RGS1A60D90KKEDIN

**RGS..E, RGS..EDIN** 

## **RGS..E, RGS..EDIN** 

## **1-Phase Solid State Relays, ‘E’- type connection** 

## **Benefits** 

- **Panel space savings.** Product width of only 17.5 mm giving up to 60% space savings compared to the standard hockey puck platform. 

- **Less maintenance costs.** Wire bonding technology reduces thermal and mechanical stresses of the output chips resulting in a larger number of 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. 

- **Cost effective protection co-ordination** . The high I²t specification permits easy Type 2 protection co-ordination with B-type Minitaure Circuit Breakers. 

## **Description** ne 

This slimline range is an evolution of solid state switches for which Carlo Gavazzi is very well known. The RG series presents a unique opportunity for panel space savings thanks to the very slim footprint. 

- **Fast wiring** . Screw terminated power connections allow safe looping whilst box clamps terminals can handle easily cables up to 25 mm[2] / AWG3 cables. Spring loaded control terminals help reduce installation time. 

- **Accommodates UL508A requirements for Industrial Control Panels.** All models carry a 100 kArms Short Circuit Current Rating. 

The **RGS** is only 17.5 mm wide with ratings up to 90 AAC. The output is protected against overvoltages by means of an integrated varistor. Control ON indication is provided through a green LED. Output connections are provided via a screw terminals having a captivated washer allowing for safe looping or via box clamp that can handle cables up to 25 mm² (AWG3). Input connection is provided either via screw terminals  having a captivated washer or via a pluggable spring loaded terminal. 

Options with integrated heatsink are available in the RGC range. The RGS..DIN provides an option for DIN mounting of the RGS series with a rating of 10 AAC @ 40˚C. 

Specifications are at a surrounding temperature of 25°C unless otherwise specified. 

## **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, Ambient heating. 

## **Main features** 

- Ratings up to 759 VAC, 90 A 

- Up to 18000 A²s for I²t for protection coordination with M.C.Bs 

- 100kA short circuit current rating according to UL508 

- Conformance to Railway standards 

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26/04/21 RGS_E, RGS_EDIN DS ENG 

Carlo Gavazzi Ltd. 

**RGS..E, RGS..EDIN** 

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## **Order code** 

**RGS1 E** 

Enter the code option instead of . Refer to the selection guide section for valid part numbers. 

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Code Option Description Comments<br>R -<br>G - Solid State Relay (RG)<br>S - Without heatsink<br>1 - 1-pole switching<br>A Zero Cross switching (ZC)<br>B Instant ON switching (IO)<br>23 Rated voltage: 24-264 VAC, 800 Vp<br>60 Rated voltage: 42-660 VAC, 1200 or 1600 Vp 1600 Vp only for RGS..51,91<br>69 Rated voltage: 42-690 VAC, 1600 Vp<br>D Control voltage: 3-32 VDC 4-32 VDC for 600 / 690 VAC version<br>A Control voltage: 20-275 VAC, 24-190 VDC<br>25 Rated current: 25 AAC (525 A²s)<br>50 Rated current: 50 AAC (1800 A²s)<br>51 Rated current: 50 AAC (1800 A²s) 1600 Vp blocking voltage<br>75 Rated current: 75 AAC (3200 A²s)<br>90 Rated current: 90 AAC (6600 A²s)<br>91 Rated current: 90 AAC (6600 A²s) 1600 Vp blocking voltage<br>92 Rated current: 90 AAC (18000 A²s)<br>K Screw connection for control terminals<br>M Pluggable spring-loaded connection for control terminals<br>K Screw connection for power terminals<br>G Box clamp connection for power terminals<br>E - Contactor configuration<br>- No additional options<br>HT Pre-attached thermal pad Optional<br>X40 Bulk packaging of 40 pcs. Optional<br>Optional, not available in bulk<br>DIN Pre-attached DIN accessory (RGS1DIN) for DIN rail mount packaging<br>**----- End of picture text -----**<br>


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26/04/21 RGS_E, RGS_EDIN DS ENG 

Carlo Gavazzi Ltd. 

**RGS..E, RGS..EDIN** 

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## **Selection guide - RGS..** 

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Rated Maximum rated operational current<br>voltage,<br>Blocking  Control<br>voltage,  voltage 25 AAC 50 AAC 75 AAC 90 AAC 90 AAC<br>Switching  (525 A [2] s) (1800 A [2] s) (3200 A [2] s) (6600 A [2] s) (18000 A [2] s)<br>mode<br>RGS1A23D25KKE RGS1A23D50KKE - - -<br>230 VAC, 3 - 32 VDC RGS1A23D25MKE RGS1A23D50MKE - - -<br>800 Vp,<br>ZC 20-275 VAC, RGS1A23A25KKE RGS1A23A50KKE - - -<br>24-190 VDC RGS1A23A25MKE RGS1A23A50MKE - - -<br>RGS1A60D25KKE RGS1A60D50KKE RGS1A60D75KKE RGS1A60D90KKE RGS1A60D92KKE<br>- RGS1A60D50KGE - - RGS1A60D92KGE<br>4- 32 VDC RGS1A60D25MKE RGS1A60D50MKE - RGS1A60D90MKE RGS1A60D92MKE<br>600 VAC, - RGS1A60D50MGE - - RGS1A60D92MGE<br>1200 Vp,<br>ZC RGS1A60A25KKE RGS1A60A50KKE RGS1A60A75KKE RGS1A60A90KKE RGS1A60A92KKE<br>20-275 VAC, - RGS1A60A50KGE - - RGS1A60A92KGE<br>24-190 VDC RGS1A60A25MKE RGS1A60A50MKE - RGS1A60A90MKE RGS1A60A92MKE<br>- - - - -<br>600 VAC, 4- 32 VDC - RGS1A60D51KKE RGS1A60D91KKE -<br>-<br>1600 Vp,ZC 20-275 VAC,24-190 VDC - RGS1A60A51KKE RGS1A60A91KKE -<br>690 VAC, 4- 32 VDC - - - RGS1A69D91KKE -<br>1600 Vp,ZC 20-275 VAC,24-190 VDC - - - RGS1A69A91KKE -<br>600 VAC,<br>1200 Vp, 4- 32 VDC - RGS1B60D50KKE - RGS1B60D90KKE -<br>IO<br>**----- End of picture text -----**<br>


## **Selection guide - RGS..HT (RGS with pre-attached Thermal Pad)[1]** 

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Rated voltage, Maximum rated operational current<br>Control<br>Blocking voltage,  voltage 50 AAC 90 AAC 90 AAC<br>Switching mode (1800 A [2] s) (6600 A²s) (18000 A²s)<br>230 VAC,<br>800 Vp, 3 - 32 VDC RGS1A23D50KKEHT - -<br>RGS1A23D50MKEHT<br>ZC<br>RGS1A60D50KKEHT RGS1A60D90KKEHT RGS1A60D92KKEHT<br>600 VAC, RGS1A60D50KGEHT - RGS1A60D92KGEHT<br>1200 Vp, 4 - 32 VDC<br>RGS1A60D50MKEHT RGS1A60D90MKEHT RGS1A60D92MKEHT<br>ZC RGS1A60D50MGEHT - RGS1A60D92MGEHT<br>**----- End of picture text -----**<br>


1. The thermal pad with suffix ‘HT’ is available with any RGS part no. upon request. The above part numbers are some examples of available RGS with pre-attached thermal pad. 

