RGC(U Connection) Datasheet by Carlo Gavazzi Inc.

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Product Description CARLO GAVAZZI CE €935.69 [HI Ordering Key R % wilh healsi Blocking vnllage men: zc‘ 23: 230v +10% , 15%, mm D 3 ur4732VDC cunem ax w'cl 15: zDAAC, 525m annual power oonfigu USSR Oph'on K: Screw G Box c P: Ovenemperanure
Solid State Relay
Number of poles
Switching Mode
Rated Operational Voltage
Control voltage
Rated Operational current
Connection type for control
Connection type for power
Connection configuration
Option
Specifications are subject to change without notice (22.05.2018) 1
Product width ranging from 17.5mm up to 70mm
Rated operational voltage: up to 660 VAC
Rated operational current: up to 85 AAC @ 40°C
Up to 18000A²s for I²t and 1200Vp blocking voltage
Control voltages: 3-32 VDC, 20-275 VAC (24-190 VDC)
Design according to EN/IEC60947-4-2, EN/IEC60947-4-3,
EN/IEC62314, UL508, CSA 22-2 No. 14-13
Integrated voltage transient protection with varistor
100kA short circuit current rating according to UL508
Product Description Ordering Key
Solid State Relays
1-Phase Integrated Heatsink
Zero Cross or Instant On Switching
Types RGC Solid State Contactor ‘U’ Connection
RGC 1 A 60 A 40 K G U _
2. Refer to Derating Curves
3. Default control connection for RGC...P is box clamp. See Connections Specifications.
4 . ZC = Zero cross switching, IO = Instant On switching
Ordering Key (Refer to page 2 for available part numbers)
1 Phase SSR Rated voltage, Control voltage Rated Connection Connection Connection
with heatsink Blocking voltage current at 40˚C2control power configuration Option
RGC1A: ZC423: 230V +10% - 15%, 800Vp D: 3 or 4-32VDC 15: 20AAC, 525A²s K: Screw G: Box clamp U: SSR P: Overtemperature
RGC1B: IO460: 600V +10% -15%, 1200Vp A: 20 - 275VAC, 20: 23AAC, 525s G: Box clamp protection
24-190 VDC 25: 25AAC, 1800A²s (OTP) 3
30: 30AAC, 1800A²s
40: 40AAC, 3200A²s
42: 43AAC, 18000A²s
60: 60AAC, 3200A²s
62: 65AAC, 18000A²s
90: 85AAC, 6600A²s
1
This new range of solid state
contactors presents a unique
opportunity to maximize effi-
ciency in panel space and is an
evolution of solid state switch-
es for which Carlo Gavazzi is
very well known.
The nominal current ratings
are at 40˚C. The smallest
width is 17.5mm and is rated at
25 AAC.
Voltage transient protection is
standard across the output
with a varistor. Specifications
are stated at 25°C unless oth-
erwise noted.
1. Germanischer Lloyd approval applicable only to models RGC...15KGU,
RGC...20KGU, RGC...25KGU and RGC...30KGU
CARLO GAVAZZI cur 230V, sum/p 3732ch Screw/Bax RGC1A23D15KGU RGclAzaDzaKGu RGCLAZSDZSKGU RGCLABDBDKGU 20mm, 24490an Screw/Bax RGClAZZAlSKGU RGClAzaAzuKGu RGCLAzsAZSKGu RGCLABAzDKGu suomzoovn drsszc Screw/Box RGCJJWJDISKGU RGClAszuKGu RGCIAEDDZSKGU RGCLAsaDzDKGu Ammo 241%an Screw/Box RGCLAmAlsKGu RGClAmAzuKGu RGCIAEDAZSKGU RGCLAmAzuKGu 4732ch Screw/Bax RGClAmMKGu RGclAeumzKGu RGCLAEDDfiuKGU RGCLAmDszKGu mmvnc, 241mm Screw/Bax RGClAmMuKGu RGCIAGMIIZKGU RGCLAEDAGUKGU RGcLAmAszKGu 500V, IZDUVp drsszc Screw/Box RGClBeamsKGu RGCleDzuKGu RGCIBGUDZSKGU RGClBsoDzuKGu drsszc Screw/am RGClemoKGu RGClemzKGu RGclBeuDecKGu RGCIBSDDGZKGU 500V, IZUOVp Srizvnc Bax/Box RGClAéUDwGGUP RGClAmDaoGGuP RGCLABODSOGGW mam/AC, zmmovnc Bax/Box RGClAam-tossuv RGClAmAaoGGuP RGCJJWJASDGGUP 500v, IZUOVp srszvnc Bax/Box RGCleDsoGGuP
2Specifications are subject to change without notice (22.05.2018)
RGC...U
Selection Guide
Rated voltage, Control voltage Connection Rated operational current @ 40oC (I2t value)
Blocking voltage, control/power Product width
Switching mode 20 AAC (525A²s) 23 AAC (525s) 25 AAC (1800s) 30 AAC (1800s)
17.5mm, low depth 17.5mm 17.5mm, low depth 22.5mm
230V, 800Vp 3-32VDC Screw/Box RGC1A23D15KGU RGC1A23D20KGU RGC1A23D25KGU RGC1A23D30KGU
ZC20-275VAC, 24-190VDC Screw/Box RGC1A23A15KGU RGC1A23A20KGU RGC1A23A25KGU RGC1A23A30KGU
20 AAC (525A²s) 23 AAC (525s) 25 AAC (1800s) 30 AAC (1800s)
17.5mm, low depth 17.5mm 17.5mm, low depth 22.5mm
