SPPE123501

AC/DC Enclosed Power Supply (PSU), ITE & Industrial, 1 Outputs, 348 W, 12 VDC, 29 A

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Manufacturer: CARLO GAVAZZI
Product type: AC / DC Enclosed Power Supplies
Available until stocks are exhausted
SVHC: No SVHC (21-Jan-2025)
Product Range: SPPE Series
No. of Outputs: 1Outputs
Output Power Max: 348W
Input Voltage VAC: 180V AC to 264V AC
Power Supply Output Type: Fixed
Output Current - Output 1: 29A
Output Current - Output 2: -
Output Current - Output 3: -
Output Current - Output 4: -
Output Voltage - Output 1: 12VDC
Output Voltage - Output 2: -
Output Voltage - Output 3: -
Output Voltage - Output 4: -
Power Supply Applications: ITE & Industrial
Delivery and price
Units per pack	1
Price	92.16 €
Current stock	10+
Lead time	30 days
Datasheet
## **SPPE** 

## **SPPE** 

## **Enclosed Switching Power Supply** 

## **Benefits** 

- **Universal AC, DC input range.** SPPE Series can be powered with AC Voltage (80-85-90 VAC to 264-305 VAC) or with DC Voltage (100-240 VDC to 370-430 VDC). 

- **Reliable power in very compact dimensions.** SPPE offers high compactness, miniature size, long life and high power density, efficiency and reliability. 

- **Reliable critical protection.** The operation safety is guaranteed by the various output protections: Over Voltage (OVC), Over Load (OLP), Short Circuit (SCP), Over Power (OVP) and Over Temperature (OTP) depending on the model. 

- **Built-in features.** All SPPE models come with the DC OK LED. 

- **Wide operating and isolation ranges.** The operating temperature range is from -30/-40°C to +70/+85°C, depending on the model. 

## **Description** 

- **High altitude.** SPPE series assures the operating altitude up to 5000m and high I/O isolation voltage up to 4000 VAC, with OVC III. 

Enclosed Switching Power Supply for AC/DC and DC/DC power requirement. The new SPPE family provides flexible OEM power solutions for industrial control and automation applications. This series is available with range from 25 W to 350 W, and from 12 V to 24 V. All the range carries full certification offering a wide range of universal input and screw terminal connections. 

All specifications are at nominal values, full load, 25°C unless otherwise stated. 

## **Applications** 

This product is suitable for all applications which require single-phase power supply with universal AC or DC voltage input range, high efficiency and high compactness for panel mounting solution. Installations with limited panel space, industrial equipment, machinery. 

## **Main functions** 

- High efficiency up to 91.5% 

- Universal AC, DC input voltage range 

- 25 W, 35 W, 50 W, 75 W, 150 W, 200 W, 350 W 

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**SPPE** 

## **References** 

## **Order code** 

**SPPE 1** 

Enter the code entering the corresponding option instead of . 

|**Code**|**Option**|**Description**|**Notes**|
|---|---|---|---|
|**S**|**-**|Switching|Device typology|
|**P**|**-**|Power supply||
|**P**|**-**|Panel mount|Mounting|
|**E**|**-**|High efficiency||
||**12**|12 VDC|Rated output voltage|
||**24**|24 VDC||
||**25**|25 W|Rated output power|
||**35**|35 W||
||**50**|50 W||
||**75**|75 W||
||**150**|150 W||
||**200**|200 W||
||**350**|350 W||
|**1**|**-**|Singlephase input|Input type|



## **Selection guide** 

|**Output**<br>**Voltage**|**Output power**|**Output power**|**Output power**|**Output power**|**Output power**|**Output power**|**Output power**|
|---|---|---|---|---|---|---|---|
||**25 W**|**35 W**|**50 W**|**75 W**|**150 W**|**200 W**|**350 W**|
|**12 VDC**|SPPE12251|SPPE12351|SPPE12501|SPPE12751|SPPE121501|SPPE122001|SPPE123501|
|**24 VDC**|SPPE24251|SPPE24351|SPPE24501|SPPE24751|SPPE241501|SPPE242001|SPPE243501|



## **Further reading** 

|~~es~~|||
|---|---|---|
|**Information**<br>~~es~~|**Where to find it**|**QR**|
|SPPE Data sheet<br>~~es~~|https://gavazziautomation.com/images/PIM/DATASHEET/ENG/SPPE_DS_EN.pdf|~~iesee0~~<br>~~Ca, see~~|
|SPPE Instruction<br>manual|https://gavazziautomation.com/images/PIM/MANUALS/ENG/SPPE_IM.pdf|~~oi~~|