KKE: input terminals = screw KGE: input terminals = screw MKE: input terminals = pluggable spring MGE: input terminals = pluggable spring 

output terminals = screw output terminals = box clamp output terminals = screw output terminals = box clamp 

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26/04/21 RGS_E, RGS_EDIN DS ENG 

Carlo Gavazzi Ltd. 

**RGS..E, RGS..EDIN** 

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## **Selection guide - RGS..DIN (RGS for DIN rail mounting)[2]** 

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Rated voltage, Rated operational current<br>Control<br>Blocking voltage, voltage 10 AAC 12 AAC 12AAC<br>Switching mode (525 A²s) (1800 A [2] s) (6600 A [2] s)<br>3 - 32 VDC RGS1A23D25KKEDIN RGS1A23D50KKEDIN -<br>230 VAC, 1200 Vp<br>ZC 20-275 VAC, RGS1A23A25KKEDIN RGS1A23A50KKEDIN -<br>24-190 VDC<br>4 - 32 VDC RGS1A60D25KKEDIN RGS1A60D50KKEDIN RGS1A60D90KKEDIN<br>600 VAC, 1200 Vp<br>ZC 20-275 VAC, RGS1A60A25KKEDIN RGS1A60A50KKEDIN -<br>24-190 VDC<br>**----- End of picture text -----**<br>


2. Any of the available RGS part numbers can be factory mounted upon request to the RGS1DIN accessory. The above are some examples. Refer to ‘Carlo Gavazzi compatible components’ section for further details. 

## **Selection guide - RGS..X40 (RGS bulk packaging of 40 pcs.)** 

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Rated voltage, Rated operational current<br>Control<br>Blocking voltage, voltage 25 AAC 50 AAC 75 AAC<br>Switching mode (525 A²s) (1800 A [2] s) (3200A²s)<br>230 VAC, 800 Vp 3 - 32 VDC RGS1A23D25KKEX40 - -<br>ZC<br>600 VAC, 1200 Vp 4 - 32 VDC - RGS1A60D50KKEX40 RGS1A60D75KKEX40<br>ZC<br>**----- End of picture text -----**<br>


KKE: input terminals = screw output terminals = screw 

## **Carlo Gavazzi compatible components** 

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Description Component code Notes<br>Control plugs RGM25 Pack of 10 spring loaded control plugs for RG<br>Screw kits SRWKITM5X30MM - RGS screw kit for mounting solid state relay to heatsink<br>- Screw type: Torx T20, size M5 x 30 mm<br>- Packing quantity: 20 pcs.<br>Thermal pads RGHT Pack of 10 RGS thermal pads with size 34.6 x 14mm<br>RGS DIN clip RGS1DIN DIN clip accessory for mounting RGS on DIN rail<br>Heatsinks RHS Heatsink and accessories<br>**----- End of picture text -----**<br>


## **Carlo Gavazzi further reading** 

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Information Where to find it Notes<br>Datasheet https://gavazziautomation.com/images/PIM/DATASHEET/ Solid state contactor, RGC, 'E' - type configu-<br>ENG/rgc.pdf ration<br>Datasheet https://gavazziautomation.com/images/PIM/DATASHEET/ Solid state relay, RGS (without heatsink),<br>ENG/RGS_U.pdf 'U' - type configuration<br>Datasheet https://gavazziautomation.com/images/PIM/DATASHEET/ Solid state relay Accessories (including<br>ENG/SSR_Accessories.pdf Heatsinks)<br>https://gavazziautomation.com/nsc/hq/en/solid_state_re- Online Heatsink selector tool<br>lays<br>**----- End of picture text -----**<br>


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26/04/21 RGS_E, RGS_EDIN DS ENG 

Carlo Gavazzi Ltd. 

**RGS..E, RGS..EDIN** 

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## **Structure** 

## **RGS..KKE** 

## **RGS..KGE** 

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1/L1<br>1/L1<br>A1+<br>A2- LED<br>2/T1<br>A1+<br>LED<br>A2-<br>2/T1<br>**----- End of picture text -----**<br>


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Element Component Function<br>1/L1 Power connection Mains connection<br>2/T1 Power connection Load connection<br>A1+, A2- Control connection Terminals for control voltage<br>LED ON indicator Indicates presence of control voltage<br>**----- End of picture text -----**<br>


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26/04/21 RGS_E, RGS_EDIN DS ENG 

Carlo Gavazzi Ltd. 

**RGS..E, RGS..EDIN** 

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## **Features** 

## **General data** 

|**Material**|PA66 or PA6 (UL94 V0), RAL7035<br>Glow wire ignition temperature and Glow wire fammability index conform to<br>EN 60335-1 requirements|PA66 or PA6 (UL94 V0), RAL7035<br>Glow wire ignition temperature and Glow wire fammability index conform to<br>EN 60335-1 requirements|
|---|---|---|
|**Mounting**|Panel mount||
|**Touch Protection**|IP20||
|**Overvoltage Category**|III, 6 kV (1.2/50 μs) rated impulse withstand voltage||
|**Isolation**|Input and Output to case<br>Input to Output|4000 Vrms<br>4000 Vrms|
|**Weight**|RGS..:<br>RGS..DIN:|approx. 103g<br>approx. 155g|



## **Performance** 

## **Output specifications** 

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RGS..25.. RGS..50/51.. RGS..75.. RGS..90/91.. RGS..92..<br>Max. operational current [3] : 25 AAC 50 AAC 75 AAC 90 AAC 90 AAC<br>AC-51<br>Max. operational current [3] : 5 AAC 10 AAC 14.8 AAC 18 AAC 18 AAC<br>AC-53a<br>Operational frequency range 45 to 65 Hz<br>Output protection Integrated varistor<br>Leakage current @ rated voltage <3 mAAC<br>Minimum operational current 150 mAAC 250 mAAC 400 mAAC 400 mAAC 500 mAAC<br>Repetitive overload current<br>(Motor rating) UL508: Ta=40°C, 67 AAC 107 AAC 126 AAC 168 AAC 168 AAC<br>tON=1 s, tOFF=9 s, 50 cycles<br>Non-repetitive surge current<br>(ITSM), t=10 ms 325 Ap 600 Ap 800 Ap 1150 Ap 1900 Ap<br>I²t for fusing (t=10 ms), minimum 525 A²s 1800 A²s 3200 A²s 6600 A²s 18000 A²s<br>No. of motor starts per hour [3,4] 30<br>(x=6, Tx=6s, F=50%) @ 40°C<br>Power factor >0.5 at rated voltage<br>Critical dV/dt (@Tj init = 40°C) 1000 V/μs<br>**----- End of picture text -----**<br>


3. Refer to Heatsink selection section 

4. 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 RGS..25 with an overload profile of 30A for 6 seconds with a duty cycle of 50% 

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26/04/21 RGS_E, RGS_EDIN DS ENG 

Carlo Gavazzi Ltd. 