600V,1200Vp 4-32VDC Screw/Box RGC1A60D15KGU RGC1A60D20KGU RGC1A60D25KGU RGC1A60D30KGU
ZC 20-275VAC, 24-190VDC Screw/Box RGC1A60A15KGU RGC1A60A20KGU RGC1A60A25KGU RGC1A60A30KGU
40 AAC (3200s) 43 AAC (18000A²s) 60 AAC (3200s) 65 AAC (18000A²s)
35mm 35mm 70mm 70mm
4-32VDC Screw/Box RGC1A60D40KGU RGC1A60D42KGU RGC1A60D60KGU RGC1A60D62KGU
20-275VAC, 24-190VDC Screw/Box RGC1A60A40KGU RGC1A60A42KGU RGC1A60A60KGU RGC1A60A62KGU
40 AAC (3200s) 43 AAC (18000A²s) 60 AAC (3200s) 65 AAC (18000A²s)
35mm 35mm 70mm 70mm
4-32VDC Screw/Box RGC1B60D40KGU RGC1B60D42KGU RGC1B60D60KGU RGC1B60D62KGU
20 AAC (525A²s) 23 AAC (525s) 25 AAC (1800s) 30 AAC (1800s)
17.5mm, low depth 17.5mm 17.5mm, low depth 22.5mm
600V, 1200Vp 4-32VDC Screw/Box RGC1B60D15KGU RGC1B60D20KGU RGC1B60D25KGU RGC1B60D30KGU
IO
Selection Guide - RGC..P (Integrated Overtemperature Protection)
85AAC (6600A²s)
70mm + fan
600V, 1200Vp 5-32VDC Box/Box RGC1B60D90GGUP
IO
Rated voltage, Control voltage Connection Rated operational current @ 40oC (I2t value)
Blocking voltage, control/power Product width
Switching mode
40 AAC (3200s) 60 AAC (3200A²s) 85 AAC (6600s)
35mm 70mm 70mm + fan
600V, 1200Vp 5-32VDC Box/Box RGC1A60D40GGUP RGC1A60D60GGUP RGC1A60D90GGUP
ZC 20-275VAC, 24-190VDC Box/Box RGC1A60A40GGUP RGC1A60A60GGUP RGC1A60A90GGUP
CARLO GAVAZZI Rated impulse withstand 6 kV (ll/Sous) for voltage, Uimp Overrvoltage category III (fixed insta‘lations)
Specifications are subject to change without notice (22.05.2018) 3
RGC...U
Output Voltage Specifications
RGC..23.. RGC..60..
Operational voltage range 24-240 VAC, 42-600 VAC,
+10%, -15% on max +10% -15% on max
Blocking voltage 800Vp 1200 Vp
Internal varistor 275V 625V
Latching voltage
(across L1-T1) 20V
Operational frequency
range 45 to 65Hz
Power factor > 0.5 @ Vrated
Touch Protection IP20
Control input status continuously ON Green LED,
when control input is applied
Pollution degree 2
(non-conductive pollution with
possibilities of condensation)
Rated impulse withstand 6 kV (1.2/50μs) for voltage,
Uimp
Over-voltage category III
(fixed installations)
Isolation
Input to Output RGC... 4000 Vrms
RGC...D..P 2500 Vrms
RGC...A..P 4000 Vrms
Input and Output RGC... 4000 Vrms
to case RGC...D..P 4000 Vrms
RGC...A..P 4000 Vrms
Input to Fan/ Alarm Output
RGC...A..P 2500 Vrms
General Specifications
CARLO GAVAZZI RGC..15.. RGC..20.. RGC..25.. RGC..30.. RGC..40.. RGC..42.. RGC..60.. RGC..62.. RGC..90..
RGC...U
4Specifications are subject to change without notice (22.05.2018)
7. DC supply for alarm signal should be supplied from a Class 2 power source
8 . Maximum voltage to be applied between 11+ and 12- (Ua) terminals should be 35VDC maximum with reference to A2-
Overtemperature Alarm Specifications for RGC...P
RGC..D..P RGC..A..P
Output type PNP open collector _ Potential Free
Normal state Closed Closed
Maximum current rating 50 mADC 50 mADC
Rated voltage (EN61131-2: 2003) 7, 8, Ua 24VDC -15%, +20% 24VDC -15%, +20%
Rated voltage, Us RGC...D90GGUP 24VDC ± 10% N/A
Fan rating, UfRGC...A90GGUP N/A 24VDC ±10%, 50mA nominal
Alarm voltage drop Typical 2.8VDC 1.8VDC
Maximum 4VDC 3.5VDC
Visual Indication Continous Red LED Continous Red LED
Reverse polarity protection 24VDC 24VDC
Output Specifications
RGC..15.. RGC..20.. RGC..25.. RGC..30..
Rated operational current 6
AC-51 rating @ Ta=2C 20 AAC 25.5 AAC 30 AAC 30 AAC
AC-51 rating @ Ta=4C 20 AAC 23 AAC 25 AAC 30 AAC
AC-53a rating @ Ta=40°C 5 AAC 5 AAC 5 AAC 8 AAC
Number of motor starts per hour
(x:6, Tx:6s, F:50%) at 40˚C 530 30 30 30
Min. operational current 150 mAAC 150 mAAC 250 mAAC 250 mAAC
Rep. overload current -
(Motor Rating) PF = 0.4 - 0.5
UL508: TAMB=40°C, tON=1s, tOFF=9s,
50cycles 51 AAC 60 AAC 51 AAC 84 AAC
Maximum transient surge current (ITSM), t=10ms 325 Ap 325 Ap 600 Ap 600Ap
Maximum off-state leakage current
at rated voltage 3 mAAC 3 mAAC 3 mAAC 3 mAAC
t for fusing (t=10ms), minimum 525 A²s 525 A²s 1800 A²s 1800s
Crititcal dv/dt (@ Tj init = 40°C) 1000 V/μs 1000 V/μs 1000 V/μs 1000 V/μs
RGC..40.. RGC..42.. RGC..60.. RGC..62.. RGC..90..