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## **Structure** 

## **SPPE 25 W** 

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**----- Start of picture text -----**<br>
E<br>D<br>B A C<br>**----- End of picture text -----**<br>


|**Element**|**Component**|**Function**|
|---|---|---|
|**A**|+ V terminals|Positive DC output terminals|
|**B**|- V terminals|Negative DC output terminals|
|**C**|VADJ Trimmer|Output voltage adjustment|
|**D**|Power supply terminals|L, N supply terminals + GND|
|**E**|Panel Mounting Predisposition|Predispositions present on two sides|



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## **SPPE** 

## **SPPE 35 / 50 W** 

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E<br>“<br>~~ § a G4<br>D<br>B A C<br>**----- End of picture text -----**<br>


|**Element**|**Component**|**Function**|
|---|---|---|
|**A**|+ V terminals|Positive DC output terminals|
|**B**|- V terminals|Negative DC output terminals|
|**C**|VADJ Trimmer|Output voltage adjustment|
|**D**|Power supply terminals|L, N supply terminals + GND|
|**E**|Panel Mounting Predisposition|Predispositions present on two sides|



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## **SPPE** 

## **SPPE 75 W** 

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E<br>D<br>B A C<br>**----- End of picture text -----**<br>


|**Element**|**Component**|**Function**|
|---|---|---|
|**A**|+ V terminals|Positive DC output terminals|
|**B**|- V terminals|Negative DC output terminals|
|**C**|VADJ Trimmer|Output voltage adjustment|
|**D**|Power supply terminals|L, N supply terminals + GND|
|**E**|Panel Mounting Predisposition|Predispositions present on two sides|



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## **SPPE 150 W** 

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E<br>=a—S -<br>_<br>— D<br>B A C<br>**----- End of picture text -----**<br>


|**Element**|**Component**|**Function**|
|---|---|---|
|**A**|+ V terminals|Positive DC output terminals|
|**B**|- V terminals|Negative DC output terminals|
|**C**|VADJ Trimmer|Output voltage adjustment|
|**D**|Power supply terminals|L, N supply terminals + GND|
|**E**|Panel Mounting Predisposition|Predispositions present on two sides|



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## **SPPE** 

## **SPPE 200 W** 

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F<br>E<br>D<br>~~<br>B A C<br>**----- End of picture text -----**<br>


|**Element**|**Component**|**Function**|
|---|---|---|
|**A**|+ V terminals|Positive DC output terminals|
|**B**|- V terminals|Negative DC output terminals|
|**C**|VADJ Trimmer|Output voltage adjustment|
|**D**|Power supply terminals|L, N supply terminals + GND|
|**E**|Panel Mounting Predisposition|Predispositions present on two sides|
|**F**|Switch|AC/DC input voltage switch|



**7** 

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## **SPPE** 

## **SPPE 350 W** 

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\«yo : <<.ae7 eeMee, "SGase E<br>F<br>C<br>A B D<br>**----- End of picture text -----**<br>


|**Element**|**Component**|**Function**|
|---|---|---|
|**A**|+ V terminals|Positive DC output terminals|
|**B**|- V terminals|Negative DC output terminals|
|**C**|VADJ Trimmer|Output voltage adjustment|
|**D**|Power supply terminals|L, N supply terminals + GND|
|**E**|Wall Mounting Predisposition|Predispositions present on two sides|
|**F**|Switch|AC/DC input voltage switch|



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## **Features** 

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General data<br>25 W 35 W 50 W 75 W<br>< 0.5 mA < 0.75 mA<br>Leakage current<br>(277 VAC) (277 VAC)<br>Efficiency  12 VDC 85 % 87.5 % 88 % 89 %<br>@230 VAC 24 VDC 86 % 88.5 % 89.5 % 91 %<br>12 VDC 4.45 W 5.14 W 6.95 W 8.90 W<br>Power loss @<br>nominal load 24 VDC 4.15 W 4.68 W 6.19 W 7.60 W<br>Switching frequency 65 kHz 95 kHz 90 kHz <150 kHz<br>Ingress protection IP20<br>MTBF (MIL-HDBK-217F) >450,000 h >300,000 h<br>Case material Metal<br>Weight 115 g (0.25 lb) 150 g (0.33 lb) 220 g (0.49 lb)<br>Mounting Panel mounting<br>**----- End of picture text -----**<br>


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150 W 200 W 350 W<br>< 0.5 mA < 0.75 mA < 0.5 mA (touch)<br>Leakage current<br>(277 VAC) (240 VAC) < 2.0 mA (earth)<br>Efficiency  12 VDC 91.5 % 89 % 85.5 %<br>@230 VAC 24 VDC 91 % 88 %<br>12 VDC 13.93 W 25.21 W 59.02 W<br>Power loss @<br>nominal load 24 VDC 14.49 W 20.89 W 47.78 W<br>Switching frequency 90 kHz - 65 kHz<br>Ingress protection IP20<br>MTBF (MIL-HDBK-217F) >300,000 h<br>Case material Metal<br>Weight 270 g (0.60 lb) 415 g (0.92 lb) 570 g (1.26 lb)<br>Mounting Panel mounting<br>**----- End of picture text -----**<br>


