RGC1S60D41GGEP

## **Solid State Relays 1-Phase Integrated Heatsink Integrated Current Monitoring Types RGC1S** 

- **Product width ranging from 22.5mm to 70mm** 

- **Partial load failure detection** 

- **Zero cross switching** 

- **Ratings up to 660VACrms & 85AACrms @ 40[o] C** 

- **Up to 18000A[2] s for I[2] t and 1200Vp for blocking voltage** 

- **Control voltage range: 4 - 32 VDC** 

- **Local or remote current set-point** 

- **LED indications for the different faults** 

• **Alarm signal output for SSR or load circuit malfunction** • **Integrated voltage transient protection with varistor** • **100kA short circuit current rating according to UL508 Product Description Ordering Key** ~~ae C€-@»~~ FAl **RGC 1 S 60 D 30 G K E P _** This slim RG design is capable on the front of the device or **Solid state relay** of detecting various failure remotely through the provided **Number of poles** modes occuring to the heaters terminal. **Switching mode** and also to the product itself. **Rated operational voltage** Failures which can be detected This product is available either **Control voltage** include partial load failure, with integrated heatsink **Rated operational current** heater loss, open circuit SSR, (RGC1S series) and also with- **Connection type for control** short circuit SSR and SSR out heatsink (RGS1S series). ~~oe~~ **Connection type for power** over temperature. A normally The minimum product width is **Connection configuration** closed, potential free alarm, 22.5mm. The control and aux- **Protection** opens in the event of a system iliary terminals are double box **Options** or power semiconductor fault. clamps to facilitate safe looping whilst the power terminals A load current setpint has to be are either screw terminals or TEACHed to the SSR either box clamps depending on the locally by the TEACH button model selected. 

Note: Specifications stated at 25°C unless specified. 

## **Orderin Ke g y** 

|**1-Phase**|**Switching **|**Rated V,**|**Control**|**Rated current1 @ 40˚C,**|**Connection**|**Connection**|**Connection**|**Protection**|
|---|---|---|---|---|---|---|---|---|
|**SSR**|**mode**|**Blocking V* **|**voltage**|**I2t data**|**input**|**output**|**configuration**||
|RGC1:|S: Zero|60:600VAC|D: 4-32VDC|20: 23AAC, 525A2s|G: Box|K: Screw|E: Contactor|P: Over-|
|with heatsink|cross with|+10% -15%,||25: 25AAC, 1800A2s|Clamp|G: Box|U: SSR|temperature|
||current|1200Vp||26: 25AAC, 18000A2s||Clamp||protection|
||sensing|||30: 30AAC, 1800A2s|||||
|||||31: 30AAC, 6600A2s|||||
|||||41: 43AAC, 18000A2s|||||
|||||61: 65AAC, 18000A2s|||||
|||||90: 85AAC, 18000A2s|||||



- Rated voltage, Blocking voltage 

- 1: Refer to Derating Curves 

**1** 

Specifications are subject to change without notice (17.01.2018) 

**RGC1S** 

## **Selection Guid** 

|**Rated output voltage,**|**Connection**|**Control**|**Configuration       Rated operational current (I**|**Configuration       Rated operational current (I2t value)**|**Configuration       Rated operational current (I2t value)**|**Configuration       Rated operational current (I2t value)**|||||
|---|---|---|---|---|---|---|---|---|---|---|
|**Blocking voltage**|**control/ power**|**voltage**||**23AAC (525A2s)**||**25AAC (1800A2s)**||**30AAC (1800A2s)**||**30AAC (6600A2s)**|
|600VAC, 1200Vp<br>|Box Clamp/ Screw|4 - 32VDC|E|RGC1S60D20GKEP||RGC1S60D25GKEP||RGC1S60D30GKEP    RGC1S60D31GKEP|RGC1S60D30GKEP    RGC1S60D31GKEP|RGC1S60D30GKEP    RGC1S60D31GKEP|
|**Rated output voltage,**|**Connection**|**Control**|**Configuration       Rated operational current (I**|**Configuration       Rated operational current (I2t value)**|||||||
|**Blocking voltage**|**control/ power**|**voltage**||**25AAC (18000A2s)**||**43AAC (18000A2s)**||**65AAC (18000A2s)**||**85AAC (18000A2s)**|
|600VAC, 1200Vp|Box Clamp/|4 - 32VDC|E|RGC1S60D26GGEP    RGC1S60D41GGEP     RGC1S60D61GGEP     RGC1S60D90GGEP|RGC1S60D26GGEP    RGC1S60D41GGEP     RGC1S60D61GGEP     RGC1S60D90GGEP|RGC1S60D26GGEP    RGC1S60D41GGEP     RGC1S60D61GGEP     RGC1S60D90GGEP|RGC1S60D26GGEP    RGC1S60D41GGEP     RGC1S60D61GGEP     RGC1S60D90GGEP|RGC1S60D26GGEP    RGC1S60D41GGEP     RGC1S60D61GGEP     RGC1S60D90GGEP|RGC1S60D26GGEP    RGC1S60D41GGEP     RGC1S60D61GGEP     RGC1S60D90GGEP|RGC1S60D26GGEP    RGC1S60D41GGEP     RGC1S60D61GGEP     RGC1S60D90GGEP|
||Box Clamp||U|-||RGC1S60D41GGUP   RGC1S60D61GGUP||RGC1S60D41GGUP   RGC1S60D61GGUP||-|



## **Out ut Volta e S ecifications p g p** 

|Operational voltage range    42-600 VAC|Operational voltage range    42-600 VAC|
|---|---|
||+10% -15% on max|
|Blockingvoltage                   1200 V|e                   1200 Vp|
|Internal varistor|625V|