Rated operational current 6
AC-51 rating @ Ta=2C 47 AAC 50 AAC 70 AAC 75 AAC 85 AAC
AC-51 rating @ Ta=4C 40 AAC 43 AAC 60 AAC 65 AAC 85 AAC
AC-53a rating @ Ta=40°C 13 AAC 16 AAC 14.8 AAC 20 AAC 18 AAC
Number of motor starts per hour
(x:6, Tx:6s, F:50%) at 40˚C 530 30 30 30 30
Min. operational current 400 mAAC 500 mAAC 400 mAAC 500 mAAC 400 mAAC
Rep. overload current -
(Motor Rating) PF = 0.4 - 0.5
UL508: TAMB=40°C, tON=1s, tOFF=9s,
50cycles 126 AAC 126 AAC 126 AAC 168 AAC 168 ACC
Maximum transient surge current (ITSM), t=10ms 800 Ap 1900 Ap 800 Ap 1900 Ap 1150 Ap
Maximum off-state leakage current
at rated voltage 3 mAAC 3 mAAC 3 mAAC 3 mAAC 3 mAAC
t for fusing (t=10ms), minimum 3200s 18000 A²s 3200 A²s 18000 A²s 6600s
Crititcal dv/dt (@ Tj init = 40°C) 1000 V/μs 1000 V/μs 1000 V/μs 1000 V/μs 1000 V/μs
5. Overload profile for AC-53a;
Ie: AC-53a: x-Tx: F-S, where Ie = nominal current (AC-53a AAC), x = overload current factor, Tx = duration of overload current (s), F = duty cycle (%), S = number of
starts per hour. Example; 5A: AC-53a: 6 - 6 : 50 - 30 = max. 30 starts for the RGC..15 with an overload profile of 30A for 6 seconds with a duty cycle of 50%
6. Refer to Derating Curves
CARLO GAVAZZI RGO..D.. RGC..A.. R6013“ 3 - 32 VDC 20 - 275 VAC, 24 (-10%) - 19o VDC Recueo“ 4 - 32 VDC 20-275 VAC, 24 (-10%) - 19o VDC RGC‘..P (Uc) 5 - 32 VDC 20-275 VAC, 24 (-10%) - 19o VDC RG..A.. mm ..A: Input cumin vs lnpul voltage UVDC suVDc wunvnc «some ZDDVDC ZSDVDC
Specifications are subject to change without notice (22.05.2018) 5
RGC...U
Input Specifications
RGC..D.. RGC..A..
Control voltage range9, 10 RGC..23.. 3 - 32 VDC 20 - 275 VAC,
24 (-10%) - 190 VDC
RGC..60.. 4 - 32 VDC 20-275 VAC,
24 (-10%) - 190 VDC
RGC...P (Uc) 5 - 32 VDC 20-275 VAC,
24 (-10%) - 190 VDC
Pick-up voltage RGC..23.. 3.0 VDC 20 VAC/DC
RGC..60.. 3.8 VDC
RGC...P 5 VDC 20 VAC/ 24VDC
Drop-out voltage 1 VDC 5 VAC/DC
Maximum Reverse voltage 32 VDC -
Response time pick-up (RGC1A..) 0.5 cycle + 50s @ 24VDC 2 cycles
@ 230VAC/110VDC
Response time pick-up (RGC1B..) 350µs @ 24 VDC N/A
Response time drop-out 0.5 cycle + 500µs @ 24VDC 0.5 cycle + 40ms @ 230VAC/ 110VDC
Input current @ 40°C See diagrams below See diagrams below
9. DC control to be supplied by class 2 power source according to UL1310
10. For GL approved models control range for RGC1.23... is 4-32VDC and for RGC1.60... 5-32VDC
RG..A..
15mA
20mA
25mA
30mA
35mA
40mA
RGC1 .. A : input current vs input voltage
RGC .. A
0mA
5mA
10mA
15mA
20mA
25mA
30mA
35mA
40mA
0VAC 50VAC 100VAC 150VAC 200VAC 250VAC 300VAC
RGC1 .. A : input current vs input voltage
RGC .. A
15mA
20mA
25mA
30mA
35mA
40mA
RGC1 .. A : input current vs input voltage
0mA
5mA
10mA
15mA
20mA
25mA
30mA
35mA
40mA
0VDC 50VDC 100VDC 150VDC 200VDC 250VDC
RGC1 .. A : input current vs input voltage
RGC .. A
RGC..A..P
(Normal Operation)
RGC..A..P
(Normal Operation)
RGC..A..P
(Active Protection)
RGC..A..P
(Active Protection)
CARLD GAVAZZI A1 char-mamas: no [mun nurrlnlvs Inyulvnlw‘ 2v 4v 6V 8V 10v 12v 14V 16V 18V 20v 22v 24v 26V 28V 30V 32v 34v
6Specifications are subject to change without notice (22.05.2018)
10.0mA
15.0mA
20.0mA
25.0mA
A1 Characteristics: DC input current vs Input voltage
5.0mA
10.0mA
15.0mA
20.0mA
25.0mA
2V 4V 6V 8V 10V 12V 14V 16V 18V 20V 22V 24V 26V 28V 30V 32V 34V
A1 Characteristics: DC input current vs Input voltage x
x
5.0mA
10.0mA
15.0mA
20.0mA
IN1 Characteristics: DC input current vs Input voltage
0.0mA
5.0mA
10.0mA
15.0mA
20.0mA
2V 4V 6V 8V 10V 12V 14V 16V 18V 20V 22V 24V 26V 28V 30V 32V 34V
IN1 Characteristics: DC input current vs Input voltage
RGC..D..P
(Normal Operation)
RGC..D..P
(Active Protection)
y
RGC..D90GGUP
(Active Protection)
RGC..D90GGUP
(Normal Operation)
Input Specifications (cont.)
