RGC2,RGC3 Datasheet by Carlo Gavazzi Inc.

1
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
3-phase solid state relays with integrated heatsink
Benefits
Description
Panel space savings. Concentrated power; the RGC
3-phase switching range can handle up to 65 AAC per
pole (or 75 AAC for 2-pole switching) in a 70 mm wide
footprint.
Long lifetime. Wire bonding technology reduces thermal
and mechanical stresses of the output chips resulting in a
larger number of possible operational cycles compared to
other assembly technologies.
Low machine downtime. Integrated overvoltage
protection prevents the solid state relay from breaking
down due to uncontrolled transients that may occur on
the lines.
Ease of use. The RGC2A and RGC3A are ready to
use solutions provided with integrated heatsink thus
eliminating the need for the user to calculate the size of
heatsink needed for adequate thermal dissipation.
Fast wiring. Power connections for models rated ≥30 A
are equipped with terminals that can handle cables up to
25 mm2 / AWG3 cables.
Integrated monitoring for timely detection of
malfunctions. Optional feature on the 3-phase RGC
series that enables detection of mains loss, over
temperature and solid state relay or load malfunction.
Accommodates UL508A requirements for Industrial
Control Panels. The RGC 3-phase range is certified as a
listed product. All models carry a 100 kArms Short Circuit
Current Rating.
This product is intended to replace mechanical
contactors especially when switching is frequent. The
smallest product width in the RGC2, RGC3 range is
54 mm (3xDIN) and goes up to 70 mm. 2-pole and
3-pole switching options are available.
Apart from resistive and slightly inductive loads, the
RGC is certified for motor switching with associated
motor ratings. A green LED gives indication of control
voltage presence. Fan operation is controlled for the
versions which have an integrated fan.
Detection of SSR overheat, mains loss, SSR
malfunction and load loss is possible with the RGC..M
versions. An EMR alarm output is available for remote
signaling. An additional feature with the RGC..M is the
electronic auxiliary output. The RGC..M has additional
LEDs for load status and alarm status indication.
Specifications are at a surrounding temperature of 25°C unless otherwise specified.
RGC2, RGC3
Main features
Applications
Plastic injection machines, Extrusion machines, Blow moulding machines, Thermoformers, Dryers, Electrical
ovens, Fryers, Shrink tunnels, Air handling units, Sterilisation equipment, Climatic chambers, Ovens and
furnaces.
3-phase zero cross switching solid state contactor for 3-pole or 2-pole switching
Ratings up to 660 VAC 75 AAC/pole (RGC2A), 65 AAC/pole (RGC3A) @ TA 40°C
Optionally integrated monitoring for SSR and load malfunction with alarm output for remote signalling with
the RGC..M
2
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Enter the code entering the corresponding option instead of . Refer to selection guide section for valid part
numbers.
Order code
RGC2A E
Code Option Description Comments
R-Solid State Relay (RG)
G-
C-With integrated heatsink
2-2-pole switching, 1-pole direct
A-Switching mode: zero cross
22 Rated voltage: 42-242 VAC, 800 Vp
60 Rated voltage: 42-660 VAC, 1200 Vp
DControl voltage: 5-32 VDC
AControl voltage: 20-275 VAC, 24-190 VDC
AC control range for
RGC..A..A.. limited to 20-275
VAC only
10 Rated current
25 Rated current
40 Rated current
75 Rated current
KScrew connection for control terminals
GBox clamp connection for control terminals For RGC..M, RGC..F
KScrew connection for power terminals For RGC..10, RGC..25
GBox clamp connection for power terminals For RGC..40, RGC..75
E-Contactor configuration
DExternal supply: 24 VDC
AExternal supply: 90-250 VAC
FIntegrated fan with over temperature protection (OTP) and EMR
alarm output For RGC..75
MMonitoring for mains loss, load loss, SSR short circuit, open circuit
and over-temperature with EMR alarm output and auxiliary output
RGC..M is suitable only for
resistive loads
3
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Selection guide - 2-pole switching, 1-pole direct (RGC2)
Selection guide - 2-pole switching, 1-pole direct with monitoring (RGC2..M)
KKE: input terminals = screw, output terminals = screw
KGE: input terminals = screw, output terminals = box clamp
GKE: input terminals = box clamp, output terminals = screw
GGE: input terminals = box clamp, output terminals = box clamp
Rated
voltage
Control
voltage
Features
External
supply,
Us
Rated operational current per pole @ 40°C
10 AAC
(1800 A2s)
25 AAC
(1800 A2s)
40 AAC
(6600 A2s)
75 AAC
(15000 A2s)
Product width
54 mm 54 mm 70 mm 70 mm + fan
220 VAC
5 - 32 VDC
- - - RGC2A22D25KKE - -
20-275 VAC,
24-190 VDC
- - - RGC2A22A25KKE - -
600 VAC
5 - 32 VDC
-
OTP
OTP
-
24 VDC
90 - 250 VAC
RGC2A60D10KKE
-
-
RGC2A60D25KKE
-
-
RGC2A60D40KGE
-
-
-
RGC2A60D75GGEDF
RGC2A60D75GGEAF
20-275 VAC,
24-190 VDC
- - RGC2A60A10KKE RGC2A60A25KKE RGC2A60A40KGE -
20-275 VAC
OTP
90 - 250 VAC
---
RGC2A60A75GGEAF
Rated
voltage
Control
voltage
Features
External
supply,
Us
Rated operational current per pole @ 40°C
-25 AAC
(1800 A2s)
40 AAC
(6600 A2s)
75 AAC
(15000 A2s)
Product width
- 54 mm 70 mm 70 mm + fan
600 VAC
5 - 32 VDC
Monitoring
24 VDC
90-250 VAC
-
RGC2A60D25GKEDM
RGC2A60D25GKEAM
RGC2A60D40GGEDM
RGC2A60D40GGEAM
RGC2A60D75GGEDFM
RGC2A60D75GGEAFM
20-275 VAC
Monitoring
90-250 VAC
-
RGC2A60A25GKEAM
RGC2A60A40GGEAM
RGC2A60A75GGEAFM
mun mun Panel mount version
4
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Enter the code entering the corresponding option instead of . Refer to selection guide section for valid part numbers.
Order code
RGC3A E
Code Option Description Comments
R-Solid State Relay (RG)
G-
C-With integrated heatsink
3-3-pole switching
A-Switching mode: zero cross
22 Rated voltage: 42-242 VAC, 800 Vp
60 Rated voltage: 42-660 VAC, 1200 Vp
DControl voltage: 5-32 VDC
AControl voltage: 20-275 VAC, 24-190 VDC AC control range for RGC..A..A..
limited to 20-275 VAC only
10 Rated current
Not available with monitoring option
20 Rated current
25 Rated current
30 Rated current
40 Rated current
Not available with monitoring option
65 Rated current
KScrew connection for control terminals
GBox clamp connection for control terminals For RGC..M, RGC..F
KScrew connection for power terminals For RGC..10, RGC..20, RGC..25
GBox clamp connection for power terminals For RGC..30, RGC..40, RGC..75
E-Contactor configuration
DExternal supply: 24 VDC
AExternal supply: 90-250 VAC
F
Integrated fan with over temperature protection (OTP) and EMR alarm output
For RGC..65
MMonitoring for mains loss, load loss, SSR short circuit, open circuit
and over-temperature with EMR alarm output and auxiliary output
RGC..M is suitable only for
resistive loads
Panel mount version
Code Option Description Comments
R-Solid State Relay (RG)
G-
C-With integrated heatsink
3-3-pole switching
A-Switching mode: zero cross
60 -Rated voltage: 42-660 VAC, 1200 Vp
DControl voltage: 5-32 VDC
AControl voltage: 20-275 VAC, 24-190 VDC AC control range for RGC..A..A..
limited to 20-275 VAC only
48 -Rated current
KScrew connection for control terminals
GBox clamp connection for control terminals Applicable to RGC..M
G-Box clamp connection for power terminals
E-Contactor configuration
DExternal supply: 24 VDC
AExternal supply: 90-250 VAC
MMonitoring for mains loss, load loss, SSR short circuit, open circuit
and over-temperature with EMR alarm output and auxiliary output
RGC..M is suitable only for
resistive loads
DIN rail mount version
5
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Selection guide - 3-pole switching with monitoring (RGC3..M) - DIN rail mount versions
KKE: input terminals = screw, output terminals = screw
KGE: input terminals = screw, output terminals = box clamp
GKE: input terminals = box clamp, output terminals = screw
GGE: input terminals = box clamp, output terminals = box clamp
Selection guide - 3-pole switching (RGC3) - DIN rail mount versions
Rated
voltage
Control
voltage
Features
External
supply,
Us
Rated operational current @ 40°C per pole
10 AAC
(1800 A2s)
20 AAC
(1800 A2s)
25 AAC
(1800 A2s)
30 AAC
(6600 A2s)
40 AAC
(6600 A2s)
65 AAC
(15000 A2s)
Product width
54 mm 54 mm 70 mm 70 mm 54 mm + fan 70 mm + fan
220 VAC
5 - 32 VDC
- -
RGC3A22D10KKE RGC3A22D20KKE
-
-
- -
20-275 VAC,
24-190 VDC
- -
RGC3A22A10KKE RGC3A22A20KKE
-
-
- -
600 VAC
5 - 32 VDC
-
OTP
OTP
-
24 VDC
90 - 250 VAC
RGC3A60D10KKE
-
-
RGC3A60D20KKE
-
-
RGC3A60D25KKE
-
-
RGC3A60D30KGE
-
-
-
RGC3A60D40GGEDF
-
-
RGC3A60D65GGEDF
RGC3A60D65GGEAF
20-275 VAC,
24-190 VDC
- -
RGC3A60A10KKE RGC3A60A20KKE RGC3A60A25KKE
RGC3A60A30KGE
- -
20-275 VAC
OTP
90 - 250 VAC
-
-
- -
RGC3A60A40GGEAF RGC3A60A65GGEAF
Carlo Gavazzi compatible components
Description Component code Notes
Fans RG3FAN40 Fan accessory for RGC3..40
RG3FAN60 Fan accessory for RGC2..75 and RGC3..65
Rated
voltage
Control
voltage
Features
External
supply,
Us
Rated operational current @ 40°C per pole
-20 AAC
(1800 A2s)
25 AAC
(1800 A2s)
30 AAC
(6600 A2s) -65 AAC
(15000 A2s)
Product width
- 54 mm 70 mm 70 mm - 70 mm + fan
600 VAC
5 - 32 VDC
Monitoring
24 VDC
90-250 VAC
-
RGC3A60D20GKEDM
RGC3A60D20GKEAM
RGC3A60D25GKEDM
RGC3A60D25GKEAM
RGC3A60D30GGEDM
RGC3A60D30GGEAM
-
RGC3A60D65GGEDFM
RGC3A60D65GGEAFM
20-275 VAC
Monitoring
90-250 VAC
-
RGC3A60A20GKEAM RGC3A60A25GKEAM
RGC3A60A30GGEAM
-
RGC3A60A65GGEAFM
Selection guide - 3-pole switching (RGC3) - Panel mount versions
Rated
voltage
Control
voltage
Features
External
supply,
Us
Rated operational current @ 40°C per pole
48 AAC
(15000 A²s)
Product width
157 mm
600 VAC
5 - 32 VDC
--RGC3A60D48KGE
Monitoring
24 VDC RGC3A60D48GGEDM
20-275 VAC
-
-
RGC3A60A48KGE
Monitoring
90-250 VAC
RGC3A60A48GGEAM
.- I- .-
6
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Structure
Element Component Function
1/L1, 3/L2, 5/L3 Power connections Mains connections
2/T1, 4/T2, 6/T3 Power connections Load connections
Aux. output Auxiliary output Changes state with change of state of SSR output
Alarm output Electro mechanical relay Alarm output; normally open, normally closed
A1, A2 Control connection Terminals for control voltage
Us Supply connection Terminals for supply voltage
Green LED CONTROL indicator Indicates presence of control voltage and supply voltage
Yellow LED LOAD indicator Indicates the load status
Red LED ALARM indicator Indicates presence of an alarm condition
Heatsink Integrated heatsink DIN rail and panel mount versions available
PE Protective Earth Connection for Protective Earth
RGC..M
A1, A2
Us
LEDLEDLED
Alarm output
Aux. output PE Heatsink
RGC
1/L1
LED
A1, A2
Heatsink3/L2 5/L3
6/T34/T22/T1
PE
Both RGC and RGC..M are available in DIN rail and panel mount versions. DIN rail mount solutions at higher current ratings include forced
ventilation. Check 'Dimensions' sections for further information.