**RGS..E, RGS..EDIN** 

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## **Output specifications for RGS..DIN** 

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RGS..25..DIN RGS..50..DIN RGS..90..DIN<br>Max. operational current [5] : 10 AAC 12 AAC 12 AAC<br>AC-51<br>Max. operational current:  5 AAC 5 AAC 5 AAC<br>AC-53a<br>Operational frequency range 45 to 65 Hz<br>Output protection Integrated varistor<br>Leakage current @ rated voltage <3 mAAC<br>Minimum operational current 150 mAAC 250 mAAC 400 mAAC<br>Non-repetitive surge current<br>(ITSM), t=10 ms 325 Ap 600 Ap 1150 Ap<br>I²t for fusing (t=10 ms), minimum 525 A²s 1800 A²s 6600 A²s<br>No. of motor starts per hour [4] 30<br>(x=6, Tx=6s, F=50%) @ 40°C<br>Power factor >0.5 at rated voltage<br>Critical dV/dt (@Tj init = 40°C) 1000 V/μs<br>**----- End of picture text -----**<br>


5. Refer to Derating curves for RGS..DIN section 

## **Output voltage specifications** 

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RGS..23.. RGS..60.. RGS..69..<br>Operational voltage range 24-240 VAC, 42-600 VAC, 42-690 VAC [6,7] ,<br>+10% -15% on max +10% -15% on max +10% -15% on max<br>RGS..25/50/75/90/92 800 Vp 1200 Vp -<br>Blocking<br>voltage RGS..51/91 - 1600 Vp 1600 Vp<br>RGS..25/50/75/90/92 275 V 625V -<br>Internal<br>varistor  RGS..51/91 - 680V -<br>**----- End of picture text -----**<br>


6. 690 VAC refers to the line to line voltage 

7. 690 VAC version is CE marked only and does not have an integrated varistor 

## **Motor ratings[8] : HP (UL508) / kW (EN/IEC 60947-4-2) @ 40°C** 

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115 VAC 230 VAC 400 VAC 480 VAC 600 VAC 690 VAC<br>RGS..25 1/2HP / 0.18kW 11/2HP / 0.37kW 3HP / 0.75kW 3HP / 1.1kW 3HP / 1.5kW - / 1.5kW<br>RGS..50/51 1HP / 0.37kW 3HP / 1.1kW 5HP / 1.5kW 5HP / 2.2kW 3HP / 1.5kW - / 3.7kW<br>RGS..75 11/2HP / 0.56kW 3HP / 1.5kW 5HP / 3kW 71/2HP / 4kW 3HP / 1.5kW - / 4kW<br>RGS..90/91/92 2HP / 0.75kW 5HP / 2.2kW 71/2HP / 4kW 10HP / 5.5kW 5HP / 3.7kW - / 5.5kW<br>**----- End of picture text -----**<br>


8. Refer to Heatsink selection section 

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26/04/21 RGS_E, RGS_EDIN DS ENG 

Carlo Gavazzi Ltd. 

**RGS..E, RGS..EDIN** 

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## **Inputs** 

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RGS..D.. RGS..A..<br>Control voltage range  [9    ] RGS..23.. 3 - 32 VDC 20-275 VAC,<br>                                                             RGS..6x.. 4 - 32 VDC 24 (-10%) -190 VDC<br>Pick-up voltage                                   RGS..23.. 3.0 VDC<br>20 VAC/DC<br>                                                             RGS..6x..        3.8 VDC<br>Drop-out voltage RGS..23..<br>1.0 VDC 5 VAC/DC<br>                                                             RGS..6x..<br>Maximum reverse voltage 32 VDC -<br>Maximum response time pick-up     RGS1A.. 0.5 cycle + 500 μs @ 24 VDC 2 cycles @ 230 VAC/110 VDC<br>Maximum response time pick-up     RGS1B.. 350μs @ 24 VDC -<br>Response time drop-out 0.5 cycle + 500 μs @ 24 VDC 0.5 cycle + 40 ms @ 230 VAC/110 VDC<br>Input current @ 40°C See diagrams below<br>**----- End of picture text -----**<br>


9. DC control to be supplied by class 2 power source according to UL1310 

## **Input current vs. input voltage** 

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RGS..D RGS..A<br>DC input current vs input voltage AC input current vs input voltage<br>DC voltage AC voltage<br>**----- End of picture text -----**<br>


## **Derating curves for RGS..DIN** 

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13<br>12<br>11<br>10<br>9<br>8 RGS..50/90KKEDIN<br>7<br>RGS..25KKEDIN<br>6<br>5<br>4<br>0 10 20 30 40 50 60 70 80<br>Surrounding Ambient Temperature in °C<br>rrent in AAC<br>Load Cu<br>**----- End of picture text -----**<br>


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26/04/21 RGS_E, RGS_EDIN DS ENG 

Carlo Gavazzi Ltd. 

**RGS..E, RGS..EDIN** 

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## **Derating vs. spacing curves for RGS..DIN** 

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40mm & over 40mm & over<br>30mm 30mm<br>20mm 20mm<br>10mm 10mm<br>5mm 5mm<br>0mm 0mm<br>**----- End of picture text -----**<br>


## **Output power dissipation** 

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100<br>90<br>80<br>70<br>60<br>RGS..25<br>RGS..50<br>50<br>RGS..51<br>40 RGS..75<br>RGS..90, 91<br>30 RGS..92<br>20<br>10<br>0<br>0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90<br>Load current in AAC<br>Power dissipation in W<br>**----- End of picture text -----**<br>


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26/04/21 RGS_E, RGS_EDIN DS ENG 

Carlo Gavazzi Ltd. 

