RA4890HA12

## **Solid State Relays Industrial, 1-Phase ZS, Standard Range Types RA 24.. .. 06/RA 48.. .. 12** 

- **AC Solid State Relay** 

- **Zero switching** 

- **Direct copper bonding technology** 

- **Rated operational current: 25, 50 and 90 AACrms** 

- **Blocking voltage: Up to 1200 Vp** 

- **Rated operational voltage: Up to 480 VACrms** 

- **3 input ranges: 3 to 32 VDC, 10 to 90 VAC/DC and 90 to 280 VAC/DC** 

- **Isolation: OPTO (input-output) 4000 VACrms** 

**Product De scrip tion Ordering Key RA 24 25 LA 06** The zero switching relay with tive, inductive and capacitive **Solid State Relay** antiparallel thyristor output is loads. The zero switching re - **Switching mode** the most widely used in duslay switch es ON when the **Rated operational voltage** tri al SSR due to its multiple sine curve just cross es zero **Rated operational current** ap pli ca tion possibilities. The and switch es OFF when the **Control voltage** ~~SO~~ relay can be used for re sis - cur rent cross es zero. ~~0~~ **Blocking voltage** 

## **T e Selection yp** 

**Switching mode Rated operational          Rated operational          Control voltage              Blocking voltage voltage                            current** A: Zero switching             24: 230 VACrms               25: 25 AACrms                 D:   3 to 32 VDC               06: 650 Vp 48: 480 VACrms               50: 50 AACrms                 LA: 10 to 90 VAC/DC       08: 850 Vp 90: 90 AACrms                 HA: 90 to 280 VAC/DC    12: 1200 Vp 

## **Selection Guide** 

**Rated opera- Blocking    Control voltage Rated op er a tion al current tional voltage   voltage                                         25 AACrms 50 AACrms 90 AACrms** 3 to 32 VDC **RA 2425 -D 06                  RA 2450 -D 06                  RA 2490 -D 06** 230 VACrms      650 Vp         10 to 90 VAC/DC **RA 2425 LA 06                  RA 2450 LA 06 RA 2490 LA 06** 90 to 280 VAC/DC **RA 2425 HA 06 RA 2450 HA 06 RA 2490 HA 06** 3 to 32 VDC **RA 4825 -D 12                  RA 4850 -D 12                  RA 4890 -D 12** 480 VACrms      1200 Vp       10 to 90 VAC/DC **RA 4825 LA 12                  RA 4850 LA 12 RA 4890 LA 12** 90 to 280 VAC/DC **RA 4825 HA 12 RA 4850 HA 12 RA 4890 HA 12** 

**1** 

Specifications are subject to change without notice (22.01.2024) 

**RA 24.. ..06, RA 48.. ..12** 

## **General Spec i fi ca tions** 

||**RA 24.. .. 06**||**RA 48.. .. 12**|
|---|---|---|---|
|Operational voltage range 24 to 280 VACrms|24 to 280 VACrms||42 to 530 VACrms|
|Blockingvoltage                           ≥ 650 V|e                           ≥ 650 Vp||≥1200 Vp|
|Zero voltage turn-on                    ≤ 20 V|e turn-on                    ≤ 20 V||≤40 V|
|Operational frequencyrange 45 to 65 Hz|45 to 65 Hz||45 to 65 Hz|
|Power factor                                 ≥ 0.5 @ 230 VACrms|Power factor                                 ≥ 0.5 @ 230 VACrms<br>≥ 0.5 @ 480 VACrms|≥ 0.5 @ 480 VACrms|≥ 0.5 @ 480 VACrms|
|Approvals CE, cURus, CSA, EAC|CE, cURus, CSA, EAC<br>CE, cURus, CSA, EAC|CE, cURus, CSA, EAC|CE, cURus, CSA, EAC|