## **Out ut S ecifications p p** 

||**RGC1S..20**||**RGC1S..25**||**RGC1S..26**||**RGC1S..30    RGC1S..31**|**RGC1S..30    RGC1S..31**|**RGC1S..30    RGC1S..31**||**RGC1S..41**||**RGC1S..61**||**RGC1S..90**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|Rated operational current2||||||||||||||||
|AC-51 @ Ta=25°C|25.5 AAC||27 AAC||30 AAC||30 AAC||30 AAC||50 AAC||75 AAC||85 AAC|
|AC-51 @ Ta=40°C|23 AAC||25 AAC||25 AAC||30 AAC||30 AAC||43 AAC||65 AAC||85 AAC|
|Minimum TEACH Current3|1.2 AAC||1.2 AAC||1.2 AAC||1.2 AAC||1.2 AAC||1.2 AAC||5 AAC||5 AAC|
|Minimum partial load current|0.2 AAC||0.2 AAC||0.2 AAC||0.2 AAC||0.2 AAC||0.2 AAC||0.83 AAC||0.83 AAC|
|Detectable partial load failure|||>16.67% from current setpoint for more than 120ms|||||>16.67% from current setpoint for more than 120ms||||||||
|Rep. overload current - UL508,||||||||||||||||
|PF=0.9||||||||||||||||
|TAMB=40°C, tON=1s, tOFF=9s, 50cycles|60 AAC||60 AAC||60 AAC||84 AAC||84 AAC||126 AAC||168 AAC||168 AAC|
|Max.off-state leakage current|3 mAAC||3 mAAC||3 mAAC||3 mAAC||3 mAAC||3 mAAC||3 mAAC||3 mAAC|
|Max. Transient Surge Current (ITSM)t=10ms|325 Ap||600 Ap||1900 Ap||600 Ap||1150 Ap||1900 Ap||1900 Ap||1900 Ap|
|I²t for fusing (t=10ms)     Minimum|525 A²s||1800 A²s||18000 A²s||1800 A²s||6600 A²s||18000 A²s||18000 A²s||18000 A²s|
|Critical dv/dt (@ Tj init = 40oC)|1000 V/µs||1000 V/µs||1000 V/µs||1000 V/µs||1000 V/µs||1000 V/µs||1000 V/µs||1000 V/µs|



- 2: Refer to Derating Curves 

- 3: Refer to EMC specifications 

**2** 

Specifications are subject to change without notice (17.01.2018) 

**RGC1S** 

## **General S ecifications p** 

|Latching voltage||
|---|---|
|(across L1-T1)|≤20 VAC|
|Operational frequency||
|range|45 - 65 Hz|
|Power factor|> 0.9 @ Vrated|
|Touchprotection<br>LEDs status indication<br>Supply ON<br>Control ON<br>Load ON|IP20<br>Green, half intensity<br>Green, full intensity<br>Yellow|
|Fault|Red4|



|Pollution degree|2 (non-conductive pollution with|
|---|---|
||possibilities of condensation)|
|Over-voltage category|III (fixed installations),|
||6kV (1.2/50µs) rated impulse|
||withstand voltage Uimp|
|Isolation||
|Input to Output||
|IN1, IN2, A1+, A2- to L1, T1|2500Vrms|
|Alarm to Output||
|11+,12- to L1,T1|2500Vrms|
|Alarm to Input||
|11+, 12- to A1+, A2-, IN1, IN2|500Vrms|
|Input & Output to Case|4000Vrms|



|**Supply Specifications(A1+, A2-)**<br>~~ooo ~~|**Supply Specifications(A1+, A2-)**<br>~~ooo ~~|**Supply Specifications(A1+, A2-)**<br>~~ooo ~~||**Remote TEACH Specifications(IN1)**<br> ~~SY~~|**Remote TEACH Specifications(IN1)**<br> ~~SY~~|
|---|---|---|---|---|---|
||Rated supplyvoltage|24 VDC -15%,+20%||Control voltage range5|4 - 32 VDC|
||Reverseprotection|Yes||Input current|refer to chart|
||Max. supplycurrent|50 mA||Reverse protection|Yes|
||Fan supply      RGC1S..90|Supplied directly to fan||||
|||24VDC +/-10%,||||
|||50mA nominal||||



## **Alarm Specifications (11+, 12-)** 

|Output Type|PNP Open Collector|
|---|---|
|Normal State6|NormallyClosed|
|Maximum rating|35Vdc,50mADC|
|Visual Indication|Red LED4|
|Alarm output onstate voltage|refer to chart|



## **Control  Specifications (IN2)** 

|Control voltage range5,7|4 - 32 VDC|
|---|---|
|Pick-upvoltage|3.8 VDC|
|Drop-out voltage|1 VDC|
|Maximum reverse voltage|32 VDC|
|Input current|refer to chart|
|Max Response timepick-up|0.5 cycle + 500us @ 24VDC|
|Min Response time drop-out|0.5 cycle + 500us @ 24VDC|



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Remote Teach (IN1) vs. Current Input Voltage vs Input Current<br>Control Voltage (IN2) vs. Current<br>10.6<br>10.2<br>9.8<br>9.4<br>9<br>8 . 6<br>8.2<br>7.8<br>7.4<br>7<br>3 5 7 9 11 13 15 17 19 21 23 25 27 29 31<br>Voltage (VDC) Voltage<br>urrent<br>C<br>Current (mADC)<br>**----- End of picture text -----**<br>


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Alarm  2 -) vs. Current<br>mA<br>50<br>45<br>40<br>35<br>30<br>25<br>20<br>15<br>10<br>5<br>17 1.9 21 2.3 25 27 2.9<br>Voltage (VDC)<br>Current (mADC)<br>**----- End of picture text -----**<br>


- 4:  Refer to Alarm LED Indications 

- 5:  DC control to be supplied by a Class 2 power source 

- 6:  The alarm will open when the supply voltage (A1, A2) is removed 

- 7:  A partial load failure will not be detected if the ON time is less than 120ms 

**3** 

Specifications are subject to change without notice (17.01.2018) 

**RGC1S** 

## **Output Power Dissipation** 

## **Current Derating (UL508)** 

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RGC1S..90 90 RGC1S..61 RGC1S..41 RGC1S..30, 31 RGC1S..25, 26 RGC1S..20<br>85 84.3 58 30 30 30 0<br>85 75 50 30 27 25.5 25<br>85 80 65 43 30 25 23 40<br>60 45 32 15 15 12 70 atcula<br>7060 a te —J. as   = —..ae u —.. p at 80 e—<br>RGC1S..90<br>50 e e<br>RGC1S..61<br>40 eee RGC1S..41<br>|<br>RGC1S..30, 31<br>30 RGC1S..25, 26<br>RGC1S..20<br>2010 ee eeen<br>0<br>20 30 40 50 60 70<br>S C<br>Load current in AACrms<br>**----- End of picture text -----**<br>


