GSP750PS48-EF

AC/DC Enclosed Power Supply (PSU), ITE & Medical, 1 Outputs, 750 W, 48 VDC, 15.6 A

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Manufacturer: XP POWER
Product type: AC / DC Enclosed Power Supplies
No. of Outputs:1Outputs; Output Power Max:750W; Output Voltage - Output 1:48V; Output Current - Output 1:15.6A; Output Voltage - Output 2:-; Output Current - Output 2:-; Output Voltage -
SVHC: No SVHC (15-Jan-2018)
Product Range: GSP750 Series
No. of Outputs: 1Outputs
Output Power Max: 750W
Input Voltage VAC: 80V AC to 264V AC
Input Voltage AC Max: 264V
Input Voltage AC Min: 80V
Power Supply Output Type: Adjustable, Fixed
Output Current - Output 1: 15.6A
Output Current - Output 2: -
Output Current - Output 3: -
Output Current - Output 4: -
Output Voltage - Output 1: 48VDC
Output Voltage - Output 2: -
Output Voltage - Output 3: -
Output Voltage - Output 4: -
Power Supply Applications: ITE & Medical

Delivery and price
Units per pack	5
Price	250.24 €
Current stock	10+
Lead time	30 days

Datasheet

## 750 Wa s tt 

- Low Pro le, Compact Size 

- Suitable for 1U Applica ti ons 

- 900 W Peak Power Ra ti ng for 100 ms 

- Universal 80  264 VAC Input (300 VAC for 5 s) 

- IT/Industrial & Medical (2 x MOPP) Safety Approvals 

- 5 V/3 A Standby Output 

- 1.0 W Standby Power 

- Intelligent Fan Speed Control 

-  40° C to +70° C Opera ti on 

- PowerFail, Inhibit, Remote Sense & Current Share 

- 3 Year Warranty 

Dimensions: GSP750: 10.0 x 4.0 x 1.65” (254.0 x 101.6 x 41.91 mm) 

The GSP750 offers a full 750 W of output power in a very small mechanical footprint while providing peak power to up to 900 W, a 5 V standby output with 3 A current capability and an input standby power draw of <1.0 W when the inhibit is activated. 

Approved for both IT/Industrial and medical applications the series has output versions from 12 V to 48 V. Cooling fans are intelligently controlled to reduce accoustic noise in the system and the GSP750 provides up to 50 W without forced cooling, allowing the fans to be switched off, providing silent running during periods of lower system loading or system standby conditions. 

## Models & Ratings 

|Output<br>Voltage|Output Current V1|StandbySupply|StandbySupply|Max Output Power|Max Output Power|Model Number|
|---|---|---|---|---|---|---|
|||<50 W Load<br>(fans off)|>50 W Load<br>(fans on)|Nom|Peak(1)||
|12.0 VDC|62.5 A|5 V/1 A|5 V/3 A|750 W|900 W|GSP750PS12-EF|
|24.0 VDC|31.3 A|5 V/1 A|5 V/3 A|750 W|900 W|GSP750PS24-EF|
|48.0 VDC|15.6 A|5 V/1 A|5 V/3 A|750 W|900 W|GSP750PS48-EF|



## ~~**Notes**~~ 

_1. Peak power available for 100 ms maximum with a 10% duty cycle. The average power in a period should be equal or less than the nominal power._ 