**RGS..E, RGS..EDIN** 

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## **Heatsink selection for RGS...** 

Thermal resistance [°C/W] of RGS1..25 

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Load  Surrounding ambient temperature  [°C]<br>current<br>20 30 40 50 60 70 80<br>[A]<br>25.0 3.11 2.72 2.33 1.94 1.55 1.17 0.78<br>22.5 3.55 3.10 2.66 2.22 1.77 1.33 0.89<br>20.0 4.10 3.59 3.08 2.56 2.05 1.54 1.03<br>17.5 4.83 4.23 3.63 3.02 2.42 1.81 1.21<br>15.0 5.83 5.10 4.37 3.64 2.91 2.18 1.46<br>12.5 7.24 6.34 5.43 4.53 3.62 2.72 1.81<br>10.0 9.43 8.25 7.07 5.89 4.71 3.54 2.36<br>7.5 13.17 11.53 9.88 8.23 6.59 4.94 3.29<br>5.0 nh nh nh 13.11 10.49 7.86 5.24<br>2.5 nh nh nh nh nh nh 11.47<br>**----- End of picture text -----**<br>


Thermal resistance [°C/W] of RGS1..5x 

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Load  Surrounding ambient temperature  [°C]<br>current<br>20 30 40 50 60 70 80<br>[A]<br>50.0 1.45 1.28 1.06 0.87 0.68 0.49 0.30<br>45.0 1.72 1.50 1.29 1.07 0.85 0.64 0.42<br>40.0 2.00 1.75 1.50 1.25 1.00 0.75 0.50<br>35.0 2.35 2.06 1.76 1.47 1.18 0.88 0.59<br>30.0 2.83 2.48 2.13 1.77 1.42 1.06 0.71<br>25.0 3.52 3.08 2.64 2.20 1.76 1.32 0.88<br>20.0 4.58 4.01 3.44 2.86 2.29 1.72 1.15<br>15.0 6.40 5.60 4.80 4.00 3.20 2.40 1.60<br>10.0 10.19 8.92 7.64 6.37 5.10 3.82 2.55<br>5.0 nh nh nh 13.94 11.15 8.36 5.57<br>**----- End of picture text -----**<br>


Thermal resistance [°C/W] of RGS1..75 

Thermal resistance [°C/W] of RGS1..9x 

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Load  Surrounding ambient temperature  [°C] Load  Surrounding ambient temperature  [°C]<br>current  current<br>20 30 40 50 60 70 80 20 30 40 50 60 70 80<br>[A] [A]<br>75.0 0.80 0.68 0.55 0.43 0.30 0.18 0.06 90.0 0.62 0.52 0.41 0.31 0.21 0.11 0.01<br>67.5 0.99 0.84 0.70 0.56 0.42 0.28 0.14 81.0 0.77 0.66 0.54 0.42 0.31 0.19 0.07<br>60.0 1.22 1.06 0.89 0.73 0.56 0.40 0.24 72.0 0.97 0.83 0.70 0.56 0.43 0.29 0.16<br>52.5 1.53 1.33 1.14 0.95 0.76 0.56 0.37 63.0 1.23 1.07 0.91 0.75 0.59 0.43 0.27<br>45.0 1.86 1.63 1.40 1.16 0.93 0.7 0.47 54.0 1.55 1.35 1.16 0.97 0.77 0.58 0.39<br>37.5 2.32 2.03 1.74 1.45 1.16 0.87 0.58 45.0 1.93 1.69 1.45 1.21 0.97 0.73 0.48<br>30.0 3.01 2.64 2.26 1.88 1.51 1.13 0.75 36.0 2.53 2.21 1.89 1.58 1.26 0.95 0.63<br>22.5 4.21 3.68 3.16 2.63 2.10 1.58 1.05 27.0 3.55 3.11 2.66 2.22 1.77 1.33 0.89<br>15.0 6.68 5.85 5.01 4.18 3.34 2.51 1.67 18.0 5.67 4.97 4.26 3.55 2.84 2.13 1.42<br>7.5 nh 12.71 10.89 9.08 7.26 5.45 3.63 9.0 nh 10.90 9.34 7.79 6.23 4.67 3.11<br>**----- End of picture text -----**<br>


'nh' means no heatsink necessary. The SSR should still be tightened to a surface to ensure optimal thermal dissipation 

**10** 

26/04/21 RGS_E, RGS_EDIN DS ENG 

Carlo Gavazzi Ltd. 

**RGS..E, RGS..EDIN** 

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## **Heatsink selection for RGS...HT** 

Thermal resistance [°C/W] of RGS1..25..HT 

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**----- Start of picture text -----**<br>
Load  Surrounding ambient temperature  [°C]<br>current<br>20 30 40 50 60 70 80<br>[A]<br>25.0 2.73 2.34 1.95 1.56 1.18 0.79 0.40<br>22.5 3.30 2.86 2.42 1.97 1.53 1.09 0.64<br>20.0 4.04 3.52 3.01 2.50 1.98 1.47 0.96<br>17.5 4.83 4.23 3.63 3.02 2.42 1.81 1.21<br>15.0 5.83 5.10 4.37 3.64 2.91 2.18 1.46<br>12.5 7.24 6.34 5.43 4.53 3.62 2.72 1.81<br>10.0 9.43 8.25 7.07 5.89 4.71 3.54 2.36<br>7.5 13.17 11.53 9.88 8.23 6.59 4.94 3.29<br>5.0 nh nh nh 13.11 10.49 7.86 5.24<br>2.5 nh nh nh nh nh nh 11.47<br>**----- End of picture text -----**<br>


Thermal resistance [°C/W] of RGS1..5x..HT 

**==> picture [234 x 188] intentionally omitted <==**

**----- Start of picture text -----**<br>
Load  Surrounding ambient temperature  [°C]<br>current<br>20 30 40 50 60 70 80<br>[A]<br>50.0 0.84 0.65 0.46 0.27 0.08 - -<br>45.0 1.12 0.90 0.69 0.47 0.25 0.04 -<br>40.0 1.47 1.22 0.97 0.72 0.47 0.22 -<br>35.0 1.94 1.64 1.35 1.06 0.76 0.47 0.17<br>30.0 2.57 2.22 1.86 1.51 1.15 0.80 0.44<br>25.0 3.48 3.03 2.59 2.15 1.71 1.27 0.83<br>20.0 4.58 4.01 3.44 2.86 2.29 1.72 1.15<br>15.0 6.40 5.60 4.80 4.00 3.20 2.40 1.60<br>10.0 10.19 8.92 7.64 6.37 5.10 3.82 2.55<br>5.0 nh nh nh 13.94 11.15 8.36 5.57<br>**----- End of picture text -----**<br>