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## **Dimensions** 

## **SPPE 25 W** 

Unit: mm [inch] 

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**SPPE 35 / 50  W** Unit: mm [inch] 

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> Carlo Gavazzi Ltd. **10** 

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## **SPPE 75 W** 

Unit: mm [inch] 

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**SPPE 150 W** 

Unit: mm [inch] 

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## **SPPE 200 W** 

Unit: mm [inch] 

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## **SPPE 350 W** 

Unit: mm [inch] 

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## **Connection diagram** 

## **Terminal markings** 

**SPPE 25 W** 

|1<br>2<br>3<br>4<br>5<br>ADJ|1<br>2<br>3<br>4<br>5<br>ADJ|1<br>2<br>3<br>4<br>5<br>ADJ|
|---|---|---|
|**Terminal**|**Designation**|**Description**|
|**1**|AC(L)|Input terminals (phase conductor, no polarity with DC input)|
|**2**|AC(N)|Input terminals (neutral conductor, no polarity with DC input)|
|**3**|PE|Ground this terminal to minimize high frequency emissions|
|**4**|-V0|Negative output terminal|
|**5**|+V0|Positive output terminal|
||Vout ADJ|Potentiometer for output voltage adjustment|



**SPPE 35 / 50 / 75 W** 

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Terminal Designation Description<br>1 AC(L) Input terminals (phase conductor, no polarity with DC input)<br>2 AC(N) Input terminals (neutral conductor, no polarity with DC input)<br>3 PE Ground this terminal to minimize high frequency emissions<br>4 -V0 Negative output terminal<br>5 +V0 Positive output terminal<br>Vout ADJ Potentiometer for output voltage adjustment<br>**----- End of picture text -----**<br>


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## **SPPE 150 / 200 W** 

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LED<br>1 2 3 4 5 6 7 ADJ<br>**----- End of picture text -----**<br>


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Terminal Designation Description<br>1 AC(L) Input terminals (phase conductor, no polarity with DC input)<br>2 AC(N) Input terminals (neutral conductor, no polarity with DC input)<br>3 PE Ground this terminal to minimize high frequency emissions<br>4, 5 -V0 Negative output terminal<br>6, 7 +V0 Positive output terminal<br>Vout ADJ Potentiometer for output voltage adjustment<br>DC Status LED indication of power supply output status<br>**----- End of picture text -----**<br>


## **SPPE 350 W** 

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LED<br>ADJ 7 6 5 4 3 2 1<br>**----- End of picture text -----**<br>


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Terminal Designation Description<br>1 AC(L) Input terminals (phase conductor, no polarity with DC input)<br>2 AC(N) Input terminals (neutral conductor, no polarity with DC input)<br>3 PE Ground this terminal to minimize high frequency emissions<br>4, 5 -V0 Negative output terminal<br>6, 7 +V0 Positive output terminal<br>Vout ADJ Potentiometer for output voltage adjustment<br>DC Status LED indication of power supply output status<br>**----- End of picture text -----**<br>


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## **Environmental** 

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25 W 35 W 50 W 75 W<br>-30°C to 70°C<br>Operating temperature<br>(-22°F to 158°F) -40°C to 85°C<br>-40°C to 85°C (-40°F to 185°F)<br>Storage temperature<br>(-40°F to 185°F)<br>Operating humidity 20 - 90 % RH non-condensing<br>Storage humidity < 95 % RH non-condensing<br>Operating altitude 5000 m<br>Temperature derating Refer to derating diagram<br>Ventilation and cooling Cooling by free air convection<br>**----- End of picture text -----**<br>


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150 W 200 W 350 W<br>Operating temperature -40°C to 85°C<br>(-40°F to 185°F)<br>Storage temperature<br>Operating humidity < 95 % RH 20 - 90 % RH non-condensing<br>Storage humidity non-condensing 10 - 95 % RH non-condensing<br>Operating altitude 5000 m<br>Temperature derating Refer to derating diagram<br>Ventilation and cooling Cooling by free air convection Forced air cooling<br>**----- End of picture text -----**<br>