## Input 

|Characteristic<br>~~po~~<br>~~LR~~|Minimum<br>~~GG~~|Typical<br>~~GG~~|Maximum<br>~~GGGO~~|Units<br>~~GO~~|Notes & Conditions<br>~~GO~~|
|---|---|---|---|---|---|
|Input Voltage - Operating<br>~~po~~<br>~~LR~~|80<br>~~GG~~|115/230<br>~~GG~~|264<br>~~GGGO~~|VAC<br>~~GO~~|Derate output power <90 VAC. See fig 1.<br>~~GO~~|
|Input Voltage - Fault condition<br>~~LR~~<br>~~CG~~|~~GG~~<br>~~CG~~|~~GG~~<br>~~CG~~<br>~~GC~~|300<br>~~GG GO~~<br>~~CG ~~<br>~~GC~~|VAC<br>~~GO~~<br> ~~GO~~|5 second max<br>~~GO~~<br>~~GO~~|
|Input Frequency<br>~~Ge~~|47<br>~~Ge~~|50/60<br>~~Ge~~<br>~~GC~~|63<br>~~Ge~~<br>~~GC~~|Hz<br>~~Ge~~|~~Ge~~|
|Power Factor<br>~~CG~~<br>~~DR~~|~~CG~~|>0.9<br>~~GC~~<br>~~CG~~<br>~~GG~~|~~GC~~<br>~~CG ~~<br>~~GG~~|~~GG~~|230 VAC, 100% load<br>~~GG~~|
|Input Current - Full Load<br>~~Ge~~<br>~~DR~~|~~Ge~~|8.7/4.35<br>~~Ge~~<br>~~GG~~|~~Ge~~<br>~~GG~~|A<br>~~Ge~~|115/230 VAC<br>~~Ge~~|
|Inrush Current<br>~~DR~~|~~GG~~|60<br>~~GG~~<br>~~GG~~|~~GG~~<br>~~GG GG~~|A<br>~~GG~~|~~GG~~|
|No Load Input Power<br>~~DR~~<br>~~CG~~|~~CG~~|~~GG~~<br>~~CG~~|1<br>~~GG~~<br>~~CG ~~|W<br> ~~GO~~|All models, when inhibit activated<br>~~GO~~|
|Earth Leakage Current<br>~~DR~~||80/220|250|μA|115/230 VAC/50 Hz Typ., 264 VAC/60 Hz Max.|
|Input Protection<br>~~DR~~|F16.0 A/250 V internal fuse in both lines|||||



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|Characteristic<br>~~CG~~|Minimum<br>~~CG~~|Typical<br>~~CG~~|Maximuμm<br>~~CG~~|Units<br>~~CG~~|Notes & Conditions<br>~~CG~~|
|---|---|---|---|---|---|
|Output Voltage - V1<br>~~a~~|12<br>~~G~~|~~G~~|48|VDC|See Models and Ratings table|
|Initial Set Accuracy<br>~~a~~<br>~~CG~~|~~G~~<br>~~CG~~|~~G~~<br>~~CG~~|±1<br>~~CG~~|%<br>~~CG~~|50% load, 115/230 VAC<br>~~CG~~|
|Output Voltage Adjustment<br>~~CG~~|~~CG~~|~~CG~~|+1,-3<br>~~CG~~|%<br>~~CG~~|~~CG~~|
|Minimum Load<br>~~RG~~|0<br>~~RG~~|~~RG~~|~~RG~~|A<br>~~RG~~|No minimum load required<br>~~RG~~|
|Start Up Delay<br>~~RG~~<br>~~GG~~|~~RG~~<br>~~GG~~|1.0<br>~~RG~~<br>~~GG~~|2.0<br>~~RG~~<br>~~GG~~|s<br>~~RG~~<br>~~GG~~|115/230 VAC full load from input AC turn on<br>~~RG~~<br>~~GG~~|
|Hold Up Time<br>~~a~~|10<br>~~G~~|~~G~~||ms|100% load|
|Drift<br>~~CG~~|~~CG~~|~~CG~~|±0.5<br>~~CG~~|%<br>~~CG~~|After 20 min warm up<br>~~CG~~|
|Line Regulation<br>~~eG~~|~~eG~~|~~eG~~|±0.5<br>~~eG~~|%<br>~~eG~~|90-264 VAC<br>~~eG~~|
|Load Regulation||0.2|1.0|%|0-100% load|
|Transient Response<br>~~pf~~|~~pf~~|~~pf~~|4<br>~~pf~~|%<br>~~pf~~|Recovery within 1% in less than 500μs<br>for a 50-75% and 75-50% load step<br>~~pf~~|
|Over/Undershoot<br>~~CG~~|~~CG~~|~~CG~~|5<br>~~CG~~|%<br>~~CG~~|~~CG~~|
|Ripple & Noise<br>~~CG~~|~~CG~~|0.5<br>~~CG~~|1.5<br>~~CG~~|% pk-pk<br>~~CG~~|20 MHz bandwidth<br>~~CG~~|
|Overvoltage Protection<br>~~DG~~|115<br>~~DG~~|~~DG~~|140<br>~~DG~~|%<br>~~DG~~|Vnom DC. Output 1, recycle input to reset<br>~~DG~~|
|Overload Protection<br>~~DG~~<br>~~GG~~|110<br>~~DG~~<br>~~GG~~|~~DG~~<br>~~GG~~|150<br>~~DG~~<br>~~GG~~|% I nom<br>~~DG~~<br>~~GG~~|See fig. 2. Trip and Restart<br>~~DG~~<br>~~GG~~|
|Short Circuit Protection<br>~~a~~|~~DD~~|~~DD~~|~~I~~|~~I~~|Shutdown & auto recovery|
|Temperature Coefficient<br>~~CG~~|~~CG~~|~~CG~~|0.05<br>~~CG~~|%/˚C<br>~~CG~~|~~CG~~|
|Overtemperature Protection<br>~~DF~~|~~DF~~|~~DF~~|~~DF~~|~~DF~~|Shutdown & auto recovery<br>~~DF~~|



