OMRON G3VM-353E

MOS FET Relay
G3VM-353A/B/D/E
MOS FET Relay with N.C. (Normally
Closed) Contacts for Switching Analog
Signals
■ SPST-NC contact form.
■ Switches minute analog signals.
■ Switches AC and DC.
■ Low ON-resistance.
■ UL/CSA approval pending.
R
■
Appearance
OMRON logo
Note:
Model name
LOT No.
"G3VM" is not printed on the actual product.
Ordering Information
Contact form
Terminals
Load voltage (peak
value)
PCB terminals
SPST-NC
350 VAC
Surface-mounting
terminals
Model
Number per stick
G3VM-353A
100
G3VM-353B
50
G3VM-353D
100
G3VM-353E
50
G3VM-353D(TR)
G3VM-353E(TR)
---
Taping quantity
---
1,500
Application Examples
• Electronic automatic exchange systems
• Datacoms and modems
• Measuring systems
• Security systems
• FA
1
G3VM-353A/B/D/E
G3VM-353A/B/D/E
Specifications
■
G3VM-353A/D
Absolute Maximum Ratings (Ta = 25°C)
Item
Input
Output
Symbol
Rating
Conditions
LED forward current
IF
50 mA
LED forward current reduction rate
∆IF/°C
–0.5 mA/°C
Ta ≥ 25°C
Repetitive peak LED forward current
IFP
1A
100-µs pulses, 100 pps
LED reverse voltage
VR
5V
---
Permissible loss
Pin
50 mW
---
Connection temperature
TJ
125°C
---
Output dielectric strength
VOFF
350 V
AC peak value
Continuous load current
IO
150 mA
---
Peak load current
Ipeak
0.35 A
---
Output loss
Pout
506 mW
---
ON current reduction rate
∆ION/°C
–1.5 mA/°C
Ta ≥ 25°C
---
---
Total permissible loss
PT
556 mW
Dielectric strength between I/O terminals (See note.)
VI–O
2,500 Vrms
Insulation resistance
RI–O
5 × 10
Storage temperature
Tstg
–55 to
125°C
---
Ambient operating temperature
Ta
–40 to 85°C
---
Note
10
AC, 1 min
MΩ VS = 500 V, ambient operating humidity ≤ 60%
The dielectric strength between I/O terminals was measured with voltage applied to all of the input pins and all of the output pins.
Electrical Performance (Ta = 25°C)
Item
Input
Symbol
Minimum
Standard
Maximum
Conditions
LED forward current
VF
1.0 V
1.15 V
1.3 V
IF = 10 mA
Reverse current
IR
---
---
10 µA
VR = 5 V
Capacity between terminals
CT
---
30 pF
---
V = 0, f = 1 MHz
Maximum resistance with output
ON
RON
---
15 Ω
25 Ω
ION = 150 mA
Current leakage when the relay is
closed
ILEAK
---
---
1 µA
VOFF = 350 V, IF = 5 mA
Turn-ON time
TON
---
0.1 ms
1 ms
Turn-OFF time
TOFF
---
1 ms
3 ms
RL = 200 Ω
(See note.)
VDD = 20 V,
IF = 5 mA
Floating capacity between I/O terminals
CI–O
---
0.8 pF
---
Output
Note
IF
VS = 0 V, f = 1 MHz
The operate and release time were measured in the way shown below.
1
4
2
3
RL
VDD
IF
VOUT
VOUT
TON
90%
10%
TOFF
Recommended Operating Conditions
Item
Symbol
Minimum
Standard
Maximum
Operating voltage
VDD
---
---
280 V
Forward current
IF
5 mA
---
25 mA
Continuous load current
IO
---
---
150 mA
Operating temperature
Ta
–20°C
---
65°C
2
G3VM-353A/B/D/E
■
G3VM-353A/B/D/E
G3VM–353B/E
Absolute Maximum Ratings (Ta = 25°C)
Item
Input
Symbol
Conditions
IF
50 mA
---
LED forward current reduction rate
∆IF/°C
–0.5 mA/°C
Ta ≥ 25°C
Repetitive peak LED forward current
IFP
1A
100-µs pulses, 100 pps
LED reverse voltage
VR
5V
---
Permissible loss
Pin
50 mW
---
Connection temperature
TJ
125°C
---
Output dielectric strength
VOFF
350 V
AC peak value
150 mA
A connection
Continuous load current (See note.)