RG..D..
x: Input currents for RGC1..D15, RGC1..D20, RGC1..D25, RGC1..D30, RGC1..D4x, RGC1..D6x
y: input currents valid only for RGC1..D90GGUP
RGC...U
CARLO GAVAZZI HP (UL / kW ( EC609 -2) @ 40 115 VAC 230 VAC 400 VAC 480 VAC 600 VAC ‘JHP/ 0.18kW 1HP / 0‘37kW ZHP / 0.75kW 3HP/ 1.1kW 3HP/ 1.5kW W A ce RG @N— N V Y N Y # V —J
Specifications are subject to change without notice (22.05.2018) 7
RGC...U
Detailed Over temperature Alarm Procedure (for RGC...P)
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
Alarm Signal: ON
Y
NChip
temperature <
80°C?
FAN: OFF
Chip
temperature
limit reached?
SSR output: ON
Red LED: OFF
Alarm Signal: OFF
Chip
temperature
limit reached?
SSRoutput: OFF
Red LED: ON
Alarm Signal: 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
Alarm Signal: 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
limit reached?
SSRoutput: OFF
Red LED: ON
Alarm Signal: ON
CAUTION
Alarm condition resets whenever the voltage signal is removed from terminal A1 (+)
In the case of RGC1AD90GGUP, if the voltage signal is not applied across A1(+) and A2 (-) terminals, the overtemperature detection and functionality is
lost (including fan operation and alarm signalling)
In the case of RGC1A60A90GGUP it is necessary to supply IN2 and IN3 with 24VDC for fan operation.
Alarm procedure for RGC1A60A90GGUP follows ‘Alarm signal only’ flow since fan is continously operating.
Alarm condition automatically resets ONLY when power semiconductor temperature < 80˚C
Temperatures indicated are typical figures.
ALARM Signal and Fan
(applicable to RGC..D90GGUP)
ALARM Signal only
Motor Ratings: HP (UL508) / kW (EN/IEC60947-4-2) @ 40°C
115 VAC 230 VAC 400 VAC 480 VAC 600 VAC
RGC..15 HP / 0.18kW 1HP / 0.37kW 2HP / 0.75kW 3HP / 1.1kW 3HP / 1.5kW
RGC..20 ½HP / 0.18kW 1½HP / 0.37kW 2HP / 0.75kW 3HP / 1.1kW 3HP / 1.5kW
RGC..25 HP / 0.18kW 1HP / 0.37kW 2HP / 0.75kW 3HP / 1.1kW 3HP / 1.5kW
RGC..30 ¾HP / 0.37kW 2HP / 1.1kW 3HP / 1.5kW 5HP / 2.2kW 5HP / 3.7kW
RGC..40 1HP / 0.56kW 3HP / 1.5kW 5HP / 2.2kW 5HP / 3.7kW 7½HP / 4kW
RGC..42 1½HP / 0.56kW 3HP / 1.5kW 5HP / 2.2kW 7½HP / 3.7kW 10HP / 4kW
RGC..60 1½HP / 0.56kW 3HP / 1.5kW 5HP / 3kW 7½HP / 4kW 10HP / 4kW
RGC..62 2HP / 0.75kW 5HP / 1.5kW 7½HP / 4kW 10HP / 4kW 15HP / 5.5kW
RGC..90 2HP / 0.75kW 5HP / 1.5kW 7½HP / 4kW 10HP / 4kW 15HP / 5.5kW
lost (including fan operation and alarm signalling)
CARLO GAVAZZI / /. / / /./
8Specifications are subject to change without notice (22.05.2018)
Current Derating (UL508)
temperature 0 25 40 70 80
RGC..15 20 20 20 8.2
RGC..20 30 26 23 8.2
RGC..25 30 30 25 15.5
RGC..30 30 30 30 19.5
RGC..40 57.5 47.4 40.5 12.2
RGC..42 57.5 50 43 28
RGC..60 84 70.4 60.5 30
RGC..62 84 75 65.4 38
RGC..90 85 85 85 55
RGC..92, RGC..90 85 85 85 55 achieved 60 but will leave 55
R
0
5
10
15
20
25
30
35
01020304050607080
Load Current in AACrms
Surrounding Ambient Temperature in °C
RGC..30
RGC..25
RGC..20
RGC..15
0
10
20
30
40
50
60
70
80
90
01020304050607080
Load Current in AACrms
Surrounding Ambient Temperature in °C
RGC..90
RGC..62
RGC..60
RGC..42
RGC..40
P
RGC...U
RGC...P models max. operating temperature is + 70˚C
Output Power Dissipation
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ϳϬ
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CARLO GAVAZZI r: r:
Specifications are subject to change without notice (22.05.2018) 9
RGC...U
Derating vs. Spacing Curves
15
20
25
nt in AAC
0
5
10
01020304050607080
Load Curr
Surrounding Ambient Temperature in °C
0mm
5mm
10mm &
over
20
25
30
35
nt in AAC
0mm
5mm
0
5
10
15
20
01020304050607080
Load Curr
Surrounding Ambient Temperature in °C
5mm
10mm
20mm &
over
RGC.. 15..
RGC.. 20..
0
5
10
15
20
25
30
01020304050607080
Load Current in AAC
Surrounding Ambient Temperature in °C
0mm
5mm
10mm
22.5mm & over
RGC.. 25..
CARLO GAVAZZI Load Curran in MC 50 40 30 20 1D -- flmm u w 20 30 4D 50 60 7D Surrounding Ambient Tempeunne in -c 80 22 5mm 1. over
10 Specifications are subject to change without notice (22.05.2018)
RGC...U
Derating vs. Spacing Curves (cont.)
35
40
45
50
nt in AAC
0mm
10mm &
10
15
20
25
30
01020304050607080
Load Curre
Surrounding Ambient Temperature in °C
over
Stand
alone
unit
RGC.. 40..