## **Output Spec i fi ca tions** 

|**RA..25 .. .. **||**RA ..50 .. ..**||**RA ..90 .. ..**|
|---|---|---|---|---|
|Rated operational current AC 51    25 Arms||50 Arms||90 Arms|
|AC 53a  5 Arms||15 Arms||20 Arms|
|Minimum operational current 150 mArms||250 mArms||400 mArms|
|Rep. overload current t=1 s         ≤ 55 Arms||≤ 125 Arms||≤ 150 Arms|
|Non-rep. surge current t=10 ms   325 Ap||600 Ap||1150 Ap|
|Off-state leakage current|||||
|@ rated voltage and frequency≤ 3 mArms||≤ 3 mArms||≤ 3 mArms|
|I2t for fusingt=10 ms<br>≤ 525 A2s||≤ 1800 A2s||≤ 6600 A2s|
|On-state voltage drop|||||
|@ rated current<br>≤ 1.6 Vrms||≤ 1.6 Vrms||≤ 1.6 Vrms|
|Critical dV/dt commutating≥ 500 V/µs||≥ 500 V/µs||≥ 500 V/µs|
|Critical dV/dt off-state<br>≥ 500 V/µs||≥ 500 V/µs||≥ 500 V/µs|



## **In ut S ec i fi ca tions p p** 

||**RA .... -D ..                                 RA .... LA ..                                RA .... HA ..**|**RA .... -D ..                                 RA .... LA ..                                RA .... HA ..**|**RA .... -D ..                                 RA .... LA ..                                RA .... HA ..**|**RA .... -D ..                                 RA .... LA ..                                RA .... HA ..**|**RA .... -D ..                                 RA .... LA ..                                RA .... HA ..**|
|---|---|---|---|---|---|
|<br>Control voltage range                   3 to 32 VDC|e                   3 to 32 VDC 10 to 90 VAC/DC|10 to 90 VAC/DC|10 to 90 VAC/DC 90 to 280 VAC/DC|90 to 280 VAC/DC|90 to 280 VAC/DC|
|Pick-upvoltage                            ≥ 3 VDC|e                            ≥ 3 VDC ≤ 10 VAC/DC|≤ 10 VAC/DC|≤ 10 VAC/DC ≤ 90 VAC/DC|≤ 90 VAC/DC|≤ 90 VAC/DC|
|Drop-out voltage                          ≤ 1 VDC|e                          ≤ 1 VDC ≥ 1 VAC/DC|≥ 1 VAC/DC|≥ 1 VAC/DC ≥ 10 VAC/DC|≥ 10 VAC/DC|≥ 10 VAC/DC|
|Reverse voltage ≤ 32 VDC|≤ 32 VDC|||||
|Input impedance                          1.5 kΩ                                         5.4 kΩ                                        44 kΩ|edance                          1.5 kΩ                                         5.4 kΩ                                        44 kΩ|edance                          1.5 kΩ                                         5.4 kΩ                                        44 kΩ|edance                          1.5 kΩ                                         5.4 kΩ                                        44 kΩ|edance                          1.5 kΩ                                         5.4 kΩ                                        44 kΩ|edance                          1.5 kΩ                                         5.4 kΩ                                        44 kΩ|
|Response timepick-up ≤ 1/2 c|≤ 1/2 cycle                                ≤ 1 c|cle                                ≤ 1 c|cle                                ≤ 1 cycle                                    ≤ 1 c|cle                                    ≤ 1 c|cle                                    ≤ 1 cycle|
|Controlpulse width                      ≥ 0.5 ms                                    ≥ 0.5 ms                                     ≥ 0.5 ms|ulse width                      ≥ 0.5 ms                                    ≥ 0.5 ms                                     ≥ 0.5 ms|ulse width                      ≥ 0.5 ms                                    ≥ 0.5 ms                                     ≥ 0.5 ms|ulse width                      ≥ 0.5 ms                                    ≥ 0.5 ms                                     ≥ 0.5 ms|ulse width                      ≥ 0.5 ms                                    ≥ 0.5 ms                                     ≥ 0.5 ms|ulse width                      ≥ 0.5 ms                                    ≥ 0.5 ms                                     ≥ 0.5 ms|
|Response time drop-out              ≤ 1/2 cycle                                ≤ 1/2 cycle|Response time drop-out              ≤ 1/2 cycle                                ≤ 1/2 cycle|Response time drop-out              ≤ 1/2 cycle                                ≤ 1/2 cycle|Response time drop-out              ≤ 1/2 cycle                                ≤ 1/2 cycle ≤ 1/2 cycle|≤ 1/2 cycle|≤ 1/2 cycle|



**2** 

Specifications are subject to change without notice (22.01.2024) 

