Datasheet PC716V Datasheet (Sharp)

High Sensitivity, High Output

PC716V

❈ Lead forming type (I type) and taping reel type (P type) are also available. (PC716VI/PC716VP

..

❈❈ TUV (VDE0884) approved type is also available as an option.

■ Features

1. High current transfer ratio
(CTR : MIN. 1 000% at IF= 1mA, VCE=2V

2. High collector power dissipation
(P

: 300mW

c

)

3. High isolation voltage between input and
output

(V

: 5 000V

iso

)

rms

4. Recognized by UL, file No. E64380

■ Applications

1. DC-DC SSRs

2. Power monitors, welding machines

3. System appliances, measuring instruments

4. Signal transmission between circuits of

different potentials and impedances

)

Type Photocoupler

■ Outline Dimensions

± 0.2

Anode mark

TYP.

1.5

0.5

0.9

6

± 0.5

3.5

± 0.5

3.7

± 0.1

1 Anode
2 Cathode
3 NC

123

5

PC716V

± 0.5

7.12

2.54

1.2

± 0.25

± 0.3

4

± 0.5

6.5

)

± 0.5

3.35

4 Emitter
5 Collector
6 NC

PC716V

(

Unit : mm

Internal connection

diagram

65 4

123

± 0.3

7.62

± 0.1

0.26

θ = 0 to 13

)

θθ

■ 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 70 mW
Collector-emitter voltage V

Output

Emitter-collector voltage V
Collector current I
Collector power dissipation P
Total power dissipation

*2

Isolation voltage
Operating temperature
Storage temperature

*3

Soldering temperature

*1 Pulse width<=100µs, Duty ratio : 0.001
*2 40 to 60%RH, AC for 1 minute
*3 For 10 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

P

tot

V

iso

T

opr

T

stg

T

sol

35 V

6V

200 mA
300 mW
350 mW

5 000

V

rms

- 25 to + 100 ˚C

- 40 to + 125 ˚C
260 ˚C

PC716V

■ Electro-optical Characteristics

Parameter Symbol Conditions MIN. TYP. MAX. Unit

Forward voltage V

Input

Output Collector dark current I

Transfer

charac-

teristics

Fig. 1 Forward Current vs.

Ambient Temperature

)
mA

(

F

Forward current I

Fig. 3 Peak Forward Current vs. Duty Ratio

10 000

5 000

)

2 000

mA

1 000

(

FM

Peak forward current I

Peak forward voltage V
Reverse current I
Terminal capacitance C

Current transfer ratio CTR I
Collector-emitter saturation voltage
Isolation resistance R
Floating capacitance C
Cut-off frequency f

-2

2

Duty ratio

Rise time
Fall time

)

Pulse width <=100µs

Ta= 25˚C

-1

2

5

10

Response time

60

50

40

20

10

0

-25300 25 5055 75 100 125
Ambient temperature Ta (˚C

500
200
100

50

20
10

5

-3

2

5

10

5

10

5

FMIFM

R

CEOVCE

V

CE(sat

ISO

c

t

r

t

f

1

= 10mA - 1.2 1.4 V

FIF

= 0.5A - - 3.0 V
VR=4V - - 10 µA
V= 0, f= 1kHz - 30 250 pF

t

= 10V, IF=0 - - 10

= 1mA, VCE=2V %

F

)

IF= 20mA, IC= 10mA - - 1.2 V
DC500V, 40 to 60%RH
V= 0, f= 1MHz - 0.6 1.0 pF

f

VCE= 2V, IC= 10mA, RL= 100Ω , - 3dB

VCE= 2V, IC= 20mA, RL= 100Ω

1 000 6 000 15 000

5x101010

11

- 3 - kHz

- 130 400 µ s

- 60 350 µ s

Fig. 2 Collector Power Dissipation vs.

Ambient Temperature

350

)

300

mW

(

C

250

200

150

100

Collector power dissipation P

50

0

- 25 0 25 50 75 100 125
Ambient temperature Ta (˚C

)

Fig. 4 Forward Current vs.

Forward Voltage

500

200
100

)

50
mA

(

F

20

10

5

Forward current I

1

020.5 1.0 1.5 2.0 2.5 3.0 3.5

= 75˚C

T

a

50˚C

Forward voltage VF (V

25˚C

0˚C

- 25˚C

)

(

Ta= 25˚C

-6

- Ω

)

A

PC716V

Fig. 5 Current Transfer Ratio vs.

Forward Current Collector-emitter Voltage

10 000

)

%

(

8 000

6 000

4 000

VCE=2V

= 25˚C

T

a

Fig. 6-a Collector Current vs.

36

= 0.7mA

I

F

32

28

)

mA

24

(

C

20

16

12

Current transfer ratio CTR

2 000

0

0.2 0.5 1 2 5

0.1
Forward current I

F

Fig. 6-b Collector Current vs.

Collector-emitter Voltage

200

I

F=

180

)
(

mA

C

5mA

160
140
120

2mA

PC( MAX.)

(mA

)

T

= 25˚C

a

Collector current I

8

0

0412345 109876

Collector-emitter voltage VCE (V

Fig. 7 Relative Current Transfer Ratio vs.

Ambient Temperature

150

)

%

(

100

IF= 1mA

=2V

V

CE

100

80
60

Collector current I

40

1mA

50

Relative current transfer ratio

20

0

0

12345

Collector-emitter voltage VCE (V

)

0

-25

0 255075100

Ambient temperature T

a

(˚C

Fig. 8 Collector-emitter Saturation Voltage Fig. 9 Collector Dark Current vs.

vs. Ambient Temperature

1.0

)

V

(

)
sat

(

0.8

CE

I

F

I

C

= 20mA
= 10mA

0.6

0.4

0.2

Collector emitter saturation voltage V

0

-25

0 255075100

Ambient temperature T

a

(˚C

)

Ambient Temperature

-3

= 10V

V

10

CE

5

-4

)

10

A

5

(

-5

10

CEO

5

-6

10

5

-7

10

5

-8

10

5

Collector dark current I

-9

10

5

-10

10

-25

0 255075100

Ambient temperature Ta (˚C

T

)

)

= 25˚C

a

0.6mA

)

0.5mA

0.4mA

0.3mA

0.2mA

0.1mA

PC716V

Fig.10 Response Time vs. Load Resistance

1 000

500

200

)

100

µs

(

50

20
10

Response time

=2V

V

CE

= 20mA

I

C

Ta= 25˚C

t

r

t

f

t

d

t

s

5

2
1

2 5 10 20 50 100 200 500

Load resistance R

(Ω)

L

1 000

Test Circuit for Response Time

Input

V

CC

R

D

R

L

Output

Input

Output

t

d

Fig.11 Frequency Response

VCE=2V

= 10mA

I

C

)

0

dB

(

v

-10

Voltage gain A

-20

0.05 0.1 0.2

=1kΩ

R

L

1

0.5 201052
Frequency f (kHz

Ta= 25˚C

100Ω 10Ω

50 100

)

Test Circuit for Frepuency Response

V

CC

R

10%

t

r

90%

s

tt

f

R

D

L

Output

Please refer to the chapter “Precautions for Use”

●

.