Thermal resistance [°C/W] of RGS1..75..HT 

Thermal resistance [°C/W] of RGS1..9x..HT 

**==> picture [483 x 188] intentionally omitted <==**

**----- Start of picture text -----**<br>
Load  Surrounding ambient temperature  [°C] Load  Surrounding ambient temperature  [°C]<br>current  current<br>20 30 40 50 60 70 80 20 30 40 50 60 70 80<br>[A] [A]<br>75.0 0.25 0.13 0.00 - - - - 90.0 0.07 - - - - - -<br>67.5 0.44 0.29 0.15 0.01 - - - 81.0 0.22 0.11 - - - - -<br>60.0 0.67 0.51 0.34 0.18 0.01 - - 72.0 0.42 0.28 0.15 0.01 - - -<br>52.5 0.98 0.78 0.59 0.40 0.21 0.01 - 63.0 0.68 0.52 0.36 0.2 0.04 - -<br>45.0 1.39 1.16 0.93 0.70 0.46 0.23 - 54.0 1.03 0.84 0.65 0.45 0.26 0.06 -<br>37.5 1.99 1.70 1.41 1.12 0.83 0.54 0.25 45.0 1.54 1.30 1.05 0.81 0.57 0.33 0.09<br>30.0 2.91 2.53 2.15 1.78 1.40 1.02 0.65 36.0 2.32 2.00 1.69 1.37 1.05 0.74 0.42<br>22.5 4.21 3.68 3.16 2.63 2.10 1.58 1.05 27.0 3.55 3.11 2.66 2.22 1.77 1.33 0.89<br>15.0 6.68 5.85 5.01 4.18 3.34 2.51 1.67 18.0 5.67 4.97 4.26 3.55 2.84 2.13 1.42<br>7.5 14.53 12.71 10.89 9.08 7.26 5.45 3.63 9.0 12.46 10.90 9.34 7.79 6.23 4.67 3.11<br>**----- End of picture text -----**<br>


## **Thermal data** 

**==> picture [483 x 104] intentionally omitted <==**

**----- Start of picture text -----**<br>
RGS..25.. RGS..5x.. RGS..75.. RGS..9x..<br>Max. junction temperature 125°C 125°C 125°C 125°C<br>Junction to case thermal<br><0.45°C/W <0.3°C/W <0.25°C/W <0.20°C/W<br>resistance, Rthjc<br>Case to heatsink thermal<br>resistance, Rthcs10 <0.25°C/W <0.25°C/W <0.25°C/W <0.25°C/W<br>Case to heatsink thermal<br>resistance (RGS..HT), Rthcs_HT11 <0.9°C/W <0.85°C/W <0.8°C/W <0.8°C/W<br>**----- End of picture text -----**<br>


10. Thermal resistance case to heatsink values are applicable upon application of a fine layer of silicon based thermal paste HTS02S from Electrolube between SSR and heatsink. 

11. Thermal resistance case to heatsink values for RGS..HT are applicable for the RGHT thermal pad. 

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Carlo Gavazzi Ltd. 

**RGS..E, RGS..EDIN** 

|**Electromagnetic compatibility (EMC) - Immunity**|**Electromagnetic compatibility (EMC) - Immunity**|
|---|---|
|**Electrostatic discharge (ESD)**|EN/IEC 61000-4-2<br>8 kV air discharge, 4 kV contact(PC1)|
|**Radiated radio frequency**|EN/IEC 61000-4-3<br>10 V/m, from 80 MHz to 1 GHz (PC1)<br>10 V/m, from 1.4 to 2 GHz (PC1)<br>10 V/m,from 2 to 2.7 GHz(PC1)|
|**Electrical fast transient (burst)**|EN/IEC 61000-4-4<br>Output: 2 kV, 5 kHz (PC1)<br>Input: 1 kV,5 kHz(PC1)|
|**Conducted radio frequency**|EN/IEC 61000-4-6<br>10 V/m,from 0.15 to 80 MHz(PC1)|
|**Electrical surge13**|EN/IEC 61000-4-5<br>Output, line to line: 1 kV (PC1)<br>Output, line to earth: 2 kV (PC1)<br>Input, line to line, 1kV (PC2)<br>Input, line to earth, 2kV (PC2)|
|**Voltage dips**|EN/IEC 61000-4-11<br>0% for 0.5, 1 cycle (PC2)<br>40% for 10 cycles (PC2)<br>70% for 25 cycles (PC2)<br>80% for 250 cycles(PC2)|
|**Voltage interruptions**|EN/IEC 61000-4-11<br>0% for 5000 ms(PC2)|



13. An external varistor, S20K750, needs to be connected across the mains supply for the RGS1A69.. models 

**Electromagnetic compatibility (EMC) - Emissions Radio interference field** EN/IEC 55011 **emission (radiated)** Class A: from 30 to 1000 MHz EN/IEC 55011 **Radio interference voltage** Class A: from 0.15 to 30 MHz **emissions (conducted)** (External filter may be required - refer to Filtering section) 

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**RGS..E, RGS..EDIN** 

**==> picture [37 x 37] intentionally omitted <==**

|**Additional conformance to railway standards**|**Additional conformance to railway standards**|
|---|---|
|||
|**Applicable to variants**|RGS..|
|**Additional conformance**<br>**specifc to railway applications**|EN 50155<br>EN 45545-2<br>EN 50121-3-2|
|**Hazardous level conformance**<br>**according to EN 45545-2**|HL1, HL2 for requirement R23<br>HL1 for requirement R22|
|**Operating temperature class**<br>**according to EN 50155**|OT3 (-25 °C to +70 °C )|
|**Vibration and shock**|EN 61373 Category1, Class B|
|**Additional EMC conformance**|accodingto EN 50121-3-2|
|**Radiated radio frequency**<br>**immunity**|EN/IEC 61000-4-3<br>20 V/m, from 80 MHz to 1 GHz (PC1)<br>10 V/m, from 1.4 to 2 GHz (PC1)<br>5 V/m, from 2 to 2.7 GHz (PC1)<br>3V/m, 5.1 - 6 GHz (PC1)|
|**Power quality measurement**|EN/IEC 61000-4-30<br>50 Hz - 2 kHz, <8% THD (PASS)|



## 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. 

- 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. 

> Carlo Gavazzi Ltd. **13** 

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**RGS..E, RGS..EDIN** 

**==> picture [37 x 37] intentionally omitted <==**

## **Filter connection diagram** 

**==> picture [456 x 99] intentionally omitted <==**

**----- Start of picture text -----**<br>
1 Phase 3 Phase<br>L1 SSR<br>L2 SSR LOAD<br>L3 SSR<br>Rd Rd Rd Rd = 1MΩ, 0.5W<br>N Filter has to be connected<br>across both LOAD and SSR<br>**----- End of picture text -----**<br>


