Datasheet PC900V, PC900VY Datasheet (Sharp)

PREPARED BY: DATE:

SPEC. No. SA-88049D

SHARP ISSUE

March 25,

1996

PAGE

15 Pages

APPROVED BY: DATE:

ELECTRONIC COMPONE,NTS
GROUP SHARP CORPORATION

REPRESENTATIVE DMSION

7 35h

/ .J-

niMj.;? Tf6

SPECIFICATION

OPTO-ELECTRONIC DEVICES DIV.

f

DEVICE SPECIFICATION FOR

PHOTOCOUPLER

MODEL No.

PCSOOV

Business dealing name

I

1. These specification sheets include materials protected under copyright of Sharp Corporation (“Sharp”).
Please do not reproduce or cause anyone to reproduce them without Sharp’s consent.

2.

When using this product, please observe the absolute maximum ratings and the instructions for use outlined

in these specification sheets. as well as the precautions mentioned below. Sharp assumes no responsibility
for any damage resulting from use of the product which does not comply with the absolute maximum ratings

and the instructions included in these specification sheets, and the precautions mentioned below.

(Precautions)

(1) This product is designed for use ln the following application areas :

[

* OA equipment * Audio visual equipment * Home appliances
* Telecommunication equipment (Terminal) * Measuring equipment
* Tooling machines . Computers

1

If the use of the product in the above application areas is for equipment listed in paragraphs
(2) or (3). please be sure to observe the precautions given in those respective paragraphs.

(2) Appropriate measures, such as tbil-safe design and redundant design considering

the safety design of the overall system and equipment, should be taken to ensure reliability
and safety when this product is used for equipment which demands high reliability and

safety in function and precision, such as ;

[

* Transportation control and safety equipment (aircraft, train, automobile etc.)
* Traffic signals

* Gas leakage sensor breakers

. Rescue and security equipment

* Other safety equipment

1

(3) Please do not use this product for equipment which require extremely high reliability

and safety in function and precision, such as :

[

* Space equipment * Telecommunication equipment (for trunk lines)
* Nuclear power control equipment . Medical equipment

1

(4) Please contact and consult with a Sharp sales representative lf there are any questions

regarding interpretation of the above three paragraphs.

3. Please contact and consult with a Sharp sales representative for any questions about this product.

CUSTOMER’S APPROVAL

DATE
PRESENTED

BY

DATE

BY

T. Matsumura.
Department General Manager of
Engineering Dept.,11
Opto-Electronic Devices Div.

ELECOM

Group

SHARP CORPORATION

I

SHARP CORPORATION

SA-88049D 1 March25, 1996

MODEL No. PAGE

PCSOOV l/9

i

1. Application

This specification applies to the outline and characteristics of photocopier
Model No. PCSOOV.

2. Outline
Refer to the attached drawing No. CY544OKO2.

3. Ratings and characteristics
Refer to the attached sheet, page 3 to 5.

4. Reliability

Refer to the attached sheet, page 8.

5. Incoming inspection

Refer to the attached sheet, page 9.

6. Supplement

6.1 Isolation voltage shall be measured in the following method.
( 1) Short among pins 1 to 3 on the primary side and among pins 4 to 6 on

the secondary side.

(2) The dielectric whhstand tester with zero-cross circuit shall be used.

(3) The wave form of applied voltage shall be a sine wave.

(It is recommended that the isolation voltage be measured in insulation oil.)

6.2 Business dealing name
(”

0”

mark indicates business dealing name of ordered product)

Product

Business dealing name

Remarks

G

PCSOOV

PC9OOVY Applied to products as a option

(Attached sheets -2-l to 2-4.)

SHARP CORPORATION

6.3 This Model is approved by UL.
Approved Model No. : PCSOOV
UL file No. : E64380

6.4 Theory of operation

(1) When the forward current of above the “H-L” threshold input current (I,)

is applied to the input side, the output will go “Low level”.

(21 When the forward current on the input side goes below the “L-H” threshold

input current (I,1 the output will go “High level”.

6.5 This product is not designed against irradiation.
This product is assembled with electrical input and output.
This product incorporates non-coherent light emitting diode.

7. Notes
Refer to the attached sheet-l-l, 2.

SHARP CORPORATION

PCSOOV

PCSOOV

SHARP

cc

Anode

3

Cathode

,z

N.C.

Voltage regulator

I

Pin Nos.

and internal

connection diagram

bode mark

\ Lot No. l l

Factory identification mark l 2

L

7.6210.3

* 1) a-digit number shall be marked according to DIN standard.
*2) Factory identification mark shall be or shall not be marked.

UNIT: l/l mm

Name

Drawing
No.

