PC400TJ0000F Datasheet PC400TJ0000F, PC400 | P1-P3

■ Applications

Symbol Rating Unit

Input

I

F

mA

V

R

V

PmW

Output

V

CC

V

mW

V

iso

Operating temperature T

opr

˚C

Storage temperature T

stg

˚C

T

sol

260 ˚C

■ Features ■ Outline Dimensions

3. Isolation voltage between input and output

1. Hybrid substrate which requires high den-

2. Personal computers, office computers and

3. Electronic musical instruments

sity mounting

peripheral equipment

PC400

*1

Isolation voltege

*2

Total power dissipation

V

OH

I

OL

P

O

P

tot

50

6

70

16

50

130

150

- 25 to + 85

- 40 to + 125

mA

mW

■ Package Specifications

1

1 Anode

2 NC

6 Vcc

5 GND

4 Vo

3

654

Anode mark

PC400

Internal connection

diagram

Voltage regulator

2. “ Low ” output during light emission

1. Mini-flat package

(

V

iso rms

)

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,

(

Ta= 25˚C

)

■ Absolute Maximum Ratings

(

Input Side

)

6˚

1

3

6

Amp.

5

4

Compact, Surface Mount Type

OPIC Photocoupler

Forward current

Reverse voltage

Power dissipation

Supply voltage

High level output voltege

Low level output current

Power dissipation

Parameter

(

Unit : mm

)

*1 AC for 1 minute, 40 to 60% RH

*2 For 10 seconds

Soldering temperature

0.2mm or more

Soldering area

4. TTL and LSTTL compatible output

5. Recognized by UL(No.E64380)

Model No.

Package specifications

Diameter of reel

Tape width

PC400 φ 370mm 12mm

PC400T Taping package

(

Net: 750pcs.

)

φ 178mm 12mm

PC400Z Sleeve package

(

Net: 100pcs.

)

--

: 3 750V

Taping package

(

Net:3 000pcs.

)

V

rms

3 750

C0.4

An OPIC consists of a light-detecting element and signal-

processing circuit integrated onto a single chip.

* “ OPIC ”

(

Optical IC

)

is a trademark of the SHARP Corporation.

4.4

± 0.2

1.27

± 0.25

2.54

± 0.25

0.4

± 0.1

3.6

± 0.3

2.6

± 0.2

0.1

± 0.1

5.3

± 0.3

0.2

± 0.05

0.5

+ 0.4

- 0.2

7.0

+ 0.2

- 0.7

3 Cathode

■ Electro-optical Characteristics

Forward voltage V

F

Reverse current I

R

Terminal capacitance C

t

Operating supply voltage V

CC

Low level output voltage V

OL

High level output current I

OH

Low level supply current I

CCL

High level supply current I

CCH

*3

“H→L” threshold

I

FHL

*4

“L→H” threshold

I

FLH

*5

Hysteresis

I

FLH

/I

FHL

R

ISO

t

PHL

t

PLH

Fall time t

f

Rise time t

r

Parameter Symbol Conditions MIN. TYP. MAX. Unit

Input

Output

Transfer

charac-

teristics

I

F

I

F

Ta= 25˚C, V

R

=3V

Ta= 25˚C, V= 0

f= 1kHz

I

OL CC

=5V

I

F

V

CC

=V

O

= 15V, I

F

=0

V

CC

= 5V, I

F

V

CC

= 5V, I

F

=0

Ta= 25˚C,V

CC

=5V

R

L

= 280Ω

V

CC

= 5V,R

L

= 280Ω

Ta= 25˚C,V

CC

=5V

R

L

= 280Ω

V

CC

= 5V,R

L

= 280Ω

V

CC

= 5V,R

L

= 280Ω

*6

Response

- 1.1 1.4

V

0.7 1.0 -

- - 10

µ

A

- 30 250 pF

3 - 15 V

- 0.2 0.4 V

- - 100

µ

A

- 2.5 5.0 mA

- 1.0 5.0 mA

- 1.1 2.0

mA

- - 4.0

0.4 0.8 -

mA

0.3 - -

0.5 0.7 0.9

5x10

10

11

- Ω

- 1 3

µ

s

- 2 6

- 0.05 0.5

- 0.1 0.5

PC400

*3 I

FHL

represents forward current when output gose from high to low.

*4 I

FLH

represents forward current when output goes from low to high.

*5 Hysteresis stands for I

FLH

/I

FHL

.

*6 Test circuit for response time is shown below.

time

47Ω

V

IN

Amp

Voltage

regulator

5V

280Ω

V

o

0.1 µ F

V

IN

V

o

t

PLH

t

f

t

f

50%

V

OH

90%

1.5V

10%

V

OL

t

r

= t

f

= 0.01 µ S

Z

o

= 50Ω

Isolation resistance

input current

time

Ta= 25˚C, DC500V

Ta= 25˚C

V = 5V,I = 4mA

CC F

R = 280Ω

L

40 to 60% RH

(

Ta= 0 to + 70˚C unless otherwise specified

)

= 4mA

= 0.3mA

= 16mA, V

= 4mA

“H→L” propagation delay

“L→H” propagation delay

PHL

0

200

100

150

100

50

0 255075

130

85

Fig. 2 Power Dissipation vs.

Ambient Temperature

Ambient temperature T

a

(

˚C

)

Power dissipation P

O

, P

tot

(

mW

)

10

20

60

50

40

30

0

- 25 0 25 50 75 10085

Fig. 1 Forward Current vs.

Ambient Temperature

F

(

mA

)

Ambient temperature T

a

(

˚C

)

0.2

Relative threshold input current

0.4

0.6

1.4

510 20015

1.2

1.0

0.8

Supply voltage V

CC

(

V

)

50˚C

25˚C

0˚C

0

1

2

5

10

20

50

100

200

500

0.5 1.0 1.5 2.0 2.5 3.0

F

(

mA

)

Fig. 3 Forward Current vs.

Forward Voltage

Forward voltage V

F

(

V

)

- 25˚C

Fig. 4 Relative Threshold Input Current vs.

Supply Voltage

0.2

0.4

Relative threshold input current

0.6

0.8

1.6

0 25 50 100-25 75

1.4

1.2

1.0

Ambient temperature T

a

(

˚C

)

0.01

1

0.02

0.05

0.1

1.0

2 5 10 1005020

0.2

0.5

Low level output voltage V

OL

(

V

)

Low level output current I

OL

(

mA

)

Fig. 5 Relative Threshold Input Current vs.

Ambient Temperature

PC400

Fig. 6 Low Level Output Voltage vs.

Low Level Output Current

Forward current I

-25

P

tot

P

O

I

FHL

I

FLH

T

a

= 25˚C

I

FHL

= 1 at V

CC

=5V

T

a

= 75˚C

I

FHL

I

FLH

V

CC

=5V

I

FHL

= 1 at T

a

= 25˚C

V

CC

=5V

I

F

= 4mA

T

a

= 25˚C

PC400TJ0000F

PC400TJ0000F

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