RP1B48D6

## **RP1A, RP1B** 

## **1-phase PCB mount solid state relays** 

## **Main features** 

- AC Solid State Relay for PCB mounting 

- Zero switching or instant-on 

- Rated operational current: 3, 5 or 5.5 AACrms 

- Rated operational voltage: Up to 480 VACrms 

- Surface mount technology 

- Flexible encapsulation for extended life 

- Control voltage: 3 to 32 VDC / 16 to 32 VAC 

- Opto-isolation: > 4000 VACrms 

- Blocking voltage: Up to 1000 Vp 

- Non-repetitive surge current: Up to 250 Ap 

## **Description** 

The RP1 is an SSR series for socket- or PCBmounting, providing an ideal interface between logic controls and AC loads. 

The RP1 is designed for resistive and inductive loads up to 480VACrms. 

Internally this new series enjoys an improved technical design with the introduction of stress-free flexible encapsulation and automated assembly of components. 

The Solid State technology used can withstand peak voltages of 1000V, making the RP1 series suitable to drive AC loads such as valve solenoids and small induction motors. 

## **Applications** 

These relays can be used to switch heaters, motors, lights, valves or solenoids. 

## **Main functions** 

- Zero cross or Instant on AC switching 

- Ratings up to 480 VACrms, 5.5 AACrms 

- 3-32 VDC or 16-32 VAC control voltage 

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**RP1A, RP1B** 

## **References** 

## **Order code** 

**RP1** C ~~[ OO]~~[000,] 

Enter the code entering the corresponding option instead of 

|**Code**|**Option**|**Description**|**Notes**|
|---|---|---|---|
|**R**|**-**|Solid State Relay (PCB)||
|**P**|**-**|||
|**1**|**-**|Number ofpoles||
||**A**|Switchingmode: zero switching||
||**B**|Switchingmode: instant-On switching||
||**23**|Rated operational voltage: 230 VACrms||
||**40**|Rated operational voltage: 400 VACrms||
||**48**|Rated operational voltage: 480 VACrms||
||**D**|Control voltage: 3 to 32 VDC|4 to 32 VDC for RP1A48..<br>4 to 32 VDC for RP1B40.. and RP1B48..|
||**A**|Control voltage: 16 to 32 VAC|Onlyavailable for 230V,5.5 A|
||**3**|Rated operational current: 3 AACrms||
||**5**|Rated operational current: 5 AACrms||
||**6**|Rated operational current: 5.5 AACrms||
||**Mx**|M1 = Mountingon DIN EN adaptor**RPM1**|Max. 250V|
|||M2 = Mountingon DIN EN adaptor**RPM2**|Max. 600V|



## **Selection guide** 

|**Rated opera-**<br>**tional voltage**|**Blocking voltage**|**Control voltage**|**Rated operational current**|**Rated operational current**|**Rated operational current**|
|---|---|---|---|---|---|
||||**3 AACrms**|**5 AACrms**|**5.5 AACrms**|
|230 VACrms|650 Vp|3 to 32 VDC<br>16 to 32 VAC|**RP1A23D3**<br>**RP1B23D3**<br>**-**|**RP1A23D5**<br>**RP1B23D5**<br>**-**|**RP1A23D6**<br>**RP1B23D6**<br>**RP1A23A6**|
|400 VACrms|850 Vp|3 to 32 VDC<br>4 to 32 VDC|**RP1A40D3**<br>**RP1B40D3**|**RP1A40D5**<br>**RP1B40D5**|**RP1A40D6**<br>**RP1B40D6**|
|480 VACrms|1000 Vp|4 to 32 VDC|**RP1A48D3**<br>**RP1B48D3**|**RP1A48D5**<br>**RP1B48D5**|**RP1A48D6**<br>**RP1B48D6**|



## **Selection Guide (mounted on DIN EN adaptor)** 

|**Rated opera-**<br>**tional voltage**|**Blocking voltage**|**Control voltage**|**Rated operational current**|**Rated operational current**|**Rated operational current**|
|---|---|---|---|---|---|
||||**3 AACrms**|**5 AACrms**|**5.5 AACrms**|
|230 VACrms|650 Vp|5 to 34 VDC<br>16 to 32 VAC|**RP1A23D3M1**<br>**RP1B23D3M1**<br>**-**|**RP1A23D5M1**<br>**RP1B23D5M1**<br>**-**|**RP1A23D6M1**<br>**RP1B23D6M1**<br>**RP1A23A6M1***|
|480 VACrms|1000 Vp|6 to 34 VDC|**-**|**RP1A48D5M2**|**-**|



* Version RP1A23A6M1 does not include an LED on the DIN adaptor. 

