RGS1A60D92KEM

**RG..M** 

## **RG..M** 

## **RG 1-phase solid state relays with integrated monitoring** 

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•<br>•<br>•<br>| [><br>•<br>RGS..M RGC..M<br>**----- End of picture text -----**<br>


## **Benefits** 

- **Cost savings by timely detection of failures.** Integrated monitoring for load or solid state relay malfunction provides immediate feedback to the PLC for a timely reaction to prevent non-conforming material. 

- An Alarm LED 

- **Reduced efforts in troubleshooting.** on the front façade of the solid state relay is available to indicate the problematic zone. 

- **Increased machine uptime.** Integrated overvoltage protection prevents the solid state relay from breaking down due to uncontrolled transients. 

- **Long lifetime.** Wire bonding technology reduces thermal and mechanical stresses of the output chips allowing a larger number of operational cycles compared to other assembly technologies. 

- **Fast installation and wiring.** The RG..M is equipped with pluggable spring terminals for fast wiring of control connections. 

## **Description** 

- **Panel space savings.** Adopts the RG slimline compact platform with a minimum product width of 17.8 mm for ratings up to 30 AAC @ 40°C. 

The **RG..M** solid state relays incorporate monitoring functions for fast failure detection on top of the switching capability in a slim 17.8 mm platform (up to 30 AAC). Timely detection for mains loss, load loss, SSR open and short circuit, SSR internal fault and supply out range are all possible with the **RG..M** series. This range of solid state relays is equipped with an Alarm LED for visual indication of fault presence as well as an alarm transistor output for remote signalling. 

- **Accommodates UL508A requirements for Industrial Control Panels.** RGC..M is certified as a listed product and additionally all RG..M models carry a 100kArms Short Circuit Current Rating. 

The **RG..M** solid state relays are available either with integrated heatsink, **RGC..M** and without heatsink, **RGS..M** . Ratings go up to 660 VAC, 65 AAC for **RGC..M** and 90 AAC for **RGS…M** . The **RG..M** has to be supplied with a 24 VDC voltage and is controlled with a DC voltage between 4 and 32 VDC. 

Specifications are noted at 25°C unless otherwise stated. 

## **Applications** 

Typical applications for the **RG..M** include plastic processing machinery, packaging machines, semiconductor machines, wood manufacturing machinery and drying equipment. 

The **RG..M** is the ideal solution where it is crucial to avoid re-work of processed material that may occur in case a malfunction is not detected in a timely manner. This is especially applicable in processes where a deviation in temperature control needs to be detected immediately and in temperature control processes that do not have an accurate temperature feedback as is very typical with applications using Infrared heaters. 

## **Main features** 

- 1-phase zero cross solid state relay with integrated monitoring for solid state relay or load malfunction 

- Normally open or normally closed alarm transistor output for remote signaling of an alarm condition 

- Ratings up to 90 AAC, 660 VAC with a control voltage range of 4-32 VDC 

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05/09/2018 RG M DS ENG 

Carlo Gavazzi Ltd. 

**RG..M** 

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## **Order code** 

## **RGC1A D EM** 

Enter the code entering the corresponding option instead of 

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Code Option Description Comments<br>R -<br>G - Solid State Relay (RG) with integrated heatsink<br>C -<br>1 - Number of poles<br>A - Switching mode: zero cross<br>23 Rated voltage: 230 VAC (42-265 VAC) 50/60 Hz<br>60 Rated voltage: 600 VAC (150-660 VAC) 50/60 Hz<br>D - Control voltage: 4-32 VDC<br>15 Rated current<br>25 Rated current<br>30 Rated current<br>31 Rated current<br>42 Rated current<br>62 Rated current<br>K Screw connection for power terminals<br>G Box clamp connection for power terminals<br>E - Connection configuration<br>M - Integrated monitoring<br>**----- End of picture text -----**<br>


## **Selection guide - versions with integrated heatsink (RGC)** 

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Maximum rated operational current @ 40°C<br>20 AAC 25 AAC 30 AAC 30 AAC 43 AAC 65 AAC<br>Rated Control Connection  (525 A [2] s) (1800 A [2] s) (1800 A [2] s) (6600 A [2] s) (18000 A [2] s) (18000 A [2] s)<br>voltage voltage power<br>Product width<br>17.8 mm 17.8 mm 22.5 mm 17.8 mm 35 mm 70 mm<br>230 VAC Screw RGC1A23D15KEM - - RGC1A23D31KEM - -<br>4 - 32 Screw RGC1A60D15KEM RGC1A60D25KEM RGC1A60D30KEM RGC1A60D31KEM - -<br>600 VAC VDC<br>Box clamp - - - - RGC1A60D42GEM RGC1A60D62GEM<br>**----- End of picture text -----**<br>


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05/09/2018 RG M DS ENG 

Carlo Gavazzi Ltd. 

