SHARP PC912L0NSZ0F Technical data

PC912L0NSZ0F
Series

1. Recognized by UL1577 (Double protection isolation),
file No. E64380 (as model No. PC912L)

2. Approved by VDE (DIN EN60747-5-2

(∗)

) (as an op-

tion), file No. 40008898 (as model No. PC912L)

3. Package resin : UL flammability grade (94V-0)

(∗)

DIN EN60747-5-2 : successor standard of DIN VDE0884

■ Features

■ Agency approvals/Compliance

1. FA equipment

■ Applications

High Speed 25Mb/s, High CMR type
DIP 8 pin ∗OPIC Photocoupler

1. DIP 8 pin package

2. Double transfer mold package
(Ideal for Flow Soldering)

3. High speed response
(t

PHL

: MAX. 40ns, t

PLH

: MAX. 40ns)

4. High noise immunity due to high instantaneous com­mon mode rejection voltage
(CMH : MIN. 20 kV/µs, CML : MIN. −20 kV/µs)

5. High isolation voltage between input and output
(V

iso(rms)

: 5.0 kV)

6. Lead-free and RoHS directive compliant

■ Description

PC912L0NSZ0F Series contains a LED optically

coupled to an OPIC chip.

It is packaged in a 8 pin DIP, available in SMT gullw-

ing lead-form option.

Input-output isolation voltage(rms) is 5.0 kV. Data

transfer rate is MAX. 25 Mb/s and CMR is MIN.
20 kV/µs.

1

Sheet No.: D2-A05803EN

Date Sep. 1. 2006

© SHARP Corporation

Notice The content of data sheet is subject to change without prior notice.

In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP
devices shown in catalogs, data books, etc. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device.

PC912L0NSZ0F Series

∗

"OPIC"(Optical IC) is a trademark of the SHARP Corporation. An OPIC consists of a light-detecting element and a signal-processing
circuit integrated onto a single chip.

■ Internal Connection Diagram

2

Sheet No.: D2-A05803EN

■ Truth table

■ Outline Dimensions (Unit : mm)

1. Through-Hole [ex. PC912L0NSZ0F] 2.

Through-Hole (VDE option) [ex. PC912V0YSZ0F]

PC912L0NSZ0F Series

PC912L

Primary side
mark

Date code

SHARP
mark
"S"

2.54

±0.25

8 7 6 5

6.5

±0.5

0.85

±0.20

1.2

±0.3

9.66

±0.50

3.5

±0.5

0.5

±0.1

0.5

TYP.

1 2 3 4

3.4

±0.5

θ θ

θ:0 to 13

˚

7.62

±0.30

0.26

±0.10

Epoxy resin

VDE Identification mark

2.54

±0.25

8 7 6 5

6.5

±0.5

0.85

±0.20

1.2

±0.3

9.66

±0.50

3.5

±0.5

0.5

±0.1

0.5

TYP.

1 2 3

3.4

±0.5

θ θ

θ:0 to 13

˚

7.62

±0.30

0.26

±0.10

Epoxy resin

Primary side
mark

Date code

PC912L

4

SHARP
mark
"S"

4

∗

pin and are not allowed external connection

V

CC1

V

IN

NC

∗

GND1

GND2
V

O

NC

1

1

2

4

3

8

7

5

6

2

3

3 7

4

5

6

7

V

CC2

8

Amp.

Input LED Output

LL

HH

ON

OFF

L : Logic (0)
H : Logic (1)

Product mass : approx. 0.49g
Plating material : SnCu (Cu : TYP. 2%)

Product mass : approx. 0.49g
Plating material : SnCu (Cu : TYP. 2%)

3

Sheet No.: D2-A05803EN

(Unit : mm)

3. SMT Gullwing Lead-Form [ex. PC912L0NIZ0F] 4. SMT Gullwing Lead-Form (VDE option)
[ex. PC912L0YIZ0F]

5. Wide SMT Gullwing Lead-Form

[ex. PC912L0NUZ0F]

6. Wide SMT Gullwing Lead-Form (VDE option)
[ex. PC912L0YUZ0F]

PC912L0NSZ0F Series

Primary side
mark

PC912L

SHARP
mark
"S"

0.85

±0.20

1.2

±0.3

78 6 5

4

6.5

±0.5

1 2 3

2.54

±0.25

3.5

±0.5

1.0

+0.4

−0.0

0.26

±0.10

Epoxy resin

10.0

+0.0

−0.5

1.0

+0.4

−0.0

0.35

±0.25

7.62

±0.30

9.66

±0.50

Date code

VDE Identification mark

Primary side
mark

Date code

PC912L

4

SHARP
mark
"S"

0.85

±0.20

1.2

±0.3

78 6 5

4

6.5

±0.5

1 2 3

2.54

±0.25

3.5

±0.5

1.0

+0.4

−0.0

0.26

±0.10

Epoxy resin

10.0

+0.0

−0.5

1.0

+0.4

−0.0

0.35

±0.25

7.62

±0.30

9.66

±0.50

PC912L

7.62

±0.30

0.75

±0.25

0.26

±0.10

0.25

±0.25

0.75

±0.25

10.16

±0.50

12.0

MAX.