7
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Features
Material PA66 (UL94 V0), RAL7035
850°C, 750°C/2s according to GWIT and GWFI requirements of EN 60335-1
Mounting DIN rail (RGC3..48: Panel mount)
Touch Protection IP20
Overvoltage Category III, 6 kV (1.2/50 μs) rated impulse withstand voltage
Isolation Input and Output to Case: 4000 Vrms
Input to Output: 4000 Vrms (RGC..M: 2500 Vrms)
Weight
RGC..10: approx. 470 g
RGC2..25, RGC3..20 (M): approx. 600 g (680 g)
RGC2..40, RGC3..25, RGC3..30 (M): approx. 850 g (920 g)
RGC3..40: approx. 740 g
RGC3..48 (M): approx. 2400 g (2400 g)
RGC2..75, RGC3..65: approx. 980 g
General data
Performance
RGC2..22..25 RGC2..60..10 RGC2..60..25 RGC2..60..40 RGC2..60..75
Operational voltage range, Ue 42 - 220 VAC 42 - 660 VAC
90 - 660 VAC (RGC..M)
Blocking voltage 800 Vp 1200 Vp
Max. operational current per
pole1: AC-51 @ Ta=25°C 32 AAC 10 AAC 32 AAC 50 AAC 85 AAC
Max. operational current per
pole1: AC-51 @ Ta=40°C 27 AAC 10 AAC 27 AAC 40 AAC 75 AAC
Max. operational current per
pole1: AC-53a @ Ta=40°C 11.5 AAC 5 AAC 11.5 AAC 16.5 AAC 28 AAC
Operational frequency range 45 to 65 Hz
Output protection Integrated varistor
Leakage current @ rated voltage 5 mAAC
Minimum operational current
RGC..F, RGC..M
250 mAAC
1.2 AAC
250 mAAC
-
250 mAAC
1.2 AAC
400 mAAC
1.2 AAC
500 mAAC
1.2 AAC
Repetitive overload current
(Motor rating) UL508: Ta=40°C,
tON=1 s, tOFF=9 s, 50 cycles
61 AAC 30 AAC 61 AAC 107 AAC 154 AAC
Non-repetitive surge current
(ITSM), t=10 ms
600 Ap 600 Ap 600 Ap 1150 Ap 1750 Ap
I²t for fusing (t=10 ms), minimum 1800 A²s 1800 A²s 1800 A²s 6600 A²s 15000 A²s
No. of motor starts per hour2
(x: 6, Tx:6s, F:50%) @ 40°C 30
Power factor
>0.5 at rated voltage
Critical dV/dt (@Tj init = 40°C) 1000 V/μs
RGC2.. Output
1. Refer to Current Derating Curves. Max. VDE AC-51 rating for RGC2..10 is 9AAC
2. Overload profile for AC-53a;
Ie: AC-53a: xIe-Tx: F-S, where Ie = nominal current (AC-53a AAC), xIe = overload current (AAC), Tx = duration of overload current (s), F
= duty cycle (%), S = number of starts. Example; 5A: AC-53a: 30 - 6 : 50 - 10 = max. 10 starts for the RGC2..10 with an overload profile
of 30 A for 6 seconds with a duty cycle of 50%.
mm mun
8
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
RGC3.. Output
RGC3..22..10 RGC3..22..20 RGC3..60..10 RGC3..60..20 RGC3..60..25
Operational voltage range, Ue 42 - 220 VAC 42 - 660 VAC
90 - 660 VAC (RGC..M)
Blocking voltage 800 Vp 1200 Vp
Max. operational current per
pole1: AC-51 @ Ta=25°C 10 AAC 25 AAC 10 AAC 25 AAC 32 AAC
Max. operational current per
pole1: AC-51 @ Ta=40°C 10 AAC 20 AAC 10 AAC 20 AAC 28 AAC
Max. operational current per
pole1: AC-53a @ Ta=40°C 5 AAC 10 AAC 5 AAC 10 AAC 11 AAC
Operational frequency range 45 to 65 Hz
Output protection Integrated varistor
Leakage current @ rated voltage 5 mAAC
Minimum operational current
RGC..F, RGC..M
250 mAAC
-
250 mAAC
1.2 AAC
250 mAAC
-
250 mAAC
1.2 AAC
250 mAAC
1.2 AAC
Repetitive overload current
(Motor rating) UL508: Ta=40°C,
tON=1 s, tOFF=9 s, 50 cycles
30 AAC 61 AAC 30 AAC 61 AAC 84 AAC
Non-repetitive surge current
(ITSM), t=10 ms
600 Ap 600 Ap 600 Ap 600 Ap 600 Ap
I²t for fusing (t=10 ms), minimum 1800 A²s 1800 A²s 1800 A²s 1800 A²s 1800 A²s
No. of motor starts per hour2
(x: 6, Tx:6s, F:50%) @ 40°C 30
Power factor
>0.5 at rated voltage
Critical dV/dt (@Tj init = 40°C) 1000 V/μs
RGC3..60..30 RGC3..60..40 RGC3..60..48 RGC3..60..65
Operational voltage range, Ue 42 - 660 VAC
90 - 660 VAC (RGC..M)
Blocking voltage 1200 Vp
Max. operational current per
pole1: AC-51 @ Ta=25°C 37 AAC 42 AAC 55 AAC 71 AAC
Max. operational current per
pole1: AC-51 @ Ta=40°C 30 AAC 42 AAC 48 AAC 66 AAC
Max. operational current per
pole1: AC-53a @ Ta=40°C 14 AAC 17 AAC 23 AAC 25 AAC
Operational frequency range 45 to 65 Hz
Output protection Integrated varistor
Leakage current @ rated voltage 5 mAAC
Minimum operational current
RGC..F, RGC..M
400 mAAC
1.2 AAC
400 mAAC
1.2 AAC
500 mAAC
1.2 AAC
500 mAAC
1.2 AAC
Repetitive overload current
(Motor rating) UL508: Ta=40°C,
tON=1 s, tOFF=9 s, 50 cycles
107 AAC 107 AAC 154 AAC 154 AAC
Non-repetitive surge current
(ITSM), t=10 ms 1150 Ap 1150 Ap 1750 Ap 1750 Ap
I²t for fusing (t=10 ms), minimum 6600 A²s 6600 A²s 15000 A2s15000 A²s
No. of motor starts per hour2
(x: 6, Tx:6s, F:50%) @ 40°C 30
Power factor
>0.5 at rated voltage
Critical dV/dt (@Tj init = 40°C) 1000 V/μs
1. Refer to Current Derating Curves. Max. VDE AC-51 rating for RGC2..10 is 9 AAC
2. Overload profile for AC-53a
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9
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
RG..D.. RG..A.. RG..D..D..
RG..D..A.. RG..A..A..
Control voltage
range, UC (A1, A2) 5 - 32 VDC 20-275 VAC,
24 (-10%) -190 VDC 5 - 32 VDC 20-275 VAC
Pick-up voltage 4.8 VDC 20 VAC/DC 4.8 VDC 20 VAC
Drop-out voltage 1.0 VDC 5 VAC/DC 1.0 VDC 5 VAC
Maximum reverse
voltage 32 VDC - 32 VDC -
Maximum response
time
0.5 cycle + 500 μs @
24 VDC
2 cycles @
230 VAC/110 VDC
1 cycle + 500 μs @
24 VDC
5 cycles @
230 VAC
Input current @
40°C See diagrams below
Inputs
Input current vs input voltage
RG..D RG..A
0.50mA
2.50mA
4.50mA
6.50mA
8.50mA
10.50mA
12.50mA
5V 6V 8V 10V 12V 14V 16V 18V 20V 22V 24V 26V 28V 30V 32V
InputcurrentvsInputvoltage
RG..D..D.., RG..D..A..
0.00mA
1.00mA
2.00mA
3.00mA
4.00mA
5.00mA
20V 60V 90V 110V 150V 200V 230V 275V
InputcurrentvsInputvoltage
RG..A..A..
RG..D..D..
RG..D..A..