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Input Voltage Derating Curve<br>Figure 1<br>750<br>675<br>600<br>80 85 90 264 300<br>Input Voltage (VAC)<br>Output Power (W)<br>5 Seconds Maximum<br>**----- End of picture text -----**<br>


**Output Overload Characteristic** Figure 2 GSP750PS12 example (others similar). 

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14<br>12<br>10<br>8<br>6<br>4<br>2<br>0<br>0 10 20 30 40 50 60 70 80 90 100<br>Output Current (A)<br>Output Voltage (V)<br>**----- End of picture text -----**<br>


|Characteristic<br>GO|Minimum<br>GO|Typical<br>GO|Maximum<br>(OG|Units<br>(OG|Notes & Conditions<br>(OG|
|---|---|---|---|---|---|
|Efficiency<br>~~pf~~<br>~~Gee~~|~~pf~~<br>~~Gee~~|90<br>~~pf~~<br>~~Gee~~|~~pf~~<br>~~GG~~|%<br>~~pf~~<br>~~GG~~|230 VAC Full load (see fig.3-5 )<br>~~pf~~<br>~~GG~~|
|Isolation: Input to Output<br>Input to Ground<br>Output to Ground<br>~~Gee~~<br>~~GOO~~<br>~~es~~<br>~~ee~~|4000<br>~~Gee~~|~~Gee~~|~~GG~~|VAC<br>~~GG~~|2 x MOPP<br>~~GG~~|
||1500<br>~~Gee~~<br>~~GOO~~<br>~~esGG~~|~~Gee~~<br>~~GOO~~<br>~~GG~~|~~GG~~<br>~~GOO~~<br>~~GG~~|VAC<br>~~GG~~<br>~~GOO~~<br>~~GG~~|1 x MOPP<br>~~GG~~<br>~~GOO~~<br>~~GG~~|
||500<br>~~esGG~~<br>~~ee~~|~~GG~~<br>~~ee~~|~~GG~~|VDC<br>~~GG~~<br>~~PO~~|1 x MOPP at 48 VDC<br>~~GG~~<br>~~PO~~|
|Switching Frequency<br>~~es~~<br>~~ee~~<br>~~es~~<br>~~ee~~<br>~~a~~|~~esGG~~<br>~~ee~~<br>~~es~~|65<br>~~GG~~<br>~~ee~~|~~GG~~|kHz<br>~~GG~~<br>~~PO~~<br>~~ee~~<br>~~Po~~|PFC Converter<br>~~GG~~<br>~~PO~~<br>~~ee~~|
||50<br>~~ee ~~<br>~~es~~<br>~~ee ee~~|90<br> ~~ee~~<br>~~ee~~|200||Main Converter<br>~~PO~~<br>~~ee~~<br>~~Po~~|
||~~es~~<br>~~ee ee~~|100<br>~~ee~~|||Standby Converter<br>~~ee~~<br>~~Po~~|
|Power Density<br>~~ee~~<br>~~a~~|~~ee ee~~<br>~~GG~~|~~ee~~<br>~~GG~~|11.7<br>~~GG~~|W/in3<br>~~Po~~|~~Po~~|
|Mean Time Between Failure<br>~~pf~~|~~pf~~|186<br>~~pf~~|~~pf~~<br>~~GO~~|kHrs<br>~~pf~~<br>~~GO~~|MIL-HDBK-217F, Notice 2 +25 °C GB<br>~~pf~~|
|Weight<br>~~GG~~|~~GG~~|2.97 (1.35)<br>~~GG~~|~~GG~~<br>~~GO~~|lb (kg)<br>~~GG~~<br>~~GO~~|~~GG~~|