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## **Compatibility and conformity** > 

|~~a~~|**25 W**|**35 W**|**50 W**|**75 W**|
|---|---|---|---|---|
|**Safety standards**<br>~~CE~~|EN61558-1<br>EN61558-2-2<br>EN61558-2-16<br>EN61204-7<br>UL/EN62368-1<br>IS13252 (Part1)<br>safety approved<br>EN60335 OVCII<br>~~CE~~|EN61558-1<br>EN61558-2-2<br>EN61558-2-16<br>EN61204-7<br>UL/EN62368-1<br>EN62477-1<br>EN60335 OVCII<br>~~CE ANC~~||EN61558-1<br>EN61558-2-2<br>EN61558-2-16<br>EN61204-7<br>UL/EN62368-1<br>EN62477<br>EN60335 OVCII<br>~~ANC~~|
|**Approvals**<br>~~CE~~|~~CE ANC~~||||
|**Conducted (CS)**<br>**IEC/EN 61000-4-6**<br>~~CE~~<br>~~ee~~|10 Vrms (PC A)<br>~~CE ANC~~<br>~~ee~~||||
|**Voltage dips**<br>**IEC/EN61000-4-11**<br>~~ee~~|0% (PC B)<br>70% (PC B)||||
|**Voltage interruptions**<br>**IEC/EN61000-4-11**<br>~~ee~~|||||
|**EMC emission**<br>**CE: CISPR32/EN55032**<br>**RE: CISPR32/EN55032**|Class B<br>Class B||||
|**Harmonic current**<br>**IEC/EN61000-3-2**|-|||Class A|
|**EMC immunity**<br>**ESD: IEC/EN 61000-4-2**<br>**RS: IEC/EN 61000-4-3**<br>**EFT: IEC/EN 61000-4-4**<br>**Surge: IEC/EN 61000-4-5**|contact ± 6 kV<br>/ air ± 8 kV<br>10 V/m<br>± 2 kV<br>line to line ±1 kV<br>line to ground ±2 kV|contact ± 6 kV<br>/ air ± 8 kV<br>10 V/m<br>± 4 kV<br>line to line ±2 kV<br>line to ground ±4 kV|||



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## **Compatibility and conformity (continued)** > 

|~~a~~|**150 W**|**200 W**|**350 W**|
|---|---|---|---|
|**Safety standards**|EN61558-1,<br>EN61558-2-2,<br>EN61558-2-16,<br>EN61204-7,<br>UL/EN62368-1,<br>EN62477|EN61558-1,<br>EN61558-2-2,<br>EN61558-2-16,<br>EN61204-7,<br>UL/EN62368-1,<br>EN62477-1<br>~~ANC~~||
|**Approvals**<br>~~CE~~|~~CE~~<br>~~ANC~~|||
|**Conducted (CS)**<br>**IEC/EN 61000-4-6**<br>~~ee~~|10 Vrms (PC A)<br>~~ANC~~<br>~~ee~~|||
|**Voltage dips**<br>**IEC/EN61000-4-11**|30% for 25 cycles<br>100% for 1 cycle<br>(PC B)|0% (PC B)<br>70% (PC B)|0% (PC B)<br>70% (PC B)|
|**Voltage interruptions**<br>**IEC/EN61000-4-11**|100% for 250 cycles<br>(PC B)||0% of 230 VAC<br>(PC A)<br>0% for 5000 ms<br>(PC B)|
|**EMC emission**<br>**CE: CISPR32/EN55032**<br>**RE: CISPR32/EN55032**<br>~~es~~|Class B<br>Class B|Class A<br>Class A||
|**Harmonic current**<br>**IEC/EN61000-3-2**<br>~~es~~|-|||
|**EMC immunity**<br>**ESD: IEC/EN 61000-4-2**<br>**RS: IEC/EN 61000-4-3**<br>**EFT: IEC/EN 61000-4-4**<br>**Surge: IEC/EN 61000-4-5**<br>**PFMF: IEC/EN 61000-4-8**<br>~~es~~|contact ± 6 kV<br>/ air ± 8 kV<br>10 V/m<br>± 4 kV<br>line to line ±2 kV<br>line to ground ±4 kV<br>30 A/m|contact ± 6 kV<br>/ air ± 8 kV<br>10 V/m<br>± 2 kV<br>line to line ±2 kV<br>line to ground ±4 kV<br>30 A/m|contact ± 6 kV<br>/ air ± 8 kV<br>10 V/m<br>± 4 kV<br>line to line ±2 kV<br>line to ground ±4 kV<br>30 A/m|



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Insulation<br>25 W 35 W 50 W 75 W<br>Insulation / withstand voltage  2.0 kVAC /<br>2.0 kVAC / < 5 mA<br>(input / GND) < 10 mA<br>Insulation / withstand voltage  4.0 kVAC /<br>4.0 kVAC / < 5 mA<br>(input / output) < 10 mA<br>Insulation / withstand voltage  1.25 kVAC /<br>1.25 kVAC / < 5 mA<br>(output / GND) < 10 mA<br>Insulation resistance ≥ 100 MΩ<br>Overvoltage category III<br>Pollution degree 2<br>**----- End of picture text -----**<br>