115 VAC 230 VAC 400 VAC 480 VAC 600 VAC
RGC2..10 ½ HP / 0.37 kW 1 HP / 1.1 kW 2 HP / 1.5 kW 3 HP / 2.2 kW 3 HP / 3 kW
RGC2..25 1½ HP / 1.1 kW 3 HP / 3.0 kW 5 HP / 5.5 kW 7½ HP / 5.5 kW 10 HP / 9.0 kW
RGC2..40 3 HP / 1.5 kW 5 HP / 4.0 kW 10 HP / 7.5 kW 10 HP / 9.0 kW 15 HP / 11.0 kW
RGC2..75 5 HP / 3.0 kW 10 HP / 7.5 kW 15 HP / 11.0 kW 20 HP / 15.0 kW 25 HP / 22.0 kW
RGC3..10 ½ HP / 0.37 kW 1 HP / 1.1 kW 2 HP / 1.5 kW 3 HP / 2.2 kW 3 HP / 3 kW
RGC3..20 1 HP / 0.75 kW 3 HP / 2.2 kW 5 HP / 4.0 kW 7½ HP / 5.5 kW 10 HP / 7.5 kW
RGC3..25 2 HP / 1.1 kW 3 HP / 2.2 kW 7½ HP / 4.0 kW 10 HP / 5.5 kW 10 HP / 7.5 kW
RGC3..30 2 HP / 1.5 kW 5 HP / 3.0 kW 10 HP / 5.5 kW 10 HP / 7.5 kW 15 HP / 11.0 kW
RGC3..40 2 HP / 1.5 kW 5 HP / 4.0 kW 10 HP / 7.5 kW 10 HP / 9.0 kW 15 HP / 11.0 kW
RGC3..48 3 HP / 3.0 kW 10 HP / 5.5 kW 15 HP / 11.0 kW 20 HP / 15.0 kW 25 HP / 20.0 kW
RGC3..65 3 HP / 3.0 kW 10 HP / 5.5 kW 15 HP / 11.0 kW 20 HP / 15.0 kW 25 HP / 20.0 kW
Motor Ratings: HP (UL508) / kW (EN/IEC 60947-4-2) @ 40°C
H1
10
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
RG..D..D.. RG..D..A..
RG..A..A..
Supply voltage
range, Us 24 VDC, -15% / +20% 90-250 VAC
Reverse polarity
protection Yes n/a
Max. supply current
no fan, RG..M
with fan, RG..F, RG..FM
80 mA
150 mA
60 mA
80 mA
Surge protection3500 V PC1 with integrated transil L-L 1 kV, L-E 2 kV PC13, 4
Power supply specifications (Us)
3. Refer to Electromagnetic Compatability section for further details
4. When supplied from secondary circuit with short circuit limit of 1500 VA
RG..F
RG..M
Function Operates in case of an alarm condition on the RG..F or the RG..M
Output type
EMR, 1 Form C (SPDT)
Normally closed (12-11)
Normally open (14-11)
Contact rating 2A @ 250 VAC / 30 VDC
Isolation 1000 VAC
Alarm output specifications (12, 14, 11)
12
14
11
11
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
RG..D..D..
RG..D..A.. RG..A..A..
Output type PNP darlington, Normally closed (22-21)
NPN darlington, Normally open (24-21)
Triac, Normally closed (22-21)
Triac, Normally open (24-21)
Rated voltage 24 VDC +/-20% 90-250 VAC
On-state voltage
drop, typical 4 VDC < 2 VAC
Blocking voltage - 800 Vp
Maximum current rating
50 mADC 1 AAC @ 25°C5
Delay from SSR
output switching to
auxiliary output
5 cycles 5 cycles
Auxiliary output specifications (22, 24, 21)
5. Refer to Derating Curve for Auxliary Output rating @ higher operating
temperature
0
20
40
60
80
100
120
140
160
180
0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85
Power dissipation in W
Load current per pole in AACrms
RGC2..10, 25
RGC2..40
RGC2..75
Output power dissipation
0
20
40
60
80
100
120
140
160
180
200
0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75
Power dissipation in W
Load current per pole in AACrms
RGC3..10, 20, 25
RGC3..30, 40
RGC3..48, 65
RGC2
RGC3
RGC2..10, 25
RGC2..40
RGC2..75
RGC3..10, 20 25
RGC3..30, 40
RGC3..48, 65
mm swan
12
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Current derating
0
10
20
30
40
50
60
70
80
90
20 25 30 35 40 45 50 55 60 65 70 75 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC2..75..DF
RGC2..75..DFM
RGC2..75..AF, AFM (up to 60°C)
RGC2..40
RGC2..40..DM
RGC2..40..AM (up to 60°C)
RGC2..25
RGC2..25..DM
RGC2..25..AM (up to 60°C)
RGC2..10
(max. 9AAC for VDE)
0
10
20
30
40
50
60
70
80
20 25 30 35 40 45 50 55 60 65 70 75 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..65DF, DFM
RGC3..65AF, AFM
RGC3..48
RGC3..48..DM
RGC3..48..AM (up to 60°C)
RGC3..40..DF
RGC3..40..AF (up to 60°C)
RGC3..30
RGC3..30..DM
RGC3..30..AM (up to 60°C)
RGC3..25
RGC3..25..DM
RGC3..25..AM (up to 60°C)
RGC3..20
RGC3..20..DM
RGC3..20..AM (up to 60°C)
RGC3..10
RGC2
RGC3
13
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Derating vs. Spacing Curves
0
2
4
6
8
10
12
01020304050607080
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
Standalone
20mm and
over
10mm
0mm
RGC2..10
0
2
4
6
8
10
12
01020304050607080
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
Standalone
20mm and
over
10mm
0mm
RGC3..10
Temp Current TempCurrent
0°C 26.8A 0°C 32.0A
25°C 26.8A 25°C 32.0A
80°C 9.5A 80°C 12.5A
RGC2_25
0mm10mm
0
5
10
15
20
25
30
35
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC2..25
10mm
0mm
0
10
20
30
40
50
60
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC2..40
10mm
0mm
RGC2_75
0
10
20
30
40
50
60
70
80
90
20 30 40 50 60 70
Load Current per pole in AAC
Surrounding Ambient Te mperature in °C
RGC2..75
10mm
0mm
TempCurrent Temp CurrentTemp Current
0°C 14.3A 0°C 19.5A0°C 25.0A
25°C 14.3A25°C 19.5A2C25.0A
40°C 9.8A 40°C 15.5A4C20.0A
70°C 3.0A 70°C 8.0A 60°C 15.0A
80°C 0.0A 80°C 5.0A 80°C 10.0A
RGC3_20
0mm10mm 30mm
0
5
10
15
20
25
30
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..20
30mm
10mm
0mm
Temp CurrentTempCurrentTemp Current
C14.3A C19.5A C25.0A
25°C 14.3A25°C 19.5A 25°C25.0A
40°C 9.8A 40°C 15.5A 40°C 20.0A
70°C 3.0A 70°C 8.0A 60°C 15.0A
80°C 0.0A 80°C 5.0A 80°C 10.0A
RGC3_20
0mm10mm30mm
0
5
10
15
20
25
30
35
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..25
20mm
0mm
Temp Current Temp Current
0°C 33.5A 0°C 37.0A
25°C 33.5A25°C 37.0A
40°C 27.0A4C30.0A
80°C 12.5A8C17.5A
RGC3_30
0mm 20mm
0
5
10
15
20
25
30
35
40
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..30
20mm
0mm
Temp Current Temp Current
0°C 33.5A 0°C 37.0A
25°C 33.5A2C37.0A
40°C 27.0A4C30.0A
80°C 12.5A8C17.5A
0mm 20mm
RGC3_30
0
5
10
15
20
25
30
35
40
45
20 30 40 50 60 70
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..40
10mm
0mm
Temp CurrentTemp Current
C33.5A C37.0A
25°C 33.5A2C37.0A
40°C 27.0A4C30.0A
80°C 12.5A8C17.5A
RGC3_30
0mm 20mm
0
10
20
30
40
50
60
70
80
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Te mp.erature in °C
RGC3..65DF, DFM
10mm
0mm
Temp CurrentTemp Current
C33.5A C37.0A
25°C 33.5A2C37.0A
40°C 27.0A 40°C 30.0A
80°C 12.5A 80°C 17.5A
RGC3_30
0mm 20mm
0
10
20
30
40
50
60
70
80
20 30 40 50 60 70
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..65AF, AFM
10mm
0mm
Temp Current TempCurrent
0°C 26.8A 0°C 32.0A
25°C 26.8A 25°C 32.0A
80°C 9.5A 80°C 12.5A
RGC2_25
0mm10mm
0
5
10
15
20
25
30
35
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC2..25
10mm
0mm
0
10
20
30
40
50
60
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC2..40
10mm
0mm
RGC2_75
0
10
20
30
40
50
60
70
80
90
20 30 40 50 60 70
Load Current per pole in AAC
Surrounding Ambient Te mperature in °C
RGC2..75
10mm
0mm
TempCurrent Temp CurrentTemp Current
0°C 14.3A 0°C 19.5A0°C 25.0A
25°C 14.3A25°C 19.5A2C25.0A
40°C 9.8A 40°C 15.5A4C20.0A
70°C 3.0A 70°C 8.0A 60°C 15.0A
80°C 0.0A 80°C 5.0A 80°C 10.0A
RGC3_20
0mm10mm 30mm
0
5
10
15
20
25
30
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..20
30mm
10mm
0mm
Temp CurrentTempCurrentTemp Current
C14.3A C19.5A C25.0A
25°C 14.3A25°C 19.5A 25°C25.0A
40°C 9.8A 40°C 15.5A 40°C 20.0A
70°C 3.0A 70°C 8.0A 60°C 15.0A
80°C 0.0A 80°C 5.0A 80°C 10.0A
RGC3_20
0mm10mm30mm
0
5
10
15
20
25
30
35
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..25
20mm
0mm
Temp Current Temp Current
0°C 33.5A 0°C 37.0A
25°C 33.5A25°C 37.0A
40°C 27.0A4C30.0A
80°C 12.5A8C17.5A
RGC3_30
0mm 20mm
0
5
10
15
20
25
30
35
40
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..30
20mm
0mm
Temp Current Temp Current
0°C 33.5A 0°C 37.0A
25°C 33.5A2C37.0A
40°C 27.0A4C30.0A
80°C 12.5A8C17.5A
0mm 20mm
RGC3_30
0
5
10
15
20
25
30
35
40
45
20 30 40 50 60 70
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..40
10mm
0mm
Temp CurrentTemp Current
C33.5A C37.0A
25°C 33.5A2C37.0A
40°C 27.0A4C30.0A
80°C 12.5A8C17.5A
RGC3_30
0mm 20mm
0
10
20
30
40
50
60
70
80
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Te mp.erature in °C
RGC3..65DF, DFM
10mm
0mm
Temp CurrentTemp Current
C33.5A C37.0A
25°C 33.5A2C37.0A
40°C 27.0A 40°C 30.0A