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## **Efficiency Vs Load** 

Figure 3 12 V Models 

Figure 4 24 V Models 

Figure 5 48 V Models 

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100 %<br>80 %<br>115 Vac<br>60 %<br>230 Vac<br>40 %<br>20 %<br>0 %<br>0% 20% 40% 60% 80% 100%<br>LOAD<br>100 %<br>80 %<br>115 Vac<br>60 %<br>230 Vac<br>40 %<br>20 %<br>0 %<br>0% 20% 40% 60% 80% 100%<br>LOAD<br>100 %<br>80 %<br>115 Vac<br>60 %<br>230 Vac<br>40 %<br>20 %<br>0 %<br>0% 20% 40% 60% 80% 100%<br>LOAD<br>EFFICIENCY<br>EFFICIENCY<br>EFFICIENCY<br>**----- End of picture text -----**<br>


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## Signals & Controls 

|Characteristic|Notes & Conditions|
|---|---|
|Power Fail (PF)|Open collector referenced to negative sense, transistor normally on when power is good (see fig. 6); power is considered good when<br>AC input voltage is normal. PF: Provides≥5 ms warning of loss of output from power failure/loss of AC input voltage.|
|Inhibit|Uncommited isolated optocoupler diode, powered diode inhibits both V1 and fan supply (see fig. 7). During inhibit the standby<br>supply and current should be limited to 1 A for thermal reasons.|
|Output Good|LED Indicator|
|Fan Speed Control|The fan speed is set to one of 4 states (high, mid, low or off) dependant on the internal power supply ambient temperature,<br>input voltage and output load at any given time.|
|Standby Supply|5V/3A Isolated supply present when AC applied.|
|Remote Sense|Compensates for 0.5 V total voltage drop.|
|Current Share|Connecting pins 5 or 6 on one unit to pins 5 or 6 on another like voltage unit will force the current to be shared within 10% between<br>the two outputs. Up to three units can share current. (see fig. 8)|



## **Remote On/Off (Inhibit)** 

## **Current Share** 

## **Power Fail (PF)** 

## Figure 6 

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Figure 6  Figure 7  Figure 8<br>INHIBIT HI INHIBIT LOW GSP750PSXX GSP750PSXX GSP750PSXX<br>POWER SUPPLY 5 V Standby  Pin 9, 10 10K Min 0.5mA, max 10mAMax 10mA1.5K 5 V Standby Pin 9, 10100 R POWER SUPPLY 500 µA1.5K 5 V Standby Pin 9, 10100 R POWER SUPPLY - V1 Output + CurrentShare - V1 Output + CurrentPin 5,6Share - V1 Output +<br>Typical 500 µA(max allowable 600 µA) PF Collector Pin 3 Inhibit Hi Pin 7 Inhibit Hi<br>Pin 7<br>3.2V<br>Transistor On (<0.8 V): POWER OK max<br>PF Emitter Pin 2 (-sense) Transistor Off (>3.5 V): POWER NOT OK Inhibit LoPin 8 Inhibit LoPin 8<br>5 V Standby<br>5 V Standby  Return Pin 11,12<br>5 V Standby  Return Pin 11,12<br>Return Pin 11, 12 - +<br>J301 Logic Connector Chassis J301 Logic Connector Chassis J301 Logic Connector<br>Load<br>Signal    High: Power Supply OFF Signal  High: Power Supply ON<br>              Low or Floating: Power Supply ON Low or Floating: Power Supply OFF<br>+ Sense - Sense<br>- Sense + Sense<br>- Sense + Sense<br>**----- End of picture text -----**<br>


## Environmental 

Characteristic Minimum Typical Maximum Units Notes & Conditions ~~poGG~~ Operating Temperature -40 +70 ~~OOO~~ °C Start up at -40 °C. See derating curve, fig. 9 ~~GG~~ Storage Temperature -40 +85 ~~OG~~ °C ~~eGnD~~ HumiditOperatinyg Altitude 5 65.0 ~~GOGG~~ 500095 Lw db%RHm (A) Non-condensinFull Speed g Accoustic Fan Noise 56.0 Lw db(A) Mid Speed ~~aGG~~ 42.0 Lw db(A) Low Speed ±3 x 30g shocks in each plane, total 18 shocks. 30g = Shock 11ms (+/-0.5msec), half sine. Conforms to EN60068-2-27 & EN60068-2-47 Vibration Single axis 10 - 500 Hz at 2g sweep and endurance at resonance in all 3 planes. Conforms to EN60068-2-6 ~~eeLeee~~ eee eee ~~y eee~~ **Thermal Derating Curve** 750 Figure 9 Variable Speed Fans 375 50 Fans Off 0 -40 -20 0 +50 +70 Ambient Temperature (ºC) 