**RA 24.. ..06, RA 48.. ..12** 

## **Isolation** 

|**Isolation**||
|---|---|
|Rated isolation voltage||
|Input to output ≥ 4000 VACrms|≥ 4000 VACrms|
|Rated isolation voltage||
|Output to case ≥4000 VACrms|≥4000 VACrms|
|Insulation resistance||
|Input to output ≥ 10|≥ 1010 Ω|
|Insulation resistance||
|Ouput to case                            ≥ 10|ut to case                            ≥ 1010 Ω|
|Insulation capacitance||
|Input to output ≤ 8|≤ 8pF|
|Insulation capacitance||
|Output to case ≤ 100 pF|≤ 100 pF|



## **Functional Di a gram** 

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Mains input/load output<br>i<br>Control<br>input<br>@)<br>Load output/mains input<br>**----- End of picture text -----**<br>


## **Housin S ecifications g p** 

|Weight                                          A|ht                                          Approx. 110g|
|---|---|
|Housingmaterial                          Nor|material                          Noryl GFN 1,black|
|Base plate                25, 50 A       Aluminium, nickel-plated|Base plate                25, 50 A       Aluminium, nickel-plated|
|90 A       Co|90 A       Copper,nickel-plated|
|Pottingcompound Pol|Polyurethane|
|Relay||
|Mounting screws M5|M5|
|Mountingtorque                        ≤ 1.5 Nm|ue                        ≤ 1.5 Nm|
|Control terminal||
|Mounting screws M3 x 6|M3 x 6|
|Mountingtorque                        ≤ 0.5 Nm|ue                        ≤ 0.5 Nm|
|Power terminal||
|Mounting screws M5 x 6|M5 x 6|
|Mounting torque                        ≤ 2.4 Nm|Mounting torque                        ≤ 2.4 Nm|



## **Dimensions** 

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**<br>‘era Cf<br>28<br>“ COMPOUND<br>** = ± 0.4 mm **<br>*** = ± 0.5 mm Bos“ 2XM3<br>*** ***<br>*** ***<br>**----- End of picture text -----**<br>


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All dimensions in mm<br>**----- End of picture text -----**<br>


## **Connection Dia ram g** 

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Control<br>Line/load<br>input | v=C] (>Les J |<br>**----- End of picture text -----**<br>


**3** 

Specifications are subject to change without notice (22.01.2024) 

**RA 24.. ..06, RA 48.. ..12** 

## **Heatsink Dimensions (load current versus ambient temperature)** 

|**RA ..25 .. ..**|||**RA ..50 .. ..**|**RA ..50 .. ..**|||