80°C 12.5A 80°C 17.5A
RGC3_30
0mm 20mm
0
10
20
30
40
50
60
70
80
20 30 40 50 60 70
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..65AF, AFM
10mm
0mm
Temp Current TempCurrent
0°C 26.8A 0°C 32.0A
25°C 26.8A 25°C 32.0A
80°C 9.5A 80°C 12.5A
RGC2_25
0mm10mm
0
5
10
15
20
25
30
35
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC2..25
10mm
0mm
0
10
20
30
40
50
60
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC2..40
10mm
0mm
RGC2_75
0
10
20
30
40
50
60
70
80
90
20 30 40 50 60 70
Load Current per pole in AAC
Surrounding Ambient Te mperature in °C
RGC2..75
10mm
0mm
TempCurrent Temp CurrentTemp Current
0°C 14.3A 0°C 19.5A0°C 25.0A
25°C 14.3A25°C 19.5A2C25.0A
40°C 9.8A 40°C 15.5A4C20.0A
70°C 3.0A 70°C 8.0A 60°C 15.0A
80°C 0.0A 80°C 5.0A 80°C 10.0A
RGC3_20
0mm10mm 30mm
0
5
10
15
20
25
30
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..20
30mm
10mm
0mm
Temp CurrentTempCurrentTemp Current
C14.3A C19.5A C25.0A
25°C 14.3A25°C 19.5A 25°C25.0A
40°C 9.8A 40°C 15.5A 40°C 20.0A
70°C 3.0A 70°C 8.0A 60°C 15.0A
80°C 0.0A 80°C 5.0A 80°C 10.0A
RGC3_20
0mm10mm30mm
0
5
10
15
20
25
30
35
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..25
20mm
0mm
Temp Current Temp Current
0°C 33.5A 0°C 37.0A
25°C 33.5A25°C 37.0A
40°C 27.0A4C30.0A
80°C 12.5A8C17.5A
RGC3_30
0mm 20mm
0
5
10
15
20
25
30
35
40
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..30
20mm
0mm
Temp Current Temp Current
0°C 33.5A 0°C 37.0A
25°C 33.5A2C37.0A
40°C 27.0A4C30.0A
80°C 12.5A8C17.5A
0mm 20mm
RGC3_30
0
5
10
15
20
25
30
35
40
45
20 30 40 50 60 70
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..40
10mm
0mm
Temp CurrentTemp Current
C33.5A C37.0A
25°C 33.5A2C37.0A
40°C 27.0A4C30.0A
80°C 12.5A8C17.5A
RGC3_30
0mm 20mm
0
10
20
30
40
50
60
70
80
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Te mp.erature in °C
RGC3..65DF, DFM
10mm
0mm
Temp CurrentTemp Current
C33.5A C37.0A
25°C 33.5A2C37.0A
40°C 27.0A 40°C 30.0A
80°C 12.5A 80°C 17.5A
RGC3_30
0mm 20mm
0
10
20
30
40
50
60
70
80
20 30 40 50 60 70
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..65AF, AFM
10mm
0mm
Note: RGC2A..AM up to 60oC
Note: RGC2A..AM up to 60oC
Note: RGC2A..AM up to 60oC
Note: RGC2A..AF, AFM up to 60oC
RGC2..10
RGC2..25
RGC2..40
RGC2..75
sumundmg Amhlem tempemum m -c load Current per pale m MC Surrounding Am Mammal _;nm mm __ Dmm
14
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Derating vs. Spacing Curves
0
2
4
6
8
10
12
01020304050607080
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
Standalone
20mm and
over
10mm
0mm
RGC2..10
0
2
4
6
8
10
12
01020304050607080
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
Standalone
20mm and
over
10mm
0mm
RGC3..10
Temp Current TempCurrent
0°C 26.8A 0°C 32.0A
25°C 26.8A 25°C 32.0A
80°C 9.5A 80°C 12.5A
RGC2_25
0mm10mm
0
5
10
15
20
25
30
35
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Te mperature in °C
RGC2..25
10mm
0mm
0
10
20
30
40
50
60
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC2..40
10mm
0mm
RGC2_75
0
10
20
30
40
50
60
70
80
90
20 30 40 50 60 70
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC2..75
10mm
0mm
TempCurrent Temp CurrentTemp Current
0°C 14.3A 0°C 19.5A0°C 25.0A
25°C 14.3A25°C 19.5A2C25.0A
40°C 9.8A 40°C 15.5A4C20.0A
70°C 3.0A 70°C 8.0A 60°C 15.0A
80°C 0.0A 80°C 5.0A 80°C 10.0A
RGC3_20
0mm10mm 30mm
0
5
10
15
20
25
30
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..20
30mm
10mm
0mm
Temp CurrentTempCurrentTemp Current
C14.3A C19.5A C25.0A
25°C 14.3A25°C 19.5A 25°C25.0A
40°C 9.8A 40°C 15.5A 40°C 20.0A
70°C 3.0A 70°C 8.0A 60°C 15.0A
80°C 0.0A 80°C 5.0A 80°C 10.0A
RGC3_20
0mm10mm30mm
0
5
10
15
20
25
30
35
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..25
20mm
0mm
Temp Current Temp Current
0°C 33.5A 0°C 37.0A
25°C 33.5A25°C 37.0A
40°C 27.0A4C30.0A
80°C 12.5A8C17.5A
RGC3_30
0mm 20mm
0
5
10
15
20
25
30
35
40
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..30
20mm
0mm
Temp Current Temp Current
0°C 33.5A 0°C 37.0A
25°C 33.5A2C37.0A
40°C 27.0A4C30.0A
80°C 12.5A8C17.5A
0mm 20mm
RGC3_30
0
5
10
15
20
25
30
35
40
45
20 30 40 50 60 70
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..40
10mm
0mm
Temp CurrentTemp Current
C33.5A C37.0A
25°C 33.5A2C37.0A
40°C 27.0A4C30.0A
80°C 12.5A8C17.5A
RGC3_30
0mm 20mm
0
10
20
30
40
50
60
70
80
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Te mp.erature in °C
RGC3..65DF, DFM
10mm
0mm
Temp CurrentTemp Current
C33.5A C37.0A
25°C 33.5A2C37.0A
40°C 27.0A 40°C 30.0A
80°C 12.5A 80°C 17.5A
RGC3_30
0mm 20mm
0
10
20
30
40
50
60
70
80
20 30 40 50 60 70
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..65AF, AFM
10mm
0mm
Temp Current TempCurrent
0°C 26.8A 0°C 32.0A
25°C 26.8A 25°C 32.0A
80°C 9.5A 80°C 12.5A
RGC2_25
0mm10mm
0
5
10
15
20
25
30
35
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC2..25
10mm
0mm
0
10
20
30
40
50
60
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC2..40
10mm
0mm
RGC2_75
0
10
20
30
40
50
60
70
80
90
20 30 40 50 60 70
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC2..75
10mm
0mm
TempCurrent Temp CurrentTemp Current
0°C 14.3A 0°C 19.5A0°C 25.0A
25°C 14.3A25°C 19.5A2C25.0A
40°C 9.8A 40°C 15.5A4C20.0A
70°C 3.0A 70°C 8.0A 60°C 15.0A
80°C 0.0A 80°C 5.0A 80°C 10.0A
RGC3_20
0mm10mm 30mm
0
5
10
15
20
25
30
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..20
30mm
10mm
0mm
Temp CurrentTempCurrentTemp Current
C14.3A C19.5A C25.0A
25°C 14.3A25°C 19.5A 25°C25.0A
40°C 9.8A 40°C 15.5A 40°C 20.0A
70°C 3.0A 70°C 8.0A 60°C 15.0A
80°C 0.0A 80°C 5.0A 80°C 10.0A
RGC3_20
0mm10mm30mm
0
5
10
15
20
25
30
35
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..25
20mm
0mm
Temp Current Temp Current
0°C 33.5A 0°C 37.0A
25°C 33.5A25°C 37.0A
40°C 27.0A4C30.0A
80°C 12.5A8C17.5A
RGC3_30
0mm 20mm
0
5
10
15
20
25
30
35
40
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..30
20mm
0mm
Temp Current Temp Current
0°C 33.5A 0°C 37.0A
25°C 33.5A2C37.0A
40°C 27.0A4C30.0A
80°C 12.5A8C17.5A
0mm 20mm
RGC3_30
0
5
10
15
20
25
30
35
40
45
20 30 40 50 60 70
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..40
10mm
0mm
Temp CurrentTemp Current
C33.5A C37.0A
25°C 33.5A2C37.0A
40°C 27.0A4C30.0A
80°C 12.5A8C17.5A
RGC3_30
0mm 20mm
0
10
20
30
40
50
60
70
80
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Te mp.erature in °C
RGC3..65DF, DFM
10mm
0mm
Temp CurrentTemp Current
C33.5A C37.0A
25°C 33.5A2C37.0A
40°C 27.0A 40°C 30.0A
80°C 12.5A 80°C 17.5A
RGC3_30
0mm 20mm
0
10
20
30
40
50
60
70
80
20 30 40 50 60 70
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..65AF, AFM
10mm
0mm
Temp Current TempCurrent
0°C 26.8A 0°C 32.0A
25°C 26.8A 25°C 32.0A
80°C 9.5A 80°C 12.5A
RGC2_25
0mm10mm
0
5
10
15
20
25
30
35
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC2..25
10mm
0mm
0
10
20
30
40
50
60
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC2..40
10mm
0mm
RGC2_75
0
10
20
30
40
50
60
70
80
90
20 30 40 50 60 70
Load Current per pole in AAC
Surrounding Ambient Te mperature in °C
RGC2..75
10mm
0mm
TempCurrent Temp CurrentTemp Current
0°C 14.3A 0°C 19.5A0°C 25.0A
25°C 14.3A25°C 19.5A2C25.0A
40°C 9.8A 40°C 15.5A4C20.0A
70°C 3.0A 70°C 8.0A 60°C 15.0A
80°C 0.0A 80°C 5.0A 80°C 10.0A
RGC3_20
0mm10mm 30mm
0
5
10
15
20
25
30
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..20
30mm
10mm
0mm
Temp CurrentTempCurrentTemp Current
C14.3A C19.5A C25.0A
25°C 14.3A25°C 19.5A 25°C25.0A
40°C 9.8A 40°C 15.5A 40°C 20.0A
70°C 3.0A 70°C 8.0A 60°C 15.0A
80°C 0.0A 80°C 5.0A 80°C 10.0A
RGC3_20
0mm10mm30mm
0
5
10
15
20
25
30
35
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..25
20mm
0mm
Temp Current Temp Current
0°C 33.5A 0°C 37.0A
25°C 33.5A25°C 37.0A
40°C 27.0A4C30.0A
80°C 12.5A8C17.5A
RGC3_30
0mm 20mm
0
5
10
15
20
25
30
35
40