PCSOOV
Outline Dimensions
(Business dealing
name : PC9OOW

CY5440K02

SHARP CORPORATION

SA-88049D 1 March25. 1996

MODEL No. PAGE

PCSOOV

4/9

3. Ratings and characteristics

3.1 Absolute maximum ratings
Ta=25C

Parameter

I

*l Forward current

P

~~ I

70

unit

mA

A
V

mW

Supply voltage vcc 16

V

High level output voltage

VOH

16 V

output

Low level output current

r,

50 m.A
*l Power dissipation PO 150 mW
* 1 Total power dissipation

I

Ptot

I

170

I

mW

*3 Isolation voltage viso

Operating temperature

Topr

*4 Storage temperature

Tstg

5.0

-25 to +85

-40 to 125

kVrms

‘C
“C

*4 Soldering temperature

I

Tsol

I

260

I

‘C

*l The derating factors of absolute maximum ratings due to ambient temperature

areshowninFig. 1, 2, 3.

*2 Pulse widths 100 /1 s, Dutyratio :

0.001
l 3 AC for 1 min. 40 to 6O%RH
*4 For 10s

SHARP CORPORATION

PCSOOV

3.2 Electra-optical characteristics
(Unspecified : Ta=O to 70°C)

Parameter

Symbol MIN. TYP. MAX. Unit Conditions

1.1 1.4

1,=4mA

Forward voltage

VF

V

0.7 1.0 -

1,=0.3mA

5

E.

Reverse current

IR

10 PA

Ta=25”C, V,=3V

Terminal capacitance ct - 30 250 pF

Ta=25”C, V=O
f=lkHz

Operating supply voltage vcc

3 -

15 v

range
Low level output voltage

VCL -

0.2 0.4 v

y6&nA, vcc=sv

5

F

3

s

High level output voltage

bH - -

100 PA

vcc=vo= 15v

IF=omA

Low level supply current

E

CL

- 2.5 5.0 mA Vcc=SV, 1,=4mA

High level supply current

& - 1.0 5.0 mA vcc=5v, IF=omA

1.1 2.0

Ta=25”C, Vcc=5V

“H--L” threshold input

b-u

mA RL=280 ~2

current *l

4.0

Vcc=W, R,=280 Q

0.4 0.8 - Ta=25”C ,Vcc=SV

8

“L-I-I” threshold input

kLH

mA R,=280 Q

si
‘c:

current *2 0.3 - -

B

Vcc=SV, R,=280 R

s
2

Hysteresis *3 Im/IFHL 0.5 0.7 0.9 Vcc=5V, R,=280 R

5

i

Isolation resistance

RiSO

5XlO’O 10” - c-2 Ta=25C, DC500V

40 to 6O%RH

8-i

+

o, ‘I-I -+L” propagation time

tPHL

1 3

8

Ta=25C

8 “L-H” propagation time

tPLH

2 6

E

jls

vcc=5v, 1,=4mA
a Falltime if 0.05 0.5
8

g Risetime

R,=280 R

tr 0.1 0.5

SHARP CORPORATION

SA-88049D 1 March 25, 19% SA-88049D 1 March 25, 19%

MODEL No. MODEL No. PAGE PAGE

PCSOOV PCSOOV 6/9 6/9

*1 I,, *1 I,, represents forward current when output goes from “H” to “L”. represents forward current when output goes from “H” to “L”.
*2 I, *2 I, represents forward current when output goes from “L” to “H”. represents forward current when output goes from “L” to “H”.
*3 Hysteresis : IFLH/IFHL *3 Hysteresis : IFLH/IFHL

l 4 Test circuit for response time shall be shown below. l 4 Test circuit for response time shall be shown below.

t r=t f”o

zo=502

Voltage regulator

Input

...________..-

. . ...50%

4-k

tP L

tP II

Test circuit diagram

Timing chart

SHARP CORPORATION

PCSOOV

(Fig. 1) Forward current vs. (Fig. 2) Output power dissipation

ambient temperature vs. ambient temperature

-25 0 25 50 7585 100
Ambient temperature Ta ( “C )

(Fig. 3) Total power dissipation

vs. ambient temperature

2

E 200

E 170

$j 150
,a

4 100

2 a 50

2 0
i:

-25 0 25 50

7585 100

-25 0 25 50 7585 100
Ambient temperature Ta (“C )

Ambient temperature Ta (“C 1

4. Reliability
The reliability of products shall be satisfied with items listed below.

Confidence level : 90%
LTPD: 10%/20%

SHHRP CORPORflTION

SA-88049D 1 March 25, 1996

MODEL No.