**RG..M** 

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## **Order code** 

## **RGS1A D EM** 

Enter the code entering the corresponding option instead of 

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Code Option Description Comments<br>R -<br>G - Solid State Relay (RG) without heatsink<br>S -<br>1 - Number of poles<br>A - Switching mode: zero cross<br>23 Rated voltage: 230 VAC (42-265 VAC) 50/60 Hz<br>60 Rated voltage: 600 VAC (150-660 VAC) 50/60 Hz<br>D - Control voltage: 4-32 VDC<br>25 Rated current<br>50 Rated current<br>92 Rated current<br>K Screw connection for power terminals<br>G Box clamp connection for power terminals<br>E - Connection configuration<br>M - Integrated monitoring<br>**----- End of picture text -----**<br>


## **Selection guide - versions without heatsink (RGS)** 

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Maximum rated operational current<br>25 AAC 50 AAC 90 AAC<br>Rated Control Connection  (525 A [2] s) (1800 A [2] s) (18000 A [2] s)<br>voltage voltage power<br>Product width<br>17.8 mm 17.8 mm 17.8 mm<br>230 VAC Screw RGS1A23D25KEM - -<br>4 - 32<br>Screw RGS1A60D25KEM RGS1A60D50KEM RGS1A60D92KEM<br>600 VAC VDC<br>Box clamp - - RGS1A60D92GEM<br>**----- End of picture text -----**<br>


## **Carlo Gavazzi compatible components** 

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Description Component code Notes<br>Plugs RG3M15AL Spring plug labelled 'NC NO COM' Packed x10 pcs.<br>1 pc. included in the RG..M packaging<br>RG3M15CTR Spring plug labelled 'A1+ A2- Us+'. Packed x10 pcs.<br>1 pc. included in the RG..M packaging<br>Heatsinks RHS… Heatsinks for RGS models<br>**----- End of picture text -----**<br>


## **Further reading** 

|**Information**|**Where to fnd it**|
|---|---|
|Online heatsink selector tool for RGS|<br>http://www.productselection.net/heatsink/heatsinkSelector.php?LANG=UK|



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**RG..M** 

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## **Structure** 

## **RGC..M** 

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Heatsink*<br>1/L1<br>Alarm output<br>LED<br>LED<br>A1, A2, Us+<br>2/T1<br>**----- End of picture text -----**<br>


- integrated for RGC..M versions. RGS..M do not have an integrated heatsink 

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Element Component Function<br>1/L1 Power connection Mains connection<br>2/T1 Power connection Load connection<br>NC – Normally Closed<br>NO – Normally Open<br>Alarm<br>Transistor output COM - Common<br>output<br>Max rating: 35VDC, 100mA<br>A1+, A2- Control connection<br>3-pole plug for supply (Us+) and control voltage (A1+, A2-) connection<br>Us+ Supply connection<br>Flashing – Supply (Us) ON, Control (Uc) OFF<br>Green LED CONTROL indicator<br>ON – Supply (Us) ON, Control (Uc) ON<br>Red LED ALARM indicator Indicates the presence of an Alarm condition<br>Integrated for RGC..M versions<br>Heatsink Integrated heatsink<br>RGS..M versions do not have an integrated heatsink<br>**----- End of picture text -----**<br>


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**RG..M** 

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## **Features** 

## **General data** 

|**Material**|PA66 (UL94 V0), RAL7035<br>850°C,750°C/2s accordingto GWIT and GWFI requirements of EN 60335-1|
|---|---|
|**Mounting**|DIN rail(for RGC only)orpanel|
|**Touch Protection**|IP20|
|**Overvoltage Category**|III,6 kV(1.2/50μs)rated impulse withstand voltage|
|**Isolation**|Input to Output: 2500 Vrms<br>Input and Output to heatsink: 4000 Vrms|
|**Weight**|RGS..25:  approx. 170 g<br>RGS..50:  approx. 170 g<br>RGS..92:  approx. 170 g<br>RGC..15:  approx. 310 g<br>RGC..25:  approx. 310 g<br>RGC..30:  approx. 425 g<br>RGC..31:  approx. 310 g<br>RGC..42:  approx. 520 g<br>RGC..62:  approx. 1030g|



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Carlo Gavazzi Ltd. 

**RG..M** 

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## **Performance** 

## **RGS.. Output** 

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RGS..23..25 RGS..60..25 RGS..60..50 RGS..60..92<br>Operational voltage range, Ue 42 - 265 VAC 150 - 660 VAC<br>Blocking voltage 800 Vp 1200 Vp<br>Switching mode Zero cross switching<br>Max. operational<br>25 AAC 25 AAC 50 AAC 90 AAC<br>current: AC-51 rating [1]<br>Operational frequency range 50/60 Hz<br>Power factor > 0.9<br>Output protection Integrated varistor across L1-T1<br>Leakage current @ rated voltage < 5 mAAC<br>Minimum operational current 150 mAAC 150 mAAC 250 mAAC 500 mAAC<br>Non-repetitive surge current (t=10ms) 325 Ap 325 Ap 600 Ap 1900 Ap<br>I²t for fusing (t=10ms), minimum 525 A²s 525 A²s 1800 A²s 18000 A²s<br>CONTROL ON -  Green, fully ON<br>LED indication - CONTROL Supply ON - Green, flashing 0.5s ON, 0.5s OFF<br>Critical dV/dt (@Tj init = 40°C) 1000 V/μs<br>**----- End of picture text -----**<br>


1. Max. rated current with suitable heatsink. Refer to RGS heatsink selection tables. 

## **RGC.. Output** 

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RGC..23..15 RGC..60..15 RGC..60..25 RGC..60..30<br>Operational voltage range, Ue 42-265 VAC 150- 660 VAC<br>Blocking voltage 800 Vp 1200 Vp<br>Switching mode Zero cross switching<br>Max. operational 20 AAC 20 AAC 30 AAC 30 AAC<br>current: AC-51 rating @ 25°C [2]<br>Max. operational  20 AAC 20 AAC 25 AAC 30 AAC<br>current: AC-51 rating @ 40°C [2]<br>Operational frequency range 50/60 Hz<br>Power factor > 0.9<br>Output protection Integrated varistor across L1-T1<br>Leakage current @ rated voltage < 5 mAAC<br>Minimum operational current 150 mAAC 150 mAAC 250 mAAC 250 mAAC<br>Non-repetitive surge current (t=10ms) 325 Ap 325 Ap 600 Ap 600 Ap<br>I²t for fusing (t=10ms), minimum 525 A [2] s 525 A [2] s 1800 A [2] s 1800 A [2] s<br>CONTROL ON -  Green, fully ON<br>LED indication - CONTROL<br>Supply ON - Green, flashing 0.5s ON, 0.5s OFF<br>Critical dV/dt (@Tj init = 40°C) 1000 V/μs<br>**----- End of picture text -----**<br>