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150 W 200 W 350 W<br>Insulation / withstand voltage<br>4.0 kVAC / < 5 mA 2.0 kVAC / < 5 mA 4.0 kVAC / < 5 mA<br>(input / GND)<br>Insulation / withstand voltage<br>2.0 kVAC / < 5 mA 4.0 kVAC / < 5 mA 2.0 kVAC / < 3 mA<br>(input / output)<br>Insulation / withstand voltage<br>1.25 kVAC / < 5 mA 0.5 kVAC / < 5 mA 0.5 kVAC / < 3 mA<br>(output / GND)<br>Insulation resistance ≥ 100 MΩ<br>Overvoltage category III<br>Pollution degree 2<br>**----- End of picture text -----**<br>


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Inputs<br>25 W 35 W 50 W 75 W<br>Rated input voltage 100 VAC to 277 VAC<br>85 VAC to 305 VAC  80 VAC to 305 VAC<br>(305 VAC max.) (305 VAC max.)<br>Input voltage range<br>100 VDC to 430 VDC<br>(430 VDC max.)<br>AC current (max)<br>115 VAC < 0.6 A < 0.8 A < 1.2 A < 2 A<br>230 VAC < 0.34 A < 0.6 A < 0.8 A < 1 A<br>Frequency range 47 Hz to 63 Hz<br>Inrush current<br>115 VAC 20 A 30 A 30 A 40 A<br>230 VAC 40 A 50 A 60 A 75 A<br>Standby power<br>< 0.3 W < 0.5 W < 0.3 W<br>consumption<br>150 W 200 W 350 W<br>100 VAC to 120 VAC<br>Rated input voltage 100 VAC to 277 VAC<br>200 VAC to 240 VAC<br>Low voltage - switch in position of 115:<br>80 VAC to 305 VAC 90 VAC to 132 VAC (132 VAC max.)<br>(305 VAC max.) High voltage - switch in position of 230:<br>Input voltage range 180 VAC to 264 VAC (264 VAC max.)<br>100 VDC to 430 VDC Switch in position of 230:<br>(430 VDC max.) 240 VDC to 370 VDC (370 VDC max.)<br>AC current (max)<br>115 VAC < 4 A < 5 A < 8 A<br>230 VAC < 2 A < 3 A < 4 A<br>Frequency range 47 Hz to 63 Hz<br>Inrush current<br>115 VAC 30 A < 80 A 60 A<br>230 VAC 60 A < 80 A 60 A<br>Standby power<br>< 0.5 W < 0.75 W<br>consumption<br>**----- End of picture text -----**<br>


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**SPPE** 

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Outputs<br>25 W 35 W 50 W 75 W<br>Output power<br>12 VDC 25.2 W 36 W 51 W 72 W<br>24 VDC 25.5 W 36 W 52.8 W 76.8 W<br>Voltage accuracy ±1 %<br>Line regulation<br>±0.5 %<br>Load regulation<br>Minimum load > 0 %<br>Voltage regulation span<br>12 VDC 10.8 V to 13.2 V  11.4 V to 13.8 V 10.2 V to 13.8 V<br>24 VDC 22 V to 27.6 V 22.8 V to 27.6 V 21.6 V to 28.8 V<br>Rated output current<br>12 VDC 2.1 A 3 A 4.2 A 6 A<br>24 VDC 1.1 A 1.5 A 2.2 A 3.2 A<br>Ripple and noise<br>20 MHz bandwidth<br>12 VDC < 100 mV 60 - 150 mV 65 - 150 mV 120 mV<br>24 VDC < 100 mV 100 - 150 mV 80 - 150 mV 150 mV<br>Hold up time<br>115 VAC 8 ms 6 ms 6 ms ≥ 8 ms<br>230 VAC 60 ms 35 ms 30 ms ≥ 55 ms<br>Mounting space No requirement for the installation distance<br>Series operation Yes<br>Parallel operation No<br>Power boost No<br>**----- End of picture text -----**<br>


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**SPPE** 

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## **Outputs (continued)** 

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**----- Start of picture text -----**<br>
150 W 200 W 350 W<br>Output power<br>12 VDC 150 W 204 W 348 W<br>24 VDC 156 W 211.2 W 350.4 W<br>Voltage accuracy<br>12 VDC ±1 % ±1.5 %<br>24 VDC ±1 % ±1 %<br>Line regulation ±0.5 %<br>Load regulation<br>12 VDC ±0.5 % ±1 %<br>24 VDC ±0.5 % ±0.5 %<br>Minimum load > 0 %<br>Voltage regulation span<br>12 VDC 11.4 V to 13.8 V<br>24 VDC 22.8 V to 27.6 V<br>Rated output current<br>12 VDC 12.5 A 17 A 29 A<br>24 VDC 6.5 A 8.8 A 14.6 A<br>Ripple and noise<br>20 MHz bandwidth<br>12 VDC ≤ 150 mV 150 mV 180 mV<br>24 VDC ≤ 200 mV 150 mV 240 mV<br>Hold up time<br>115 VAC 8 ms ≥ 8 ms 12 ms<br>230 VAC 40 ms ≥ 16 ms 16 ms-<br>Mounting space No requirement for the installation distance<br>Series operation Yes<br>Parallel operation No<br>Power boost No<br>**----- End of picture text -----**<br>