IO
B connection
C connection
Output
Rating
LED forward current
150 mA
---
300 mA
Peak load current
Ipeak
0.35 A
---
Output loss
Pout
506 mW
---
–1.5 mA/°C
A connection
ON current reduction
rate
∆ION/°C
B connection
–1.5 mA/°C
Ta ≥ 25°C
–3.0 mA/°C
C connection
Total permissible loss
PT
556 mW
Dielectric strength between I/O terminals (See note.)
VI–O
2,500 Vrms
AC, 1 min
---
Insulation resistance
RI–O
5 × 1010 MΩ
VS = 500 V, ambient operating
humidity ≤ 60%
Storage temperature
Tstg
–55 to 125°C
---
Ambient operating temperature
Ta
–40 to 85°C
---
Note
The dielectric strength between I/O terminals was measured with voltage applied to pins 1, 2, and 3 together, and to pins 4, 5, and
6 together.
Connection Circuit Diagram
1
6
Load
1
6
2
5
or AC ∼
DC
2
5
3
4
3
4
A connection
Load
DC
B connection
1
6
2
5
3
4
Load
DC
C connection
3
G3VM-353A/B/D/E
G3VM-353A/B/D/E
Electrical Performance (Ta = 25°C)
Item
Input
Symbol
Minimum
Standard
Maximum
Conditions
LED forward current
VF
1.0 V
1.15 V
1.3 V
IF = 10 mA
Reverse current
IR
---
---
10 µA
VR = 5 V
CT
---
30 pF
---
V = 0, f = 1 MHz
---
15 Ω
25 Ω
ION = 150 mA
---
8Ω
14 Ω
ION = 150 mA
---
4Ω
7Ω
ION = 300 mA
Capacity between terminals
A connection
Maximum resistance with out- B connection
put ON
C connection
RON
Current leakage when the relay is
closed
ILEAK
---
---
1 µA
VOFF = 350 V, IF = 5 mA
Operate time
TON
---
0.1 ms
1 ms
Release time
TOFF
---
1 ms
3 ms
RL = 200 Ω
(See note.)
VDD = 20 V,
IF = 5 mA
Floating capacity between I/O terminals
CI–O
---
0.8 pF
---
Output
Note
VS = 0 V, f = 1 MHz
The operate and release time were measured in the way shown below.
IF
1
6
2
5
3
4
RL
IF
VDD
VOUT
90%
VOUT
10%
TON
TOFF
Recommended Operating Conditions
Item
Symbol
Minimum
Standard
Maximum
Operating voltage
VDD
---
---
280 V
Forward current
IF
5 mA
---
25 mA
Continuous load current
IO
---
---
150 mA
Operating temperature
Ta
–20°C
---
65°C
Dimensions
Note
All units are in millimeters unless otherwise indicated.
G3VM-353A
G3VM-353D
4.58±0.25
4.58±0.25
6.4±0.25
6.4±0.25
7.62±0.25
7.62±0.25
0.8±0.25
0.8±0.25
＋0.15
3.65
-0.25
2.5 min.
＋0.15
3.65
-0.25
0.5±0.1
7.85 to 8.80
Weight: 0.26 g
Note:
4
1.2±0.15
2.54±0.25
2.54±0.25
"G3VM" is not printed on the actual product.
＋0.15
4.0
-0.25
1.0
min.
1.0 min.
10.0 max.
Weight: 0.26 g
G3VM-353A/B/D/E
G3VM-353A/B/D/E
7.12±0.25
G3VM-353B
7.12±0.25
G3VM-353E
6.4±0.25
6.4±0.25
7.62±0.25
7.62±0.25
0.8±0.25
＋0.15
3.65
-0.25
3.65＋0.15
-0.25
0.5±0.1
2.5 min.
7.85 to 8.80
■
1.0 min.
2.54±0.25 1.2±0.25
2.54±0.25
Note:
＋0.15
4.0
-0.25
1.0
min.
10.0 max.
Weight: 0.4 g
"G3VM" is not printed on the actual product.
Weight: 0.4 g
PCB Dimensions (Bottom View)
■
Actual Mounting Pad Dimensions
(Recommended Value, Top View)
G3VM-353B
G3VM-353A
G3VM-353D
2.54 Six, 0.8-dia. holes
（0.56）
2.54 Four, 0.8-dia. holes
（0.56）
2.54
2.54
G3VM-353E
2.54
2.54
2.54
8.3 to 8.8
8.3 to 8.8
（0.56）
（0.1）
（0.1）
（0.1）
（0.56）
（0.1）
1.3
2.54
1.3
1.5
1.5
Installation
■
Terminal Arrangement/Internal Connection (Top View)
G3VM-353A
G3VM-353B
G3VM-353D
G3VM-353E
4
3
6
5
4
4
3
6
5
4
1
2
1
2
3
1
2
1
2
3
5
G3VM-353A/B/D/E
G3VM-353A/B/D/E
Precautions
Surge Voltage Protection Circuit Example
!WARNING
Be sure to turn OFF the power when wiring the Relay, otherwise an electric shock may be received.
