S202SE1/S202SE2/S216SE1/S216SE2
S202SE1/S202SE2
SIP Type SSR for Medium
Power Control
S216SE1/S216SE2
■
Features
1. Comforms to European Safety Standard (EN60950
)
(Need of the insulation sheet when mounting external heat sink
Internal insulation distance : 0.4mm or more
Creepage distance : 5mm or more
Space distance : 4mm or more
2. RMS ON-state current
S202SE1/ S202SE2 : 8Arms at Tc<= 80˚C
(with heat sink
)
S216SE1/ S216SE2 : 16Arms at Tc<= 60˚C
(with heat sink
3.
Isolation voltage between input and output
4. Approved by TUV, No. R9051479
)
(
V : 3 000V
.
.
iso rms
5. Recognized by UL, No. E94758
(S202SE1/ S202SE2
)
Approved by CSA, No. LR63705
(S202SE1 , S202SE2
■
Applications
)
1. Copiers
2. Laser beam printers
■ Line-up
RMS ON-state current
No built-in
Zero-cross circuit
Built-in
Zero-cross circuit
MAX. 8Arms MAX. 16Arms
S202SE1 S216SE1
S202SE2 S216SE2
■ Absolute Maximum Ratings
Parameter
Input
Output
Forward current I
Reverse voltage V
RMS ON-state current I
*1
Peak one cycle surge current I
Repetitive peak OFF-state voltage V
Non-repetitive peak OFF-state voltage
Critical rate of rise of ON-state current
Operating frequency f 45 to 65 Hz
*2
Isolation voltage V
Operating temperature T
Storage temperature T
*3
Soldering temperature T
*1 60Hz sine wave, Tj=25˚C start
*2 AC 60Hz for 1 minute, 40 to 60%RH, 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 heat sink, please use the insulation sheet.
*3 For 10 seconds *4 TC<=80˚C *5 TC<=60˚C
Symbol
■ Outline Dimensions
)
A(Model No.)B
S202SE1
S202SE2
S216SE1
S216SE2
)
4-1.1
4-1.25
4-0.8
Internal connection diagram
S202SE1 / S202SE2 S216SE1 / S216SE2
F
R
T
surge
DRM
V
DSM
dIT/dt 50 A/µ s
iso
opr
stg
sol
* The metal parts marked * are common to terminal 1
❈ Do not allow external connection.
( )
: Typical dimensions
8A260VAC
16A260VAC
MAX.
❈ 2.0
±
0.2
±
0.3
±
0.2
(
S202SE1/S216SE1 S202SE2/S216SE2
1 Output (Triac. T2
2 Output (Triac. T1
(+)
3 Input
(-)
4 Input
Rating
50 mA
6V
*4
8
80 160 A
600 V
600 V
3,000 V
- 25 to + 100 ˚C
- 30 to + 125 ˚C
260 ˚C
±
0.2
18.5
±
0.3
16.4
±
0.2
φ 3.2
*
A
B
-
+
123 4
5.08)(7.62
)(
zero-cross
circuit
)
)
(
Ta= 25˚C
*5
16 A
(
Unit : mm
0.2
±
3.2
0.3
±
5.0
0.2
±
)
19.6
36.0
(
MIN.
MAX.
4.2
11.2
(+)
(-)
0.6
±
)
2.54
12 3412 34
1 Output (Triac. T2
2 Output (Triac. T1
3 Input
4 Input
)
Unit
rms
rms
5.5
0.1
)
±
0.2
(
)
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.”
S202SE1/S202SE2/S216SE1/S216SE2
■ Electrical Characteristics
Parameter Symbol Conditions MIN. TYP. MAX. Unit
Input
Output
Transfer
characteristics
Thermal resistance
(
Between junction and case
Thermal resistance
(
Between junction and ambience
*6 dIT/dt = -4.0A/ms (S202SE1/ S202SE2
dI
Forward voltage V
Reverse current I
Repetitive peak OFF-state current
ON-state voltage
S202SE1 / S202SE2
S216SE1 / S216SE2
Holding current I
Critical rate of rise of OFF-state voltage
Critical rate of rise of commutating OFF-state voltage
Zero-cross voltage S202SE2/S216SE2
Minimum trigger
current
S202SE1 /S216SE1
S202SE2 /S216SE2
Isolation resistance R
Turn-on time
S202SE1 /S216SE1
S202SE2 /S216SE2
Turn-off time t
S202SE1 /S202SE2
)
S216SE1 /S216SE2
)
/dt = -8.0A/ms (S216SE1/ S216SE2
T
(
Ta = 25˚C
IF= 20mA - 1.2 1.4 V
F
VR=3V - - 10
R
I
V
dV/dt
(
dV/dt)c
V
I
R
th
R
th
)
)
VD=V
DRM
T
H
DRM
IT=2A
rms
IT= 16A
VD= 2/3V
rms
---50mA
DRM
Tj = 125˚C, VD= 400V *6
IF= 8mA - - 35 V
OX
VD= 12V, RL=30Ω --8
FT
V
= 6V, RL=30Ω --8
D
DC500V, 40 to 60 % RH
ISO
t
AC60Hz
on
AC60Hz - - 9.3 ms
off
(
j-c
(
j-a
)
)
-
-
--10-4A
- - 1.5
- - 1.5
30 - - V/µ s
5--V/µs
10
10
--Ω
--1
- - 9.3
- 4.5 -
- 3.3 -
- 40 - ˚C/W
-4
A
V
rms
mA
ms
˚C/W
)
Fig.1-a RMS ON-state Current vs. Ambient
Temperature
4
)
Arms
(
3
T
2
1
RMS ON-state current I
0
- 20 0 20 40 60 80 100 120 140
(
S202SE1/ S202SE2
Ambient temperature Ta (˚C
)
)
Fig.1-b RMS ON-state Current vs.
Ambient Temperature
4
)
Arms
(
3
T
2
1
RMS ON-state current I
0
-20 6020
0 40 80 100 140120
(
S216SE1/ S216SE2
Ambient temperature Ta (˚C
)
)