## **Filtering** 

**==> picture [484 x 37] intentionally omitted <==**

**----- Start of picture text -----**<br>
Part number Maximum heater current<br>Suggested filter for EN 55011<br>Class A compliance<br>RGS1.23..25 100nF / 275 V / X1 25 AAC<br>**----- End of picture text -----**<br>


|**Part number**|**Suggested flter for EN 55011**<br>**Class A compliance**|**Maximum heater current**|
|---|---|---|
|RGS1.23..25|100nF / 275 V / X1|25 AAC|
|RGS1.23..50|220nF / 275 V / X1<br>330nF / 275 V / X1|30 AAC<br>35 AAC|
|RGS1.60..25|150 nF / 760V / X1|25 AAC|
|RGS1.60..50|330 nF / 760V / X1|30 AAC|
|RGS1.60..51|220 nF / 760V / X1|30 AAC|
|RGS1.60..75|220 nF / 760V / X1<br>330 nF / 760V / X1|30 AAC<br>45 AAC|
|RGS1.60..90/91/92|220 nF / 760V / X1<br>330 nF / 760V / X1<br>680 nF / 760V / X1|30 AAC<br>45 AAC<br>65 AAC|



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**RGS..E, RGS..EDIN** 

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## **Environmental specifications** 

|**Operating temperature**|-40°C to +80°C(-40°F to +176°F)|
|---|---|
|**Storage temperature**|-40°C to +100°C(-40°F 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<br>of 2000 m|
|**Vibration resistance**|5g/ axis(2-100Hz, IEC 60068-2-6, EN 50155, EN 61373)|
|**Impact resistance**|15/11g/ms(EN 50155, EN 61373)|
|**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. 

||**Toxic or Harardous Substances and Elements**|**Toxic or Harardous Substances and Elements**|**Toxic or Harardous Substances and Elements**|**Toxic or Harardous Substances and Elements**|**Toxic or Harardous Substances and Elements**|**Toxic or Harardous Substances and Elements**|
|---|---|---|---|---|---|---|
|**Part Name**|Lead<br>(Pb)|Mercury<br>(Hg)|Cadmium<br>(Cd)|Hexavalent<br>Chromium<br>(Cr(Vl))|Polybrominat-<br>ed biphenyls<br>(PBB)|Polybromi-<br>nated diphenyl<br>ethers (PBDE)|
|**Power Unit**<br>**Assembly**|x|O|O|O|O|O|
|O: Indicates that said hazardous substance contained in homogeneous materials fot this part are below the limit<br>requirement of GB/T 26572.<br>X: Indicates that said hazardous substance contained in one of the homogeneous materials used for this part is above<br>the limit requirement of GB/T 26572.|||||||



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 

|零件名称|有毒或有害物质与元素|有毒或有害物质与元素|有毒或有害物质与元素|有毒或有害物质与元素|有毒或有害物质与元素|有毒或有害物质与元素|
|---|---|---|---|---|---|---|
||铅<br>(Pb)|汞<br>(Hg)|镉<br>(Cd)|六价铬<br>(Cr(Vl))|多溴化联苯<br>(PBB)|多溴联苯醚<br>(PBDE)|
|功率单元|x|O|O|O|O|O|
|O:此零件所有材料中含有的该有害物低于GB/T 26572的限定。<br>X: 此零件某种材料中含有的该有害物高于GB/T 26572的限定。|||||||



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**RGS..E, RGS..EDIN** 

**==> picture [37 x 37] intentionally omitted <==**

## **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**|**Protection co-ordination Type 1 according to UL 508**|**Protection co-ordination Type 1 according to UL 508**|**Protection co-ordination Type 1 according to UL 508**|**Protection co-ordination Type 1 according to UL 508**|
|---|---|---|---|---|
|**Part No.**|**Prospective short**<br>**circuit current**<br>**[kArms]**|**Max fuse size [A]**|**Class**|**Voltage [VAC]**|
|RGS..25|100|30|J or CC|Max. 600|
|RGS..50||30|J or CC||
|RGS..51||30|J or CC||
|RGS..75||30|J or CC||
|RGS..90 / 91||30|J or CC||
|RGS..92||80|J||



**==> picture [483 x 54] intentionally omitted <==**

**----- Start of picture text -----**<br>
Protection co-ordination Type 2 (IEC/EN 60947-4-2/ -4-3)<br>Part No. Prospective short  Ferraz Shawmut (Mersen) Siba Max. voltage<br>circuit current  Max fuse  Part number Max fuse  Part number [VAC]<br>[kArms]<br>size [A] size [A]<br>**----- End of picture text -----**<br>


|**Protection co-ordination Type 2(IEC/EN 60947-4-2/ -4-3)**|**Protection co-ordination Type 2(IEC/EN 60947-4-2/ -4-3)**|**Protection co-ordination Type 2(IEC/EN 60947-4-2/ -4-3)**|**Protection co-ordination Type 2(IEC/EN 60947-4-2/ -4-3)**|**Protection co-ordination Type 2(IEC/EN 60947-4-2/ -4-3)**|**Protection co-ordination Type 2(IEC/EN 60947-4-2/ -4-3)**|**Protection co-ordination Type 2(IEC/EN 60947-4-2/ -4-3)**|
|---|---|---|---|---|---|---|
|**Part No.**|**Prospective short**<br>**circuit current**<br>**[kArms]**|**Ferraz Shawmut (Mersen)**||**Siba**||**Max. voltage**<br>**[VAC]**|
|||**Max fuse**<br>**size [A]**|**Part number**|**Max fuse**<br>**size [A]**|**Part number**||
||||||||
|RGS..25|10|40|6.6xx CP URD 22x58 /40|32|50 142 06.32|660|
||100||||||
|RGS..50|10|80|6.621 CP URQ 27x60 /80|50|50 142 06.50|660|
|||70|A70QS70-4||||
||100|80|6.621 CP URQ 27x60 /80||||
|||70|A70QS70-4||||
|RGS..51|10|80|6.621 CP URQ 27x60 /80|-|-|660|
|||70|A70QS70-4||||
||100|80|6.621 CP URQ 27x60 /80||||
|||70|A70QS70-4||||
|RGS..75|10|100|6.621 CP URQ 27x60 /100<br>A70QS100-4|80|50 194 20.80|660|
||100||||||
|RGS..90/91|10|125|6.621 CP URQ 27x60 /125<br>A70QS125-4|100|50 194 20.100|660|
||100||||||
|RGS..92|10|125|6.621 CP URD 22x58 /125<br>A70QS125-4|125|50 194 20.125|660|
||100||||||
|RGS1A69..91|100|-|-|100|50 197 20.100|759|