RGC.. 42..
25
30
35
n
t in AAC
0mm
10
15
20
25
01020304050607080
Load Curre
n
Surrounding Ambient Temperature in °C
5mm
10mm &
over
Stand
alone unit
RGC.. 30..
CARLO GAVAZZI Load Currenl in MG i um _ —wnm§ . ... 5mm flan: m o 10 20 so 40 so so 70 so Surrounding Ambient Temperature in °c
Specifications are subject to change without notice (22.05.2018) 11
RGC...U
Derating vs. Spacing Curves (cont.)
55
60
65
70
e
nt in AAC
0mm
30
35
40
45
50
55
01020304050607080
Load Curr
e
Surrounding Ambient Temperature in °C
10mm &
over
Stand
alone unit
7
5
80
85
90
e
nt in AAC
0mm
50
55
60
65
70
010203040506070
Load Curr
e
Surrounding Ambient Temperature in °C
10mm &
over
Stand
alone unit
RGC.. 62..
RGC.. 60..
RGC.. 90GGUP
CARLO GAVAZZI C € gem® [HI Eleclromagneiic Compali
12 Specifications are subject to change without notice (22.05.2018)
RGC...U
EMC Immunity EN 60947-4-3
Electrostatic Discharge (ESD)
Immunity IEC/EN 61000-4-2
Air discharge, 8kV Performance Criteria 1
Contact, 4kV Performance Criteria 1
Electrical Fast Transient
(Burst) Immunity IEC/EN 61000-4-4
Output: 2kV, 5kHz Performance Criteria 1
Input: 1kV, 5kHz Performance Criteria 1
Electrical Surge Immunity IEC/EN 61000-4-5
(for RGC...U)
Output, line to line, 1kV Performance Criteria 1
Output, line to earth, 2kV Performance Criteria 1
Input, line to line, 1kV Performance Criteria 2
Input, line to earth, 2kV Performance Criteria 2
Electrical Surge Immunity IEC/EN 61000-4-5
(for RGC...UP)
Output, line to line, 1kV Performance Criteria 1
Output, line to earth, 2kV Performance Criteria 1
DC lines, line to line, 500V Performance Criteria 2
DC lines, line to earth, 500V Performance Criteria 2
Signal lines, line to earth, 1kV Performance Criteria 2
Radiated Radio Frequency
Immunity IEC/EN 61000-4-3
10V/m, 80 - 1000 MHz Performance Criteria 1
10V/m, 1.4 - 2 GHz Performance Criteria 1
3V/m, 2 - 2.7 GHz Performance Criteria 1
Conducted Radio Frequency IEC/EN 61000-4-6
Immunity
10V/m, 0.15 - 80 MHz Performance Criteria 1
Voltage Dips Immunity IEC/EN 61000-4-11
0% for 0.5, 1 cycle Performance Criteria 2
40% for 10 cycles Performance Criteria 2
70% for 25 cycles Performance Criteria 2
80% for 250 cycles Performance Criteria 2
Voltage Interruptions Immunity IEC/EN 61000-4-11
0% for 5000ms Performance Criteria 2
EMC Emission EN 60947-4-3
Radio Interference
Voltage Emission (Conducted) IEC/EN 55011
0.15 - 30MHz Class A (industrial) with filters
- see filter information
Radio Interference
Field Emission (Radiated) IEC/EN 55011
30 - 1000MHz Class A (industrial)
Electromagnetic Compatibility
Conformance IEC/EN 62314
IEC/EN 60947-4-2
IEC/EN 60947-4-3
Agency Approvals UL508 Listed (E172877)
cUL Listed (E172877)
VDE 0660-109
GL12
Short Circuit Current Rating 100kA, UL508
Agency Approvals and Conformances
Operating Temperature11 -40°C to 80°C (-40˚F to +176˚F)
Storage Temperature -40°C to 100°C (-4F to +21F)
EU RoHS compliant Yes
China RoHS compliant Refer to Environmental
Information (page 22)
Impact resistance
(EN50155, EN61373) 15/11 g/ms
Vibration resistance
(2-100Hz, IEC60068-2- 6,
EN50155, EN61373) 2g per axis
Relative humidity 95% non-condensing @ 40˚C
UL flammability rating
(housing) UL 94 V0
Glow wire ignition temperature
and Glow wire flammability index
conform to EN 60335-1
requirements
Installation altitude 0 - 1000m. Above 1000m
derate linearly by 1% of
FLC per 100m up to
maximum of 2000m
Environmental Specifications
11. Operating temperature range for RGC..P (overtemperature protection) is -30˚C to 70˚C (-22˚F to 158˚F)
12. Applicable to models RGC1...15KGU, RGC1...20KGU, RGC1...25KGU and RGC1...30KGU
Weight
RGC..15 approx 260g
RGC..20 approx 315g
RGC..25 approx 260g
RGC..30 approx 375g
RGC..4x (P) approx 515g (581g)
RGC..6x (P) approx 972g (1020g)
RGC..90 P approx 1100g
CARLO GAVAZZI ce :onlucl us) Phase 55“ Phase I Neutra‘ R,:1M0,nsw
Specifications are subject to change without notice (22.05.2018) 13
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.
Performance Criteria 1: No degradation of performance or loss of function is allowed when the product is operated as intended.
Performance Criteria 2: 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: Temporary loss of function is allowed, provided the function can be restored by manual operation of the controls.