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**RP1A, RP1B** 

|**Purpose**|**Component name/code**|**Notes**|
|---|---|---|
|DIN adaptors|RPM1*<br>RPM1V*<br>RPM1P<br>RPM1PD*<br>RPM2|DIN adaptor 250V with LED<br>DIN adaptor 250V with LED + varistor<br>DIN adaptor 250V with pins for removal of RP<br>DIN adaptor 250V with pins for removal of RP + LED<br>DIN adaptor 600V with LED|



*not suitable for use with RP1A23A6 

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Further reading<br>><br>Information Where to find it<br>- -<br>eT<br>**----- End of picture text -----**<br>


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**RP1A, RP1B** 

## **Features** 

## **General** 

|**Material**|PBT,RAL7035|
|---|---|
|**Potting compound**|Flame-retardant flexible silicone rubber|
|**Weight**|Approx. 20g|
|**Isolation: input to output**|4 kVACrms|
|**Insulation resistance**|1010|
|**Insulation capacitance**|8pF|



## **Dimensions** 

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**RP1A, RP1B** 

## **Performance** 

## **Mains supply** 

||**RP1.23**|**RP1.40**|**RP1.48**|
|---|---|---|---|
|**Operational voltage range**<br>**RP1A**<br>**RP1B**|12 - 265 VACrms<br>12 - 265 VACrms|20 - 440 VACrms<br>12 - 440 VACrms|20 - 530 VACrms<br>12 - 530 VACrms|
|**Operational frequency range**|45 - 65 Hz|||
|**Blocking voltage**|650 Vp|850 Vp|1000 Vp|
|**Zero voltage turn-on**|< 10 V|||



## **Outputs** 

||**RP1....3**|**RP1....5**|**RP1....6**|
|---|---|---|---|
|**Rated operational current**<br>**AC 51 @ Ta = 25°C**<br>**AC 53a@ Ta = 25°C**|3 A<br>2 A|5 A<br>3 A|5.5 A<br>5 A|
|**Min. operational load current**|20 mA|||
|**Power factor**|> 0.5|||
|**Rep. overload current t=1 s**|10 AACrms|12 AACrms|16 AACrms|
|**Non-rep. surge current t=20 ms**|65 Ap|80 Ap|250 Ap|
|**Off-state leakage current**|< 1 mA|||
|**I2t for fusing t=10 ms**|20 A2s|50 A2s|340 A2s|
|**Critical dV/dt off state min.**|250 V/μs|500 V/μs||
|**On-state voltage drop @ rated**<br>**current**|< 1.2 Vrms|||



## **Inputs** 

||**RP1..D**|**RP1..D..Mx**|**RP1A23A6**|
|---|---|---|---|
|**Control voltage**<br>**RP1.23.. RP1A40..**<br>**RP1B40.. RP1.48..**|3-32 VDC<br>4-32 VDC|5-34 VDC<br>6-34 VDC|16 - 32 VAC<br>-<br>-|
|**Pick-up voltage**<br>**RP1.23.. RP1A40..**<br>**RP1B40.. RP1.48..**|2.8 VDC<br>3.8 VDC|4.8 VDC<br>5.8 VDC|10 VAC<br>-<br>-|
|**Drop-out voltage**|1.2 VDC||5 VAC|
|**Max. input curent**<br>**RP1A...**<br>**RP1B...**|10 mADC<br>15 mADC||13 mAAC<br>-<br>-|
|**Max. reverse voltage**|32 VDC|34 VDC|-|
|**Response time pick-up**<br>**RP1A...**<br>**RP1B...**|< 10 ms<br>< 160 μs (12 VDC/ 50 Hz)<br>< 320μs(5 VDC/ 50 Hz)||< 20 ms<br>-<br>-|
|**Response time drop-out**<br>**RP1A...**<br>**RP1B...**|< 10 ms<br>< 10 ms||< 20 ms<br>-<br>-|



