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Электронный компонент: S202S12

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S102S11/S102S12
S202S11/S202S12
s
Outline Dimensions
(Unit : mm)
s
Applications
s
Features
1. Automatic vending machines
2. Amusement equipment
3. Programmable controllers
For 100V lines
For 200V lines
Built-in snubber
circuit
S102S11
S202S11
Built-in snubber
circuit and
circuit
S202S12
( 36.0
)
(5.08) (7.62)
(2.54)
(1.4)
+
Internal connection diagram
( )
:
Typical dimensions
*
A
B
1
2
3
4
1 2
3 4
1
2
3 4
3 Input (
+
)
3 Input (
+
)
A (Model No.)
B
S102S11
8A135VAC
S102S12
S202S11
8A250VAC
S202S12
data books, etc. Contact SHARP in order to obtain the latest version of the device specification sheets before using any SHARP's device.
"
"
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,
S102S11/S102S12/S202S11/S202S12
2. Built-in snubber circuit
3. Built-in zero-cross circuit
4. High repetitive peak OFF-state voltage
5. RMS ON-state current
I
T
: MAX. 8Arms at T
C
<= 88C
( With heat sink)
6. Isolation voltage between input and output
( V
iso
zero-cross
S102S12
Zero-cross
circuit
1 Output (Triac T2 )
2 Output (Triac T1 )
1 Output (Triac T2 )
2 Output (Triac T1 )
SIP Type SSR with Snubber
Circuit and Mouning Capability
for External Heat Sink
-
4 Input (
-
)
(S102S12/S202S12)
S102S11/S102S12 V
DRM
: 400V
* The metal parts marked * are
g
Do not allow external connection.
s
Model line-ups
Approved by CSA, No. LR63705
S202S11/S202S12 V
DRM
: 600V
1. High radiation resin mold package
4 Input (
-
)
common to terminal 1 .
7. Recognized by UL, file No. E94758
: 4 000V
rms
)
18.5
0.2
16.4
0.3
3.2
0.2
3.2
0.2
5.5
0.2
5.0
0.3
19.6
0.2
g
0.2
MAX.
4
-
1.1
0.2
4
-
1.25
0.3
0.6
0.1
4
-
0.8
0.2
4.2
MAX.
11.2
MIN.
S102S11 /S202S11
S102S12 /S202S12
S102S11/S102S12/S202S11/S202S12
Input
Output
Transfer
charac-
teristics
Turn-on time
Turn-off time
Thermal resistance
( Between junction and case)
Thermal resistance
(Between junction and ambience )
TYP.
MAX.
Unit
1.2
1.4
V
-
10
- 4
A
-
1.5
-
50
-
5
-
10
-
-
V/
s
-
-
V/
s
-
35
V
8
mA
8
mA
-
1
ms
9.3
ms
9.3
ms
-
C/W
-
C/W
s
Absolute Maximum Ratings
( Ta = 25C)
t
on
t
off
R
th(j - c)
R
th(j - a)
Parameter
Symbol
Rating
Unit
Input
Forward current
I
F
50
mA
Reverse voltage
V
R
6
V
Output
RMS ON-state current
I
T
*4
8
*1
Peak one cycle surge current
I
surge
80
A
Repetitive peak-OFF
V
DRM
400
V
600
state voltage
Non-repetitive peak-OFF
V
DSM
400
V
600
Critical rate of rise of ON-state current
dI
T
/dt
50
A/
s
*2
Isolation voltage
V
iso
Operating temperature
T
opr
- 20 to + 80
C
Storage temperature
T
stg
- 30 to + 100
C
*3
Soldering temperature
T
sol
260
C
Load supply voltage
V
out
135
V
rms
250
state voltage
S102S11/S102S12
S202S11/S202S12
S102S11/S102S12
S202S11/S202S12
S102S11/S102S12
S202S11/S202S12
S102S11/S202S11
S102S12/S202S12
*5
S102S11/S102S12
: V
D
= 400V
S202S11/S202S12
: V
D
= 600V
(Ta = 25C )
s
Electro-optical Characteristics
Symbol
Forward voltage
V
F
Reverse current
ON-state voltage
V
T
Minimum
Operating current
S102S11/S102S12
I
op
S202S11/S202S12
Open circuit
leak current
S102S11/S102S12
I
leak
S202S11/S202S12
voltage
Critical rate of rise of OFF-state
Zero-cross voltage
S102S12/S202S12
Minimum trigger
current
S102S11/S202S11
S102S12/S202S12
Parameter
Isolation resistance
Conditions
MIN.