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..30
20mm
0mm
Temp Current Temp Current
0°C 33.5A 0°C 37.0A
25°C 33.5A2C37.0A
40°C 27.0A4C30.0A
80°C 12.5A8C17.5A
0mm 20mm
RGC3_30
0
5
10
15
20
25
30
35
40
45
20 30 40 50 60 70
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..40
10mm
0mm
Temp CurrentTemp Current
C33.5A C37.0A
25°C 33.5A2C37.0A
40°C 27.0A4C30.0A
80°C 12.5A8C17.5A
RGC3_30
0mm 20mm
0
10
20
30
40
50
60
70
80
20 30 40 50 60 70 80
Load Current per pole in AAC
Surrounding Ambient Te mp.erature in °C
RGC3..65DF, DFM
10mm
0mm
Temp CurrentTemp Current
C33.5A C37.0A
25°C 33.5A2C37.0A
40°C 27.0A 40°C 30.0A
80°C 12.5A 80°C 17.5A
RGC3_30
0mm 20mm
0
10
20
30
40
50
60
70
80
20 30 40 50 60 70
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..65AF, AFM
10mm
0mm
Note: RGC3A..AM up to 60oC
Note: RGC3A..AM up to 60oC
Note: RGC3A..AM up to 60oC
RGC3..10
RGC3..20
RGC3..25
RGC3..30
mm swan 20 30 40 so so
15
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Derating vs. Spacing Curves
Temp CurrentTemp Current
C33.5A 0°C 37.0A
25°C 33.5A 25°C 37.0A
40°C 27.0A4C30.0A
80°C 12.5A8C17.5A
0mm 20mm
RGC3_30
0
5
10
15
20
25
30
35
40
45
20 30 40 50 60 70
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..40
10mm
0mm
Temp CurrentTemp Current
C33.5A C37.0A
25°C 33.5A 25°C 37.0A
40°C 27.0A 40°C 30.0A
80°C 12.5A 80°C 17.5A
RGC3_30
0mm 20mm
0
10
20
30
40
50
60
70
80
Load Current per pole in AAC
Surrounding Ambient Te mperature in °C
RGC3..65DF, DFM
10mm
0mm
Te
mp Current Temp Current
0
°C 33.5A0°C 37.0A
25
°C 33.5A2C37.0A
40
°C 27.0A 40°C 30.0A
80
°C 12.5A 80°C 17.5A
RGC3_30
0mm 20mm
0
10
20
30
40
50
60
70
80
Load Current per pole in AAC
Surrounding Ambient Temperature in °C
RGC3..65AF, AFM
10mm
0mm
Note: RGC3..AF up to 60
o
C
Note: RGC3..AF up to 60oC
RGC3..40
RGC3..65DF, DFM
RGC3..65AF, AFM
C €®WA [HI .5
16
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Electromagnetic compatibility (EMC) - Immunity
Electrostatic discharge (ESD) EN/IEC 61000-4-2
8 kV air discharge, 4 kV contact (PC2)
Radiated radio frequency
EN/IEC 61000-4-3
10 V/m, from 80 MHz to 1 GHz (PC1)
10 V/m, from 1.4 to 2 GHz (PC1)
10 V/m, from 2 to 2.7 GHz (PC1)
Electrical fast transient (burst)
RGC..M
EN/IEC 61000-4-4
Output: 2 kV, 5 kHz (PC1)
Input: 1 kV, 5 kHz (PC1)
Signal: 1 kV, 5 kHz (PC1)
Conducted radio frequency EN/IEC 61000-4-6
10 V/m, from 0.15 to 80 MHz (PC1)
Electrical surge
RGC..D..D
RGC..D..A, RGC..A..A
RGC..D..D
RGC..D..A, RGC..A..A
EN/IEC 61000-4-5
Output, line to line: 1 kV (PC2)
Output, line to earth: 2 kV (PC2)
Input, line to line: 500 V (PC2)
Input, line to earth: 500 V (PC2)
Signal, line to line, 500 V (Us, 21, 22, 24) (PC1)
Signal, line to line, 1 kV (Us, 21, 22, 24) (PC1)
Signal, line to earth, 500 V (Us, 21, 22, 24) (PC1)
Signal, line to earth, 1 kV (Us, 21, 22, 24) (PC1)
11, 12, 14, line to line, 1 kV (PC1)
11, 12, 14, line to earth, 2 kV (PC1)
Voltage dips
EN/IEC 61000-4-11
0% for 0.5, 1 cycle (PC2)
40% for 10 cycles (PC2)
70% for 25 cycles (PC2)
80% for 250 cycles (PC2)
Voltage interruptions EN/IEC 61000-4-11
0% for 5000 ms (PC2)
Electromagnetic compatibility (EMC) - Emissions
Radio interference field
emission (radiated)
EN/IEC 55011
Class A: from 30 to 1000 MHz
Radio interference voltage
emissions (conducted)
EN/IEC 55011
Class A: from 0.15 to 30 MHz
(External filter may be required - refer to Filtering section)
Compatibility and conformance
6, 7 6
Approvals
Standards compliance
LVD: EN/IEC 60947-4-2, EN/IEC 60947-4-3
EMCD: EN 60947-4-3
UL: UL508, E172877
cUL: C22.2 No. 14-13, E172877
CCC, GB/T 14048.5-2017 (IEC 60947-5-1)
VDE 0660-117 (DIN EN 60947-4-2), VDE 0700-1 (DIN EN 60335-1)7
UL short circuit current rating 100k Arms (refer to short circuit current section, Type 1 – UL508)
s
7. Applicable only to RGC...10
6. Not applicable for RGC...48
L1 L2 L3 mm mum LOAD 1IL1 2N1 RGCZA or RGCSA O 3le 4m 9 I 5IL3 5m Rd = Rd Rd 0 O C I l I
17
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Filter connection diagram
Filtering
Part number Suggested filter for EN 55011 Class
A compliance
Maximum heater current [AAC]
RGC2A60..10 220 nF / 760 V / X1 10 AAC
RGC2A22..25 220 nF / 275 V / X1 25 AAC
RGC2A60..25 220 nF / 760 V / X1 25 AAC
RGC2A60..40 330 nF / 760 V / X1 40 AAC
RGC2A60..75 470 nF / 760 V / X1 65 AAC
RGC3A22..10 220 nF / 275 V / X1 10 AAC
RGC3A60..10 220 nF / 760 V / X1 10 AAC
RGC3A22..20 220 nF / 275 V / X1 25 AAC
RGC3A60..20 220 nF / 760 V / X1 25 AAC
RGC3A60..25 330 nF / 760 V / X1 25 AAC
RGC3A60..30 470 nF / 760 V / X1 30 AAC
RGC3A60..40 470 nF / 760 V / X1 40 AAC
RGC3A60..48 470 nF / 760 V / X1 48 AAC
RGC3A60..65 470 nF / 760 V / X1 65 AAC
Note:
Control input lines must be installed together to maintain products’ susceptability to Radio Frequency interference.
Use of AC solid state relays may, according to the application and the load current, cause conducted radio interferences. Use
of mains filters may be necessary for cases where the user must meet E.M.C requirements. The capacitor values given inside
the filtering specification tables should be taken only as indications, the filter attenuation will depend on the final application.
• This product has been designed for Class A equipment. Use of this product in domestic environments may cause radio
interference, in which case the user may be required to employ additional mitigation methods.
• Surge tests on RGC..A, RGC..A..A.. models were carried out with the signal line impedence network. In case the line impedance
is less than 40Ω, it is suggested that AC supply is provided through a secondary circuit where the short circuit limit between
conductors or between conductors and ground is 1500 VA or less.
* For conformance to EN/IEC 61000-6-4, an external capacitor class X1, 220 nF, 275 VAC is to be connected across the input
control lines A1-A2 for AC control versions.
** With external varistor 275 V (S05K275) Type 2 connected between terminals 22 - 21 or terminals 24 - 21.
• Performance Criteria 1 (PC1): No degradation of performance or loss of function is allowed when the product is operated as
intended.
• Performance Criteria 2 (PC2): During the test, degradation of performance or partial loss of function is allowed. However when
the test is complete the product should return operating as intended by itself.
• Performance Criteria 3 (PC3): Temporary loss of function is allowed, provided the function can be restored by manual operation
of the controls.
18
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Environmental specifications
Operating temperature
RGC...DF, DFM
RGC...AM, AF, AFM
-40°C to +80°C (-40°F to +176°F)
-40°C to +70°C (-40°F to +158°F)
-40°C to +60°C (-40°F to +140°F)
Storage temperature -40 to +100 °C (-40 to +212 °F)
Relative humidity 95% non-condensing @ 40°C
Pollution degree 2
Installation altitude
0-1000 m. Above 1000 m derate linearly by 1% of FLC per 100 m up to a maximum
of 2000 m
Vibration resistance 2g / axis (2-100Hz, IEC60068-2-6, EN50155, EN61373)
Impact resistance 15/11 g/ms (EN50155, EN61373)
EU RoHS compliant Yes
China RoHS
25
The declaration in this section is prepared in compliance with People’s Republic of China Electronic Industry Standard SJ/
T11364-2014: Marking for the Restricted Use of Hazardous Substances in Electronic and Electrical Products.
这份申明根据中华人民共和国电子工业标准
SJ/T11364-2014:标注在电子电气产品中限定使用的有害物质
Part Name
Toxic or Harardous Substances and Elements
Lead
(Pb)
Mercury
(Hg)
Cadmium
(Cd)
Hexavalent
Chromium
(Cr(Vl))
Polybrominat-
ed biphenyls
(PBB)
Polybromi-
nated diphenyl
ethers (PBDE)
Power Unit
Assembly x OOOOO
O: Indicates that said hazardous substance contained in homogeneous materials fot this part are below the limit
requirement of GB/T 26572.
