissipation P 75 mW
Collector-emitter voltage V

Output

Emitter-collector voltage V
Collector current I
Collector power dissipation P
Operating temperature T
Storage temperature T

*2

Soldering temperature T

*1 Pulse width<=100µ s, Duty ratio= 0.01
*2 For 5 seconds

“ 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.”

CEO

ECO

C

C

opr

stg

sol

35 V

6V

40 mA
75 mW

- 25 to + 85 ˚C

- 40 to + 100 ˚C
260 ˚C

GP1L53V

■ Electro-optical Characteristics

Parameter Symbol Conditions MIN. TYP. MAX. Unit

Forward voltage V

Input

Output Collector dark current I

Transfer
charac­teristics

Fig. 1 Forward Current vs.

Ambient Temperature

Peak forward voltage V
Reverse current

Collector Current Ic
Collector-emitter saturation voltage

Rise time t
Fall time t

)
mA

(

F

60

50

40

30

Response time

FIF

FMIFM

I

R

CEOVCE

V

CE(sat

r

f

(

Ta = 25˚C

= 20mA - 1.25 1.4 V

= 0.5A - 3 4 V

VR=3V - - 10 µA

= 10V - - 10

= 1mA, VCE= 2V 0.3 - mA

I

F

)

IF= 2mA, IC= 0.3mA - - 1.0 V
VCE= 2V, IC= 2mA

= 100 Ω

R

L

- 80 400 µ s

- 70 350 µ s

- 6

20

Fig. 2 Collector Power Dissipation vs.

Ambient Temperature

120

)

100

mW

(

C

80
75

60

)

A

20

Forward current I

10

0

- 25 0 25 50 75 85 100
Ambient Temperature Ta (˚C

Fig. 3 Peak Forward Current vs.

Duty Ratio

Pulse width<=100 µs

10

Duty ratio

Ta= 25˚C

-1

2000

)

1000

mA

(

FM

500

200

100

Peak forward current I

50

20

-2

52525

10

40

20

Collector power dissipation P

0

)

- 25 0 25 50 75 85 100
Ambient temperature Ta (˚C

)

Fig. 4 Forward Current vs.

Forward Voltage

500

T

= 75˚C

200

)

100

mA

(

F

50

20
10

Forward current I

5

2

1

1

a

50˚C

0

0.5 1 1.5 2 2.5 3 3.5
Forward voltage V

25˚C

(V

F

0˚C

-

25˚C

)