Filtering - EN / IEC 55011 Class A compliance (for class B compliance contact us)
Part Number Suggested filter for compliance Maximum Heater current
RGC1A23..15 68 nF / 275V / X1 20A
RGC1A23..20 68 nF / 275 V / X1 20A
RGC1A23..25, RGC1A23..30 220 nF / 275V / X1 30A
RGC1A60..15 100 nF / 760V / X1 20A
RGC1A60..20 100 nF / 760V / X1 20A
RGC1A60..25, RGC1A60..30 220 nF / 760V / X1 30A
RGC1A60..40 220 nF / 760V / X1 25A
330 nF / 760V / X1 45A
RGC1A60..60 220 nF / 760V / X1 25A
330 nF / 760V / X1 45A
RGC1A60..42, RGC1A....62, 330 nF / 760V / X1 40A
RGC1A....90 680 nF / 760V / X1 65A
1 Phase 3 Phase
Filter Connection Diagrams
L1
L2
L3
Rd = 1MΩ, 0.5W
NFilter has to be connected
across both LOAD and SSR
SSR
Rd
SSR
SSR
LOAD
Rd
Rd
RGC...U
L1
L2/N
Control
input
*
Load
Connection Diagram (Without OTP)
* depends on system
requirements
Functional Diagram (Without OTP)
DC Control
AC Control
A1
()
A2()
+T1
L1
REGULATION
-
ZC
IO
A1
()
A2()
+
~T1
L1
REGULATION
-
~
ZC
CARLO GAVAZZI FAN FANA (Buck) (Rad) W? (i i) 3) ul | A2 M. g My .‘ ‘0“ U56 8) $¢Ua “A: Hg $ 33.: AL“? ~ Om j gov W. FAN. mm, M ‘F fij—‘E MN m. .2. n. Uc$ é (Ema NW Om .. , .u;
14 Specifications are subject to change without notice (22.05.2018)
RGC...U
11+
12-A1+
A2-
Uc
Uc
Alarm
Out.
+Ua
-Ua
12-
UC
11+
12-
A1+
A2- IN3 IN2
FAN-
(Black)
Uc
Alarm
Out.
+Ua
FAN+
(Red)
12-
-Ua
Uf
+
-
RGC1...D90GGUP
Uc: 5 - 32 VDC
Us: 24 VDC
Alarm Output: max. 50mA
RGC1...D4xGGUP
RGC1...D6xGGUP
Uc: 5 - 32 VDC
Ua: max. 35 VDC
Alarm Output: max. 50mA
RGC1...A4xGGUP
RGC1...A6xGGUP
Uc: 24 - 275 VDC
24 - 190 VDC
Ua: max. 35 VDC
Alarm Output: max. 50mA
RGC1...A90GGUP
Uc: 24 - 275 VAC
24 - 190 VDC
Ua: max. 35 VDC
Alarm Output: max. 50mA
Uf: 24 VDC (Needs to be supplied)
Connection Diagram (with OTP)
* depends on system requirements
11+
12-A1+
A2-
Uc
Alarm
Out.
+Ua
12-
0V
0V
0V
Uc
OUT
IN1
A1+
A2- IN3 IN2
FAN+
(Red)
Us
Alarm
Out.
0V
FAN-
(Black)
IN1
L1
L2/N
*
Load
FAULT
CONTROL
A1
A2
FAN - FAN +
GND
SUPPLYCONTROL ALARM
OUT
IN3IN2
IN1
1 L1
T1
2
RG Solid State Switch
FAULT
GRD
CONTROL
A1
A2
11+
+
SUPPLY ALARM ALARM
12-
DC Control
AC Control
A1, A2: Control voltage
11, 12: Alarm output
Note: Fan is internally supplied
A1, A2: Supply voltage
IN1: Control voltage
OUT: Alarm output
A1, A2: Control voltage
11, 12: Alarm output
A1, A2: Control voltage
11,12: Alarm output
IN2, IN3: Fan supply
CARLO GAVAZZI 07%», us [5351 :55 5‘
Specifications are subject to change without notice (22.05.2018) 15
RG Solid State Switch
A1 L1
T1A2
ON
A2 A1
1 L1 2
T1
RG Solid State Switch
A1 L1
T1A2
ON
A2 A1
1 L1 2
T1
RG Solid State Switch
A1 L1
T1
A2
ON
A2 A1
1 L1 2
T1
Terminal Layout and Dimensions
1/L1: Supply connection
2/T1: Load connection
A1 (+): Positive control signal
A2 (-): Control ground
RGC...20KGU
RGC...15KGU, RGC..25KGU
RGC...30KGU
RGC...U
Housing width tolerance +0.5mm, -0mm…as per DIN43880.
All other tolerances ± 0.5mm. All dimensions in mm.
: Protective earth
CARLO GAVAZZI m Jig 66 E] ”g L —E o F U WW? “1%
16 Specifications are subject to change without notice (22.05.2018)
RGC...U
RGC...40KGU, RGC...42KGU
Terminal Layout and Dimensions
RGC...60KGU, RGC...62KGU
RG Solid State Switch
A1 L1
T1A2
ON
A2 A1
1L1
T1
2
1/L1: Supply connection
2/T1: Load connection
A1 (+): Positive control signal
A2 (-): Control ground
RG Solid State Switch
A1 L1
T1
A2
ON
A2 A1
1L1
T1
2
Housing width tolerance +0.5mm, -0mm…as per DIN43880.
All other tolerances ± 0.5mm. All dimensions in mm.
: Protective earth
CARLO MVAZZI
Specifications are subject to change without notice (22.05.2018) 17
RGC...U
Terminal Layout and Dimensions (cont.)
CONTROL
A1
A2
OUT
IN3IN2
IN
1
A1
A2
11+
IN3IN2
12-
A1
A2
11+
12-
1/L1: Supply connection
2/T1: Load connection
A1 (+): Positive control signal
(Positive supply in case of RGC1A60D90GGUP)
A2 (-): Control ground
IN1: Control signal (only for RGC1A60D90GGUP)
IN2: Fan + supply (only for RGC1A60A90GGUP)
IN3: Fan - supply (only for RGC1A60A90GGUP)
11 + : Alarm output (+)
OUT, 12 - : Alarm output (-)
RGC...90GGUP
RGC...40GGUP
RGC...60GGUP
RGC..D90GGUP RGC..A90GGUP
Housing width tolerance +0.5mm, -0mm…as per DIN43880.