X: Indicates that said hazardous substance contained in one of the homogeneous materials used for this part is above
the limit requirement of GB/T 26572.
零件名称
有毒或有害物质与元素
(Pb)
(Hg)
(Cd)
六价铬
(Cr(Vl))
多溴化联苯
(PBB)
多溴联苯醚
(PBDE)
功率单元 x OOOOO
O:此零件所有材料中含有的该有害物低于GB/T 26572的限定。
X: 此零件某种材料中含有的该有害物高于GB/T 26572的限定。
19
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Short circuit protection
Protection Co-ordination, Type 1 vs Type 2:
Type 1 protection implies that after a short circuit, the device under test will no longer be in a functioning state. In Type 2
co-ordination the device under test will still be functional after the short circuit. In both cases, however the short circuit has
to be interrupted. The fuse between enclosure and supply shall not open. The door or cover of the enclosure shall not be
blown open. There shall be no damage to conductors or terminals and the conductors shall not separate from terminals.
there shall be no breakage or cracking of insulating bases to the extent that the integrity of the mounting of live parts is
impaired. Discharge of parts or any risk of fire shall not occur.
The product variants listed in the table hereunder are suitable for use on a circuit capable of delivering not more than
100,000 Arms Symmetrical Amperes, 600 Volts maximum when protected by fuses. Tests at 100,000 A were performed
with Class J fuses, fast acting; please refer to the table below for maximum allowed ampere rating of the fuse. Use fuses
only.
Tests with Class J fuses are representative of Class CC fuses.
Protection co-ordination Type 1 according to UL 508
Part No.
Prospective short
circuit current
[kArms]
Max fuse size [A] Class Voltage [VAC]
RGC2..10, RGC2..25,
RGC3..10, RGC3..20,
RGC3..25
100
30 J or CC
Max. 600RGC2..40,
RGC3..30, RGC3..40 40 J
RGC2..75,
RGC3..48, RGC3..65 609J
8. Consult a Carlo Gavazzi sales representative for use of 70 A class J fuses
Protection co-ordination Type 2 for motor load applications
Part No. Prospective short
circuit current
[kArms]
Ferraz Shawmut (Mersen) Siba Voltage [VAC]
Max fuse
size [A]
Part number Max fuse
size [A]
Part number
RGC2..10
100
40 A70QS40-4 32 50 142 06 32
600
RGC2..25 40 A70QS40-4 32 50 142 06 32
RGC2..40 60 A70QS60-4 63 50 194 20 63
RGC2..75 100 A70QS100-4 125 50 196 20 125
RGC3..10 40 A70QS40-4 32 50 142 06 32
RGC3..20 40 A70QS40-4 32 50 142 06 32
RGC3..25 40 A70QS40-4 32 50 142 06 32
RGC3..30 40 A70QS40-4 40 50 194 20 40
RGC3..40 50 A70QS50-4 50 50 194 20 50
RGC3..48 70 A70QS70-4 63 50 194 20 63
RGC3..65 100 A70QS100-4 125 50 196 20 125
mm mun
20
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Protection co-ordination Type 2 for heater load applications
Part No. Prospective short
circuit current
[kArms]
Ferraz Shawmut (Mersen) Siba Voltage [VAC]
Max fuse
size [A]
Part number Max fuse
size [A]
Part number
RGC2..10
RGC2..25
10 40 660 URC 14x51/40
32 50 142 06 32 600
40 6.9xx gRC URD 22x58/40
100 40 660 URD 22x58/40
40 A70QS40-4
RGC2..40
10 63 6.9xx gRC URC 14x51/63
63 50 194 20 63 600
100 63 6.9xx gRC URD 22x58/63
60 A70QS60-4
RGC2..75
10 100 6.9xx gRC URD 22x58/100
125 50 196 20 125 600
100 100 660 URQ 27x60/100
100 A70QS100-4
RGC3..10
RGC3..20
10 32 6.9xx gRC URC 14x51/32
32 50 142 06 32 600
100 32 6.9xx gRC URC 14x51/32
40 A70QS40-4
RGC3..25
10 40 660 URC 14x51/40
32 50 142 06 32 600
40 6.9xx gRC URD 22x58/40
100 40 660 URD 22x58/40
40 A70QS40-4
RGC3..30
10 40 6.9xx gRC URC 14x51/40
40 50 194 20 40 600
100 40 6.9xx gRC URC 14x51/40
40 A70QS40-4
RGC3..40
10 63 6.9xx gRC URC 14x51/63
50 50 194 20 50 600
100 63 6.9xx gRC URC 22x58/63
50 A70QS50-4
RGC3..48
10 63 6.9xx gRC URC 14x51/63
63 50 194 20 63 600
100 63 6.9xx CP GRC 22x58/63
70 A70QS70-4
RGC3..65
10 100 6.9xx gRC URC 22x58/100
125 50 196 20 125 600
100 90 660 URD 22x58/90
100 A70QS100-4
mm mun
21
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Protection co-ordination Type 2 with Minature Circuit Breakers (M.C.B.s)
Solid State Relay type ABB Model no. for Z - type
M. C. B. (rated current)
ABB Model no. for B - type
M. C. B. (rated current)
Wire cross sectional area
[mm2]
Minimum length of Cu
wire conductor [m]9
RGC2..10
RGC2..25
RGC3..10
RGC3..20
RGC3..25
(1800 A2s)
S203 - Z10 (10 A) S203 - B4 (4 A) 1.0
1.5
2.5
7.6
11.4
19.0
S203 - Z16 (16 A) S203 - B6 (6 A) 1.0
1.5
2.5
4.0
5.2
7.8
13.0
20.8
S203 - Z20 (20 A) S203 - B10 (10A) 1.5
2.5
12.6
21.0
S203 - Z25 (25 A) S203 - B13 (13 A) 2.5
4.0
25.0
40.0
RGC2..40
RGC3..30
RGC3..40
(6600 A2s)
S203 - Z20 (20 A) S203 - B10 (10 A) 1.5
2.5
4.0
4.2
7.0
11.2
S203 - Z32 (32 A) S203 - B16 (16 A) 2.5
4.0
6.0
13
20.8
31.2
RGC2..75
RGC3..48
RGC3..65
(15000 A2s)
S203 - Z25 (25 A) S203 - B16 (16 A) 2.5
4.0
6.0
3.1
5.0
7.5
S203 - Z50 (50 A) S203 - B25 (25 A) 4.0
6.0
10.0
16.0
8.0
12.0
20.0
32.0
S203 - Z63 (63 A) S203 - B32 (32 A) 6.0
10.0
16.0
11.3
18.8
30.0
9. Between MCB and Load (including return path which goes back to the mains)
Note: A prospective current of 6 kA and a 230 / 400 V power supply is assumed for the above suggested specifications. For cables with
different cross section than those mentioned above please consult Carlo Gavazzi's Technical Support Group.
\scmn [empevalme > 1m: 7 FAN ON \s emu lempemlurg < we="" 7="" ssr="" oulpm="" red="" led="" nam="" swgna‘="" mm="" swan="">
22
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Fan operation for versions with integrated fan
ALARM Signal onlyALARM Signal and FAN
START
FAN: ON
Is Chip
temperature >
115°C ?
N
Y
Chip
temperature <
85°C ?
N
Y
START
N
Y
N
Y
SSRoutput: OFF
Red LED: ON
AlarmSignal: ON
Y
N
Chip
temperature <
80°C?
FAN: OFF
Chip
temperature
limit reached?
SSR output: ON
Red LED: OFF
Alarm Signal: OFF
Chip
temperature
limitreached?
SSRoutput: OFF
Red LED: ON
AlarmSignal: ON
START
FAN: ON
Is Chip
temperature >
115°C ?
N
Y
Is Chip
temperature <
85°C ?
N
Y
START
N
Y
N
Y
SSRoutput: OFF
Red LED: ON
AlarmSignal: ON
Y
N
Y
Chip
temperature <
80°C?
N
SSR output: ON
Red LED: OFF
Alarm Signal: OFF
FAN: OFF
FAN: OFF
Chip
temperature
limit reached?
SSR output: ON
Red LED: OFF
Alarm Signal: OFF
Is Chip
temperature <
80°C?
Chip
temperature
limitreached?
SSRoutput: OFF
Red LED: ON
AlarmSignal: ON
mm mun Load Supply 111, 12 T3) Load Current Auxillary Output, NC 121722) Suppl Voltage (Us) Control Voltage (Al, A2) _ Green LED (Control & Supply) Yellow LED (load status) Red LED (Alarm lED) Alarm Output No (11714)
23
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
RGC..M Mode of Operation
The RGC..M versions are suitable only for use with resistive loads.
The ‘M’ suffix versions integrate monitoring circuitry that can detect the status of the Mains, Load, and Solid State Relay
(SSR) status. The fault conditions that can be detected with the RGC..M include:
- Mains loss
- Load loss
- SSR open circuit
- SSR short circuit
- SSR over temperature
An external supply, 24 VDC or 90-250 VAC, selectable through part no. configuration, is required for the operation of the
RGC..M models. In the case of a fault condition, an EMR alarm output is available through terminals 11, 12, 14 for remote
indication. Alarm visual indication is provided by a flashing red LED. The flash rate of the red LED gives an indication of the
type of alarm condition detected.
The RGC..M is also equipped with an auxiliary output which operates in synchronisation with the output of the SSR. This
electronic auxiliary output with normally open or normally closed user selectable contacts is available through terminals 21,
22, 24. A yellow LED gives indication of the SSR output status.
Mains Loss:
The mains loss alarm is issued if the mains voltage is missing from either terminals L1, L2 or L3 for more than 1 second.
This alarm type is indicated by 2 flashes of the red LED. The alarm resets automatically once the mains voltage is restored
and is present on terminals L1, L2 and/or L3 for more than 1 second.