**21** 

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**SPPE** 

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## **Performance** 

## **Current derating** 

## **25 W** 

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**----- Start of picture text -----**<br>
Temperature derating curve<br>100<br>70<br>60<br>0<br>-30 -25 40 70<br>Temperature [°C]<br>Temperature derating curve<br>100<br>70<br>50<br>30<br>0<br>-40 -30 50 70 85<br>Temperature [°C]<br>Temperature derating curve<br>100<br>50<br>30<br>0<br>-40 -30 50 70 85<br>Temperature [°C]<br>Power out [%]<br>Power out [%]<br>Power out [%]<br>**----- End of picture text -----**<br>


## **35 W** 

## **50 W** 

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**----- Start of picture text -----**<br>
Input voltage derating curve<br>100<br>80<br>85 100 277 305 VAC<br>100 120 Input voltage 390 430 VDC<br>Input voltage derating curve<br>100<br>60<br>80 100 305 VAC<br>100 140 Input voltage 430 VDC<br>Input voltage derating curve<br>100<br>80<br>75<br>80 100 277 305 VAC<br>100 140 Input voltage 390 430 VDC<br>Power out [%]<br>Power out [%]<br>Power out [%]<br>**----- End of picture text -----**<br>


**22** 

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**SPPE** 

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## **Current derating (continued)** 

## **75 W** 

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**----- Start of picture text -----**<br>
Temperature derating curve<br>100<br>50<br>30<br>0<br>-40 -30 50 70 85<br>Temperature [°C]<br>Temperature derating curve<br>100<br>70<br>50<br>30<br>0<br>-40 -25 50 70 85<br>Temperature [°C]<br>Temperature derating curve<br>100<br>50<br>30<br>0<br>-40 -30 50 70 85<br>Temperature [°C]<br>Power out [%]<br>Power out [%]<br>Power out [%]<br>**----- End of picture text -----**<br>


## **150 W** 

## **200 W** 

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**----- Start of picture text -----**<br>
Input voltage derating curve<br>100<br>80<br>73<br>80 100 277 305 VAC<br>100 140 Input voltage  392 430 VDC<br>Input voltage derating curve<br>100<br>80<br>70<br>80 85 100 305 VAC<br>100 120 140 Input voltage 430 VDC<br>Power out [%]<br>Power out [%]<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
Input voltage derating curve<br>100<br>65<br>90 100 264 VAC (50 Hz)<br>Input voltage<br>Power out [%]<br>**----- End of picture text -----**<br>


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**SPPE** 

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## **Current derating (continued)** 

## **350 W** 

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**----- Start of picture text -----**<br>
Temperature derating curve Input voltage derating curve<br>90-132 VAC<br>100 100<br>180-264 VAC<br>80 80<br>30<br>0<br>-40 -25 50 70 85 90 100 132 VAC (60 Hz)<br>Temperature [°C] 180 190 Input voltage 264 VAC<br>240 254 370 VDC<br>Power out [%] Power out [%]<br>**----- End of picture text -----**<br>


## **Efficiency** 

## **25 W** 

Efficiency vs. output load (230 VAC) 

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**----- Start of picture text -----**<br>
95<br>90<br>24 VDC<br>85 12 VDC<br>80<br>75<br>70<br>65<br>60<br>55<br>50<br>10 25 40 50 65 75 90 100<br>Output current percentage [%]<br>Efficiency [%]<br>**----- End of picture text -----**<br>


## **35 W** 

Efficiency vs. output load (230 VAC) 

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**----- Start of picture text -----**<br>
90<br>24 VDC<br>12 VDC<br>85<br>80<br>75<br>70<br>65<br>60<br>55<br>50<br>10 25 40 50 75 90 100<br>Output current percentage [%]<br>Efficiency [%]<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
Efficiency vs. input voltage (full load)<br>95<br>90<br>24 VDC<br>85 12 VDC<br>80<br>75<br>70<br>65<br>60<br>85 115 230 277 305<br>Input voltage [VAC]<br>Efficiency vs. input voltage (full load)<br>90<br>87 24 VDC<br>12 VDC<br>84<br>81<br>78<br>75<br>72<br>69<br>66<br>63<br>60<br>80 115 230 305<br>Input voltage [VAC]<br>Efficiency [%]<br>Efficiency [%]<br>**----- End of picture text -----**<br>


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## **Efficiency (continued)** 

