ETC JGC-4F/05D1M Solid state relay Datasheet

JGC-4F
SOLID STATE RELAY
Features
File No.: E133481
• DC
input-AC output for 2A load at 25
Volt blocking voltage
• Photo isolation
• Built-in snubber
• Zero cross or random turn-on
• Printed circuit board mount
• 600
File No.: R2024431
File No.: CH0032705-2002A
INPUT (TA = 25•C)
Control voltage range
Must operate voltage
DESCRIPTION
05D
4 to 6VDC
This SPST-NO printed circuit board mount SIP SSR provides AC output
12D
9.6 to 14.4VDC
switching in a high density package.The JGC-4F's DC input is compatible
24D
19.2 to 28.8VDC
with 5, 12 and 24V logic systems .All models include an internal
05D
4VDC
max.
12D
9.6VDC
max.
24D
19.2VDC
max.
1.0VDC
min.
Must release voltage
10mA
Max. input current
snubber.The relays provide 2000Vrms opto-isolation,between input and
output. Encapsulation,thermally conductive epoxy.
PRECAUTIONS
1. Terminal arrangement
1
Load voltage range (@47 to 63Hz)
75 to 264VAC
Load current range
0.1 to 2A
25Apk
Max. leakage current
1.5mA
Max. on-state voltage drop
Max. turn-on time
1.5VAC
Zero cross turn-on
10ms
Random turn-on
1ms
Max. turn-off time
10ms
AC line
0
180
2
input
Max. surge current (10ms)
load
output
OUTPUT
Pulse width
Input signal
3(+)
Input signal turn off
Minimum 200µs
4(-)
2. Soldering must be completed within 10 seconds at 260
or within 5 seconds at 350
or less
or less.
3. The SSR case serves to dissipate heat. Install the relays so that they
are adequately ventilated. If poor ventilation is unavoidable, reduce the
Solid State Relays JGC-4F
Transient overvoltage
600Vpk max.
Min. off-state dv/dt
100V/µs min.
4. The input circuitry does not incorporate a circuit protecting the SSR
15V max.
from being damaged due to a reversed connection. Make sure that the
Zero-crossover voltage
Min. power factor
0.5
load current by half.
polarity is correct when connecting the input lines.
5. When using the JGC-4F series for an AC load with a peak voltage of
more than 450V,connect the load terminals of the relay to an inrush
GENERAL
absorber(varistor). The recommended varistor voltage, 440 to 470V.
Dielectric strength ( input to output ) 2000VAC min., 50/60Hz 1min.
Insulation resistance
1000M , min. (at 500VDC)
Max. Capacitance ( input to output )
Vibration durability
5pF
10 to 55HZ Double amplitude 1.5mm
Shock durability
Operating
Ambient
temperature Storage
Ambient Humidity
1000m/s2
-30
-30
to +80
to +100
45% to 85%
Unit weight
6g
HONGFA RELAY
ISO9001/QS9000/ISO14000 CERTIFIED
176
6. The load terminals are internally connected to a snubber circuit that
absorb noise. However, if wiring from these terminals is laid with or
placed in the same duct as high-voltage or power
lines, noise may
be induced, causing the SSR to operate irregularly or malfunction.
7. When using the JGC-4F series in phase control applications, at a
phase control angle close to 180 degrees the relay's input signal turn
off at the trailing edge of the AC sine wave must be limited to end
200µs before AC zero cross. This assures
that the relay has time
to switch off. Shorter times may cause loss of control at the following
half cycle.
ORDERING INFORMATION
JGC-4F /
12
D
1
T
Type
Input voltage
Input Form
05 : 4 to 6VDC 12 : 9.6 to 14.4VDC 24 : 19.2 to 28.8VDC
D: DC
Zero Cross Function 0: Zero cross turn-on 1: Randm turn-on
Termination T: Same as TOSHIBA TSZXX48S, M: Same as OMRON G3MB
OUTLINE DIMENSIONS, WIRING DIAGRAM AND PC BOARD LAYOUT
Outline Dimensions
24 max.
PCB layout
Wiring Diagram
6.5max.
1
0.7 0.15
0.4 0.15
3.9 0.5
(2.5)
(+)3
4(_)
input
load
4-Ø1
2.54
5.08 0.5
2
2.54
20max
JGC-4F/ D- T
2.54 0.3
(Bottom view)
1.7 0.3
7.62 0.6
24 max.
6.5max.
1
20max.
JGC-4F/ D- M
4-Ø1
Solid State Relays JGC-4F
0.4 0.15
3.9 0.5
(2.5)
2.54 0.3
7.62 0.6
input
load
2.54
0.7 0.15
(+)3 4(_)
2
2.54
1.7 0.3
10.16 0.6
CHARACTERISTICS CURVE
MAXIMUM LOAD CURRENT
VS.AMBIENT TEMPERATURE
MAXIMUM PERMISSIBLE NON-REPETITIVE
PEAK SURGE CURRENT VS. CONTINUANCE TIME
PULSE INPUT CURRENT
VS. PULSE WIDTH
INPUT CURRENT
VS. AMBIENT TEMPERATURE
1.6
Peak Surge Current(%)
2.5
25
IT
1000
1.0
0.5
0
-30 -20
0
20 25
40
60
Ambient Temperature(
80
)
100
600
20
NORMALIZED TO:
TA=25•C
tw
Iin(tw)/Iin
1.5
1.4
0
Tj=25•C F=50Hz
800
Iin(tw)/Iin
Load Current(A)
2.0
Normalized to:
tw•100µs
15
10
1.2
1.0
400
0
10
0.8
5
200
0
100
1000
Energizing Continuance Time(ms)
10000
1
2
5
10
20
Pulse Width Tw (µS)
50
100
0.6
-40
-20
0
20
40
60
Ambient Temperature(
80
)
177
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