Mains Su
l
L1, L2, L3
Load Su
pp
l
y
(
T1, T2, T3
)
Load Current
Auxiliar
y
Out
p
ut, NO
(
21-24
)
Auxiliar
y
Out
p
ut, NC
(
21-22
)
Su
pp
l
y
Volta
g
e
(
Us
)
Control Volta
g
e
(
A1, A2
)
Green LED (Control & Supply)
Yellow LED (Load status)
Red LED (Alarm LED)
Alarm Out
p
ut, NO
(
11-14
)
Alarm Out
p
ut, NC
(
11-12
)
Supply
Voltage (Us)
Loss
Supply
Voltage (Us)
Loss
Normal
Operaon
SSR ON
Normal
Operaon
SSR OFF
Normal
Operaon
SSR ON
Mains Loss Detecon
( > 1s)
Malns Supply (L1, L2, L3) Load Suppl 1111213) Load Current Auxillary Oulput,N0121724) Auxillary Oumut, NC (21722) Suppl Vollage (Us) Control Volta 9 A1, A2 Green LED (Comml 3. Supply] Yellow LED (Lead SIEIUS) Red LED lAlalm LED) mm mun Alarm ompm, NO 111711” Alarm ompm, NC 111712)
24
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
RGC..M Mode of Operation (continued)
Load Loss:
Detection of load loss is possible both with control voltage ON and control voltage OFF. This alarm is issued in the absence
of a load termination or an open load on terminals T1, T2 and/or T3 exceeding 120 ms. Upon detection of this alarm, the
SSR output is switched OFF. This alarm type is indicated by 3 flashes of the red LED. The fault condition is automatically
restored once the fault is cleared. As long as the load loss condition is present and an alarm is issued accordingly, other
alarm conditions occuring when load loss is still present are ignored. For example, if a mains loss occurs during a load loss
alarm condition, such an alarm is not indicated until the load loss is cleared. Only once the load loss is cleared, the mains
loss alarm is issued if still present.
Mains Su
pp
l
y
(
L1, L2, L3
)
Load Su
pp
l
y
(
T1, T2, T3
)
Load Current
Auxiliar
y
Out
p
ut, NO
(
21-24
)
Auxiliar
y
Out
p
ut, NC
(
21-22
)
Su
pp
l
y
Volta
g
e
(
Us
)
Control Volta
g
e
(
A1, A2
)
Green LED (Control & Supply)
Yellow LED (Load status)
Red LED (Alarm LED)
Alarm Out
p
ut, NO
(
11-14
)
Alarm Out
p
ut, NC
(
11-12
)
Control OFF
during Load
Loss status
Normal
Operation
SSR ON
Load
restored
Supply
Voltage (Us)
Loss
Normal
Operation
SSR OFF
Normal
Operation
SSR ON
Load Loss condition
( > 120ms)
during control ON
The load loss alarm is not restored automatically in the case of the loads having delta connection. The external supply, Us
needs to be re-setted (switched OFF and back ON) to clear the alarm signal.
Load SUEEIX T1 T2, T3 Load Current AuxiliaryOutput, NO (21724) - Auxiliagoutgut NC 21722 SUEEIY Voltage Us comm thage (A1 A2) Green LEDIConIro\&Supp\) Vellow LED (Load sums) Red LED Warm LED] A‘arm Output, NO (11714; A‘arm Out ut, NC 11712 mm swan
25
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
RGC..M Mode of Operation (continued)
SSR Short Circuit:
This condition is detected when the SSR output remains ON for more than 250 ms without control voltage. Upon this alarm,
an attempt is made to switch OFF the SSR output but this may not be possible in case of a damaged SSR output(s). Alarm
indication is given by 3 flashes of the red LED (same as the load loss alarm indication). In case of a self recovery, the SSR
will automatically reset.
During an SSR short circuit condition, the SSR output is ON unintentionally. In this case the auxiliary output does not work
in synchronisation with the SSR output.
Mains Su
pp
l
y
(
L1, L2, L3
)
Load Su
pp
l
y
(
T1, T2, T3
)
Load Current
Auxiliar
y
Out
p
ut, NO
(
21-24
)
Auxiliar
y
Out
p
ut, NC
(
21-22
)
Su
pp
l
y
Volta
g
e
(
Us
)
Control Volta
g
e
(
A1, A2
)
Green LED (Control & Supply)
Yellow LED (Load status)
Red LED (Alarm LED)
Alarm Out
p
ut, NO
(
11-14
)
Alarm Out
p
ut, NC
(
11-12
)
Normal
Operation
SSR OFF
Normal
Operation
SSR ON
SSR short circuit condition
during control OFF
(>250ms)
Load Currem, \1 Condmon 1 mm swan Candmon 2 Load Currem, \2 Load Currem, \3 Auxlhzry ompm, ND (21724) Auxwhzry Oulgul, NC (21722) Suggly Vukage Us) Cuntruqukage A1 Al Green LED (mm a SupDW} Veuow LED um sums) Red LED(A\arm no} Alarm 0mm“, ND (11714) Alarm Output, NC (11712)
26
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
RGC..M Mode of Operation (continued)
SSR Open Circuit:
This alarm is issued when either one of the poles or all 3 poles do not switch ON within 250 ms when control voltage is
applied. This alarm type is identified by 4 flashes of the red LED.
Example Condition 1:
Once the open circuit alarm is issued it remains present for 1 minute as long as control voltage is ON. After 1 minute, an
attempt to switch ON the SSR is made if control is ON. In case the open circuit condition is still present the alarm is issued
again. In the case of an open circuit on only 1 pole the load will switch on 2 phases for 250 ms until the open circuit condi-
tion on the damaged pole is detected. As soon as the open circuit condition is detected, an alarm is issued and the SSR
output is switched OFF. This cycle will repeat for a count of 10 times as long as the control voltage is present. After 10 times
no further switch re-attempts are made. It is necessary to reset the external supply (Us) to re-attempt a switch ON. In case
failure persists device is to be returned to factory.
Example Condition 2:
Once the open circuit alarm is issued it remains present for 1 minute as long as control voltage is ON. If during this period
the control voltage is switched OFF, the alarm is automatically cleared and the count indicated in Condition 1 is also set to
0. If control voltage is re-applied and the open circuit condition is detected an alarm is issued accordingly. After 1 minute,
an attempt to switch ON the SSR is made if control is still ON. This will continue for a count of 10 times as long as the con-
trol voltage is present. After 10 times no further switch re-attempts are made. It is necessary to reset the external supply
(Us) to re-attempt a switch ON. In case failure persists device is to be returned to factory.
Mains Su
pp
l
y
(
L1, L2, L3
)
Load Current, I1
Load Current, I2
Load Current, I3
Auxiliar
y
Out
p
ut, NO
(
21-24
)
Auxiliar
y
Out
p
ut, NC
(
21-22
)
Su
pp
l
y
Volta
g
e
(
Us
)
Control Volta
g
e
(
A1, A2
)
Green LED (Control & Supply)
Yellow LED (Load status)
Red LED (Alarm LED)
Alarm Out
p
ut, NO
(
11-14
)
Alarm Out
p
ut, NC
(
11-12
)
Switch ON re-
aempt, open circuit
condion sll
present
Switch ON, open
circuit condion on
pole L1-T1 (>250ms)
250ms ON
250ms ON
Condion noitidnoC1 2
SSR open circuit
condion on pole
L1-T1
(>250ms)
250ms ON
250ms ON
Normal
Operaon SSR
OFF
Normal
Operaon
SSR OFF
250ms ON
250ms ON
250ms ON
250ms ON
SSR open circuit condion on pole
L1-T1
(>250ms)
1 minute 1 minute 1 minute
Load Supp‘y (11, 12, 13) Load Current Auxiharv Output, NO 121724) Auxihary Outgut, NC 21722 Supp‘y Voltage (Us) Convo‘ Voltage A1, A2 Green LED (Contra‘ s. suppm Vel‘ow LED [lead slams) Red LED (Alarm LED) A‘arm Output, NO (11711” A‘arm Output, NC 111712) mm mun 11—»u u alinm m I_I_I_I<—>I_I_IJ
27
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
RGC..M Mode of Operation (continued)
SSR Over Temperature:
The SSR is equipped with internal temperature monitoring to prevent SSR damage in case of overheating conditions. Upon
detection of such a condition the SSR output is switched OFF and an alarm is issued accordingly. This alarm is visually
indicated by the red LED which is fully ON. Once the temperature cools down, the alarm is cleared and if control is still ON
an attempt to re-start the SSR is made.
Mains Su
pp
l
y
(
L1, L2, L3
)
Load Su
pp
l
y
(
T1, T2, T3
)
Load Current
Auxiliar
y
Out
p
ut, NO
(
21-24
)
Auxiliar
y
Out
p
ut, NC
(
21-22
)
Su
pp
l
y
Volta
g
e
(
Us
)
Control Volta
g
e
(
A1, A2
)
Green LED (Control & Supply)
Yellow LED (Load status)
Red LED (Alarm LED)
Alarm Out
p
ut, NO
(
11-14
)
Alarm Out
p
ut, NC
(
11-12
)
Over
Temperature
condition
cleared
Normal
Operation
SSR OFF
Normal
Operation
SSR ON
Over Temperature
Alarm management
LED indicators
RGC RGC..M
CONTROL Green Full intensity: Supply ON (RGC..F), Control ON
Half intensity: Supply ON (RGC..F), Control OFF
Full intensity: Supply ON, Control ON
Half intensity: Supply ON, Control OFF
LOAD Yellow - Full intensity: Load ON
ALARM Red
Full intensity: Overtemperature alarm is present (RGC..F)
Full intensity or flashing: Alarm condition is present
Refer to Alarm Management section
Flashes Description of Fault Timing Diagram
2Mains loss
0.5s
3s
3Load loss or SSR short circuit 3s
0.5s
4SSR open circuit
3s
100% SSR over temperature
x? : @ : @@ © €69 ©©© © 5.? £9" 3"? ' M.‘ :fiu §.L1V © 2.
28
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Dimensions
RGC2..25KKE, RGC3..20KKE
RGC2..10KKE, RGC3..10KKE
Housing width tolerance +0.5mm, -0mm as per DIN 43880.
All other tolerances +/- 0.5mm.
Dimensions in mm.
RRR Quanta mm mnome « \
29
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Dimensions
RGC2..25GKE.M, RGC3..20GKE.M
RGC3..25KKE
Housing width tolerance +0.5mm, -0mm as per DIN 43880.
All other tolerances +/- 0.5mm.
Dimensions in mm.
30
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
RGC2..40KGE, RGC3..30KGE
Dimensions
RGC3..25GKE.M
Housing width tolerance +0.5mm, -0mm as per DIN 43880.
All other tolerances +/- 0.5mm.