2. Refer to RGC current derating curves for current ratings at different surrounding temperatures. 

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**RG..M** 

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## **RGC.. Output** 

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RGC..23..31 RGC..60..31 RGC..60..42 RGC..60..62<br>Operational voltage range, Ue 42-265 VAC 150- 660 VAC<br>Blocking voltage 800 Vp 1200 Vp<br>Switching mode Zero cross switching<br>Max. operational 30 AAC 30 AAC 50 AAC 75 AAC<br>current: AC-51 rating @ 25°C [2]<br>Max. operational  30 AAC 30 AAC 43 AAC 65 AAC<br>current: AC-51 rating @ 40°C [2]<br>Operational frequency range 50/60 Hz<br>Power factor > 0.9<br>Output protection Integrated varistor across L1-T1<br>Leakage current @ rated voltage < 5 mAAC<br>Minimum operational current 400 mAAC 400 mAAC 500 mAAC 500 mAAC<br>Non-repetitive surge current (t=10ms) 1150 Ap 1150 Ap 1900 Ap 1900 Ap<br>I²t for fusing (t=10ms), minimum 6600 A [2] s 6600 A [2] s 18000 A [2] s 18000 A [2] s<br>CONTROL ON -  Green, fully ON<br>LED indication - CONTROL Supply ON - Green, flashing 0.5s ON, 0.5s OFF<br>Critical dV/dt (@Tj init = 40°C) 1000 V/μs<br>**----- End of picture text -----**<br>


2. Refer to RGC current derating curves for current ratings at different surrounding temperatures. 

## **Inputs** 

|**Control voltage range (Uc): A1, A2**|4-32 VDC|
|---|---|
|**Pick-up voltage**|4 VDC|
|**Drop-out voltage**|1.2 VDC|
|**Maximum reverse voltage**|32 VDC|
|**Maximum response timepick-up**|½cycle|
|**Response time drop-out**|½cycle|
|**Input current@ 40oC**|See diagram below|



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

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1.4mA<br>1.2mA<br>1.0mA<br>0.8mA<br>0.6mA<br>0.4mA<br>0.2mA<br>0.0mA<br>2VDC 4VDC 8VDC 12VDC 16VDC 20VDC 24VDC 28VDC 32VDC<br>**----- End of picture text -----**<br>


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**RG..M** 

|**Power supply specifications**<br>>|**Power supply specifications**<br>>|**Power supply specifications**<br>>|
|---|---|---|
||**Supply port rating, Us**|24 VDC|
||**Supply voltage range, Us**|19.2 – 28.8 VDC*|
||**Reversepolarity protection**|Yes|
||**Maximum supply current**<br>**LED Indication, Supply ON**|40 mA<br>CNTRL LED, green(flashing)|



* to be supplied by class 2 power source according to UL1310 

|**Function**<br>~~a~~|Operates in case of an alarm condition present on the RG..M|
|---|---|
|**Output type**<br>~~a~~|Transistor output<br>Normally closed (NC - COM)<br>Normally open (NO - COM)<br>**NO**<br>**(+)**<br>**NC**<br>**(+)**<br>**COM**<br>**(-)**|
|**Output rating**|35 VDC,100 mA|
|**Isolation**|NC,NO,COM to A1+,A2-,Us+: 500 VAC|



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**RG..M** 

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## **Output power dissipation** 

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RGS..<br>90<br>80<br>70<br>60<br>50<br>40 RGS..25<br>RGS..50<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 AACrms<br>RGC..<br>90<br>80<br>70<br>60<br>50<br>RGC..15<br>40<br>RGC..25, 30<br>RGC..31<br>30 RGC..42, 62<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<br>Load current in AACrms<br>Power dissipation in W<br>Power dissipation in W<br>**----- End of picture text -----**<br>


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**RG..M** 

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## **RGS.. Heatsink selection** 

Thermal resistance [°C/W] of RGS..25 

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Surrounding ambient temperature  [°C]<br>Load current AC-51 [A] 20 30 40 50 60 65<br>25 3.11 2.72 2.33 1.94 1.55 1.36<br>22.5 3.55 3.10 2.66 2.22 1.77 1.55<br>20 4.10 3.59 3.08 2.56 2.05 1.80<br>17.5 4.83 4.23 3.63 3.02 2.42 2.12<br>15 5.83 5.10 4.37 3.64 2.91 2.55<br>12.5 7.24 6.34 5.43 4.53 3.62 3.17<br>10 9.43 8.25 7.07 5.89 4.71 4.13<br>7.5 13.17 11.53 9.88 8.23 6.59 5.77<br>5 --- 18.35 15.73 13.11 10.49 9.18<br>2.5 --- --- --- --- --- ---<br>**----- End of picture text -----**<br>


## Thermal resistance [°C/W] of RGS..50 

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Surrounding ambient temperature  [°C]<br>Load current AC-51 [A] 20 30 40 50 60 65<br>50 1.45 1.28 1.06 0.87 0.68 0.59<br>45 1.72 1.50 1.29 1.07 0.85 0.75<br>40 2.00 1.75 1.50 1.25 1.00 0.87<br>35 2.35 2.06 1.76 1.47 1.18 1.03<br>30 2.83 2.48 2.13 1.77 1.42 1.24<br>25 3.52 3.08 2.64 2.20 1.76 1.54<br>20 4.58 4.01 3.44 2.86 2.29 2.01<br>15 6.40 5.60 4.80 4.00 3.20 2.80<br>10 10.19 8.92 7.64 6.37 5.10 4.46<br>5 -- 19.51 16.72 13.94 11.15 9.76<br>**----- End of picture text -----**<br>