**4** 

Specifications are subject to change without notice (17.01.2018) 

**RGC1S** 

## **Deratin vs. S acin Curves g p g** 

## **RGC1S.. 20** 

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35<br>30<br>25<br>20<br>15 0mm<br>5mm<br>10<br>10mm<br>5<br>20mm &<br>0 over<br>0 10 20 30 40 50 60 70 80<br>Surrounding Ambient Temperature in °C<br>ent in AAC<br>Load Curr<br>**----- End of picture text -----**<br>


**RGC1S.. 25, RGC1S..26** 

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30<br>25<br>~~<br>> 0mm<br>20 eeT TT<br>5mm<br>eee<br>10mm<br>15 ~\ _ 22.5mm & over<br>10 ea~~.<br>5<br>0<br>0 10 20 30 40 50 60 70 80<br>Surrounding Ambient Temperature in °C<br>Load Current in AAC<br>**----- End of picture text -----**<br>


**5** 

Specifications are subject to change without notice (17.01.2018) 

**RGC1S** 

## **Deratin vs. S acin Curves g p g** 

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RGC1S.. 30, RGC1S..31<br>**----- End of picture text -----**<br>


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35<br>30<br>25<br>0mm<br>20<br>5mm<br>15 10mm & over<br>Stand<br>alone unit<br>10<br>0 10 20 30 40 50 60 70 80<br>Surrounding Ambient Temperature in °C<br>nt in AAC<br>Load Curre<br>**----- End of picture text -----**<br>


**RGC1S.. 41** 

**6** 

Specifications are subject to change without notice (17.01.2018) 

**RGC1S** 

## **Deratin vs. S acin Curves g p g** 

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RGC1S.. 61<br>75<br>70<br>65 ree<br>60 a aee eeee ee<br>55 ee [> *>~ 0mm<br>50 es ee — 10mm &<br>over<br>45<br>Stand<br>40 alone unit<br>35<br>30<br>0 10 20 30 40 50 60 70 80<br>Surrounding Ambient Temperature in °C<br>RGC1S.. 90<br>90<br>85<br>Ss .<br>“KB ~~ .<br>80 SS ~N.<br>a \,<br>75 a ~S .“. ,<br>70 s~s s“~ is .<br>ars “.<br>65 a “. -- 0mm<br>SK Nn,<br>SK N.<br>60 vs ~ ~ . —_—. 10mm &<br>x over<br>55<br>aa ‘. — Stand<br>50 alone unit<br>0 10 20 30 40 50 60 70<br>Surrounding Ambient Temperature in °C<br>nt in AAC<br>Load Curre<br>ent in AAC<br>Load Curr<br>**----- End of picture text -----**<br>


**7** 

Specifications are subject to change without notice (17.01.2018) 

**RGC1S** 

## **Terminal Markings** 

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RG...20GKEP RG...41GGEP RG...41GGUP<br>RG...25GKEP RG...61GGEP RG...61GGUP<br>RG...26GGEP RG...90GGEP<br>RG...30GKEP<br>RG...31GKEP<br>1 L1 1 L1<br>11 12 A1 | 8S O 6 0|<br>11 12 A1 A2 IN 2 IN 1<br>IN 1 IN 2 A2 IN 1 IN 2 A2<br>A1 12 11<br>1 L1 : Line connection<br>2 T1 : Load connection<br>11+ : Alarm supply<br>12- : Alarm output 2 T1 2 T1 1 L1 2 T1<br>A1+ : Supply voltage @<br>A2- : Ground connection<br>IN 1 : Remote TEACH signal<br>IN 2 : Control voltage<br>CONTROL TEACH<br>TEACH TEACH FAULT<br>LOAD<br>CONTROL<br>CONTROL CONTROL<br>LOAD LOAD<br>FAULT FAULT TEACH<br>TEACH CONTROL TEACH CONTROL<br>GCSSGRURRENTENIN GCSSGRURRENTENIN GCSSGRURRENTENIN<br>**----- End of picture text -----**<br>


Note: 

- Local TEACH by pressing front button for more than 3 seconds but less than 5 seconds 

- Fan supply (24VDC) for RGC1A60D90GGEP has to be supplied directly to fan 

## **Connection Diagram** 

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Alarm<br>Out.<br>Ua                                        Us<br>11+        12-         A1+<br>-Ua<br>Uc : 4 - 32 VDC<br>IN1         IN2         A2-<br>Us : 24 VDC<br>Ua : max. 35 VDC<br>Alarm Output : max. 50mA<br>Uc           Uc           0V<br>**----- End of picture text -----**<br>


**8** 

Specifications are subject to change without notice (17.01.2018) 

**RGC1S** 

## **Connection Diagram for Separate Alarm Outputs** 

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Alarm out  Alarm out  Alarm out<br>SSR 1  SSR 2  SSR  n<br>Us: 24VDC<br>Ua: max. 35VDC<br>F OOS OOS<br>Uc:4-32VDC<br>(only for Remote TEACH)Ground Terminal Uc: 4 - 32VDC  ’ a ee al )<br>Uc SSR 1: Uc SSR 2: Uc SSR  n :<br>4 - 32VDC 4 - 32VDC 4 - 32VDC<br>**----- End of picture text -----**<br>


## **Connection Diagram for Series Alarm Outputs** 

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Alarm out<br>Us: 24VDC<br>Ua: max. 35VDC<br>OOS OOS F<br>Uc:4-32VDC<br>(only for Remote TEACH)Uc: 4 - 32VDC<br>Ground Terminal  ,; a to al yy<br>Uc SSR 1: Uc SSR 2: Uc SSR  n :<br>4 - 32VDC 4 - 32VDC 4 - 32VDC<br>**----- End of picture text -----**<br>


**9** 

Specifications are subject to change without notice (17.01.2018) 

**RGC1S** 

## **Alarm LED Indications (Red LED)** 

|**Flashes**|**Description of Fault**|**Timing Diagram**|
|---|---|---|
|1|Locked TEACH|3s|
|2|Open SSR / Heater|3s|
|3|SSR Overtemperature|3s|
|4|SSR Short Circuit|3s|
|50%|No TEACH setpoint|0.5s|
|100%|Partial Load Failure||



## **Mode of O eration p** 

## **Introduction:** 

The RGC1S must have a stored current setpoint to operate as a Solid State Relay with a Sensing function. The current setpoint is the nominal operating current that is expected through the SSR when all heater loads are functioning properly. The SSR is shipped without having a stored setpoint. This current setpoint is to be stored upon a TEACH procedure as explained below. The wrong setpoint is stored if heater loads are faulty or mains supply voltage is not close to operating voltage during the TEACH procedure. 