|---|---|---|---|---|---|---|
|Load<br>current [A]<br>Thermal resistance<br>[oC/W]|Power<br>dissipation [W]||Power<br>dissipation [W]<br>Thermal resistance<br>[oC/W]<br>Load<br>current [A]|||dissipation [W]|
||||||||
|2 1.7       1.4 1       0.71    0.40   32<br>2.5      2.1       1.8      1.4 1       0.66    27<br>3.1      2.7       2.3      1.9      1.4 1       23<br>4. 3.5        3 2.5 2 1.4 20<br>4.9      4.3       3.7      3.1      2.5      1.9 16<br>6.2      5.4       4.6      3.9      3.1      2.3 13<br>8.1      7.1       6.1      5.1 4 3       10<br>11.3 9.9       8.5      7.1      5.6      4.2 7<br>- 15.6     13.3    11.1 8.9      6.7 5<br>- -          -          - 18.7 14 2<br>25<br>22.5<br>20<br>17.5<br>15<br>12.5<br>10<br>7.5<br>5<br>2.5<br>~~pe~~<br>~~rT Too~~<br>~~Tr~~<br>~~ee~~<br>ee<br>~~ee~~<br>~~ee ee~~<br>~~ry ~~~~**T**d~~<br>rT<br>~~o~~<br>Too||1       0.71    0.40   32<br>1       0.66    27<br>1       23<br>20<br>16<br>13<br>3       10<br>7<br>5<br>2|0.92    0.76     0.60    0.45    0.29<br>1.2<br>1.5      1.3       1.1<br>1.9      1.6       1.4      1.1<br>2.4      2.1       1.8      1.5      1.2<br>3<br>3.9      3.5        3<br>5.5      4.8       4.1      3.4      2.7      2.1<br>8.6      7.5       6.4      5.4      4.3      3.2<br>17.9    15.6     13.4    11.2<br>50<br>45<br>40<br>35<br>30<br>25<br>20<br>15<br>10<br>5|0.92    0.76     0.60    0.45    0.29 -     63<br>1.2 0.99     0.80    0.62    0.44    0.26    55<br>1.5      1.3       1.1 0.85    0.63    0.42    47<br>1.9      1.6       1.4      1.1 0.89    0.63    40<br>2.4      2.1       1.8      1.5      1.2 0.91    33<br>3 2.7       2.3      1.9      1.5      1.1 26<br>3.9      3.5        3 2.5 2 1.5 20<br>5.5      4.8       4.1      3.4      2.7      2.1 15<br>8.6      7.5       6.4      5.4      4.3      3.2 9<br>17.9    15.6     13.4    11.2 8,9      6.7 4<br>a<br>TTT<br>Pf<br>|<br>cE|<br>P|<br>|<br>tTTT<br>P|ft<br>~~Pot ot~~<br>~~|fT~~<br>Pot<br>|<br>ft~~ft~~<br>**P**|<br>**|**<br>fl fl<br>f<br>hE|<br>Ft<br>|<br>Tl |<br>||-     63<br>0.99     0.80    0.62    0.44    0.26    55<br>0.85    0.63    0.42    47<br>0.89    0.63    40<br>0.91    33<br>26<br>20<br>15<br>9<br>4||
|20 30 40 50 60 70|70|TA|20|20 30 40 50 60 70||TA|
||Ambient temp. [°C]|||Ambient temp. [°C]||Ambient temp. [°C]|