## Thermal resistance [°C/W] of RGS..92 

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Surrounding ambient temperature  [°C]<br>Load current AC-51 [A] 20 30 40 50 60 65<br>90 0.62 0.52 0.41 0.31 0.21 0.16<br>81 0.77 0.66 0.54 0.42 0.31 0.25<br>72 0.97 0.83 0.70 0.56 0.43 0.36<br>63 1.23 1.07 0.91 0.75 0.59 0.51<br>54 1.55 1.35 1.16 0.97 0.77 0.68<br>45 1.93 1.69 1.45 1.21 0.97 0.85<br>36 2.53 2.21 1.89 1.58 1.26 1.11<br>27 3.55 3.11 2.66 2.22 1.77 1.55<br>18 5.67 4.97 4.26 3.55 2.84 2.48<br>9 12.46 10.90 9.34 7.79 6.23 5.45<br>**----- End of picture text -----**<br>


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**RG..M** 

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## **RGS.. Thermal data** 

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RGS..25 RGS..50 RGS..92<br>Max. junction temperature 125°C<br>Heatsink temperature 100°C<br>Junction to case thermal<br>< 0.45°C/W < 0.30 °C/W < 0.20 °C/W<br>resistance, Rthjc<br>Case to heatsink thermal<br>< 0.25 °C/W<br>resistance, Rthcs<br>**----- End of picture text -----**<br>


## **RGC.. Current derating** 

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90<br>80<br>70<br>60<br>RGC..62<br>50 RGC..42<br>RGC..30, RGC..31<br>40<br>RGC..25<br>30 RGC..15<br>20<br>10<br>0<br>0 5 10 15 20 25 30 35 40 45 50 55 60 65<br>Surrounding ambient temperature in °C<br>Load current in AAC<br>**----- End of picture text -----**<br>


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**RG..M** 

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 RGC.. Derating vs spacing<br>RGC...15<br>25<br>20<br>15<br>10mm & over<br>5mm<br>10<br>0mm<br>5<br>0<br>0 5 10 15 20 25 30 35 40 45 50 55 60 65<br>Surrounding ambient temperature in °C<br>RGC...25<br>35<br>30<br>22.5mm & o<br>25<br>22.5mm & over10mm<br>20 10mm5mm<br>5mm0mm<br>15<br>0mm<br>10<br>5<br>0<br>0 5 10 15 20 25 30 35 40 45 50 55 60 65<br>Surrounding ambient temperature in °C<br>RGC...30<br>35<br>30<br>25<br>Stand alone unit<br>20<br>10mm & over<br>5mm<br>15<br>0mm<br>10<br>5<br>0<br>0 5 10 15 20 25 30 35 40 45 50 55 60 65<br>Surrounding ambient temperature in °C<br>Load current in AAC<br>Load current in AAC<br>Load current in AAC<br>Load current in AAC<br>**----- End of picture text -----**<br>


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**RG..M** 

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## **RGC.. Derating vs spacing** 

## **RGC...31** 

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35<br>30<br>25<br>Stand alone unit<br>20mm<br>20<br>5mm<br>0mm<br>15<br>10<br>5<br>0 5 10 15 20 25 30 35 40 45 50 55 60 65<br>Surrounding ambient temperature in °C<br>RGC...42<br>60<br>50<br>22.5mm &<br>40<br>22.5mm & over0mm<br>30<br>0mm<br>20<br>10<br>0<br>0 5 10 15 20 25 30 35 40 45 50 55 60 65<br>Surrounding ambient temperature in °CS di bi t t t i C<br>RGC...62<br>75<br>70<br>65<br>60<br>55 Stand alone unit<br>50<br>10mm & over<br>45<br>0mm<br>40<br>35<br>30<br>0 5 10 15 20 25 30 35 40 45 50 55 60 65<br>Surrounding ambient temperature in °C<br>Load current in AAC<br>Load current in AACLoad current in AAC<br>Load current in AAC<br>Load current in AAC<br>**----- End of picture text -----**<br>


> Carlo Gavazzi Ltd. **13** 

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## **RG..M** 

**Compatibility and conformance** > RGC: **Approvals** RGS: C€ Aki @ til ~~em~~ LVD: EN 60947-4-3 EMCD: EN 60947-4-3 UL: UL508, E172877, NMFT **Standards compliance** cUL: C22.2 No. 14-13, E172877, NMFT7 UR: UL508, E172877, NMFT2 cUR: C22.2 No. 14-13, E172877, NMFT8 CSA: C22.2 No. 14-13, 204075 **UL short circuit current rating** 100 kArms (refer to short circuit current section, Type 1 – UL508) ~~es~~ 

|**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>3 V/m,from 2 to 2.7 GHz(PC1)|
|**Electrical fast transient (burst)**|EN/IEC 61000-4-4<br>Output: 2 kV, 5 kHz & 100 kHz (PC1)<br>Input: 1 kV,5 kHz & 100 kHz(PC2)|
|**Conducted radio frequency3**|EN/IEC 61000-4-6<br>10V/m, from 0.15 to 80 MHz(PC1)|
|**Electrical surge**|EN/IEC 61000-4-5<br>Output, line to line: 1 kV (PC2)<br>Output, line to earth: 2 kV (PC2)<br>Input, line to line: 1.1 kV (PC2)<br>Input, line to earth: 2.2 kV (PC2)<br>Signal, line to line: 500V (PC1)<br>Signal, line to earth: 500 V (PC1)<br>NC, NO, COM, line to line: 500 V (PC1)<br>NC, NO, COM, line to earth: 500 V(PC1)|
|**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 5000ms(PC2)|



3. External Power Supply & Control inputs must be installed together to maintain products suscepibility to Radio Interference. Alarm output lines (NO NC COM) must be installed together to maintain products susceptibility to Radio Interference. 

