G2R-1-E-AC120 Omron, G2R-1-E-AC120 Datasheet - Page 28
G2R-1-E-AC120
Manufacturer Part Number
G2R-1-E-AC120
Description
RELAY PWR SPDT 16A 120VAC PCB
Manufacturer
Omron
Series
G2Rr
Datasheets
1.G2R-1A-E-DC12.pdf
(14 pages)
2.G2R-1A-E-DC12.pdf
(30 pages)
3.G2R-2-SND_DC24S.pdf
(19 pages)
4.G2R-1AE-DC24.pdf
(15 pages)
Specifications of G2R-1-E-AC120
Contact Form
SPDT (1 Form C)
Contact Rating (current)
16A
Switching Voltage
380VAC, 125VDC - Max
Turn On Voltage (max)
96 VAC
Turn Off Voltage (min)
36 VAC
Relay Type
General Purpose
Coil Type
Non Latching
Coil Current
7.5mA
Coil Voltage
120VAC
Mounting Type
Through Hole
Termination Style
PC Pin
Circuit
SPDT (1 Form C)
Contact Rating @ Voltage
16A @ 250VAC
Control On Voltage (max)
96 VAC
Control Off Voltage (min)
36 VAC
Coil Voltage Vac Nom
120V
Contact Current Max
16A
Contact Voltage Ac Nom
250V
Contact Voltage Dc Nom
30V
Coil Resistance
6500ohm
Contact Configuration
SPDT
Current, Rating
16 A
Function
Power
Number Of Pins
8
Power, Rating
4000⁄480 VA⁄W
Standards
UL, CSA, VDE, CE
Termination
Through Hole
Voltage, Control
120 VAC
Voltage, Rating
380 VAC
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Other names
G2R-1-E-AC120
G2R1EAC120
Z3121
G2R1EAC120
Z3121
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
G2R-1-E-AC120
Manufacturer:
OMRON/欧姆龙
Quantity:
20 000
Determining Rb
The current flows into Rb should be enough to turn ON TR when the
relay is reset. When determining value of Rb, the following points
must be noted:
• TR must be sufficiently turned ON even when T equals the time
• Give adequate consideration to changes in the due to changes in
An experiment reveals that the relay sufficiently operates with a
capacitance of 100 μF + 47 μF where the relay is rated at a supply
voltage of 5 VDC and a coil voltage of 3 VDC. It can therefore be said
that the capacitance can be lower than the calculated value. This is
because the time constant is determined with a relatively wide mar-
gin. So it is recommended to perform experiments to determine the
time constant.
28
constant.
ambient temperature. Simple as it is, the driver circuit introduced
here can efficiently control the relay, consuming a tiny amount of
power.
Electromechanical Relays
Technical Information
Application circuit example
The TTL output of a solid-state switch can be used as Q
Half-wave rectified AC power is applied to the circuit. Q
of a TTL, and drives the relay.
1
2
is the output
.
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