PAGE

PCSOOV

B/9

Test Items Test Conditions Failure Judgement Samples (n,

*1 Criteria Defective(C:

Solderability *2
Soldering heat
Terminal strength

(Tension)
Terminal strength

(Bending) *3
Mechanical shock

Variable frequency
vibration

Temperature
cycling

230-C, 5 s n=ll, C=O
26O”C, 10s v,>ux 1.2 n=ll, C=O

Weight : 5N

I*>UX2 n=ll, C=O

5 s/each terminal

v,>ux1.2

Weight : 2.5N

n=ll, C=O

2 times/each terminal roH>UX1.2

15000m/s2, 0.5ms &,>ux1.2 n=ll, C=O

3 times/ +X, *Y, &Z direction

&+ >ux1.2

100 to 2000 to 1ooHz/4min

200m/s2 IFHL >ux 1.3 n=ll, C=O

4 times/ X, Y, 2 direction

I, <LXO.8

1 cycle -40 C to t 125°C n=22,C=O

(3Omil-l) (3Omin) I,, /I=#LXO.8

20 cycles test -ux 1.2

High temp. and high +6O’C, 9O%RH, lOOOh n=22 ,C=O
humidity storage U : Upper

specification

High temp. storage +125-C, lOOOh limit n=22,C=O
Low temp. storage
Operation life

-40-C, lOOOh
I,=lOmA, vcc=15v

Io,=16mA, Ta=25%, lOOOh

L : Lower

specification
limit

n=22,C=O
n=22,C=O

*l Test method, conforms to JIS C 7021.

*2 Solder shall adhere at the area of 95% or more of immersed portion of

lead and pin hole or other holes shall not be concentrated on one portion.

*3 Terminal bending direction is shown below.

SHflRP CORPORflTION

SA-88049D 1 March 25. 1996

MODEL No.

PAGE

PCSOOV 9/9

5. Incoming inspection

5.1 Inspection items
( 1) Electrical characteris tics

v,, I,, v

OL’ IOH, ‘CCL* ‘CCH* ‘FHL, ‘FLHv

Rise, visa

(2) Appearance

5.2 Sampling method and Inspection level
A single sampling plan, normal inspection level II based on

IS0 2859 is applied. The AQL according to the inspection

items are shown below.

Defect Inspection item
Major Electrical characteristics

defect Unreadable marking

AQL (%)

0.1

Minor

I I

Appearance defect except

defect the above mentioned.

SHARP CORPORRTION

PCSOOV

Attach
sheet- 1- 1

Precautions for Photocouplers

1. For cleaning
(1) Solvent cleaning :

Solvent temperature 45°C or less

Immersion for 3 mln or less

(21 Ultrasonic cleaning : The affect to device by ultrasonic cleaning is different

by cleaning bath size, ultrasonic power
output, cleaning time, PWB size or device mounting
condition etc. Please test it in actual using condition
and confirm that doesn’t occur any defect before starting
the ultrasonic cleaning.

(31 Applicable solvent

: Ethyl alcohol, Methyl alcohol

Freon TE . TF, Diflon-solvent S3-E

Please refrain form using Chloro Fluoro Carbon type solvent to clean
devise as much as possible since it is internationally restricted to protect
the ozonosphere.

Before you use alternative solvent you are requested

to contirm that it does not attack package resin.

2. Please use the same as normal integration circuit about static
electricity in order that this device is OPIC photocopier.

3. In order to stabilize power supply line, we recommend to connect
a by-pass capacitor of 0.0 1 p F or more between Vcc and GND near the device.

4. The LED used in the Photocoupler generally decreases the light emission power
by operation. In case of long operation time, please design the circuit with considering
the decreases of the light emission power of the LED. (50%/5yearsl
Please decide the input current which become 2 times of MAX. I,.

SHARP CORPORATION

PCSOOV

Attach
sheet- l-2

5. Precautions for Soldering Photocouplers

(1) In case of soldering

to lead

260 “C 10 s or less

Device
temperature

(“Cl

ix!!

IGiJ
110
1%
100

80
60

-10
20

An example of device temperature

SA-88049D 1 March 25, 1996

MODEL No.

1 PAGE

E
I

iFi=+-

- Solder --

“0 2 1 ti 8 10 12 l-1 16 18 :I!

Soldering time (s)

(2) If solder reflow :

It is recommended that only one soldering be done at the temperature
and the time within the temperature profile as shown in the figure.

230t

25r L

t

1 min

(3) Other precautions

An infrared lamp used to heat up for soldering may cause a localized
temperature rise in the resin. So keep the package temperature within
that specified in Item (2). Also avoid immersing the resin part in the solder.