**Electromagnetic compatibility (EMC) - Emissions Radio interference field emis-** EN/IEC 55011 **sion (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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**RG..M** 

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## **Filter connection diagram** 

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L T<br>Phase<br>SSR<br>Phase / Neutral LOAD<br>**----- End of picture text -----**<br>


## **Filtering** 

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**----- Start of picture text -----**<br>
Part number Suggested filter for EN 55011 Class  Maximum heater current [AAC]<br>A compliance<br>**----- End of picture text -----**<br>


|**Part number**|**Suggested flter for EN 55011 Class**<br>**A compliance**|**Maximum heater current [AAC]**|
|---|---|---|
||||
|RGS..25|220 nF / xxx V / X1|25 A|
|RGS..50|330 nF / xxx V / X1|45 A|
|RGS..92|680 nF / xxx V / X1|65 A|
|RGC..15|100 nF / xxx V / X1|20 A|
|RGC..25|220 nF / xxx V / X1|25 A|
|RGC..30|220 nF / xxx V / X1|30 A|
|RGC..31|330 nF / xxx V / X1|30 A|
|RGC..42|330 nF / xxx V / X1|40 A|
|RGC..62|680 nF / xxx V / X1|65 A|



xxx = 275 for RGS1A23..., RGC1A23... xxx = 760 for RGS1A60..., RGC1A60... 

## 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 (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. **15** 

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**RG..M** 

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

## **Environmental specifications** 

|**Operating temperature**|-20 to +65 °C(-4 to +149 °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 100m up to a maximum<br>of 2000 m|
|**Vibration resistance**|2g/ axis(2-100Hz, IEC60068-2-6, EN 50155)|
|**Impact resistance**|15/11g/ms(EN 50155)|
|**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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**RG..M** 

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## **Mode of operation** 

The RG..M has integrated 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 RG..M include: 

- System fault (mains loss, load loss, SSR open circuit, SSR short circuit) 

- Supply out of range 

- Internal error 

In case of a fault condition, a transistor alarm output is available through terminals NO, NC, COM for remote signalling. 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 (See ‘LED Indicators’ and ‘Alarm Management’ sections for further details). 

|Supply Voltage,<br>Us+ loss<br>Supply Voltage,<br>Us+ out of range<br>Normal opera�on,<br>SSR OFF<br>Normal opera�on,<br>SSR ON|Supply Voltage,<br>Us+ loss<br>Supply Voltage,<br>Us+ out of range<br>Normal opera�on,<br>SSR OFF<br>Normal opera�on,<br>SSR ON|Supply Voltage,<br>Us+ loss<br>Supply Voltage,<br>Us+ out of range<br>Normal opera�on,<br>SSR OFF<br>Normal opera�on,<br>SSR ON|Supply Voltage,<br>Us+ loss<br>Supply Voltage,<br>Us+ out of range<br>Normal opera�on,<br>SSR OFF<br>Normal opera�on,<br>SSR ON|Supply Voltage,<br>Us+ loss<br>Supply Voltage,<br>Us+ out of range<br>Normal opera�on,<br>SSR OFF<br>Normal opera�on,<br>SSR ON|
|---|---|---|---|---|
|**Line Voltage; 1L1**|||||
||||||
|**Load Voltage; 2T1**|||||
||||||
|**Load Current**|||||
|**Control Voltage; A1+, A2-**|||||
||||||
|**Supply Voltage; Us+**|||||
||||||
|**Green LED(control & supply)**|||||
|**Red LED(alarm)**|||||
|**Alarm Output(NC); NC, COM**||Open|||
||||||
|**Alarm Output(NO); NO, COM**|Open||Open|Open|
||||||



## **System Fault Alarm:** 

System fault alarm is indicated by 2 flashes of the red LED and includes the scenarios indicated below. 

|Mains loss<br>Load loss<br>SSR short circuit<br>SSR open circuit|Mains loss<br>Load loss<br>SSR short circuit<br>SSR open circuit|Mains loss<br>Load loss<br>SSR short circuit<br>SSR open circuit|Mains loss<br>Load loss<br>SSR short circuit<br>SSR open circuit|Mains loss<br>Load loss<br>SSR short circuit<br>SSR open circuit|
|---|---|---|---|---|
|**Line Voltage; 1L1**|||||
||||||
|**Load Voltage; 2T1**|||||
||||||
|**Load Current**|||||
|**Control Voltage; A1+, A2-**|||||
||||||
|**Supply Voltage; Us+**|||||
||||||
|**Green LED(control & supply)**|||||
||||||
|**Red LED(alarm)**|||||
|**Alarm Output(NC); NC, COM**|Open|Open|Open|Open|
|**Alarm Output(NO); NO, COM**|||||
||||||



## **Mains loss:** 

The mains loss alarm is issued if the mains voltage is missing from terminal L1 for more than 100ms[4] . The alarm resets automatically once the mains voltage is restored and is present on terminal L1 for more than 100ms. 

## **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 terminal T1 exceeding 100ms[4] . The minimum duty cycle at which a load loss can be detected is ½ cycle ON, ½ cycle OFF. The fault condition is automatically restored once the fault is cleared. 

