Sharp S101S15V, S101S16V, S201S15V Datasheet

S101S15V/S101S16V/S201S15V/S201S16V

S101S15V/S101S16V
S201S15V/S201S16V

■ Features

1. High radiation resin mold package
: MAX. 3A

I

T

2. Isolation voltage between input and output

: 3 000 V

V

iso

3. Built-in zero-cross circuit

(S101S16V/ S201S16V

4. Built-in snubber circuit

5. Recognized by UL, file No. E94758

Approved by CSA, file No. LR63705

■ Applications

1. Air conditioners

2. OA equipment

■ Model Line-ups

No built-in
zero-cross circuit

Built-in zero-cross
circuit

■ Absolute Maximum Ratings

Input

*1

Output

*2

*3

rms

rms

)

For 100V lines For 200V lines

S101S15V S201S15V
S101S16V S201S16V

(

Ta = 25˚C

Parameter

Symbol

Forward current I
Reverse current V
RMS ON-state current IT3 (Tc<=100˚C)A

Peak one cycle surge

current
Repetitive peak OFF-

state voltage
Critical rate of rise of

ON-state current

I

V

dIT/dt

Operating frequency f 45 to 65 H
Operating temperature T

Storage temperature T
Isolation voltage V

Soldering temperature T

100V line 200V line

F

R

surge

400 600 V

DRM

- 20 to + 80

opr

- 30 to +100

stg

iso

sol

Ratings

50 mA

6V

30 A

40

3.0

kV

260

Unit

A/µ s

˚C
˚C

˚C

SIP Type SSR with Built-in
Snubber Circuit

■ Outline Dimensions

Common to Pin No.1

A Model No, B

S101S15V

3A125VAC

S101S16V
S201S15V

3A265VAC

S201S16V

±

0.2

4 - 1.1

±

4 - 1.25

±

0.2

4 - 0.8

Internal connection diagram

S101S15V/S201S15V S101S16V/S201S16V

)

1 Output (Triac T2
2 Output (Triac T1

rms

Z

rms

3 Input
4 Input

❈

0.3

(+)
(-)

±

0.2

18.5

±

0.3

16.4

±

0.2

φ 3.2

A

B

+

123 4

(

)

7.62

Zero-cross
circuit

)
)

)(

(

5.08

(

Common to Pin No.1

0.2

±

3.2

0.3

±

5.0

0.2

±

19.6

-

MIN.

MAX.

4.2

11.2

)

2.54
❈ May not be externally

connected

12 3412 34

1 Output (Triac T2
2 Output (Triac T1

(+)

3 Input

(-)

4 Input

Unit : mm

±

0.2

5.5

)

36.0

(

±

0.1

0.6

(

)
)

1.4

)

)

*1 60HZ sine wave, Tj= 25˚C
*2 AC 60Hz for 1 minute, 40 to 60%RH
Isolation voltage measuring method:
(1) Dielectric withstand tester, with zero-cross circuit shall be used.
(2) The waveform of applied voltage shall be sine wave.
(3) It shall be applied voltage between input and output.
(Input and output shall be short-circuited respectively

)

*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.”

S101S15V/S101S16V/S201S15V/S201S16V

■ Electrical Characteristics

Parameter Symbol Condition MIN. TYP. MAX. Unit

Input

Output

Transfer
charact­eristics

Forward voltage V
Reverse current I

ON-state voltage V

Minimum oper-

ating current

Open circuit

leak current

S101S15V/16V
S201S15V/16V
S101S15V/16V
S201S15V/16V

Critical rate of rise of OFF-state voltage
Commutation critical rate of rise

of OFF-state voltage
Minimum trig-

ger current

S101S15V/S201S15V
S101S16V/S201S16V

Isolation resistance DC500V, R
Zero-cross

voltage

Turn-on time

S101S16V

S201S16V --35
S101S15V/S201S15V
S101S16V/S201S16V

Turn-off time toff AC50H

Thermal resistance
Thermal resistance

Between junction and case

Between junction and ambient

F

R

T

I

OP

I

leak

dV/dt

(

dV/dt)c

I

FT

R

ISO

V

OXIF

ton AC50H

)

R

th (j-c

)

R

th (j-a

(

Ta= 25˚C

IF= 20mA - 1.2 1.4 V
VR=3V - - 10
Resistance load, IF= 20mA,

IT= 1.5A
V
V
V
V
VD= 2/3V

OUT

OUT

OUT

OUT

rms

= 120V
= 240V
= 120V
= 240V

rms

rms

rms

rms

DRM

Tj= 125˚C, VD= 400V,
dIT/dt= -1.5A/ms

VD= 12V, RL=30Ω
VD= 6V, RL=30Ω

= 40 to 60% 10

H

= 15mA

Z

Z

-

- 45 - ˚C/W

- - 1.5 V

- - 50 mA

--5

--10

30 - -

4--

- - 15 mA

10

--Ω

--35

--1

--10

--10

- 6 - ˚C/W

-

-4

mA
V/µ s

V/µ s

)

A

rms

rms

rms

V

ms
ms

Fig. 1 RMS ON-state Current vs.

Ambient Temperature

(1)

With heat sink(Al 100x100

(2)

With heat sink(Al 50x 50

5

Note) With the Al heat sink set up vertically,

install it as shown in the figure

Torque : 4kg•cm

)

Apply thermal conductive silicone grease

4

on the heat sink mounting plate.forcibly

rms

A

cooling shall not be carried out.

(

T

3

2

Without

heat sink

1

RMS ON-state current I

0

0 25 50 100 125

-20 7580
Ambient temperature Ta (˚C

(2)

t

x

)

2mm

t

x

)

2mm

Al plate

SSR

5mm

(1)

)

Fig. 2 RMS ON-state Current vs.

Case Temperature

5

)

4

rms

A

(

T

3

2

1

RMS ON-state current I

0

60 70 80 90 100 110 120 130

-20
Case temperature T

c

(˚C

125

)