Sharp S102S11, S102S12, S202S11, S202S12 Datasheet

S102S11/S102S12/S202S11/S202S12

S102S11/S102S12
S202S11/S202S12

■ Features

1. High radiation resin mold package

2. Built-in snubber circuit

3. Built-in zero-cross circuit

(S102S12/S202S12

4. High repetitive peak OFF-state voltage
S102S11/S102S12 V

S202S11/S202S12 V

5. RMS ON-state current

: MAX. 8Arms at TC<=88˚C

I

T

(With heat sink

6. Isolation voltage between input and output

(V

: 4 000V

iso

7. Recognized by UL, file No. E94758

Approved by CSA, No. LR63705

■ Applications

1. Automatic vending machines

2. Amusement equipment

3. Programmable controllers

■ Model line-ups

Built-in snubber
circuit

Built-in snubber
circuit and
zero-cross
circuit

)

: 400V

DRM

: 600V

DRM

)

)

rms

For 100V lines For 200V lines

S102S11 S202S11

S102S12

S202S12

SIP Type SSR with Snubber
Circuit and Mouning Capability
for External Heat Sink

0.2

±

3.2

MAX.

)

12 3412 34

4.2

0.3

±

0.2

±

MIN.

5.0

19.6

11.2

(+)
(-)

(

Unit : mm

±

0.2

5.5

)

36.0

(

±

0.1

0.6

)
)

■ Outline Dimensions

* The metal parts marked * are
common to terminal 1 .
❈ Do not allow external connection.
( )

: Typical dimensions

± 0.2

18.5

± 0.3

16.4

± 0.2

φ 3.2

A(Model No.)B

S102S11

8A135VAC

S102S12
S202S11

8A250VAC

S202S12

MAX.

❈0.2

±0.2

4-1.1

±0.3

4-1.25

±0.2

4-0.8

Internal connection diagram

S102S11 /S202S11 S102S12 /S202S12

1 Output (Triac T2
2 Output (Triac T1

(+)

3 Input

(-)

4 Input

*

A

B

+

123 4

(

5.08)(7.62

)(

Zero-cross
circuit

)
)

-

2.54

1 Output (Triac T2
2 Output (Triac T1
3 Input
4 Input

)

(

)

1.4

“ 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.”

S102S11/S102S12/S202S11/S202S12

■ Absolute Maximum Ratings

Parameter Symbol Rating Unit

Input

Forward current I
Reverse voltage V
RMS ON-state current I

*1

Peak one cycle surge current I

S102S11/S102S12
S202S11/S202S12
S102S11/S102S12
S202S11/S202S12

Output

Repetitive peak-OFF
state voltage

Non-repetitive peak-OFF
state voltage

Critical rate of rise of ON-state current dI

*2

Isolation voltage V
Operating temperature T
Storage temperature T

*3

Soldering temperature T
Load supply voltage V

*1 50Hz sine wave, start at Tj= 25˚C
*2 60Hz AC for 1 minute, RH= 40 to 60% , Apply voltages between input and output, by the dielectric withstand voltage

tester with zero-cross circuit. (Input and output shall be shorted respectively).
(Note) When the isolation voltage is necessary at using external hear sink, please use the insulation sheet.
*3 For 10 seconds
*4 Tc<=88˚C

S102S11/S102S12
S202S11/S202S12

F

R

T

surge

V

DRM

V

DSM

/dt 50 A/µ s

T

iso

opr

stg

sol

out

■ Electro-optical Characteristics

Parameter

Input

Forward voltage V
Reverse current
ON-state voltage V

S102S11/S102S12
S202S11/S202S12
S102S11/S102S12
S202S11/S202S12

Output

Minimum
Operating current

Open circuit
leak current

Critical rate of rise of OFF-state
voltage
Critical rate of rise of
Commutating OFF-state voltage

Transfer

charac-

teristics

Zero-cross voltage
Minimum trigger

current
Isolation resistance

Turn-on time

S102S12/S202S12
S102S11/S202S11
S102S12/S202S12

S102S11/S202S11
S102S12/S202S12

Turn-off time

Thermal resistance
(

Between junction and case

)

Thermal resistance
(

Between junction and ambience

*5 S102S11/S102S12 :VD= 400V S202S11/S202S12:VD= 600V

)

Symbol

I

R

I

op

I

leak

dV/dt

(

dV/dt

V

OX

I

FT

R

ISO

t

on

t

off

R

th(j-c

R

th(j-a

Conditions MIN.

= 20mA -

I

F

F

=3V -

V

R

= 2Arms -

I

T

T

= 120Vrms

V

out

V

= 240Vrms

out

= 120Vrms -

V

out

= 240Vrms -

V

out

V

= 2/3V

D

DRM

Tj = 125 ˚C
dI

/dt = -4.0A/ms,

)

t

C

*5

I

= 8mA -

F

= 12V, RL=30Ω

V

D

= 6V, RL=30Ω

V

D

DC500V, RH = 40 to 60 % 10
AC60Hz
AC60Hz

)

)

-

-

-

30

5

-

-

10

-

-

-

-

-

(

Ta= 25˚C

50 mA

6V

*4

8

A

rms

80 A
400
600
400
600

4 000

V

V

V

rms

- 20 to + 80 ˚C

- 30 to + 100 ˚C
260 ˚C
135
250

V

rms

(

Ta = 25˚C

TYP. MAX. Unit

1.2 1.4 V

-4

V

mA

mA

A

rms

rms

rms

-10

- 1.5

-50

-5

-10

--V/µs

--V/µs

-35V
8mA

­8mA

-

-

-

-

-

4.0

40

- Ω

1ms

9.3 ms

9.3 ms

- ˚C/W

- ˚C/W

)

)