## **Short circuit:** 

This condition is detected when the SSR output remains ON for more than 250ms without control voltage. In case of a selfrecovery, the SSR will automatically reset. During an SSR short circuit condition, the SSR output is ON unintentionally. 

## **Open circuit:** 

This alarm is issued when the SSR does not switch ON within 250ms from when control voltage is applied. 

4. On start up reaction and recovery times may be longer (<200 ms) 

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**RG..M** 

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## **LED indicators** 

|**CNTRL**|Green|ON:<br>Flashing:<br>OFF:<br>Supply ON, Control ON<br>Supply ON, Control OFF<br>SupplyOFF,Control OFF|ON:<br>Flashing:<br>OFF:<br>Supply ON, Control ON<br>Supply ON, Control OFF<br>SupplyOFF,Control OFF|
|---|---|---|---|
|**ALARM**|Red|ON:|Fully ON or fashing when alarm condition is present.<br>Refer to Alarm Management section|
|||OFF:|No alarm condition|



## **Alarm management** 

|**Alarm**<br>**condition**<br>**present**|• The state of the Red LED of the RG..M is ON with a specifc fashing rate<br>• Alarm output operates|• The state of the Red LED of the RG..M is ON with a specifc fashing rate<br>• Alarm output operates|• The state of the Red LED of the RG..M is ON with a specifc fashing rate<br>• Alarm output operates|• The state of the Red LED of the RG..M is ON with a specifc fashing rate<br>• Alarm output operates|
|---|---|---|---|---|
|**Alarm**<br>**types**|**No. of**<br>**fashes**||**Description of fault**||
||100%<br>ON||SSR Internal error||
|||2|System fault (mains loss, load loss, SSR open circuit or SSR short circuit)||
|||3|Supply out of range (Typical < 18 VDC or > 30 VDC)||
|**Flashing**<br>**rate**||0.5s||3s|
||||||



## **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 100,000A 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. 

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**RG..M** 

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

|**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, RGS..50<br>RGC..15, RGC..25,<br>RGC..30, RGC..31|100|30|J or CC|max. 600|
|RGS..92<br>RGC..42, RGC..62|100|80|J|max. 600|



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

**----- Start of picture text -----**<br>
Protection co-ordination Type 2 with semiconductor fuses<br>Part No. Prospective short  Ferraz Shawmut   Siba Voltage [VAC]<br>circuit current<br>Max fuse  Part number Max fuse  Part number<br>[kArms]<br>size [A] size [A]<br>**----- End of picture text -----**<br>


|**Protection co-ordination Type 2 with semiconductor fuses**|**Protection co-ordination Type 2 with semiconductor fuses**|**Protection co-ordination Type 2 with semiconductor fuses**|**Protection co-ordination Type 2 with semiconductor fuses**|**Protection co-ordination Type 2 with semiconductor fuses**|**Protection co-ordination Type 2 with semiconductor fuses**|**Protection co-ordination Type 2 with semiconductor fuses**|
|---|---|---|---|---|---|---|
|**Part No.**|**Prospective short**<br>**circuit current**<br>**[kArms]**|**Ferraz Shawmut**||**Siba**||**Voltage [VAC]**|
|||**Max fuse**<br>**size [A]**|**Part number**|**Max fuse**<br>**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..25<br>RGC..30<br>RGS..25|10|40|6.9xx CP GRC 22x58 /40|32|50 142 06.32|max. 600|
||100|40|6.9xx CP GRC 22x58 /40|32|50 142 06.32|max. 600|
|RGC..42|10<br>10|63<br>70|6.9xx CP URC 14x51 /63<br>A70QS70-4|80<br>80|50 194 20.80<br>50 194 20.80|max. 600<br>max. 600|
||100<br>100|63<br>70|6.9xx CP URC 14x51 /63<br>A70QS70-4|80<br>80|50 194 20.80<br>50 194 20.80|max. 600<br>max. 600|
|RGC..62|10<br>10|100<br>100|6.9xx CP GRC 22x58 /100<br>A70QS100-4|100<br>100|50 194 20.100<br>50 194 20.100|max. 600<br>max. 600|
||100<br>100|100<br>100|6.621 CP URGD 27x60 /100<br>A70QS100-4|100<br>100|50 194 20.100<br>50 194 20.100|max. 600<br>max. 600|
|RGS..50|10<br>10|80<br>70|6.621 CP URQ 27x60 /80<br>A70QS70-4|50<br>50|50 142 06.50<br>50 142 06.50|max. 660<br>max. 660|
||100<br>100|80<br>70|6.621 CP URQ 27x60 /80<br>A70QS70-4|50<br>50|50 142 06.50<br>50 142 06.50|max. 660<br>max. 660|
|RGS..92|10<br>10|125<br>125|6.621 CP URD 22x58 /125<br>A70QS125-4|125<br>125|50 194 20.125<br>50 194 20.125|max. 660<br>max. 660|
||100<br>100|125<br>125|6.621 CP URD 22x58 /125<br>A70QS125-4|125<br>125|50 194 20.125<br>50 194 20.125|max. 660<br>max. 660|