!WARNING
Do not touch the charged terminals of the SSR, otherwise an
electric shock may be received.
!Caution
Do not apply overvoltage or overcurrent to the I/O circuits of the
SSR, otherwise the SSR mya malfunction or burn.
!Caution
Be sure to wire and solder the Relay under the proper soldering
conditions, otherwise the Relay in poeration may generate excessive heat and the Relay may burn.
■
1
6
2
5
3
4
Protection from Spike Voltage on the Output
Terminals
If a spike voltage exceeding the absolute maximum rated value is
generated between the output terminals, insert a C-R snubber or
clamping diode in parallel to the load as shown in the following
circuit diagram to limit the spike voltage.
Spike Voltage Protection Circuit Example
Correct Use
1
6
2
5
3
4
1
6
2
5
3
4
Typical Relay Driving Circuit Examples
C-MOS
C-MOS
ҤVcc
R1
VF
VIN
1
6
2
5
Unused Terminals (6-pin only)
3
4
Terminal 3 is connected to the internal circuit. Do not connect
anything to terminal 3 externally.
Load
VOL/OH
Pin Strength for Automatic Mounting
In order to maintain the characteristics of the relay, the force
imposed on any pin of the relay for automatic mounting must not
exceed the following.
Transistor
＋Vcc
R1
10 to 100kΩ
VF
VIN
6
2
5
3
4
Load
VOL/OH
Use the following formula to obtain the LED current limiting resistance value to assure that the relay operates accurately.
R1 =
VCC − VOL − VF (ON)
5 to 20 mA
Use the following formula to obtain the LED forward voltage value
to assure that the relay releases accurately.
In direction A: 1.96 N max.
In direction B: 1.96 N max.
Load Connection
Do not short-circuit the input and output terminals while the relay
is operating or the relay may malfunction.
AC Connection
㧗
㧙
Ҥ
Protection from Surge Voltage on the Input
Terminals
If any reversed surge voltage is imposed on the input terminals,
insert a diode in parallel to the input terminals as shown in the following circuit diagram and do not impose a reversed voltage value
of 3 V or more.
1
6
2
5
3
4
or
or
Load
AC
㧗
DC
㧙
DC Single Connection
VF (OFF) = VCC − VOH < 0.8 V
6
B
A
1
ҥ
Ҥ
ҥ
1
6
2
5
3
4
1
6
2
5
3
4
Load
Load
Ҥ
DC
ҥ
ҥ
DC
Ҥ
㧙
DC
㧗
G3VM-353A/B/D/E
G3VM-353A/B/D/E
DC Parallel Connection
＋
−
1
6
2
5
3
4
Load
＋
DC
−
Solder Mounting
Maintain the following conditions during manual or reflow soldering of the relays in order to prevent the temperature of the relays
from rising.
1. Pin Soldering
Solder each pin at a maximum temperature of 260°C within
10 s.
2. Reflow Soldering
a. Solder each pin at a maximum temperature of 260°C
within 10 s.
b. Make sure that the ambient temperature on the surface
of the resin casing is 240°C max. for 10 s maximum.
c. The following temperature changes are recommendable
for soldering.
Temperature (°C)
240
5°C/s max.→
210
150
Time (sec)
60 s
10 s
max.
30 s max.
7
G3VM-353A/B/D/E
G3VM-353A/B/D/E
ALL DIMENSIONS SHOWN ARE IN MILLIMETERS.
To convert millimeters into inches, multiply by 0.03937. To convert grams into ounces, multiply by 0.03527.
Cat. No. K115-E1-1
In the interest of product improvement, specifications are subject to change without notice.
OMRON Corporation
Electronics Components Company
Electronic & Mechanical Components Division H.Q.
Low Signal Relay Division
2-1, 2-chome, Nishikusatsu, Kusatsu-city,
Siga-pref., 525-0035 Japan
Phone: (81)77-565-5481 Fax: (81)77-565-5581
8
Printed in Japan
0201-2M (0201) (A)