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**RP1A, RP1B** 

## **Derating curve** 

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6<br>5<br>SLO<br>4<br>SS<br>3 D6<br>SS<br>D5<br>2<br>SS<br>D3<br>Tee<br>1<br>0 Hee<br>20     30       40       50       60      70<br>Surrounding temp. (°C)<br>Load current (AACrms)<br>**----- End of picture text -----**<br>


Derating curve is used for finding max. load current at an elevated ambient temperature. The 3 lines in the graph represent the 3 nominal current ratings of the RP1 series (RP1...D3/D5/D6). When used at full load current, the relays must be placed vertically. If more than one relay is mounted, please allow a minimum distance of 20 mm in between for sufficient air cooling. 

## **Increased Current Options** 

|Ipeak||||||
|---|---|---|---|---|---|
|Inom||||||
|Tamb= 25oC||||||
|||t||||
|**Ipeak(Amps)**||6||8|10|
|**D5 : t(minutes)**||15||5|3|
|**D6 : t(minutes**||15||5|3|



Note: even though the D3 can withstand a slight increase in current for a limited time, it is not recommended for this purpose. 

**Thermal data** > **Operating temperature** -20° to +70°C (-4° to +158°F) ~~———~~ **Storage temperature** -40° to +100°C (-40° to +212°F) 

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**RP1A, RP1B** 

|**Compatibility and conformity**<br>>|**Compatibility and conformity**<br>>|
|---|---|
||LVD: EN 60947-4-3|
||EMCD: EN 61000-6-2, EN 61000-6-4|
|**Standards compliance**|UL508|
||C22.2 No. 14-13|
||VDE 0700,VDE 0805(excludingRP1A23A6)|
|**Approvals**||
|||
|**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 (PC2)<br>Input: 1 kV,5 kHz(PC2)|
|**Conducted radio frequency**|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: 1 kV (PC2)1<br>Input, line to line: 500 V (PC2)2<br>Input,line to earth: 500 V(PC2)2|
|**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)|
|**Voltage Interruptions**|EN/IEC 61000-4-11<br>0% for 5000ms(PC2)|



|**Electromagnetic compatibility (EMC) - emissions**|**Electromagnetic compatibility (EMC) - emissions**|
|---|---|
|**Radio interference field emis-**<br>**sion(radiated)**|EN/IEC 55011<br>Class A: from 30 to 1000 MHz|
|**Radio interference voltage**<br>**emissions (conducted)**|From 0.15 to 30 MHz<br>EN/IEC 55011<br>Class A (industrial) with filter capacitor across the Mains supply<br>EN/IEC 60947-4-3<br>Class A(no filteringneeded)|



## Note: 

- 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. 

- Control input lines must be installed together to maintain products' susceptability to Radio Frequency interference. 

- [1] A suppression device, such as a varistor, needs to be connected across the output terminals L1, T1 for immunity against higher voltage levels. 

- [2] A suppression device, such as a transil, needs to be connected across the control terminals A1, A2 for immunity against higher voltage levels. 

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## **RP1... Functional diagram** 

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1<br>(+) 3 REGULATION<br>ZC *<br>Control IO<br>input<br>2<br>(-) 4<br>1<br>ZC - Zero Crossing<br>IO - Instant On<br>RP..Mx Functional diagram<br>><br>                 RP..Mx<br>                                   RP1... Pe<br>(+) 3 g 1 | 1<br>( +) 3 REGULATION<br>Control  | 3 ZC *<br>Control (+) IO<br>input<br>input<br>2 2<br>(-) 4 (-) 4<br>4<br>(-) ZC - Zero CrossingIO - Instant On<br>Morea<br>| oo<br>* The varistor is not included in the solid state relay. Connecting a varistor across terminals 1-2 helps protect<br>the solid state relay against damages by over-voltage<br>**----- End of picture text -----**<br>


## **Connection specifications** 

|**Terminals**|Copper alloy,tin-plated|
|---|---|
|**Terminals soldering tempera-**<br>**ture**|max. 300°C for 5 seconds|



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