**Caution:** In case of a brand new RGC1S (i.e. an RGC1S that does not have a stored current set point), a TEACH procedure on no load (i.e., no load connected to the RGC1S load terminal 2/T1) will result in a stored current set point of 0A. 

## **SSR Operation without the TEACH procedure** 

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>16.67%<br>Pe<br>PO<br>PO Po<br>} |<br>local<br>12 Open Open Open Open Open Open<br>LULL LEELA LLL LEELA<br>LULL LEELA LEELA LEELA LELLELLLLI<br>Condition: Condition: Condition:<br>half intensity   Partial load failure; Overtemperautre Open circuit or<br>> 16.67% from  on SSR Load loss<br>full intensity<br>stored setpoint<br>**----- End of picture text -----**<br>


Upon application of supply voltage, the yellow and red LED will flash continuously in sequence (i.e., scroll) indicating that the device has no current setpoint stored. The green LED is ON at half intensity indicating the presence of supply voltage. As soon as control voltage is applied the green LED will be ON at full intensity. The alarm output, which is normally closed, is open to indicate that the SSR has no stored setpoint. 

If mains supply is present upon application of control voltage the SSR will switch ON despite having no stored current setpoint. However, even though the SSR switches ON, the Sensing features associated with the RGC1S are disabled as shown in the above operations diagram. The Sensing features will be enabled ONLY once the TEACH procedure explained below is completed. 

For SSR to switch ON upon application of control voltage, supply voltage has to be present across terminals A1, A2. 

**10** 

Specifications are subject to change without notice (17.01.2018) 

**RGC1S** 

## **Mode of Operation (cont.)** 

**The TEACH procedure** 

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E Line Voltage; 1L1 SE Oe<br>Load Voltage; 2T1<br>iE eee 5s<br>5s 5s<br>me Load Current  eee<br>a Control Voltage; IN 2 aE Ee eee<br>———_ Supply Voltage; A1, A2 °°» +» +»~=»~=&~=&+3 z=; <. °° °°<br>tT, Green LED ≥3s << ≥3s = =: ≥3s<br>= TEACH; IN 1 (remote) or local<br>O Alarm Output (NC); 11, 12 O.“ Open Open Open<br>Peni! Yellow LED tia Maem ol « i<br>ies Red LED | 1 | Is | ee 00 0 oe 1| 1]<br>Condition: Condition: Condition: Condition:<br>half intensity   First TEACH with Supply loss First TEACH when New TEACH to<br>no control voltage control voltage is store new current<br>full intensity<br>present setpoint<br>**----- End of picture text -----**<br>


The TEACH procedure can be performed either locally or remotely. For local TEACH, the front 'TEACH' button on the SSR has to be pressed for at least 3 seconds (but less than 5 seconds). Remote TEACH can be performed by applying a high signal on terminal IN 1 for a duration of at least 3 seconds (but less than 5 seconds). 

Supply voltage has to be present across terminals A1, A2 for the TEACH function to be performed and SSR to operate. 

## **TEACH in the absence of a control signal** 

It is possible to TEACH the SSR without the presence of a control signal. In case of no previous stored setpoint (factory default), red and yellow LED will flash accordingly indicating this. The TEACH function will start as soon as the push button is released. The SSR will switch fully ON for 5 seconds (yellow LED ON during these 5 seconds) at the end of which, a load current setpoint is recorded. If TEACH procedure is successful the yellow and red LED will blink together for three times to indicate a successful setpoint measurement. The alarm output across terminals 11, 12 closes indicating a normal situation. 

In case of an unsuccessful TEACH, the red & yellow LED will scroll continously indicating that no current setpoint is stored. If load  current does not stabilise during the 5 seconds TEACH sequence, it will not be possible to store setpoint.  Another attempt to do a TEACH may be done until setpoint is recorded. 

## **TEACH when control signal is present** 

In this case the TEACH procedure is identical to the TEACH procedure when there is no control signal. During the 5 seconds TEACH the status of the load switching will not be distinguished from unTEACHed state since load was ON before TEACH. Load remains ON as long as control voltage is present. 

If SSR is in a LOCKed position (see below) it will not be possible to perform a new TEACH. SSR has to be unLOCKed first. 

**11** 

Specifications are subject to change without notice (17.01.2018) 

**RGC1S** 

## **Mode of Operation (cont.)** 

## **Fault Conditions** 

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eC Line Voltage; 1L1 CSC‘(;‘(‘CSCtisésS(Ci‘(‘(R.TS OU©@S<br>nm Load Voltage; 2T1 >16.67% ES COU<br>es, Load Current<br>ti“(lll Control Voltage; IN 2<br>Supply Voltage; A1, A2<br>_ ..»”»+x»§»'5- TT Ee EelL Eeeee<br>Green LED<br>ss UE eee ee ee<br>SSR Overtemperature<br>eS eee _<br>Alarm Output (NC); 11, 12 Open Open Open Open Open<br>ee || ee 2 eee eee chee<br>me, Yellow LED<br>C Red LED O CC<br>Condition: Condition: Condition: Condition: Condition:<br>half intensity   Partial load over- Short cct. Open cct. Phase/<br>full intensity   failure temperature across  across L1-T1 Line loss<br>L1 - T1 or Load loss<br>**----- End of picture text -----**<br>


## **Partial Load Failure** 

This occurs when the load current decreases by more than 16.67% as compared to the stored setpoint. During this failure mode the SSR remains ON but alarm output opens to indicate an alarm condition. The red LED is continuously ON during this condition. If current rises back to normal levels the alarm indications switch to the normal state. 