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**RG..M** 

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

**==> picture [484 x 44] 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 Z - type  ABB Model no. for B - type  Wire cross sectional area  Minimum length of Cu<br>M. C. B. (rated current) M. C. B. (rated current) [mm [2] ] wire conductor [m] [5]<br>RGS..25  1-pole 1.0 21.0<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 Z - type**<br>**M. C. B.(rated current)**|**ABB Model no. for B - type**<br>**M. C. B.(rated current)**|**Wire cross sectional area**<br>**[mm2]**|**Minimum length of Cu**<br>**wire conductor[m]5**|
|RGS..25|1-pole||1.0|21.0|
|RGC..15<br>(525 A2s)|S201 - Z4 (4 A)<br>S201 - Z6 UC (6 A)|S201 - B2 (2 A)<br>S201 - B2 (2 A)|1.0<br>1.5|21.0<br>31.5|
|RGS..50<br>RGC..25, RGC..30<br>(1800 A2s)|1-pole<br>S201 - Z10 (10 A)|S201-B4 (4 A)|1.0<br>1.5<br>2.5|7.6<br>11.4<br>19.0|
||S201 - Z16 (16 A)|S201-B6 (6 A)|1.0<br>1.5<br>2.5<br>4.0|5.2<br>7.8<br>13.0<br>20.8|
||S201 - Z20 (20 A)|S201-B10 (10 A)|1.5<br>2.5|12.6<br>21.0|
||S201 - Z25 (25 A)|S201-B13 (13 A)|2.5<br>4.0|25.0<br>40.0|
||2-pole<br>S202 - Z25 (25 A)|S202-B13 (13 A)|2.5<br>4.0|19.0<br>30.4|
|RGC..31<br>(6600 A2s)|1-pole<br>S201 - Z20 (20 A)|S201-B10 (10 A)|1.5<br>2.5<br>4.0|4.2<br>7.0<br>11.2|
||S201 - Z32 (32 A)|S201-B16 (16 A)|2.5<br>4.0<br>6.0|13.0<br>20.8<br>31.2|
||2-pole<br>S202 - Z20 (20 A)|S202-B10 (10 A)|1.5<br>2.5<br>4.0|1.8<br>3.0<br>4.8|
||S202 - Z32 (32 A)|S202-B16 (16 A)|2.5<br>4.0<br>6.0<br>10.0|5.0<br>8.0<br>12.0<br>20.0|
||S202 - Z50 (50 A)|S202-B25 (25 A)|4.0<br>6.0<br>10.0|14.8<br>22.2<br>37.0|
|RGS..92<br>RGC..42, RGC..62<br>(18000 A2s)|1-pole<br>S201 - Z32 (32 A)|S201-B16 (16 A)|2.5<br>4.0<br>6.0|3.0<br>4.8<br>7.2|
||S201 - Z50 (50 A)|S201-B25 (25 A)|4.0<br>6.0<br>10.0<br>16.0|4.8<br>7.2<br>12.0<br>19.2|
||S201 - Z63 (63 A)|S201-B32 (32 A)|6.0<br>10.0<br>16.0|7.2<br>12.0<br>19.2|



## 5. 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. 

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**RG..M** 

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

## **Dimensions** 

## **RGS..KEM** 

## **RGS..GEM** 

**==> picture [344 x 505] intentionally omitted <==**

**----- Start of picture text -----**<br>
82 [ 3.22”]<br>35.5 17.8 [0.70”]<br>NC NO COM<br>CARLO GAVAZZI<br>CNTRL<br>ALARM<br>A1+ A2- Us +<br>82 [ 3.22”]<br>35.5 17.8 [0.70”]<br>NC NO COM<br>CARLO GAVAZZI<br>CNTRL<br>ALARM<br>A1+ A2- Us +<br>ALARM ALARM ALARM<br>ALARM ALARM ALARM<br>RG..M<br>RG..M<br>47.5<br>90 [3.54”]<br>.4<br>ø5<br>47.5<br>90 [3.54”]<br>ø5.4<br>**----- End of picture text -----**<br>


**==> picture [159 x 35] intentionally omitted <==**

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

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**RG..M** 

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

## **Dimensions** 

## **RGC..15KEM, RGC..25KEM, RGC..31KEM** 

**==> picture [325 x 217] intentionally omitted <==**

**----- Start of picture text -----**<br>
5.4<br>129.5 [ 5.1”] 4.5<br>82<br>35.5<br>NC NO COM<br>CARLO GAVAZZI<br>CNTRL<br>ALARM<br>A1+ A2- Us +<br>4.4<br>8<br>17.8 [0.70”]<br>ALARM ALARM ALARM<br>ø4.4<br>RG..M<br>90 4.33”][<br>100.4<br>110<br>**----- End of picture text -----**<br>


## **RGC...30KEM** 

**==> picture [365 x 214] intentionally omitted <==**

**----- Start of picture text -----**<br>
167 [6.57”] 4.5 5.4<br>82<br>35.5<br>NC NO COM<br>CARLO GAVAZZI<br>CNTRL<br>ALARM<br>A1+ A2- Us +<br>4.4<br>8<br>17.8<br>22.5 [0.89”]<br>ALARM ALARM A LARM<br>ø4.4<br>RG..M<br>90 4.33”][<br>100.4<br>110<br>**----- End of picture text -----**<br>


**==> picture [243 x 33] intentionally omitted <==**

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

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**RG..M** 

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

## **Dimensions** 

## **RGC..42GEM** 

## **RGC..62GEM** 

**==> picture [355 x 469] intentionally omitted <==**

**----- Start of picture text -----**<br>
5.4<br>167 [6.57”] 4.5<br>82<br>43.7<br>NC NO COM<br>CARLO GAVAZZI<br>CNTRL<br>ALARM<br>A1+ A2- Us +<br>4.4<br>8<br>17.8<br>35.6 [1.40”]<br>17.8<br>5.4<br>167 [6.57”] 4.5<br>82<br>43.7<br>NC NO COM<br>CARLO GAVAZZI<br>CNTRL<br>ALARM<br>A1+ A2- Us +<br>4.4 4.4<br>8 43.2 8<br>17.8 17.8<br>70 [2.76”]<br>ALARM ALARM ALARM<br>ALARM ALARM ALARM<br>ø4.4<br>ø4.4<br>RG..M<br>RG..M<br>90 100.4 4.33”][<br>110<br>90 100.4 4.33”][<br>110<br>**----- End of picture text -----**<br>