## **50 W** 

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**----- Start of picture text -----**<br>
Efficiency vs. output load (230 VAC)<br>95<br>90 24 VDC<br>12 VDC<br>85<br>80<br>75<br>70<br>65<br>60<br>10 25 40 50 75 90 100<br>Output current percentage [%]<br>Efficiency [%]<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
Efficiency vs. input voltage (full load)<br>95<br>90<br>24 VDC<br>12 VDC<br>85<br>80<br>75<br>70<br>65<br>60<br>80 115 230 305<br>Input voltage [VAC]<br>Efficiency [%]<br>**----- End of picture text -----**<br>


## **75 W** 

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**----- Start of picture text -----**<br>
Efficiency vs. output load (230 VAC)<br>100<br>95<br>90 24 VDC<br>12 VDC<br>85<br>80<br>75<br>70<br>65<br>60<br>10 25 40 50 65 75 90 100<br>Output current percentage [%]<br>Efficiency [%]<br>**----- End of picture text -----**<br>


## **150 W** 

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**----- Start of picture text -----**<br>
Efficiency vs. output load (230 VAC)<br>100<br>24 VDC<br>90<br>12 VDC<br>80<br>70<br>60<br>50<br>40<br>10 30 50 70 90 100<br>Output current percentage [%]<br>Efficiency [%]<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
Efficiency vs. input voltage (full load)<br>100<br>95<br>90 24 VDC<br>12 VDC<br>85<br>80<br>75<br>70<br>65<br>60<br>80 115 230 305<br>Input voltage [VAC]<br>Efficiency vs. input voltage (full load)<br>95<br>90<br>24 VDC<br>85 12 VDC<br>80<br>75<br>70<br>65<br>60<br>80 100 120 220 264 305<br>Input voltage [VAC]<br>Efficiency [%]<br>Efficiency [%]<br>**----- End of picture text -----**<br>


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**SPPE** 

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## **Efficiency (continued)** 

## **200 W** 

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**----- Start of picture text -----**<br>
Efficiency vs. output load (230 VAC)<br>95<br>90 24 VDC<br>12 VDC<br>85<br>80<br>75<br>70<br>65<br>60<br>10 25 40 50 75 90 100<br>Output current percentage [%]<br>Efficiency [%]<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
Efficiency vs. input voltage (full load)<br>95<br>24 VDC<br>90<br>12 VDC<br>85<br>80<br>75<br>70<br>65<br>60<br>90 115 180 220 240 264<br>Input voltage [VAC]<br>Efficiency [%]<br>**----- End of picture text -----**<br>


## **350 W** 

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**----- Start of picture text -----**<br>
Efficiency vs. output load (230 VAC)<br>100<br>95 24 VDC<br>12 VDC<br>90<br>85<br>80<br>75<br>70<br>65<br>60<br>10 25 40 50 65 75 90 100<br>Output current percentage [%]<br>Efficiency [%]<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
Efficiency vs. input voltage (full load)<br>100<br>95<br>90<br>24 VDC<br>85 12 VDC<br>80<br>75<br>70<br>65<br>60<br>90 115 132 180 230 264<br>Input voltage [VAC]<br>Efficiency [%]<br>**----- End of picture text -----**<br>


**26** 

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**SPPE** 

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## **Wiring diagram** 

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**----- Start of picture text -----**<br>
Line - L<br>Electrical line Neutral - N<br>Ground<br>VAC<br>VDC<br>+ -<br>LOAD<br>**----- End of picture text -----**<br>


## **Connection specification** 

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**----- Start of picture text -----**<br>
25 W 35 W 50 W 75 W<br>Terminal type Screw terminals with Phillips screw head<br>Screw driver blade 3.5 mm slotted or Phillips<br>Tightening torque<br>0.4 Nm<br>(recommended)<br>Conductor cross section   0.34 - 4 mm²<br>(input terminals) (22 - 12 AWG)<br>Conductor cross section   1.5 - 4 mm²<br>(PE connection) 0.34 - 2.5 mm² (16 - 12 AWG)-<br>(22 - 14 AWG) 0.75 - 4 mm²<br>12 VDC<br>Conductor cross  (18 - 12 AWG)<br>section<br>(output terminals) 24 VDC 0.5 - 4 mm²<br>(20 - 12 AWG)<br>150 W 200 W 350 W<br>Terminal type Screw terminals with Phillips screw head<br>Screw driver blade 3.5 mm slotted or Phillips<br>Tightening torque<br>0.4 Nm<br>(recommended)<br>Conductor cross section   0.5 - 6 mm²<br>(input terminals) (20 - 10 AWG)<br>Conductor cross section   1.5 - 6 mm²<br>(PE connection) (16 - 10 AWG)<br>2.5 - 6 mm² 4 - 6 mm² 2.5 - 6 mm²<br>12 VDC<br>Conductor cross  (14 - 10 AWG) (12 - 10 AWG) (14 - 10 AWG)<br>section<br>(output terminals) 24 VDC 0.75 - 6 mm² 1.5 - 6 mm² 0.75 - 6 mm²<br>(18 - 10 AWG) (16 - 10 AWG) (18 - 10 AWG)<br>**----- End of picture text -----**<br>