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**RGS..E, RGS..EDIN** 

**==> picture [37 x 37] intentionally omitted <==**

**==> picture [484 x 43] intentionally omitted <==**

**----- Start of picture text -----**<br>
Protection co-ordination Type 2 with Minature Circuit Breakers (M.C.B.s)<br>Solid State Relay type ABB Model no. for  ABB Model no. for  Wire cross sectional area  Minimum length of Cu<br>Z - type M. C. B.  B - type M. C. B.  [mm [2] ] wire conductor [m] [14]<br>(rated current) (rated current)<br>**----- End of picture text -----**<br>


|**Protection co-ordination Type 2 with Minature Circuit Breakers(M.C.B.s)**|**Protection co-ordination Type 2 with Minature Circuit Breakers(M.C.B.s)**|**Protection co-ordination Type 2 with Minature Circuit Breakers(M.C.B.s)**|**Protection co-ordination Type 2 with Minature Circuit Breakers(M.C.B.s)**|**Protection co-ordination Type 2 with Minature Circuit Breakers(M.C.B.s)**|
|---|---|---|---|---|
|**Solid State Relay type**|**ABB Model no. for**<br>**Z - type M. C. B.**<br>**(rated current)**|**ABB Model no. for**<br>**B - type M. C. B.**<br>**(rated current)**|**Wire cross sectional area**<br>**[mm2]**|**Minimum length of Cu**<br>**wire conductor [m]14**|
||||||
|RGS..25<br>(525 A2s)|S201 - Z4 (4A)|S201 - B2 (2A)|1.0<br>1.0<br>1.5|21.0<br>21.0<br>31.5|
||S201 - Z6 UC (6A)|S201 - B2 (2A)|||
|RGS..50<br>RGS..51<br>(1800 A2s)|S201 - Z10 (10A)|S201-B4 (4A)|1.0<br>1.5<br>2.5|7.6<br>11.4<br>19.0|
||S201 - Z16 (16A)|S201-B6 (6A)|1.0<br>1.5<br>2.5<br>4.0|5.2<br>7.8<br>13.0<br>20.8|
||S201 - Z20 (20A)|S201-B10 (10A)|1.5<br>2.5|12.6<br>21.0|
||S201 - Z25 (25A)|S201-B13 (13A)|2.5<br>4.0|25.0<br>40.0|
||S202 - Z25 (25A)|S202-B13 (13A)|2.5<br>4.0|19.0<br>30.4|
|RGS..75<br>(3200 A2s)|S201 - Z25 (25A)|S201 - B13 (13A)|2.5<br>4.0<br>6.0|7.0<br>11.2<br>16.8|
|RGS..90<br>RGS..91<br>(6600 A2s)|S201 - Z20 (20A)|S201-B10 (10A)|1.5<br>2.5<br>4.0|4.2<br>7.0<br>11.2|
||S201 - Z32 (32A)|S201-B16 (16A)|2.5<br>4.0<br>6.0|13.0<br>20.8<br>31.2|
||S202 - Z20 (20A)|S202-B10 (10A)|1.5<br>2.5<br>4.0|1.8<br>3.0<br>4.8|
||S202 - Z32 (32A)|S202-B16 (16A)|2.5<br>4.0<br>6.0<br>10.0|5.0<br>8.0<br>12.0<br>20.0|
||S202 - Z50 (50A)|S202-B25 (25A)|4.0<br>6.0<br>10.0|14.8<br>22.2<br>37.0|
|RGS..92<br>(18000 A2s)|S201-Z32 (32A)|S201-B16 (16A)|2.5<br>4.0<br>6.0|3.0<br>4.8<br>7.2|
||S201-Z50 (50A)|S201-B25 (25A)|4.0<br>6.0<br>10.0<br>16.0|4.8<br>7.2<br>12.0<br>19.2|
||S201-Z63 (63A)|S201-B32 (32A)|6.0<br>10.0<br>16.0|7.2<br>12.0<br>19.2|



14. 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. 

S201 models refer to 1-pole M.C.B., S202 models refer to 2-poles M.C.B. 

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Carlo Gavazzi Ltd. 

**RGS..E, RGS..EDIN** 

**==> picture [37 x 37] intentionally omitted <==**

## **Dimensions - RGS** 

## **RGS...KKE** 

**==> picture [81 x 164] intentionally omitted <==**

**----- Start of picture text -----**<br>
17.8<br>3.2<br>.5<br>90<br>47<br>43.8<br>**----- End of picture text -----**<br>


**==> picture [48 x 7] intentionally omitted <==**

**----- Start of picture text -----**<br>
RGS...MKE<br>**----- End of picture text -----**<br>


**==> picture [193 x 169] intentionally omitted <==**

**----- Start of picture text -----**<br>
51<br>35.5 17.8<br>3.2<br>90 .5<br>47<br>43.8<br>**----- End of picture text -----**<br>


**==> picture [85 x 126] intentionally omitted <==**

**----- Start of picture text -----**<br>
62<br>44.5<br>35.5<br>**----- End of picture text -----**<br>


**RGS...KGE** 

**==> picture [178 x 167] intentionally omitted <==**

**----- Start of picture text -----**<br>
51<br>17.8 43.7<br>3.2<br>90 47.5<br>43.8<br>**----- End of picture text -----**<br>


**RGS...MGE** 

**==> picture [189 x 162] intentionally omitted <==**

**----- Start of picture text -----**<br>
62<br>17.8 43.7<br>90 47.5 3.2<br>43.8<br>**----- End of picture text -----**<br>


Housing width tolerance +0.5mm, -0mm as per DIN 43880. All other tolerances +/- 0.5mm. Dimensions in mm. 

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**RGS..E, RGS..EDIN** 

**==> picture [37 x 37] intentionally omitted <==**

## **Dimensions - RGS..DIN** 

## **RGS...KKEDIN** 

## **RGS...MKEDIN** 

**==> picture [473 x 239] intentionally omitted <==**

**----- Start of picture text -----**<br>
17.89.5 5 35.56051 17.89.5 5 53.244.570.7<br>35.5<br>1 L1<br>1 L1<br>3.2<br>3.2<br>2 T1 2 T1<br>ø4.3 ø4.3<br>106 98 90<br>106 98 90<br>43.8 43.8<br>**----- End of picture text -----**<br>


Housing width tolerance +0.5mm, -0mm as per DIN 43880. All other tolerances +/- 0.5mm. Dimensions in mm. 

## **Terminal layout** 

## **RGS...KKE** 

**==> picture [48 x 236] intentionally omitted <==**

## **RGS...MKE** 

**==> picture [48 x 232] intentionally omitted <==**

**----- Start of picture text -----**<br>
1 L1<br>A1 L1<br>A2 T1<br>ON<br>A1 A2<br>2 T1<br>Sctihw<br>Sttae<br>Sdilo<br>GR<br>**----- End of picture text -----**<br>


1/L1: Mains supply connection 2/T1: Load connection A1 (+): Positive control signal A2 (-): Control ground 

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26/04/21 RGS_E, RGS_EDIN DS ENG 

Carlo Gavazzi Ltd. 