9.66

±0.50

Epoxy resin

2.54

±0.25

3.5

±0.5

0.5

TYP.

6.5

±0.5

0.85

±0.20

1.2

±0.3

Primary side
mark

Date code

SHARP
mark
"S"

1 2 3

6 58 7

4

VDE Identification mark

PC912L

7.62

±0.30

0.75

±0.25

0.26

±0.10

0.25

±0.25

0.75

±0.25

10.16

±0.50

12.0

MAX.

9.66

±0.50

Epoxy resin

2.54

±0.25

3.5

±0.5

0.5

TYP.

6.5

±0.5

0.85

±0.20

1.2

±0.3

Primary side
mark

Date code

SHARP
mark
"S"

1 2 3

6 58 7

4

4

Product mass : approx. 0.49g
Plating material : SnCu (Cu : TYP. 2%)

Product mass : approx. 0.49g
Plating material : SnCu (Cu : TYP. 2%)

Product mass : approx. 0.49g
Plating material : SnCu (Cu : TYP. 2%)

Product mass : approx. 0.49g
Plating material : SnCu (Cu : TYP. 2%)

Date code (2 digit)

A.D.
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001

Mark

A
B
C
D
E

F

H

J
K
L

M

N

Mark

P
R
S

T
U
V

W

X
A
B
C

Mark

1
2
3
4
5
6
7
8

9
O
N
D

Month

January

February

March

April

May
June
July

August

September

October
November
December

A.D
2002
2003
2004
2005
2006
2007
2008
2009
2010
2011
2012

·

·

·

·

·

·

2nd digit

Month of production

1st digit

Year of production

4

repeats in a 20 year cycle

Sheet No.: D2-A05803EN

PC912L0NSZ0F Series

Country of origin

Japan

Rank mark

There is no rank mark indicator.

Sheet No.: D2-A05803EN

■ Absolute Maximum Ratings

5

PC912L0NSZ0F Series

■ Electro-optical Characteristics

*3

*1 40 to 60%RH, AC for 1minute, f=60Hz
*2 For 10s

Parameter

Symbol Rating Unit

Supply voltage V

CC1

0 to 5.5

V

Input voltage

Input

Output

V

IN

−0.5 to V

CC1

+0.5

V
V

Supply voltage

High level output voltage
Low level output current

V

O

mA

10

I

O

V

V

CC2

V

iso (rms)

kV

Operating temperature T

opr

−55 to +125

−40 to +85

0 to 5.5

−0.5 to V

CC2

+0.5

˚C

˚C

Storage temperature

Isolation voltage

T

stg

*2

Soldering temperature T

sol

270

5.0

˚C

*1

(Unless otherwise specified Ta=T

opr

)

Parameter

Symbol

Unit

Input

Low level supply current

I

CC1L

mA

High level supply current

I

CC1H

mA
Input current
High level supply current

High level output voltage

Low level output voltage

I

IN

V

CC1

=5V

µA

Output

I

CC2L

I

CC2H

V

OH

V

OL

V
V

Transfer

charac-

teristics

Isolation resistance

R

ISO

Ω

t

PLH

ns

t

PHL

ns

Propagation delay skew

∆tw

ns

Data transfer rate
Rise time
Fall time

Pulse width distortion |t

PHL−tPLH

|

T

PSK

t

r

t

f

T

ns

Instantaneous common mode
rejection voltage
"Output : High level"

V

IN=VCC1

, VO<0.8×V

CC2

VCM=1kV

V

IN

=0, VO<0.8V

V

CM

=1kV

kV/µs

Instantaneous common mode
rejection voltage
"Output : Low level"

CM

L

kV/µs

V

IN

=0V

V

IN=VCC1

CL=15pF, CMOS Logic level

V

IN

=0→5V

t

r=tf

<1ns

Pulse width 40ns

Duty 50%

MIN.

−

−

−10

5×10

10

−

−

−

−

−

−

20

−20

MAX.

3.0
10

0.1

0.1

−

6

20

−

−

10.0

40
40

Conditions

"Low→High" propagation delay time

"High→Low" propagation delay time

Response time

CM

H

VIN=5V

I

O

=−20µA, VIN=5V

I

O

=−4mA, VIN=5V

V

IN

=0V

I

O

=20µA, VIN=0V

I

O

=400µA, VIN=0V

*3 When measuring output and transfer characteristics, connect a by-pass capacitor (0.01µF or more) between V

CC1

(pin 1 ) and GND1 (pin 4 ), between V

CC2

(pin 8 ) and GND2

(pin 5 ) near the device.

All typical values:at Ta=25˚C, V

CC1=VCC2

=5V

DC500V, 40 to 60%RH

TYP.

0.8

mA

−

5.02.5

−

mA

−

4.02.0

0

V4.4

−

5.0
V4.0

−

4.8

−

V

−

1.0

I

O

=4mA, VIN=0V

0.2

10

11

−

−

Mb/s

−

25

−

ns

−−

4

ns

−−

3

6.0

23
22

−

−

(Unless otherwise specified T

a=Topr

)

Low level supply current