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**SPPE** 

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## **Block diagram** 

## **SPPE 25 W / 35 W / 50 W / 75 W** 

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**----- Start of picture text -----**<br>
EMI RECTIFIERS POWER RECTIFIERS +V<br>VP & &<br>FILTER SWITCHING -V<br>FILTER FILTER<br>FG PWM DETECTION<br>O.L.P.<br>CONTROL CIRCUIT<br>**----- End of picture text -----**<br>


## **SPPE 150 W** 

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**----- Start of picture text -----**<br>
EMI FILTER POWER RECTIFIERS +V<br>I/P & &<br>RECTIFIER SWITCHING FILTER -V<br>FEEDBACK<br>DETECTION<br>FG O.L.P<br>CIRCUIT<br>O.V.P<br>**----- End of picture text -----**<br>


## **SPPE 200 W / 350 W** 

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**----- Start of picture text -----**<br>
FAN<br>I/P FILTEREMI RECTIFIERS SWITCHINGPOWER RECTIFIER & FILTER +V-V<br>FG DETECTION<br>O.L.P CIRCUIT<br>O.V.P<br>O.L.P<br>**----- End of picture text -----**<br>


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## **Operating description** 

## **Control and protection** 

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**----- Start of picture text -----**<br>
25 W 35 W 50 W 75 W<br>≤ 16.2 VDC ≤ 16.2 VDC ≤ 16 VDC<br>12 VDC Hiccup,  Hiccup or clamp,  Clamp,<br>self-recovery self-recovery self-recovery<br>Overvoltage<br>protection ≤ 32.4 VDC ≤ 33.6 VDC ≤ 33.6 VDC<br>24 VDC Hiccup,  Hiccup or clamp,  Hiccup,<br>self-recovery self-recovery self-recovery<br>110-300% Io,<br>Overcurrent protection 120% - 200% Io, hiccup, self-recovery<br>self-recovery<br>Hiccup, continuous, self-recovery<br>Short circuit protection Recovery time < 5 s,  Recovery time < 5 s,<br>Recovery time < 3 s, after the short<br>after the short circuit  after the short circuit<br>circuit disappear<br>disappear disappear<br>Overtemperature  protection -<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
150 W 200 W 350 W<br>≤ 16.2 VDC<br>≤ 16 VDC ≤ 16.2 VDC<br>Hiccup or clamp,<br>12 VDC Hiccup or clamp,  Hiccup,<br>self-recovery after fault<br>self-recovery self-recovery<br>elimination<br>Overvoltage<br>protection ≤ 33.6 VDC<br>≤ 33.6 VDC ≤ 33.6 VDC<br>Hiccup or clamp,<br>24 VDC Hiccup or clamp,  Hiccup or clamp,<br>self-recovery after fault<br>self-recovery self-recovery<br>elimination<br>120% - 250% Io, hiccup,<br>120% - 200% Io, hiccup,  130-220% Io,<br>Overcurrent protection self-recovery after fault<br>self-recovery self-recovery<br>elimination<br>Hiccup, continuous, self-recovery<br>Short circuit protection<br>- the short circuit disappearRecovery time < 5 s, after  -<br>Output voltage turn off,<br>Overtemperature   Output voltage turn off, self- Hiccup,<br>self-recovery after fault<br>protection recovery self-recovery<br>elimination<br>**----- End of picture text -----**<br>


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Carlo Gavazzi Ltd.
Updated at June 9, 2026
Founded in Milan in 1931, Carlo Gavazzi is a globally recognized leader in the design and manufacture of high-quality automation components. For nearly a century, the company has driven technological innovation in the industrial and building automation markets. With ISO 9001-certified production facilities across Europe and Asia, Carlo Gavazzi delivers state-of-the-art solutions tailored for demanding applications, including HVAC, renewable energy, semiconductor manufacturing, and electric vehicle charging infrastructure. Our extensive portfolio of Carlo Gavazzi components focuses heavily on their industry-leading switching and sensing technologies. We carry a comprehensive selection of solid state relays, contactors, and power relays engineered for exceptional reliability and thermal performance. Alongside these robust switching solutions, our range features a wide array of precision sensors, with a strong emphasis on proximity switches and light sensors that are critical for automated manufacturing processes, mobile equipment, and access control systems. Beyond core sensing and switching, the Carlo Gavazzi lineup extends into essential power management, circuit protection, and control devices. This includes highly efficient AC/DC converters, thermal magnetic circuit breakers, and advanced panel instrumentation designed to monitor and optimize energy efficiency. From current sensing transformers to motor starters, engineers consistently trust Carlo Gavazzi to provide competitive, dependable, and forward-thinking components for their most complex automation challenges.
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