## **RA ..25 .. ..** 

## **RA ..90 .. ..** 

|0.63    0.53     0.42    0.32<br>0.81    0.69     0.57    0.45    0.33<br>1       0.89     0.75    0.61    0.47    0.33    71<br>1.3      1.2        1       0.83    0.66    0.49    59<br>1.7      1.5       1.3      1.1<br>2.2      1.9       1.7      1.4      1.1<br>3.1      2.7       2.3      1.9      1.5      1.2<br>4.8      4.2       3.6<br>10       8.8       7.5      6.3<br>90<br>80<br>70<br>60<br>50<br>40<br>30<br>20<br>10|||||||-          -       97<br>-       84<br>1       0.89     0.75    0.61    0.47    0.33    71<br>1.3      1.2        1       0.83    0.66    0.49    59<br>0.85    0.64    47<br>0.83    36<br>26<br>17<br>8|
|---|---|---|---|---|---|---|---|
||0.63    0.53     0.42    0.32<br>~~ee~~<br>P||0.63    0.53     0.42    0.32<br>~~ee~~<br>P|<br>||0.63    0.53     0.42    0.32<br>~~ee~~<br>|<br>||0.63    0.53     0.42    0.32 -          -       97<br>~~ee~~<br>|tT|-          -       97<br>~~ee~~<br>tT|-          -       97<br>~~ee~~<br>tT||
||0.81    0.69     0.57    0.45    0.33<br>~~ee~~<br>P|<br>P||0.81    0.69     0.57    0.45    0.33<br>~~ee~~<br>P|<br>|<br>P|TT|0.81    0.69     0.57    0.45    0.33<br>~~ee~~<br>|<br>|<br>TT|0.81    0.69     0.57    0.45    0.33<br>~~ee~~<br>|tT<br>TT|0.81    0.69     0.57    0.45    0.33 -       84<br>~~ee~~<br>tT|-       84<br>~~ee~~<br>tT||
||1       0.89     0.75    0.61    0.47    0.33    71<br>P|<br>P|<br>Pf|1       0.89     0.75    0.61    0.47    0.33    71<br>P|<br>|<br>P|TT<br>Pf<br>||1       0.89     0.75    0.61    0.47    0.33    71<br>|<br>|<br>TT<br>|<br>tT|1       0.89     0.75    0.61    0.47    0.33    71<br>| tT<br>TT<br>tT|1       0.89     0.75    0.61    0.47    0.33    71<br>tT|1       0.89     0.75    0.61    0.47    0.33    71<br>tT||
||1.3      1.2        1       0.83    0.66    0.49    59<br>P|<br>Pf<br>P||1.3      1.2        1       0.83    0.66    0.49    59<br>P| TT<br>Pf<br>|<br>P||1.3      1.2        1       0.83    0.66    0.49    59<br>TT<br>|<br>tT<br>ee|1.3      1.2        1       0.83    0.66    0.49    59<br>TT<br>tT<br>ee|1.3      1.2        1       0.83    0.66    0.49    59<br>ee|1.3      1.2        1       0.83    0.66    0.49    59<br>ee||
||1.7      1.5       1.3      1.1<br>Pf<br>ee<br>P||1.7      1.5       1.3      1.1<br>Pf<br>|<br>ee<br>P|<br>||1.7      1.5       1.3      1.1<br>|<br>tT<br>ee<br>ee<br>|<br>ct|1.7      1.5       1.3      1.1 0.85    0.64    47<br>tT<br>ee<br>ee<br>ct|0.85    0.64    47<br>ee<br>ee<br>|0.85    0.64    47<br>ee<br>ee<br>||
||2.2      1.9       1.7      1.4      1.1<br>ee<br>P|<br>P||2.2      1.9       1.7      1.4      1.1<br>ee<br>P|<br>|<br>P||2.2      1.9       1.7      1.4      1.1<br>ee<br>ee<br>|<br>ct|2.2      1.9       1.7      1.4      1.1<br>ee<br>ee<br>ctET|2.2      1.9       1.7      1.4      1.1 0.83    36<br>ee<br>ee<br>ET|0.83    36<br>ee<br>ee<br>ET||
||3.1      2.7       2.3      1.9      1.5      1.2<br>P|<br>P|<br>Pf|3.1      2.7       2.3      1.9      1.5      1.2<br>P|<br>|<br>P|<br>**|**<br>Pf|3.1      2.7       2.3      1.9      1.5      1.2<br>ee <br>|<br>ct<br>**|**<br>|<br>tT|3.1      2.7       2.3      1.9      1.5      1.2<br> ee<br>ctET<br>|ET<br>tT|3.1      2.7       2.3      1.9      1.5      1.2<br>ee<br>ET<br>ET<br>|3.1      2.7       2.3      1.9      1.5      1.2 26<br>ee<br>ET<br>ET<br>||
||4.8      4.2       3.6<br>P|<br>Pf<br>ft|4.8      4.2       3.6<br>P|<br>**|**<br>Pf<br>ft<br>||4.8      4.2       3.6 3<br><br>**|**<br>|<br>tT<br>|ht|3 2.4      1.8<br>ET<br>|ET<br>tT~~|~~<br>ht|2.4      1.8<br>ET<br>ET<br>~~|~~<br>|2.4      1.8 17<br>ET<br>ET<br>~~|~~<br>||
||10       8.8       7.5      6.3<br>Pf<br>ft|10       8.8       7.5      6.3<br>**|**<br>Pf<br>ft<br>||10       8.8       7.5      6.3<br>**|**<br>|<br>tT<br>|ht|10       8.8       7.5      6.3 5<br>|ET<br>tT~~|~~<br>htE|5 3.8<br>ET<br>~~|~~<br>ET|3.8 8<br>ET<br>~~|~~<br>T||



