Sharp IS456 Datasheet

IS456

IS456

High Speed Response Type
OPIC Light Detector

■ Features

1. High speed response (t

2. Uses a pattern to allow for possible
positional deviation of the semiconductor
laser spot.

3. Compact, mini-flat package

: TYP.230ns

PHL

■ Applications

1. Laser beam printers

■ Absolute Maximum Ratings

*1

Parameter
Supply voltage
High level output voltage
Low level output current
Operating temperature
Storage temperature

*2

Soldering temperature
Power dissipation
RO terminal power dissipation

*3

Incident light intensity

*3

Radiant intensity

*1 For 1 minute
*2 For 3 seconds at the position shown in the follow-

ing drawing.

*3 Maximum allowable incident light intensity and

radiant intensity of laser beam (λ = 780nm) to
the device.

Soldering area Soldering area

Symbol

V

CC

V

OH

I

OL

T

opr

T

stg

T

sol

P 150 mW

P

RO

P

I

E

e

■ Electro-optical Characteristics

Parameter Symbol Conditions MIN. TYP. MAX. Unit
High level output voltage V
Low level output voltage V
High level supply current I
Low level supply current I

*4

“High→Low ” threshold illuminance 1

*4

“High→Low ” threshold illuminance 2

“ High→Low ” threshold incident light intensity

“ High→Low”
propagation delay time

“ Low→High”
propagation delay time

2 represent illuminance by CIE standard light source A (tungsten lamp) when output goes from high to low.

VHL

*4 E

Response

time

1, E

VHL

)

(

Ta=25˚C

Rating Unit

-0.5 to + 7
7V

20 mA

-25 to+ 80

-40 to+ 85
260 ˚C

24

5

60

OH

OL

CCH

CCL

E

VHL1

E

VHL2

P

IHL

t

PHL

t

PLH

r

f

■ Outline Dimensions

0.3-0.1

+

0.4

1

Detector
center

2

V

˚C
˚C

mW
mW
WB

)

(

0.8

2.7

)

R0.2

+

0.2

-

0.4

Internal connection
diagram

V

2.75

4.4± 0.1

+

0.5

-

0

4.4

REF

±

2.7

± 0.1

0.2

0.25

+

-

(

Unit :mm

0.2

±

0.7

2.5

4

0.3

0.1

±

±

5.0

3.81

3

0.5
0

+

0.3-0

0.15

0.3-0.2

+

0.5

0.1

±

4

1
2

3

1.07

1.5

Gain resistor(Ro
(

Outer mounting

±

5.0

10˚

10˚ 10˚

1 R

O

2 V

O

3 GND
4 V

CC

)

0.1

10˚

)

)

*“OPIC” (Optical IC) is a trademark of the SHARP Corporation.

An OPIC consists of a light-detecting element and signal­ processing circuit integrated onto a single chip.

)

R

=51kΩ , E

O

IOL=10mA, E

=0

V

=1 000lx

V

(

= 5V, Ta= 25˚C

V

CC

4.9 - - V

- 0.4 0.6 V
RO=51kΩ , EV=0 - 2.6 4.5 mA
RO=51kΩ , E
RO=51kΩ 330 470 600
RO=5.1kΩ --

=1 000lx

V

- 3.8 6.6 mA

lx

5 800

lx

RO=5.1kΩ , l =780nm - 100 - µW

=15pF, Duty=1: 1

C

L

PI=0.2mW, λ =780nm
RO=5.1kΩ , RL=510Ω

- 230 400 ns

- 230 400 ns

- 60 200 ns Rise time t

- 20 100 ns Fall time t

“ 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.”

■ Recommended Operating Conditions

Parameter Symbol MIN. MAX. Unit
Operating supply voltage V
Operating temperature T
Incident light intentity (λ = 780nm

In order to stabilize power supply line, connect a by-pass capacitor of 0.1µF
between Vcc and GND near the device.

)

P

4.5 5.5 V

cc

opr

I

060˚C

- 2.5 mW

IS456

Fig. 1 Total Power Dissipation vs.

Ambient Temperature

250

)

200
mW

(

150

100

Total power dissipation P

0

Ambient temperature Ta (˚C

)

Fig. 3 Low Level Output Voltage vs.

Ambient Temperature

0.6

0.5

)
mA

(

0.4

OL

0.3

0.2

0.1

Low level output voltage V

0

025

Ambient temperature T

VCC=5V

I

= 20mA

OL

10mA

50

75 100-25 3

)

(˚C

a

Fig. 2 Low Level Output Voltage vs.

Low Level Output Current

10

5

)
V

(

OL

2

1

0.5

0.2

Low level output voltage V

1

100755025-25500

11052

Low level output Current IOL (mA

VCC=5V
T

= 25˚C

a

)

1005020

Fig. 4 Supply Current vs. Supply Voltage

6

5
)
mA

4

(

CC

3

2
Supply current I

1

0

Supply voltage VCC (V

Ta= 25˚C

I

CCL

I

CCH

)

87654