For Reference
Date of Issue: March 17, 2011
OMRON Corporation
OMRON RELAY&DEVICES Corporation
SPECIFICATIONS
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Date of First issue: March 17, 2011
Date of Revised issue: ----------
OMRON Corporation
OMRON RELAY & DEVICES Corporation
Issued by
Checked by
Authorized by
March 17, 2011
M.Miura
March 17, 2011
T.FUKUDA
March,17,2011
K.Kawahara
PRODUCT SPECIFICATION
NAME:
MODEL:
ITEM:
TERMINAL RELAY
G6C-4B(N)(D)
ALL RATINGS
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Revision history
See Item --
No.
(2/8)
1. Classification
Terminal Relay
2. Construction
2.1 Outline dimensions
2.2 Connection diagram
2.3 Contact configuration
See item 14.
-----
SPST-NO+SPST-NC X 2
3. Standards
3.1 Approved standards
3.2 Conformed standards
UL: UL508(E87929), CSA: C22.2 No.14(LR35535),
-------
4. Ratings (per G6C relay 1pc.)
4.1 Coil ratings
(1) Rated voltage and Frequency
(2) Rated current
□Set
□Reset
(3) Coil resistance
□Set
□Reset
(4) Operate voltage
(5) Rated power consumption
4.2 Contact ratings
(1) Rated load
Resistive load
250
VAC 8 A
A
A (p.f. = 0.4)
A (L/R =
7 ms)
■See
table 1
---
---
---
---
---
---
VDC
mA±
mA±
mA±
mA±
---
---
---
---
---
Hz
Hz(at
Hz(at
Hz(at
Hz(at
V, on
V, on
V, on
V, on
Hz)
Hz)
Hz)
Hz)
to --- % of the rated voltage
---
W MAX.
Approx.
30 VDC 8
Inductive load
250
VAC 3.5
30 VDC 3.5
(2) Rated carry current
(3) Max. switching voltage
(4) Max. switching current
8
380
A
VAC
125
VDC
8A
8A
8A
DC
Resistive load
Inductive load
AC
AC
DC
8A
(p.f. = 0.4)
(L/R =
7 ms)
(5) Max. switching capacity
Resistive load
Inductive load
AC
AC
DC
2000 VA
875 VA
170 W
DC 240 W
(P.f. = 0.4)
(L/R = 7 ms)
5. Characteristics (Initial value)
5.1 Contact resistance
100 mΩ Max. (Initial value)
■Measured
by the voltage drop method
with DC5 V
1 A applied
No.
5.2
■Must
operate voltage(or current)
□Must
set voltage(or current)
5.3
■Must
release voltage(or current)
□Must
reset voltage(or current)
5.4
■Operate
time
5.5
■Release
time
□Set
time
□Reset
time
(□V
□mA)
Max.
(□V
□mA)
Max.
(3/8)
---
■See
table 1
---
■See
table 1
10 ms Max. (at rated voltage)
10 (G6B-4B/-4BN) ms Max.
15 (G6B--4BND) ms Max.
(at rated voltage)
(at rated voltage)
5.6 Insulation resistance
1000 MΩ Min. (at 500VDC)
5.7 Dielectric strength (at 50/60Hz for 1 minute)
(1) Between coil contacts of the different polarity
(2) Between contact terminals of the different polarity
(3) Between contact terminals of the same polarity
(4) Between coil and contacts
5.8 Temperature rise
(1)Coil
50 °C Max. (by the coil resistance method)
Ambient temperature 55°C
Applied voltage of coil:
100 % of rated voltage
250 VAC
2000 VAC
1000 VAC
2000 VAC
Carry current of contact: 8 A
(2)Contact
65 °C Max. (by the coil thermometer method)
Ambient temperature 55°C
Applied voltage of coil:
100 % of rated voltage
Carry current of contact: 8 A
5.9 Vibration resistance
(1) Destruction
Must be free from any abnormality in both the construction and
characteristics after the relay is held at a variable vibration of
0.75 mm single amplitude ( 1.5 mm double amplitude) at
a vibration frequency of 10 to 55 to 10 Hz in each direction for
2 hours.
(2) Malfunction
(When energized)
Contacts must not open for 1 ms or longer after the relay
is held at a variable vibration of 0.75 mm single amplitude
( 1.5mm double amplitude) at a vibration frequency of
10 to 55 to 10 Hz in each direction for 1 cycle.
(When not energized)
Contacts must not open for 1 ms or longer after the relay
is held at a variable vibration of 0.75 mm single amplitude
( 1.5mm double amplitude) at a vibration frequency of
10 to 55 to 10 Hz in each direction for 1 cycle.
No.
(4/8)
5.10 Shock resistance
(1) Destruction
Must be free from any abnormality in both the construction and
characteristics after the relay is subjected to a shock of
1000 m/s
2
in each direction
(2) Malfunction
(When energized)
5 times.
1 ms or longer
Must be free from a contact opening of
after the relay is subjected to a shock of 100 m/s
2
in each direction
5 times.
1 ms or longer
100 m/s
2
(When not energized)
Must be free from a contact opening of
after the relay is subjected to a shock of
in each direction
5 times.
5.11 Temperature resistance
(1) Heat resistance
Must be free from any abnormality in both the construction
and characteristics after the relay is left in a temperature of
85±2 °C for 16 hours and then in room temperature and
humidity for 2 hours.
(2) Cold resistance
Must be free form any abnormality in both the construction
and characteristics after the relay is left in a temperature of
-55±3 °C for 72 hours and then in room temperature and
humidity for 2 hours.
5.12 Moisture resistance
Must be free from any abnormality in both the construction
and characteristics after the relay is left in a humidity
of 90 to 95 %RH for 48 hours at a temperature of 40±2 °C,
and then in room temperature and humidity for 2 hours.
Insulation resistance, however, must be
5.13 Terminal strength
5 MΩ MIN.
49N
Must be free from any abnormality after a tensile stress of
is applied to the terminal in the vertical direction for 1 seconds.
Any deformation of the terminal by the load shall not be
regarded as a mechanical damage.
* Appropriate clamp torque: 0.78 to 1.18 N½m
5.14 Insert stress
5.15 Tensile stress
5.16 Mounting strength
----- N
----- N
Must be no damaging nor shaky mounting part after
a tensile stress of 49N is applied to the horizontal direction and
for
1 second.
9.8 N Min.)
(For a rail direction,
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