Datasheet
193
Text
192
Text PCB Signal Relay – G6E
G6EU-134C-US
G6EU-194C-US
Mounting Holes
(Bottom View)
Tolerance: ±0.1
0.3
7.62
0.25
7.625.08
1.6
0.6
3.2
3.5
16 max.
(15.9) *
10 max.
(9.9) *
8 max.
(7.9) *
7.62
7.62
5.08
5.08
7.62
7.62
(1.65)
(1.19)
Five, 1.0-dia. holes
*Average value
*Average value
G6EK-134P-US
G6EK-194P-US
G6EK-134C-US
G6EK-194C-US
Terminal Arrangement/
Internal Connections
(Bottom View)
Mounting Holes
(Bottom View)
Tolerance: ±0.1
0.3
3.5
7.62
0.25
7.625.08
1.6
0.6
16 max.
(15.9) *
10 max.
(9.9) *
0.3
7.62
0.25
7.625.08
1.6
0.6
3.2
3.5
16 max.
(15.9) *
10 max.
(9.9) *
+ 1 + 6
12 10 7
S
3
R
-
5.08
7.62
(1.65)
(1.19)
7.62
Six, 1.0-dia. holes
*Average value
8 max.
(7.9) *
8 max.
(7.9) *
*Average value
Long-term Continuously ON Contacts
Using the Relay in a circuit where the Relay will be ON
continuously for long periods (without switching) can lead to
unstable contacts because the heat generated by the coil itself
will affect the insulation, causing a film to develop on the contact
surfaces. We recommend using a latching relay (magnetic-holding
relay) in this kind of circuit. If a single-side stable model must be
used in this kind of circuit, we recommend using a fail-safe circuit
design that provides protection against contact failure or coil
burnout.
Installation
Do not reverse the polarity of the coil (+, -).
Provide sufficient space between Relays when mounting two or
more on the same PCB, as shown in the following diagram.
Wiring
Refer to the following diagram when wiring to switch a DC load.
The difference in polarity applied to the contacts will affect the
endurance of the Relay due to the amount of contact movement.
To extend the endurance characteristics beyond the performance
ratings, wire the common (pin 7) terminal to the positive (+) side.
Ultrasonic Cleaning
Do not use ultrasonic cleaning on standard relay models. Doing
so may result in resonance, coil burnout, and contact adhesion
within the Relay. Use a model designed for ultrasonic cleaning if
ultrasonic cleaning is required.
Relay Handling
When washing the product after soldering the Relay to a PCB, use
a water-based solvent or alcohol-based solvent, and keep the
solvent temperature to less than 40°C. Do not put the Relay in a
cold cleaning bath immediately after soldering.
Precautions
■
Precautions for Correct Use
Close
mounting
Distance between terminals
:
2.54 × 2 (pitch) max.
Load Load
+
−
7
12 10
Wiring Diagram
Signal Relays
CAT. No. K024-E2-06A-X
PCB Signal Relay – G6E
Terminal Arrangement/
Internal Connections
(Bottom View)
Mounting Holes
(Bottom View)
G6E-134P-US
G6E-194P-US
GS
16 max.
(15.9) *
10 max.
(9.9) *
8 max.
(7.9) *
0.3
3.5
7.62
0.25
7.625.08
1.6
0.6
1 + - 6
12 10 7
*Average value
Dimensions
Note: 1. All units are in millimetres unless otherwise indicated.
2. Orientation marks are indicated as follows:
Engineering Data
30-VDC inductive load
(L/R = 7 ms)
load
125-VAC
resistive load
125-VAC inductive load
(cosφ = 0.4)
100,000
50,000
3,000
10,000
5,000
3,000
1,000
500
300
100
50
Maximum Switching Power Ambient Temperature vs.
Maximum Coil Voltage
Endurance
Switching current (A)
Switching voltage (V) Switching current (A)
Endurance (x10 operations)
3
Ambient temperature (°)
Maximum coil voltage (%)
AC resistive
load
DC inductive load
(L/R = 7 ms)
AC inductive load
(cosf = 0.4)
G6E-134P-US
G6EK-134P-US
G6EU-134P-US
G6E-134P-US
Only at 48VDC
Note: The maximum coil voltage refers to the maxi-
mum value in a varying range of operating
power voltage, not a continuous voltage.
DC resistive load
30-VDC resistive
Mounting Holes
(Bottom View)
Tolerance: ±0.1
G6E-134C-US
G6E-194C-US
0.3
7.62
0.25
7.62
5.08
1.6
0.6
16 max.
(15.9) *
10 max.
(9.9) *
3.2
3.5
8 max.
(7.9) *
5.08
7.62
7.62
(1.65)
Five, 1.0-dia. holes
(1.19)
*Average value
*Average value
G6EU-134P-US
G6EU-194P-US
Terminal Arrangement/
Internal Connections
(Bottom View)
Mounting Holes
(Bottom View)
0.3
3.5
7.62
0.25
7.62
5.08
1.6
0.6
16 max.
(15.9) *
10 max.
(9.9) *
8 max.
(7.9) *
+ 1 - 6
12 10 7
S
R
-
+
*Average value
Omron 08 Cat 1-302 5/10/07 15:39 Page 192