**==> picture [194 x 79] intentionally omitted <==**

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

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## **RG..M** 

## **Connection diagram** 

**==> picture [148 x 168] intentionally omitted <==**

**----- Start of picture text -----**<br>
NC NO COM<br>(+) (+) (-)<br>‘ae<br>NC NO COM<br>CARLO GAVAZZI<br>CNTRL<br>ALARM<br>A1+ A2- Us +<br>G<br>Uc (4 - 32 VDC)<br>0V<br>Us (24 VDC ± 20%)<br>ALARM ALARM ALARM<br>RG..M<br>**----- End of picture text -----**<br>


*depends on system requirements 

## **Functional diagram** 

**==> picture [466 x 214] intentionally omitted <==**

**----- Start of picture text -----**<br>
Us (+) 1/L1 Line<br>A1 (+) a Regulation<br>pv e<br>A2 (-)<br>COM (-)<br>| ;<br>(BK | py<br>Vc<br>7 Vc = A<br>L ape<br>NO (+)<br>2/T1 Load<br>NC (+) ( D<br>**----- End of picture text -----**<br>


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## **RG..M** 

## **Mounting** 

**==> picture [440 x 321] intentionally omitted <==**

**----- Start of picture text -----**<br>
Mounting on DIN rail Dismounting from DIN rail<br>Heatsink<br>RG..M power module<br>Step 1:<br>max. 1.5Nm<br>I s<br>RG..M control module<br>2<br>1 screw M4, Phillips<br>PH1 max. 1.5Nm<br>(provided with SSR)<br>Max. mounting torque:<br>Thermal compound<br>0.3mmm<br>Step 2:<br>max. 0.3Nm<br>2 screws + washer M5 x 30mm<br> (not provided with SSR)<br>Max. mounting torque: 1.5Nm<br><<<br>**----- End of picture text -----**<br>


Step 1: Mount RG..M power module to heatsink Step 2: Mount RG..M control module on RG..M power module 

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## **RG..M** 

## **Installation** 

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**----- Start of picture text -----**<br>
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50mm<br>X X<br>100mm<br>50mm<br>©<br>+ 10- o + 10- o<br>, bore | ey aeore |<br>NC NO COM<br>=<br>NC NO COM<br>CARLO GAVAZZI<br>CNTRL<br>ALARM<br>ey A1+ A2- Us +<br>A1+ A2- Us +<br>ALARM ALARM ALARM<br>RG..M<br>**----- End of picture text -----**<br>


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**RG..M** 

## **Connection specifications** 

|**Power connection**<br>~~SSS~~<br>~~ee~~|**Power connection**<br>~~SSS~~<br>~~ee~~|**Power connection**<br>~~SSS~~<br>~~ee~~|**Power connection**<br>~~SSS~~<br>~~ee~~|
|---|---|---|---|
|**Terminal**<br>~~ee~~<br>~~ee~~|1/L1, 2/T1<br>~~a~~|||
|**Conductors**<br>~~ee~~<br>~~ee~~|Use 75°C copper(Cu)conductors<br>~~a~~|||
|~~ee~~|RG..KEM<br>~~a~~||RG..GEM<br>~~a~~|
||~~a~~<br>~~=~~<br>~~7~~<br>~~jal~~<br>~~fe!~~|~~a~~<br>~~P=~~<br>~~=~~<br>~~bal~~|~~a~~<br>~~E~~<br>~~=~~|
|**Stripping length**<br>~~a~~|12 mm<br>~~a~~||11 mm<br>~~a~~|
|**Connection type**<br>~~a~~|M4 screw with captivated washer<br>~~a~~||M5 screw with box clamp<br>~~a~~|
|**Rigid (solid & stranded)**<br>**UL/CSA rated data**|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<br>~~oo~~|
|**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 – 6.0 mm²<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|
|**Protective Earth (PE)**<br>**connection**|M5, 1.5 Nm (13.3 lb-in)<br>M5 PE screw is not provided with the solid state relay. PE connection is required when<br>product is intended to be used in Class 1 applications according to EN/IEC 61140|||



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

|**l, supply and alarm connection**|**l, supply and alarm connection**|**l, supply and alarm connection**|
|---|---|---|
|**als**|A1+, A2|-, Us+, NC, NO, COM|
||**CNT**<br>**N**<br>**A**<br>**NC**<br>**A1+**<br>**ALA**<br>**RG..M**<br>CARLO GAV<br>ALA<br>ALARM<br>**N**<br>**NC**<br>**A**<br>**A1+**<br>**Fr**<br>**vi**|**RL**<br>**O**<br>**2-**<br>**COM**<br>**Us**+<br>**RM**<br>AZZI<br>RM<br>ALARM<br>**O**<br>**COM**<br>**2-**<br>**Us**+<br>**ont**<br>**ew**|
|**ctors**|Use 60/75°C copper (Cu) conductors||
|**ng length**|8 – 10 mm||
|**ction type**|Spring plug, pitch 5.00 mm||
|**solid & stranded)**<br>**rated data**|0.2 – 2.5 mm2, 26 – 12 AWG||
|**e with end sleeve**|0.25 – 2.5 mm2||
|**e without end**|0.25 – 2.5 mm2||
|**e with end sleeve**<br>**WIN ferrules**|0.5 – 1.0 mm2||



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