## **SSR Short Circuit** 

This condition is detected in the absence of a control signal and load current (in the region of 800mA and over) still flowing through the SSR. A visual indication is given by the red blinking LED (4 flashes - see details in ALARM LED INDICATIONS) and open alarm across terminals 11, 12. The yellow LED stays ON even though the green LED is at half intensity (i.e. absence of control input voltage) to indicate status of load. 

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100% Current Set Point<br>Partial Load<br>83.33% Failure Alarm Level<br>Alarm Output<br>min. 120ms max. 3s<br>**----- End of picture text -----**<br>


## **SSR Open Circuit / Heater Loss / Line Loss** 

SSR output remains OFF even after application of the control voltage on terminal IN 2. A visual indication is given by the red blinking LED (2 flashes - see details in ALARM LED INDICATIONS) and open alarm across terminals 11, 12. 

## **Alarm auto reset** 

In all alarm conditions described above, the alarm LED and signal output from terminals 11, 12 reset automatically to the normal condition as soon as the alarm condition is no longer present. There is no need for an alarm reset. 

## **Over Temperature** 

If the SSR derating curve is exceeded during normal operation, an over-temperature condition is detected and the SSR output switches OFF. A visual alarm is indicated by the red blinking LED (3 flashes - see details in ALARM LED INDICATIONS) and alarm signal opens. The alarm resets automatically when the overtemperature condition is no longer present. 

## **Other functions: TEACH LOCK/UNLOCK** 

The device can be locked to prevent undesirable local TEACH. This can be done by sending a pulse with a duration between 1s and 1.5s to the remote TEACH terminal IN 1. To TEACH a LOCKed unit, a pulse with duration between 1s and 1.5s has to be applied first to terminal IN 1, before performing the TEACH.The initial condition of the unit after every power up (through A1, A2 terminals) is UNLOCKed. 

**12** 

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**RGC1S** 

**A enc A rovals and Conformances g y pp** ~~en~~ **Conformance & Approvals** EN/IEC 60947-4-3 EN/IEC 62314 UL508 Listed (E172877) cUL Listed (E172877) **Short Circuit Current Rating** 100kA, UL508 ~~—~~ CE-@s HlA 

## **Electroma netic Com atibilit g p y** 

|**EMC Immunity** EN 60947-4-3|EN 60947-4-3|**Radiated Radio Frequency **||
|---|---|---|---|
|**Electrostatic Discharge (ESD)**<br>**Immunity** IEC/EN 61000-4-2<br>Air discharge, 8kV                         Performance Criteria 1<br>Contact, 4kV                                 Performance Criteria 1|**Electrostatic Discharge (ESD)**<br>IEC/EN 61000-4-2<br>Air discharge, 8kV                         Performance Criteria 1<br>Contact, 4kV                                 Performance Criteria 1|**Immunity** IEC/EN 61000-4-3<br>10V/m, 80 - 1000 MHz                     Performance Criteria 1<br>10V/m, 1.4 - 2 GHz                          Performance Criteria 1<br>3V/m, 2 - 2.7 GHz                            Performance Criteria 1<br>**Conducted Radio Frequency**|IEC/EN 61000-4-3<br>10V/m, 80 - 1000 MHz                     Performance Criteria 1<br>10V/m, 1.4 - 2 GHz                          Performance Criteria 1<br>3V/m, 2 - 2.7 GHz                            Performance Criteria 1<br>**Conducted Radio Frequency**IEC/EN 61000-4-6|
|**Electrical Fast Transient**|**Electrical Fast Transient**|**Immunity**||
|**(Burst) Immunity**IEC/EN 61000-4-4|IEC/EN 61000-4-4|10V/m, 0.15 - 80 MHz Performance Criteria 1|Performance Criteria 1|
|Output: 2kV, 5kHz Performance Criteria 2|Performance Criteria 2|**Voltage Dips Immunity**IEC/EN 61000-4-11|IEC/EN 61000-4-11|
|Input: 1kV, 5kHz                            Performance Criteria 1<br>**Electrical Surge Immunity**|ut: 1kV, 5kHz                            Performance Criteria 1<br>**Electrical Surge Immunity**IEC/EN 61000-4-5|0% for 0.5, 1 cycles                         Performance Criteria 2<br>40% for 10 cycles                          Performance Criteria 2<br>70% for 25 cycles Performance Criteria 2|0% for 0.5, 1 cycles                         Performance Criteria 2<br>40% for 10 cycles                          Performance Criteria 2<br>Performance Criteria 2|
|Output, line to line, 1kV Performance Criteria 1|Performance Criteria 1|80% for 250 cycles                        Performance Criteria 2|cles                        Performance Criteria 2|
|Output, line to earth, 2kV               Performance Criteria 1|Output, line to earth, 2kV               Performance Criteria 1|**Voltage Interruptions Immunity**IEC/EN 61000-4-11|IEC/EN 61000-4-11|
|DC lines, line to line, 500V            Performance Criteria 2|DC lines, line to line, 500V            Performance Criteria 2|0% for 5000ms                              Performance Criteria 2|0% for 5000ms                              Performance Criteria 2|
|DC lines, line to earth, 500V Performance Criteria 2|Performance Criteria 2|||
|Signal lines, line to earth, 1kV       Performance Criteria 2|Signal lines, line to earth, 1kV       Performance Criteria 2|||
|||||
|**EMC Emission**|**C Emission**EN 60947-4-3|**Radio Interference**|**Radio Interference**|
|**Radio Interference**|**Radio Interference**|**Field Emission (Radiated)** IEC/EN 55011|IEC/EN 55011|
|**Voltage Emission (Conducted)**|**Voltage Emission (Conducted)**IEC/EN 55011|**30 - 1000MHz** Class A (industrial)|Class A (industrial)|
|**0.15 - 30MHz** Class A (industrial) with filters|Class A (industrial) with filters|||
|- see filter information|- see filter information|||



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. 