Dimensions in mm.
B B B 4 New fifi
31
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Dimensions
RGC3..40GGE.F
Housing width tolerance +0.5mm, -0mm as per DIN 43880.
All other tolerances +/- 0.5mm.
Dimensions in mm.
RGC2..40GGE.M, RGC3..30GGE.M
32
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
RGC2..75GGE.., RGC3..65GGE..
Dimensions
Housing width tolerance +0.5mm, -0mm as per DIN 43880.
All other tolerances +/- 0.5mm.
Dimensions in mm.
‘ffrrrfinnn [
33
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Dimensions
Housing width tolerance +0.5mm, -0mm as per DIN 43880.
All other tolerances +/- 0.5mm.
Dimensions in mm.
RGC3..48KGE
RGC3..48GGE.M
Mu 009000000 000090000 4:5 @413}: ail?- © 6 © ,0“ .012 .0“ u u .. g cawm ‘ Aunu «A. A7 ALT Li“ 009900909 000000900 29“ .9" .9“ @u E" u ML, 000 000090909 mu 000000000 5.11 u uu u n M n ‘.L. 3.“ 900090000 .; ‘27 M 090000000 900990000 29,. .6" 9:. mun mm
34
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
RGC2..10, RGC2..25, RGC2..40
RGC3..10, RGC3..20,
RGC3..25, RGC3..30
RGC2..25..DM, RGC2..40..DM
RGC3..20..DM, RGC3..25..DM,
RGC3..30..DM
RGC2..25..AM, RGC2..40..AM
RGC3..20..AM, RGC3..25..AM,
RGC3..30..AM
RGC2..75..DF
RGC3..40..DF, RGC3..65..DF
RGC2..75..AF
RGC3..40..AF, RGC3..65..AF
RGC2..75..DFM
RGC3..65..DFM
RGC2..75..AFM
RGC3..65..AFM
Terminals labelling:
1/L1, 2/L2, 3/L3: Mains connections
2/T1, 4/T2, 6/T3: Load connections
A1 (+): Positive control signal
A2 (-): Control ground
Us (+): External supply positive signal
Us (-): External supply ground
Us (~): AC external supply
Uf (+): Fan supply positive signal
(no connection required by
end user)
Uf (-): Fan supply ground
(no connection required by
end user)
12: Alarm EMR, normally closed
14: Alarm EMR, normally open
11: Alarm EMR, common terminal
22: Auxiliary output, normally
closed
24: Auxiliary output, normally
open
21: Auxiliary output, common
terminal
Connections to Uf+, Uf- are provided readily termi-
nated by manufacturer. However, in case of need-
ed user intervention on terminals Uf+, Uf- for the
RGC..A..AF and RGC..A..AFM models, the mains
supply has to be turned off first to avoid risk of elec-
trical shock.
Terminal layout
35
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
L1
L2
L3
N
PE
A1 +A2-
1L13 L2 5L3
2T14 T2 6T3
RGC3
RGC2
Motor
3~
*
**
246
246
246
246
246
246
N
2 3 4 5 6 1
* Not suitable for use with RGC...M versions
Connection Diagram
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36
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Versions: RGC..D..DM, RGC..D..DFM
Auxiliary output signal 24 VDC, 50 mA; DC control, Uc (5-32 VDC); DC external supply, Us (24 VDC)
toPLC
Gnd
pulldown
resistor
22
NC
AUX O/P
24
NO
A
U
X
O/
Uf-
FAN
Uf+
FAN
+24Vdc
24VDC
P
21
COM
AUX O/P
A
Us-
SUPPLY
Us+
SUPPLY
5
12
NC
A
LARM
14
NO
ALARM
A2-
CONTR
O
5
32VDC
11
COM
ALARM
O
L
A1+
CONTROL
Gnd
22
NC
AUX O/P
24
NO
A
U
X
O/
Uf-
FAN
Uf+
FAN
toPLC
+24Vdc
pullup
resistor
24VDC
P
21
COM
AUX O/P
A
Us-
SUPPLY
Us+
SUPPLY
5
12
NC
A
LARM
14
NO
ALARM
A2-
CONTR
O
5
32VDC
11
COM
ALARM
O
L
A1+
CONTROL
Connection of normally open auxiliary output (24-21) in
a ‘pnp’ style
Connection of normally open auxiliary output (24-21) in
an ‘npn’ style
Versions: RGC..D..AM, RGC..D..AFM
Auxiliary output signal 24 VDC, 50 mA; DC control, Uc (5-32 VDC); AC external supply, Us (90-250 VAC)
toPLC
Gnd
pulldown
resistor
22
NC
AUX O/P
24
NO
A
U
X
O/
Uf-
FAN
Uf+
FAN
+24Vdc
9025
0
P
21
COM
AUX O/P
A
Us~
SUPPLY
5
0
VAC
12
NC
A
LARM
14
NO
ALARM
A2-
CONTR
O
Us~
SUPPLY
5
32VDC
11
COM
ALARM
O
L
A1+
CONTROL
Gnd
22
NC
AUX O/P
24
NO
A
U
X
O/
Uf-
FAN
Uf+
FAN
toPLC
+24Vdc
pullup
resistor
9025
0
P
21
COM
AUX O/P
A
Us~
SUPPLY
5
0
VAC
12
NC
A
LARM
14
NO
ALARM
A2-
CONTR
O
Us~
SUPPLY
5
32VDC
11
COM
ALARM
O
L
A1+
CONTROL
Connection of normally open auxiliary output (24-21) in
a ‘pnp’ style
Connection of normally open auxiliary output (24-21) in
an ‘npn’ style
Connection configuration for auxiliary output
®©%O@n®n® @@O®gggg®
37
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Versions: RGC..A..AM, RGC..A..AFM
Auxiliary output signal 90-250 VAC, max. 1 A @ 25oC; AC control, Uc (20-275 VAC); AC external supply, Us (90-250 VAC)
90
2
Load
22
NC
AUX O/P
24
NO
A
U
X
O/
Uf-
FAN
Uf+
FAN
2
50VAC
9025
0
P
21
COM
AUX O/P
A
Us~
SUPPLY
2
0
0
VAC
12
NC
A
LARM
14
NO
ALARM
A2-
CONTR
O
Us~
SUPPLY
0
275VAC
11
COM
ALARM
O
L
A1+
CONTROL
Connection of normally open auxiliary output (24-21) to
an AC load
Note: In relation to the auxiliary output terminals 22, 24, 21; it is not possible to connect all 3 terminals to the auxiliary cir-
cuit. Preference shall be given to either a normally open (24-21) or normally closed (22-21) contact. The respective
terminations shall be choosen and configured accordingly.
Connection configuration for auxiliary output (continued)
38
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Installation
Y2 =
100mm
Y1 = 50mm
50mm
X = Refer to
Derating vs.
Spacing Curves
X
Mounting on DIN rail Dismounting from DIN rail
X
RGC RGC
RGC
Y2 =
100mm
Y1 = 50mm
50mm
X = Refer to
Derating vs.
Spacing Curves
X
Mounting on DIN rail Dismounting from DIN rail
X
RGC RGC
RGC
Installation for panel mount version
+ 10o
-
Ensure heatsink is mounted in an upright position for optimal airflow.
39
Carlo Gavazzi Ltd.
RGC2, RGC3
RGC2, RGC3 DS ENG 23/07/19
Power connection
Terminal 1/L1, 3/L2, 5/L3, 2/T1, 4/T2, 6/T3
Conductors Use 75°C copper (Cu) conductors
RG..KKE, RG..GKE RG..KGE, RG..GGE
Stripping length 12 mm 11 mm
Connection type M4 screw with captivated washer M5 screw with box clamp
Rigid (solid & stranded)
UL/CSA rated data
2x 2.5 – 6.0 mm²
2x 14 – 10 AWG
1x 2.5 – 6.0 mm²
1x 14 – 10 AWG
1x 2.5 – 25.0 mm²
1x 14 – 3 AWG
Flexible with end sleeve
2x 1.0 – 2.5 mm²
2x 2.5 – 4.0 mm²
2x 18 – 14 AWG
2x 14 – 12 AWG
1x 1.0 – 4.0 mm²
1x 18 – 12 AWG
1x 2.5 – 16.0 mm²
1x 14 – 6 AWG
Flexible without end
sleeve
2x 1.0 – 2.5 mm²
2x 2.5 – 6.0 mm²
2x 18 – 14 AWG
2x 14 – 10 AWG
1x 1.0 – 6.0mm²
1x 18 –10 AWG
1x 4.0 – 25.0 mm²
1x 12 –3 AWG
Torque specifications
Posidrive bit 2
UL: 2.0 Nm (17.7 lb-in)
IEC: 1.5 – 2.0 Nm (13.3 – 17.7 lb-in)
Posidrive bit 2
UL: 2.5 Nm (22 lb-in)
IEC: 2.5 – 3.0 Nm (22 – 26.6 lb-in)
Aperture for termination
lug (fork or ring) 12.3 mm n/a
Protective Earth (PE)
connection
M5, 1.5 Nm (13.3 lb-in)
M5 PE screw is not provided with the solid state relay. PE connection is required when
product is intended to be used in Class 1 applications according to EN/IEC 61140
Control, supply and alarm connection
Terminals
A1, A2 A1, A2, Us, Uf,
11, 12, 14, 21, 22, 24
RG..KKE, RG..KGE RG..GKE, RG..GGE
Conductors Use 60/75°C copper (Cu) conductors
Stripping length 8 mm 8 mm
Connection type M3 screw with captivated washer M3 screw with box clamp
Rigid (solid & stranded)
UL/CSA rated data
2x 0.5 - 2.5 mm2
2x 18 - 12 AWG
1x 0.5 - 2.5 mm2
1x 18 - 12 AWG
1x 1.0 - 2.5 mm2
1x 18 - 12 AWG
Flexible with end sleeve 2x 0.5 - 2.5 mm2
2x 18 - 12 AWG
1x 0.5 - 2.5 mm2
1x 18 - 12 AWG
1x 0.5 - 2.5 mm2
1x 20 - 12 AWG
Torque specification
Posidrive 1
UL: 0.5 Nm (4.4 lb-in)
IEC: 0.5-0.6 Nm (4.4-5.3 lb-in)
Posidrive 1
UL: 0.5 Nm (4.4 lb-in)
IEC: 0.4-0.5 Nm (3.5-4.4 lb-in)
Connection Specifications
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