All other tolerances ± 0.5mm. All dimensions in mm.
: Protective earth
A1
A2
11+
12-
CARLO GAVAZZI 1:519 naxgu, Rang if 4%; nan $3
18 Specifications are subject to change without notice (22.05.2018)
RGC...U
POWER CONNECTIONS: 1/L1, 2 /T1
Use 75°C copper (Cu) conductors RG..KGU RG..KGU, RG..GGUP
(RG..15, 20, 25, 30) (RG..40, 42, 60, 62, 90)
Stripping Length (X) 12mm 11mm
Connection type M3.5 screw with box clamp M5 screw with box clamp
Rigid (Solid & Stranded)
UL/ cUL rated data
1 x 1..6 mm2 1 x 2.5..25mm2
1 x 18.. 10 AWG 1 x 14...3 AWG
Flexible with end sleeve
1 x 0.5..2.5mm2 1 x 2.5..16mm2
1 x 20.. 14 AWG 1 x 14.. 6 AWG
Flexible without
end sleeve 1 x 1.. 4mm2 1 x 4.. 25mm2
1 x 18.. 12 AWG 1 x 12.. 3 AWG
Torque specifications Pozidriv 1 Pozidriv 2
UL: 1.0Nm (8.85lb-in) UL: 2.5Nm (22lb-in)
IEC: 0.9 - 1.1Nm (8 - 9.7lb-in) IEC: 2.5 - 3.0Nm (22 - 26.6lb-in)
Protective Earth (PE) Connection
1.5Nm (13.3lb-in)
Connection Specifications
X
CONTROL CONNECTIONS: A1(+), A2(-), IN1, IN2, IN3, 11 (+), 12(-), OUT
Use 60/75°C copper (Cu) conductors
RG....GGUP
Torque specifications M3, Pozidriv 1
UL: 0.5Nm (4.4lb-in)
IEC: 0.4 - 0.5Nm (3.5 - 4.4lb-in)
Stripping Length (X) 6mm
Rigid (Solid & Stranded)
UL/ cUL rated data
2 x 1.0..2.5mm2 1 x 1.0 ..2.5mm2
2 x 18..14 AWG 1 x 18..14 AWG
Flexible with end sleeve
2 x 1.0..2.5mm2 1 x 1.0..2.5mm2
2 x 18..14AWG 1 x 18..14AWG
X
CONTROL CONNECTIONS: A1(+), A2(-)
Use 60/75°C copper (Cu) conductor RG...KGU
Torque specifications M3, Pozidriv 1
UL: 0.5Nm (4.4lb-in)
IEC: 0.5 - 0.6Nm (4.4 - 5.3lb-in)
Stripping Length (X) 8mm
Rigid (Solid & Stranded)
UL/ cUL rated data
2 x 0.5..2.5mm2 1 x 0.5..2.5mm2
2 x 18..12 AWG 1 x 18..12 AWG
Flexible with end sleeve
2 x 0.5..2.5mm2 1 x 0.5..2.5mm2
2 x 18..12AWG 1 x 18..12AWG
X
Note: M5 PE screw not provided with SSR. PE connection required when product is intended to be used in Class 1 applications according to EN/IEC 61140.
CARLO GAVAZZI Short Circuit Protection
Specifications are subject to change without notice (22.05.2018) 19
RGC...U
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 condcutors shall not sepa-
rate 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 100,000A rms Symmetrical Amperes,
600 Volts maximum when protected by fuses. Tests at 100,000A 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.
Installation Instructions
Y2 =
100mm
Y1 = 50mm
50mm
X = 20mm
20mm
20mm
Mounting on DIN rail Dismounting from DIN rail
X = Refer to
Derating vs.
Spacing
Curves
XX
Mounting on DIN rail Dismounting from DIN rail
RGC RGC
RGC
CARLO GAVAZZI
20 Specifications are subject to change without notice (22.05.2018)
RGC...U
Co-ordination type 1 (UL508)
Part No. Prospective short Max. fuse size [A] Class Voltage [VAC]
circuit current [kArms]
RGC..15 100 10 J max. 600
100 15 CC max. 600
RGC..20 100 10 J max. 600
100 15 CC max. 600
RGC..25 100 30 J or CC max. 600
RGC..30 100 30 J or CC max. 600
RGC..40 100 40 J max. 600
RGC..42 100 90 J max. 600
RGC..60 100 40 J max. 600
RGC..62 100 90 J max. 600
RGC..90 100 40 J max. 600
Part No. Prospective short Mersen (Ferraz Shawmut) Siba Voltage [VAC]
circuit current Max fuse Max fuse
[kArms] size [A] Part number size [A] Part number
RGC..15 10 25 6.9xx CP GRC 14x51 /25 32 50 142 06.32 max. 600
100 25 6.9xx CP GRC 14x51 /25 32 50 142 06.32 max. 600
RGC..20 10 40 6.6xx CP URD 22x58 /40 32 50 142 06.32 max. 600
100 40 6.6xx CP URD 22x58 /40 32 50 142 06.32 max. 600
RGC..25 10 40 6.9xx CP GRC 22x58 /40 32 50 142 06.32 max. 600
100 40 6.6xx CP URD 22x58 /40 32 50 142 06.32 max. 600