**13** 

Specifications are subject to change without notice (17.01.2018) 

**RGC1S** 

## **Filtering - EN / IEC 55011 Class A compliance (for class B compliance contact us)** 

|**Part Number**|**Suggested filter for compliance**|**Maximum Heater current**|
|---|---|---|
|RGC1S60D20GKEP|100 nF / 760V / X1|20 AAC|
|RGC1S60D25GKEP                                                220nF / 760V / X1                                                         25 AAC|RGC1S60D25GKEP                                                220nF / 760V / X1                                                         25 AAC|RGC1S60D25GKEP                                                220nF / 760V / X1                                                         25 AAC|
|RGC1S60D26GGEP|330nF/ 760V / X1|25 AAC|
|RGC1S60D30GKEP|220 nF / 760V / X1|30 AAC|
|RGC1S60D31GKEP|220 nF / 760V / X1|30 AAC|
|RGC1S60D41GG.P|330 nF / 760V / X1|40 AAC|
|RGC1S60D61GG.P|680 nF / 760V / X1|65 AAC|
|RGC1S60D90GGEP|680 nF / 760V / X1|65 AAC|



## **Filter Connection Diagrams** 

**==> picture [482 x 278] intentionally omitted <==**

**----- Start of picture text -----**<br>
1 Phase 3 Phase<br>L1 SSR<br>L2 SSR LOAD<br>Phase/ L3 SSR<br>Neutral Rg= 1MQ, 0.5W Rd Rd Rd Rd = 1MΩ, 0.5W<br>N Filter has to be connected<br>across both LOAD and SSR<br>Environmental S ecifications<br>p<br>Operating temperature -25°C to 70°C (-13˚F to +158˚F) Relative humidity 95% non-condensing @ 40˚C<br>Storage temperature -40°C to 100°C (-40˚F to +212˚F) UL flammability rating<br>EU RoHS compliant Yes (housing) UL 94 V0<br>Glow wire ignition temperature<br>China RoHS compliant Refer to Environmental<br>and Glow wire flammability<br>Information (page 23) index conform to EN 60335-1<br>Impact resistance  requirements<br>(EN50155, EN61373) 15/11 g/ms Installation altitude 0-1000m. Above 1000m<br>Vibration resistance  derate linearly by 1% of FLC<br>(2-100Hz, IEC60068-2-6,  per 100m up to a maximum of<br>EN50155, EN61373) 2g per axis 2000m<br>**----- End of picture text -----**<br>


## **Environmental S ecifications p** 

|Relative humidityy|95% non-condensing @ 40˚Cg @ 40˚C@ 40˚C|
|---|---|
|UL flammability rating||
|(housing)|UL 94 V0<br>Glow wire ignition temperature<br>and Glow wire flammability<br>index conform to EN 60335-1|
||requirementsquirementsuirements|
|Installation altitude|0-1000m. Above 1000m|
||derate linearly by 1% of FLC<br>per 100m up to a maximum of|
||2000m|



## **Wei ht g** 

|EN50155, EN61373)<br>2g per axis<br>**Weight**|2g per axis|2g per axis|
|---|---|---|
|**RGC1S..20..**|**RGC1S..20..**approx. 361|rox. 361g|
|**RGC1S..25.., RGC1S..26..**|**RGC1S..25.., RGC1S..26..**approx. 344|rox. 344g|
|**RGC1S..30.., RGC1S..31..**|**RGC1S..30.., RGC1S..31..**approx. 414g|approx. 414g|



|**RGC1S..41..**|**RGC1S..41..**approx. 583|rox. 583g|
|---|---|---|
|**RGC1S..61..**|**RGC1S..61..**approx. 974|rox. 974g|
|**RGC1S..90..**|**RGC1S..90..**approx. 1102g|approx. 1102g|



**14** 

Specifications are subject to change without notice (17.01.2018) 

**RGC1S** 

## **Connection S ecifications p** 

**POWER CONNECTIONS: 1/L1, 2 /T1** Use 75°C copper (Cu) conductors **RG..20, 25, 30, 31GKEP RG..26GGEP RG..41GG.P; RG..61GG.P; RG..90GGEP Stripping Length (X)** 12mm 11mm **Connection type** M4 screw with captivated washer           M5 screw with box clamp **Rigid (Solid & Stranded)** UL/ cUL rated data 2 x 2.5..6 mm[2              ] 1 x 2.5..6 mm[2 ] 1 x 2.5..25mm[2 ] 2 x 14.. 10 AWG 1 x 14.. 10 AWG 1 x 14...3 AWG **Flexible with end sleeve** 2 x 1.0 ... 2.5mm[2] 2 x 2.5..4mm[2                ] 1 x 1.0..4mm[2              ] 1 x 2.5..16mm[2 ] 2 x 18.. 14 AWG 1 x 18.. 12 AWG 1 x 14.. 6 AWG 2 x 14.. 12 AWG ~~ee~~ **Flexible without** 2 x 1.0 ... 2.5mm[2] **end sleeve** 2 x 2.5.. 6mm[2               ] 1 x 1.0.. 6mm[2               ] 1 x 4.. 25mm[2 ] 2 x 18.. 14 AWG 1 x 18.. 10 AWG 1 x 12.. 3 AWG 2 x 14.. 10 AWG ~~eee~~ **Torque specifications** Pozidriv 2 Pozidriv 2 UL : 2Nm (17.7lb-in.) UL: 2.5Nm (22lb-in.) &) IEC: 1.5 - 2.0Nm (13.3 - 17.7lb-in) IEC: 2.5 - 3.0Nm (22 - 26.6lb-in) **Aperture for termination lug** 12.3mm N/A 

**Protective Earth Connection** 

M5, 1.5Nm (13.3 lb-in) 

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. 