SHARP CORPORRTION

SA-88049D 1 March 25, 1996

MODEL No. PAGE

PC9OOvY

(Option)

Attach
sheets-2- 1

1. This specification shall be applied to photocopier, Model No. PCSOOV as an

option.

2. Applicable Models (Business dealing name)
PC9OOVY

3. The relevant models are the models Approved by T&
Rheinland Japan according to DIN VDE0884/08.87.

Approved Model No. : PCSOOV

T& approved No. : R9 15 1577

(According to the specification DIN VDE0884/08.871

l

Operating isolation voltage UIoRici : 7 1 OV (Peak)

l

Transient voltage

U, : 6000V (Peak)

l

Pollution : 2 (According to VDEO 11 O/O 1.891

l

Clearances distance (Between input and output) : 6mm

(MIN.)

l

Creepage distance (Between input and output) : 6mm (MIN.1

l

Isolation thickness between input and output : 0.15mm (MIN.]

l

Tracking-proof : CT1 225 (Material group IIIa : VDEO 110 / 0 1.89)

l

Safety limit values Current (Isi) : 120mA (Diode side)

Power (Psi) : 240mW (Phototransistor side1

Temperature (Tsi) : 150 “C

In order to keep safety electric isolation of photocopier, please set the
protective circuit to keep within safety limit values when the actual

application equipment troubled.

.

Indication of Tti approval prints “‘0884” on sleeve package.

4. Outline
Refer to the attached drawing No. CY5 164K02.

5. Isolation specification according to VDE 0884

SHARP CORPORATION

SA-88049D 1 March 25, 1996

MODEL No. PAGE

PCSOOVY (Option)

Attach

sheets-2-2

Parameter

Class of environmental

test

Symbol Conditions

Rating

unit Remark

DIN IEC68

25/85/21 -

Pollution
Maximum operating

isolation voltage

DINVDEOllO 2

U

IORb

710 V

PEAK

Partial discharge test
voltage (Between input and

Refer to

output) the Dia-

graml.2

Diagram 1

W

tp=60 s, qc<SpC 852

I

vPEAK

.____.___.__..__.___.-.-.. . . .._.__.........~~.~~~~~~.......~..~~~..-.........-

Diagram 2 tp=1 s, qc<5pC 1136 V

PEAK

Maximum over-voltage ua tm=1os

6000

vPEAK

Safety maximum ratings

1) Case temperature . Tsi I,=O, Pc=O 150

“C

Refer to

2) Input current Isi Pc=O 120 mA

the Fig.

6, 7

3) Electric power
(Output or Total power

Psi

240 mW

dissipation)

Isolation resistance

Ta=Tsi

MIN. 10’

(Test voltage between R

Iso

Ta=Topr (MAX. 1 MIN. 10”

R

input and output ; DC500V)

Ta=25”C Mm. lOI

SHARP CORPORflTION

PCSOOVY (Option)

Attach
sheets-Z-3

PCSOOV

-

In
B

v3
cd

-

Lot No. +I

/ Anode mark \ Factory identification mark l 2 \

\

VDE 0884 identification mark

%

Anode

2

Cathode

N.C. -

Voltage regulator

i

Pin Nos. and

internal

connection diagram

7.

6210.3
4

*1) a-digit number shall be marked according to DIN standard.
*2) Factory identification mark shaI.I be or shall not be marked.

SA-88049D I

March 25. 1996

MODEL No. 1 PAGE

e

:o-

13”

I ’

UNIT: l/l mm

3

SHARP CORPORRTION

SA-88049D 1 March 25, 1996

MODEL No. PAGE

PCSOOW (Option)

Attach

sheets-2-4

Method of Diagram 1 : Breakdown test (Apply to type test and sampling test)

V * UIm, WW

U, (852V)

U

low (71Ovl

.___.__....__.__.__..____-___-_.___-_____________11__1___. --I----------

t1* 4

t*&-tial discharge

measuring time)

tb
GNl

Method of Diagram 2 : Non breakdown test (Apply to all device test)

L

U r(l136V)

Fig. 6 Safety maximum power dissipation

Fig. 7 Safety maximum forward current

vs. ambient temperature

vs. ambient temperature

(When failed)

(When failed)

250

300

240
200

100

01

I I I I I y

200

150
120

100

50

nl

I

I I I I y

0 25 50 75 100 125 150

0 25 50 75 100 125 150

Ambient temperature Ta ( “C 1

Ambient temperature Ta ( “C 1

f* t

2, (Partial discharge

measuring time)

tb

=l to 10s
=l s
=60 s

=62 s

=lO s

=O.l s
=l s

=1.2 s