I
F
= 20mA
-
V
R
= 3V
-
I
T
= 2Arms
-
V
out
= 120Vrms
-
V
out
= 240Vrms
V
out
= 120Vrms
-
V
out
= 240Vrms
-
V
D
= 2/3V
DRM
30
Tj = 125 C
dI
t
/dt = - 4.0A/ms,
*5
5
I
F
= 8mA
-
I
R
-
-
DC500V, RH = 40 to 60 %
10
10
-
-
-
-
-
-
-
-
-
-
-
-
-
4.0
40
V
D
= 12V, R
L
= 30
V
D
= 6V, R
L
= 30
*1 50Hz sine wave, start at Tj= 25C
*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) .
*3 For 10 seconds
*4 Tc <= 88C
Commutating OFF-state voltage
Critical rate of rise of
AC60Hz
AC60Hz
A
rms
V
rms
dV/dt
( dV/dt )
C
V
OX
I
FT
R
ISO
V
rms
mA
rms
mA
rms
( Note) When the isolation voltage is necessary at using external hear sink, please use the insulation sheet.
4 000
S102S11/S102S12/S202S11/S202S12
Case temperature T (C)
- 20
60
70
80
90
100
110
120
130
0
2
4
6
8
10
Ambient temperature T
a
(C)
- 20
0
20
40
60
80
100
0
1
2
3
4
5
6
0
4
2
10
8
12
Maximum ON-state power dissipation
(W
)
50
Surge current I
surge
(
A
)
1
0
20
2
10
5
20
100
40
60
80
100
Forward voltage V
F
(V)
Forward current I
F
(
mA
)
0
1.0
2.0
10
1
100
25C
0C
- 25C
T
a
= 100C
75C
50C
Fig. 1 RMS ON-state Current vs.
Case Temperature
Fig. 2 RMS ON-state Current vs.
Ambient Temperature
Fig. 3 Forward Current vs. Forward
Ambient temperature T
a
(C)
Minimum trigger current I
FT
(
mA
)
- 20
0
20
40
60
80
100
0
2
4
6
8
10
12
Voltage ( Typical Value )
f = 50H
z
Sine wave
T
j
= 25C Start
vs. RMS ON-state Current
( Typical Value)
V
D
= 12V
R
L
= 30
Fig. 6 Minimum Trigger Current vs. Ambient
Temperature (Typical Value )
Fig. 5 Maximum ON-state Power Dissipation
RMS ON-state current I
T
(
Arms
)
RMS ON-state current I
T
(
Arms
)
Power-on cycle (Times)
RMS ON-state current I
T
( Arms )
Fig. 4 Surge Current vs. Power-on Cycle
10
5
C
(S102S11/S202S11)
T
a
= 25C
S102S11/S102S12/S202S11/S202S12
Ambient temperature T
a
(C)
Minimum trigger current I
FT
(
mA
)
- 20
0
20
40
60
80
100
0
2
4
6
8
10
12
0
0
1
2
3
4
T
a
= 25C
V
D
= 6V
R
L
= 30
Open circuit leak current I
leak
Supply voltage (Vrms )
0
200
320
0
1
2
3
4
T
a
= 25C
Open circuit leak current I
leak
Supply voltage ( Vrms )
Fig. 8 Open Circuit Leak Current vs.
Supply Voltage (Typical Value )
Fig. 7 Minimum Trigger Current vs.
Ambient Temperature (Typical Value )
(S102S12 / S202S12)
Fig. 9 Open Circuit Leak Current vs.
Supply Voltage (Typical Value )
100
160
5
6
5
6
( S102S11/S102S12)
(S202S11/S202S12)
q Please refer to the chapter " Precautions for Use."
(
mA
rms
)
(
mA
rms
)