## **CONTROL CONNECTIONS: A1(+), A2(-), IN1, IN2, 11 (+), 12(-)** 

Use 60/75°C copper (Cu) conductors **Torque specifications** M3, Pozidriv 1 UL: 0.5Nm (4.4lb-in) i) IEC: 0.4 - 0.5Nm (3.5 - 4.4lb-in) **Stripping Length (X)** 6mm 13mm **Rigid (Solid & Stranded)** UL/ cUL rated data cel 2 x 1.0..2.5mm[2        ] 1 x 1.0 ..2.5mm[2 ] 2 x 18..14 AWG 1 x 18..14 AWG **Flexible with end sleeve** 2 x 1.0..2.5mm[2        ] 1 x 1.0..2.5mm[2 ] 2 x 18..14AWG 1 x 18..14AWG Be 

**15** 

Specifications are subject to change without notice (17.01.2018) 

**RGC1S** 

## **Dimensions** 

**==> picture [76 x 197] intentionally omitted <==**

**----- Start of picture text -----**<br>
RGC1S60D20GKEP<br>RGC1S60D25GKEP<br>**----- End of picture text -----**<br>


**==> picture [190 x 26] intentionally omitted <==**

**----- Start of picture text -----**<br>
Housing width tolerance  +0.5mm, -0mm…as per DIN43880<br>All other tolerances: ± 0.5mm<br>All dimensions in mm<br>**----- End of picture text -----**<br>


**16** 

Specifications are subject to change without notice (17.01.2018) 

**RGC1S** 

## **Dimensions** 

**==> picture [66 x 6] intentionally omitted <==**

**----- Start of picture text -----**<br>
RGC1S60D26GGEP<br>**----- End of picture text -----**<br>


**RGC1S60D30GKEP ,  RGC1S60D31GKEP** 

Housing width tolerance  +0.5mm, -0mm…as per DIN43880 All other tolerances: ± 0.5mm All dimensions in mm 

**17** 

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**RGC1S** 

## **Dimensions** 

**==> picture [257 x 437] intentionally omitted <==**

**----- Start of picture text -----**<br>
RGC1S60D41GGEP<br>163 [6.42’<br>[6.42"]<br>_ —<br>\_<br>|<br>aEe<br>fa) oo! —A<br>RGC1S60D61GGEP<br>163 (6.42”]<br>—_<br>\—<br>Tr<br>e_<br>o Crt<br>RGC1S60D90GGEP<br>(fan to be supplied externally - no terminations provided on the RG module)<br>**----- End of picture text -----**<br>


**==> picture [191 x 26] intentionally omitted <==**

**----- Start of picture text -----**<br>
Housing width tolerance  +0.5mm, -0mm…as per DIN43880<br>All other tolerances: ± 0.5mm<br>All dimensions in mm<br>**----- End of picture text -----**<br>


Specifications are subject to change without notice (17.01.2018) 

**18** 

**RGC1S** 

## **Dimensions** 

**==> picture [72 x 252] intentionally omitted <==**

**----- Start of picture text -----**<br>
RGC1S60D41GGUP<br>RGC1S60D61GGUP<br>**----- End of picture text -----**<br>


**==> picture [191 x 26] intentionally omitted <==**

**----- Start of picture text -----**<br>
Housing width tolerance  +0.5mm, -0mm…as per DIN43880<br>All other tolerances: ± 0.5mm<br>All dimensions in mm<br>**----- End of picture text -----**<br>


**19** 

Specifications are subject to change without notice (17.01.2018) 

**RGC1S** 

## **Installation Instructions** 

**==> picture [415 x 153] intentionally omitted <==**

**----- Start of picture text -----**<br>
Y1 = 50mm<br>| A<br>RGC RGC<br>7 fla > —ataee q s \ 7 calf<br>20mmX 20mmX<br>X = Refer to X = 20mm Y2 =<br>Derating vs.<br>100mm<br>Spacing Curves<br>RGC<br>Mounting on DIN railMounting on DIN rail Dismounting from DIN railDismounting from DIN rail<br>50mm<br>**----- End of picture text -----**<br>


**20** 

Specifications are subject to change without notice (17.01.2018) 

**RGC1S** 

## **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 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. 

Class CC fuses are represented by tests performed on Class J fuses. 

## **Co-ordination type 1 (UL508)** 

|**Co-ordination type 1 (UL508)ype 1 (UL508)e 1 (UL508)(UL508)UL508))**||||
|---|---|---|---|
|**Part No.                                               Max. fuse size [A]**|**Class**|**Current [kA]**|**Voltage [VAC]**|
|RGC1S60D20GKEP                         30|J or CC|100|Max. 600|
|RGC1S60D25GKEP                     30                               J or CC                      100                                   Max. 600|RGC1S60D25GKEP                     30                               J or CC                      100                                   Max. 600|RGC1S60D25GKEP                     30                               J or CC                      100                                   Max. 600|RGC1S60D25GKEP                     30                               J or CC                      100                                   Max. 600|
|RGC1S60D26GGEP                     30                               J or CC                      100                                   Max. 600|RGC1S60D26GGEP                     30                               J or CC                      100                                   Max. 600|RGC1S60D26GGEP                     30                               J or CC                      100                                   Max. 600|RGC1S60D26GGEP                     30                               J or CC                      100                                   Max. 600|
|RGC1S60D30GKEP                         30|J or CC|100|Max. 600|
|RGC1S60D31GKEP                         40|J|100|Max. 600|
|RGC1S60D41GG.P                          90|J|100|Max. 600|
|RGC1S60D61GG.P                          90|J|100|Max. 600|
|RGC1S60D90GGEP                        90|J|100|Max. 600|



## **Co-ordination type 2 (IEC/EN 60947-4-3)** 

|**Mersen (Ferraz Shawmut)                                           Siba**|**Mersen (Ferraz Shawmut)                                           Siba**|**Mersen (Ferraz Shawmut)                                           Siba**|
|---|---|---|
|**Max fuse**<br>**size [A]**|**Max fuse**<br>**Part number**<br>**size [A]**|**Part number**|
|40|6.6xx CP URD 22x58 /40<br>32|50 142 06.32|
|40|6.6xx CP URD 22x58 /40<br>32|50 142 06.32|
|40|6.9xx CP GRC 22x58 /40<br>32|50 142 06.32|
|40|6.6xx CP URD 22x58 /40<br>32|50 142 06.32|
|63<br>70|6.9xx CP URC 14x51 /63<br>80<br>A70QS70-4<br>80|50 194 20.80<br>50 194 20.80|
|63<br>70|6.9xx CP URC 14x51 /63<br>80<br>A70QS70-4<br>80|50 194 20.80<br>50 194 20.80|
|100<br>100|6.9xx CP GRC 22x58 /100<br>100<br>A70QS100-4<br>100|50 194 20.100<br>50 194 20.100|
|100<br>100|6.621 CP URGD 27x60 /100<br>100<br>A70QS100-4<br>100|50 194 20.100<br>50 194 20.100|
|125<br>125|6.621 CP URQ 27x60 /125<br>125<br>A70QS125-4<br>125|50 194 20.125<br>50 194 20.125|
|125<br>125|6.621 CP URQ 27x60 /125<br>125<br>A70QS125-4<br>125|50 194 20.125<br>50 194 20.125|