RGC..30 10 40 6.9xx CP GRC 22x58 /40 32 50 142 06.32 max. 600
100 40 6.6xx CP URD 22x58 /40 32 50 142 06.32 max. 600
RGC..40 10 63 6.621 CP URGD 27x60 /63 63 50 194 20.63 max. 600
10 70 A70QS70-4 63 50 194 20.63 max. 600
100 63 6.621 CP URQ 27x60 /63 63 50 194 20.63 max. 600
RGC..42 10 63 6.9xx CP URC 14x51 /63 80 50 194 20.80 max. 600
10 70 A70QS70-4 80 50 194 20.80 max. 600
100 63 6.9xx CP URC 14x51 /63 80 50 194 20.80 max. 600
100 70 A70QS70-4 80 50 194 20.80 max. 600
RGC..60 10 80 6.621 CP URQ 27x60 /80 80 50 194 20.80 max. 600
up to 65AAC 100 n/a n/a 80 50 194 20.80 max. 600
RGC..62 10 100 6.9xx CP GRC 22x58 /100 100 50 194 20.100 max. 600
10 100 A70QS100-4 100 50 194 20.100 max. 600
100 100 6.621 CP URGD 27x60 /100 100 50 194 20.100 max. 600
100 100 A70QS100-4 100 50 194 20.100 max. 600
RGC..90 10 100 6.621 CP URQ 27x60 /100 100 50 194 20.100 max. 600
up to 80AAC 10 100 A70QS100-4 100 50 194 20.100 max. 600
100 n/a n/a 100 50 194 20.100 max. 600
Co-ordination type 2 (IEC EN 60947-4-2/ -4-3)
CARLO GAVAZZI 100 370
Specifications are subject to change without notice (22.05.2018) 21
Type 2 Protection with Miniature Circuit Breakers (M.C.B.s)
Solid State Relay ABB Model no. for ABB Model no. for Wire cross Minimum length of
type Z - type M. C. B. B - type M. C. B. sectional area [mm2] Cu wire conductor [m]13
(rated current) (rated current)
RGC..15 1 pole
RGC..20 S201 - Z4 (4A) S201 - B2 (2A) 1.0 21.0
(525 A2s) S201 - Z6 UC (6A) S201 - B2 (2A) 1.0 21.0
1.5 31.5
RGC..25 1 pole
RGC..30 S201 - Z10 (10A) S201-B4 (4A) 1.0 7.6
(1800 A2s) 1.5 11.4
2.5 19.0
S201 - Z16 (16A) S201-B6 (6A) 1.0 5.2
1.5 7.8
2.5 13.0
4.0 20.8
S201 - Z20 (20A) S201-B10 (10A) 1.5 12.6
2.5 21.0
S201 - Z25 (25A) S201-B13 (13A) 2.5 25.0
4.0 40.0
2 pole
S202 - Z25 (25A) S202-B13 (13A) 2.5 19.0
4.0 30.4
RGC..40 1 pole
(3200 A2s) S201 - Z25 (25A) S201-B13 (13A) 2.5 7.0
4.0 11.2
6.0 16.8
RGC..60 1 pole
(3200 A2s) S201 - Z25 (25A) S201-B13 (13A) 2.5 7.0
4.0 11.2
6.0 16.8
RGC..90GGUP 1 pole
(6600 A2s) S201 - Z20 (20A) S201-B10 (10A) 1.5 4.2
2.5 7.0
4.0 11.2
S201 - Z32 (32A) S201-B16 (16A) 2.5 13.0
4.0 20.8
6.0 31.2
2 pole
S202 - Z20 (20A) S202-B10 (10A) 1.5 1.8
2.5 3.0
4.0 4.8
S202 - Z32 (32A) S202-B16 (16A) 2.5 5.0
4.0 8.0
6.0 12.0
10.0 20.0
S202 - Z50 (50A) S202-B25 (25A) 4.0 14.8
6.0 22.2
10.0 37.0
RGC..42 1 pole
RGC..62 S201-Z32 (32A) S201-B16 (16A) 2.5 3.0
(18000 A2s) 4.0 4.8
6.0 7.2
S201-Z50 (50A) S201-B25 (25A) 4.0 4.8
6.0 7.2
10.0 12.0
16.0 19.2
S201-Z63 (63A) S201-B32 (32A) 6.0 7.2
10.0 12.0
16.0 19.2
13. Between MCB and Load (including return path which goes back to the mains).
Note: A prospective current of 6kA and a 230/400V power supply system 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.
RGC...U
CARLO GAVAZZI 25
22 Specifications are subject to change without notice (22.05.2018)
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.
Part Name Toxic or Harardous Substances and Elements
Lead
(Pb)
Mercury
(Hg)
Cadmium
(Cd)
Hexavalent
Chromium
(Cr(Vl))
Polybrominated
biphenyls (PBB)
Polybrominated
diphenyl ethers
(PBDE)
Power Unit Assembly x O O O O O
O: Indicates that said hazardous substance contained in homogeneous materials fot this part are below the limit require-
ment 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.
Environmental Information
䉭❁䄷⻥
Ụ䔚㗵㠠㍕Ḕ⌵ạ㯸⅘⑳⛤䔜⬷ⷌḁ㟮↭
6-7Ɲ㟮㳏✏䔜⬷䔜㯻Ẏ⒨Ḕ昷⮁ὦ䔏䙫㛰⮚䉐崏
杇὇⑞䩁 㝚㰣㉧㝚Ⰴ䊺嵹ṟ↔䵱
(Pb)
(Hg)
(Cd)
↾Ὀ攽
(Cr(Vl))
⥫㼅⍧傥區
(PBB)
⥫㼅傥區懫
(PBDE)
⋰䏘⎦↔ xO O O O O
2㮵杇὇㊑㝚㞡㗪Ṿ⑼㝚䛕尶㝚Ⰴ䊺ᾟở*%7䛕暡⯫˛
;㮵杇὇㠡䨞㞡㗪Ṿ⑼㝚䛕尶㝚Ⰴ䊺欩ở*%7䛕暡⯫˛

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