**RGS..E, RGS..EDIN** 

## **Connection Diagram** 

* depends on system requirements 

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L1<br>L2/N<br>ll *<br>H «=O<br>Control ©<br>input<br>_ Load<br>**----- End of picture text -----**<br>


## **Functional diagram** 

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DC control AC control<br>A1( +) REGULATION T1 A1(+~) REGULATION T1<br>ZC<br>ZC<br>IO<br>A2(-) taal L1 A2(-~) Poa L1<br>**----- End of picture text -----**<br>


Note: Varistor on output is not included in the RGS1A69... models 

## **RGS to heatsink mounting instructions** 

Thermal stress will reduce the lifetime of the SSR. Therefore it is necessary to select the appropriate heatsinks, taking into account the surrounding temperature, load current and the duty cycle. A fine layer of thermally conductive silicone paste must be evenly applied to the back of the SSR. RGS should be mounted on the heatsink with two M5 x 30mm screws ( **SRWKITM5X30MM** ).  Each screw shall be gradually tightened (alternating between the two) until both are tightened with a torque of 0.75 Nm. Both screws are the tightened to their final mounting torque of 1.5 Nm. 

In case of a thermal pad attached to the back of the SSR, no thermal paste is required. The RGS is gradually tightened (alternating between the 2 screws) to a maximum torque of 1.5Nm. 

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M5 x (18mm + thread depth in heatsink).<br>Mounting screws available with Carlo Gavazzi heatsinks.<br>ESA<br>1.5 Nm<br>Use thermal transfer material<br>(thermal paste or thermal pad)<br>**----- End of picture text -----**<br>


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26/04/21 RGS_E, RGS_EDIN DS ENG 

Carlo Gavazzi Ltd. 

**RGS..E, RGS..EDIN** 

## **RGS to RGS1DIN mounting instructions** 

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RGS Solid State Relay<br>RGS1SDIN<br>2xscrews + washer M5x23mm, Torx T25<br>(provided with RGS1DIN)<br>Max. mounting torque: 1.5Nm<br>LO Thermal Pad provided with RGS1SDIN<br>eff<br>are<br>Palit<br>RGS..DIN installation instructions<br>**----- End of picture text -----**<br>


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26/04/21 RGS_E, RGS_EDIN DS ENG 

Carlo Gavazzi Ltd. 

**RGS..E, RGS..EDIN** 

## **Connection Specifications** 

|**Power connections**<br>~~Cees~~|**Power connections**<br>~~Cees~~|**Power connections**<br>~~Cees~~|**Power connections**<br>~~Cees~~|
|---|---|---|---|
|**Terminals**<br>~~Cees~~<br>~~esPe~~|1/L1, 2/T1<br>~~Pe~~|||
|**Conductors**<br>~~es~~<br>~~esPe~~|Use 75°C copper(Cu)conductors<br>~~Pe~~|||
|~~esPe~~<br>~~ae ee~~|RGS..KKE, RGS..MKE<br>~~Pe~~||RGS..KGE, RGS..MGE|
||~~Pe~~<br>~~ee~~|~~ee~~||
|**Connection type**<br>~~ae ee~~<br>~~ee~~|M4 screw with captivated washer<br>~~ee~~||M5 screw with box clamp|
|**Stripping length**<br>~~ae ee~~<br>~~ee~~|12 mm<br>~~ee~~||11 mm|
|**Rigid (solid & stranded)**<br>**UL/CSA rated data**<br>~~ee~~|2x 2.5 – 6.0 mm²<br>2x 14 – 10 AWG|1x 2.5 – 6.0 mm²<br>1x 14 – 10 AWG|1x 2.5 – 25.0 mm²<br>1x 14 – 3 AWG|
|**Flexible with end sleeve**|2x 1.0 – 2.5 mm²<br>2x 2.5 – 4.0 mm²<br>2x 18 – 14 AWG<br>2x 14 – 12 AWG|1x 1.0 – 4.0 mm²<br>1x 18 – 12 AWG|1x 2.5 – 16.0 mm²<br>1x 14 – 6 AWG|
|**Flexible without end**<br>**sleeve**|2x 1.0 – 2.5 mm²<br>2x 2.5 – 6.0 mm²<br>2x 18 – 14 AWG<br>2x 14 – 10 AWG|1x 1.0 – 6.0mm²<br>1x 18 –10 AWG|1x 4.0 – 25.0 mm²<br>1x 12 – 3 AWG|
|**Torque specifications**|Posidrive bit 2<br>UL: 2.0 Nm (17.7 lb-in)<br>IEC: 1.5 – 2.0 Nm(13.3 – 17.7 lb-in)||Posidrive bit 2<br>UL: 2.5 Nm (22 lb-in)<br>IEC: 2.5 – 3.0 Nm(22 – 26.6 lb-in)|
|**Aperture for termination**<br>**lug (fork or ring)**|12.3 mm||n/a|



|**Control connections**<br>~~Cn~~<br>~~es~~|**Control connections**<br>~~Cn~~<br>~~es~~|**Control connections**<br>~~Cn~~<br>~~es~~|**Control connections**<br>~~Cn~~<br>~~es~~|
|---|---|---|---|
|**Terminals**<br>~~Cn~~<br>~~es~~<br>~~ee~~|A1+, A2-|||
|**Conductors**<br>~~es~~<br>~~ee~~|Use 60/75°C copper (Cu) conductors|||
|~~ee~~<br>~~es~~|RGS..KKE, RGS..KGE<br>screw control terminal||RGS..MKE<br>spring plug control terminal|
||~~GO~~|~~GO~~|~~GO~~|
|**Connection type**<br>~~es~~<br>~~es~~|M3 screw with captivated washer<br>~~GO~~||Spring loaded<br>~~GO~~|
|**Stripping length**<br>~~es~~<br>~~es~~|8 mm<br>~~GO~~||12-13 mm<br>~~GO~~|
|**Rigid (solid & stranded)**<br>**UL/CSA rated data**<br>~~es~~|2x 0.5 - 2.5 mm2<br>2x 18 - 12 AWG|1x 0.5 - 2.5 mm2<br>1x 18 - 12 AWG|1x 0.2 - 2.5 mm2<br>1x 24 - 12 AWG|
|**Flexible with end sleeve**|2x 0.5 - 2.5 mm2<br>2x 18 - 12 AWG|1x 0.5 - 2.5 mm2<br>1x 18 - 12 AWG|-|
|**Torque specification**|Posidrive 1<br>UL: 0.5 Nm (4.4 lb-in),<br>IEC: 0.5-0.6 Nm (4.4-5.3 lb-in)||-|



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26/04/21 RGS_E, RGS_EDIN DS ENG 

Carlo Gavazzi Ltd. 

**RGS..E, RGS..EDIN** 

## **Bulk packaging option** 

- Packing qty.: 40 pcs. 

- Total weight : approx. 4.2 Kgs 

## COPYRIGHT ©2021 

Content subject to change. Download the PDF: https://gavazziautomation.com 

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26/04/21 RGS_E, RGS_EDIN DS ENG 

Carlo Gavazzi Ltd.