**21** 

Specifications are subject to change without notice (17.01.2018) 

**RGC1S** 

## **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**|**Solid State Relay                       ABB Model no. for                          ABB Model no. for               Wire cross                              Minimum length of**|**Solid State Relay                       ABB Model no. for                          ABB Model no. for               Wire cross                              Minimum length of**|
|---|---|---|
|**type                                              Z - type M. C. B.**|**type                                              Z - type M. C. B.                             B - type M. C. B.                  sectional area [mm**|**B - type M. C. B.                  sectional area [mm**2**]             Cu wire conductor [m]**8|
|**(rated current)**|**(rated current)                                 (rated current)**|**(rated current)**|
|**RG..20                                         1 pole**|**RG..20                                         1 pole**||
|**(525A2s)**|**s)**S201 - Z4 (4A) S201 - B2 (2A)                      1.0|S201 - B2 (2A)                      1.0 21.0|
||S201 - Z6 UC (6A) S201 - B2 (2A)                      1.0|S201 - B2 (2A)                      1.0 21.0|
|1.5|1.5|1.5 31.5|
|<br>**RG..25                                           1 pole**|<br>**RG..25                                           1 pole **||
|**RG..30**|**RG..30**S201 - Z10 (10A) S201-B4 (4A)                         1.0|S201-B4 (4A)                         1.0 7.6|
|**(1800A2s)**|**s)**|**s)**1.5 11.4|
|||2.5 19.0|
||S201 - Z16 (16A) S201-B6 (6A)                         1.0|S201-B6 (6A)                         1.0 5.2|
|1.5|1.5|1.5 7.8|
|2.5|2.5|2.5 13.0|
|4.0|4.0|4.0 20.8|
|S201 - Z20 (20A)|S201 - Z20 (20A) S201-B10 (10A)                     1.5|S201-B10 (10A)                     1.5 12.6|
|2.5|2.5|2.5 21.0|
|<br>S201 - Z25 (25A)|<br>S201 - Z25 (25A) S201-B13 (13A)                     2.5|S201-B13 (13A)                     2.5 25.0|
|4.0|4.0|4.0 40.0|
||**2 pole**||
|S202 - Z25 (25A)|S202 - Z25 (25A) S202-B13 (13A)                     2.5|S202-B13 (13A)                     2.5 19.0|
|4.0|4.0|4.0 30.4|
|**RG..31                                           1 pole**|**RG..31                                           1 pole **||
|**(6600A2s)**|**s)**S201 - Z20 (20A) S201-B10 (10A)                     1.5|S201-B10 (10A)                     1.5 4.2|
|||2.5 7.0|
||4.0|4.0 11.2|
|S201 - Z32 (32A)|S201 - Z32 (32A) S201-B16 (16A)                     2.5|S201-B16 (16A)                     2.5 13.0|
|4.0|4.0|4.0 20.8|
|6.0|6.0|6.0 31.2|
||**2 pole**||
|S202 - Z20 (20A)|S202 - Z20 (20A) S202-B10 (10A)                     1.5|S202-B10 (10A)                     1.5 1.8|
|2.5|2.5|2.5 3.0|
|4.0|4.0|4.0 4.8|
|S202 - Z32 (32A)|S202 - Z32 (32A) S202-B16 (16A)                     2.5|S202-B16 (16A)                     2.5 5.0|
|4.0|4.0|4.0 8.0|
|6.0|6.0|6.0 12.0|
|10.0|10.0|10.0 20.0|
|S202 - Z50 (50A)|S202 - Z50 (50A) S202-B25 (25A)                     4.0|S202-B25 (25A)                     4.0 14.8|
|6.0|6.0|6.0 22.2|
|10.0|10.0|10.0 37.0|
|**RG..26**|**1 pole**||
|**RG..41**S201-Z32 (32A)                                 S201-B16 (16A)|S201-Z32 (32A)                                 S201-B16 (16A) 2.5|2.5 3.0|
|**RG..61**4.0|4.0|4.0 4.8|
|**RG..90**6.0|6.0|6.0 7.2|
|**(18000A2s)**|||
|S201-Z50 (50A)                                 S201-B25 (25A)|S201-Z50 (50A)                                 S201-B25 (25A) 4.0|4.0 4.8|
|6.0|6.0|6.0 7.2|
|10.0|10.0|10.0 12.0|
|16.0|16.0|16.0 19.2|
|S201-Z63 (63A)                                 S201-B32 (32A)|S201-Z63 (63A)                                 S201-B32 (32A) 6.0|6.0 7.2|
|10.0|10.0|10.0 12.0|
|16.0|16.0|16.0 19.2|



8.  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. 

**22** 

Specifications are subject to change without notice (17.01.2018) 

## **Environmental Information** 

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|Toxic or Harardous Substances and Elements|Toxic or Harardous Substances and Elements||
|---|---|---|---|---|---|---|
||Lead|Mercury|Cadmium|Hexavalent|Polybrominated|Polybrominated|
||(Pb)|(Hg)|(Cd)|Chromium|biphenyls (PBB)|diphenyl ethers|
|||||(Cr(Vl))||(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 requirement of GB/T 26572. 

X: Indicates that said hazardous substance contained in one of the homogeneous materials used for this part is above the limit requirement of GB/T 26572. 

|(Pb)|(Hg)|(Cd)|(Cr(Vl))|(PBB)|(PBDE)|
|---|---|---|---|---|---|
|x|O|O|O|O|O|



**==> picture [52 x 40] intentionally omitted <==**

**----- Start of picture text -----**<br>
25<br>**----- End of picture text -----**<br>


**23** 

Specifications are subject to change without notice (17.01.2018)