## **Heatsink Selection** 

## **Ordering Key** 

**RHS..** 

- Heatsinks and fans 

- 5.40[o] C/W to 0.12[o] C/W thermal resistance 

- DIN, panel or thru wall mounting 

- Single or multiple SSR mounting 

Heatsink Range Overview: https://www.gavazziautomation.com/images/PIM/DATASHEET/ENG/SSR_Accessories.pdf 

Heatsink Selector Tool: 

https://www.gavazziautomation.com/nsc/HQ/EN/heat_sink_selector_tool 

**4** 

Specifications are subject to change without notice (22.01.2024) 

**RA 24.. ..06, RA 48.. ..12** 

## **A lications pp** 

This relay is designed for use tant. It is essential that the user in applications in which it is makes sure that cooling is ad - exposed to high surge con di - e quate and that the maximum tions. Care must be taken to junction tem per a ture of the re - ensure proper heatsinking lay is not ex ceed ed. when the relay is to be used at high sustained currents. AdeIf the heatsink is placed in a quate electrical con nec tion small closed room, control between relay terminals and panel or the like, the power cable must be ensured. 

Direct bonding 

In the design of the outputpower sem i con duc tor di rect Irms = ItONON[2] + tx  tOFFON bonding of the copper layer and the ceramic substrate has been applied. This is to en - sure uninhibited heat transfer Ex: RA 24 50 -D 06: and high thermal fa tigue Load current = 45 A strength. tON = 30 s t OFF = 15 s The relay has been designed for applications requiring large numbers of load cycles. 45[2] x 30 Irms = 30 + 15 

If the heatsink is placed in a quate electrical con nec tion small closed room, control and high thermal fa tigue between relay terminals and panel or the like, the power strength. cable must be ensured. dissipation can cause the ambient temperature to rise. The relay has been designed The heatsink is to be calfor applications requiring lar- **Thermal characteristics** culated on the basis of the ge numbers of load cycles. The thermal design of Solid ambient temperature and the State Relays is very im por - increase in temperature. 

## **Thermal characteristics** 

Power dissipation The power dissipation for in - ter mit tent use is calculated according to the following for - mu la: 

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**----- Start of picture text -----**<br>
Heat flow<br>Rth j-c Rth c-s Rth s-a<br>Junction  Case Heatsink Ambient<br>temperature temperature temperature temperature<br>Thermal resistance: Rth c-s = case to heatsink<br>Rth j-c = junction to case Rth s-a = heatsink to ambient<br>**----- End of picture text -----**<br>


**==> picture [207 x 74] intentionally omitted <==**

**----- Start of picture text -----**<br>
cording to the following for - The rms current will be<br>36.7 A.<br>ON<br>OFF<br>ton toff<br>**----- End of picture text -----**<br>


## **Thermal S ec i fi ca tions p** 

|**RA ..25 .. ..**|**RA ..25 .. ..**||**RA ..50 .. .. **||**RA ..90 .. ..**|
|---|---|---|---|---|---|
|Operating temperature                 -20|Operating temperature                 -20o to +70°C||-20o to +70°C||-20o to +70°C|
||(-4° to +158°F)||(-4° to +158°F)||(-4° to +158°F)|
|Storage temperature                    -40|Storage temperature                    -40o to +100°C||-40o to +100°C||-40o to +100°C|
||(-40° to +212°F)||(-40° to +212°F)||(-40° to +212°F)|
|Junction temperature                   ≤ 125|erature                   ≤ 125oC(≤257°F)||≤ 125oC(≤257°F)≤ 125|≤ 125|≤ 125oC(≤ 257°F)|
|Rth junction to case                      ≤ 1.25|unction to case                      ≤ 1.25oC/W||≤ 0.65oC/W||≤ 0.3oC/W|
|Rthjunction to ambient                 ≤ 12|junction to ambient                 ≤ 12oC/W||≤ 12oC/W||≤ 12oC/W|



## **Environmental S ecifications p** 

|Pollution degree|2(non-conductivepollution withpossibilites of condensation)|
|---|---|
|EU RoHS compliant|Yes|
|China RoHS compliant|Refer to Environmental Information(Page 6)|



**5** 

Specifications are subject to change without notice (22.01.2024) 

**RA 24.. ..06, RA 48.. ..12** 

## **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. 

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||||||||
|---|---|---|---|---|---|---|
|Pa trName|Tocix|o rHarardou sSubstance sand|Eelments|
|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|

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


O: Indicates that said hazardous substance contained in homogeneous materials fot this part are below the limit requirement of GB/T 26572. 

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**----- Start of picture text -----**<br>
||||||||||
|---|---|---|---|---|---|---|---|---|
|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.|
|FR ira|te|tt|
|BAARPe ARH A|FD|te|
|SJ/T11364-2014|:|VEEBF|BAT|PRE|RANA|S|ia|
|Sam|ABkAS|YMRS|tA|
|(Pb)|(Hg)|(Cd)|(Cr(Vl))|(PBB)|(PBDE)|
|x|O|O|O|O|O|
|a|eG|
|Olt|SHAM|PSAN|AA|SET GB/T|26572H|BRE|°|
|xX:|ISR MMP|SAN|AA|Sm|TGB/T|26572H|IRE|°|
|25|

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


**6** 

Specifications are subject to change without notice (22.01.2024) 

**RA 24.. ..06, RA 48.. ..12** 

## **Accessories** 

- Graphite thermal pad with adhesive on one side 

- Type KK071CUT 

- Dimensions: 35 x 43 x 0.25 mm 

- Packing quantity: 50 pcs. 

All accessories can be ordered pre-assembled with Solid State Relays. Other accessories include DIN rail adaptors and varistors 

For futher information refer to Accessories datasheets at: https://www.gavazziautomation.com/images/PIM/DATASHEET/ENG/SSR_Accessories.pdf 

**7** 

Specifications are subject to change without notice (22.01.2024)