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EMC: Emissions 

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|||||
|---|---|---|---|
|Phenomenon|Standard|Test Level|Notes & Conditions|
|Conducted|EN55011/32|Class B|
|Radiated|EN55011/32|Class A|Class B with Wurth 742 712 22(S) on input cable and|
|Wurth 742 715 4(S) on output cable|
|Harmonic Fluctuations|EN61000-3-3|

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EMC: Immunity 

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||||||||
|---|---|---|---|---|---|---|
|QO|Phenomenon|Standard|Test Level|OG|Criteria|Notes & Conditions|
|GG|Low Voltage PSU EMC|EN61204-3|High severity level|as below|OO|
|Harmonic Current|EN61000-3-2|Class A|po|All models|
|Class C|> 50 W|
|——————————|
|GfeG|RadiatedEFT|EN61000-4-3EN61000-4-4|33|GO|AA|OO|
|Surges|EN61000-4-5|Installation class 3|A|po|
|en|
|Gf|Conducted|EN61000-4-6|es|Dip >95% (0 VAC), 8.3ms3|GO|AA|
|EN55035|
|(100 VAC)|ee|Dip 30% (70 VAC), 416ms|A|
|ee|Dip >95% (0 VAC), 4160ms|B|
|a|Dip >95% (0 VAC), 10.0ms|A|
|EN55035|
|Dip 30% (168 VAC), 500ms|A|
|(240 VAC)|aa|Dip >95% (0 VAC), 5000ms|B|
|ee|Dip >95% (0 VAC), 10.0ms|A|
|ee|Dip >95% (0 VAC), 20.0ms|B|Derate Output Power to 70% for criteria A|
|Dips and Interruptions|EN60601-1-2|
|(100 VAC)|a|Dip 60% (40 VAC), 100ms|A|Derate Output Power to 50%|
|ee|Dip 30% (70 VAC), 500ms|A|
|aee|Dip >95% (0 VAC), 5000msDip >95% (0 VAC), 10.0ms|BA|
|a|Dip >95% (0 VAC), 20.0ms|B|Derate Output Power to 70% for criteria A|
|EN60601-1-2|
|(240 VAC)|ee|Dip 60% (96 VAC), 100ms|A|
|a|Dip 30% (168 VAC), 500ms|A|
|ee|Dip >95% (0 VAC), 5000ms|B|

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## Safety Approvals 

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||||
|---|---|---|
|Safety Certification|Safety Standard|Notes & Conditions|
|IEC60950-1 & IEC62368-1|Information Technology|
|CB Report|
|IEC60601-1  Including Risk Management|Medical|
|UL62368-1, CSA62368-1 via cUL|Information Technology|
|UL|
|ANSI/AAMI ES60601-1 & CSA C22.2, No.60601-1|Medical|
|EN62368-1|Information Technology|
|EN|
|EN60601-1|Medical|
|Equipment Protection Class|Class I|See safety agency conditions of acceptibility for details|
|CE|Meets all applicable directives|
|UKCA|Meets all applicable legislation|
|Means of Protection|Category|
|Primary to Secondary|2 x MOPP (Means of Patient Protection)|
|Primary to Earth|1 x MOPP (Means of Patient Protection)|IEC60601-1|
|Secondary to Earth|1 x MOPP at 48 VDC|

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GSP750-EF<br>‘4p 1.22 (31.0) x2<br>Airflow<br>Direction<br>A A<br>“fh.1<br>P o B<br>5.55 (140.9) 1.24 (31.5)<br>0.08 (2.0) |_| 0.68 (17.2) x2<br>1.15 M4 Screw x2<br>(29.18) Torque: 10.62 lbs-in<br>(1.2 Nm) max.<br>Vout (-)<br>0.77<br>4.0 (19.57)<br>(101.6) 1.93 Vout (+)<br>(48.9)<br>— [_ Me i!<br>va i =>) (t=!<br>L<br>4 | +t + i m :<br>N<br>0.82<br>(20.8) 9.70 (246.44) 1.22<br>9.44 (239.9)<br>(31.0) x2<br>5.55 (140.9)<br>Pin 14 Pin 2<br>1.65<br>Detail A<br>(41.9)<br>Mounting Hole<br>1.57 8 PLCS M3 x 0.5<br>Pin 13 Pin 1 —SS|. (39.0) 0.15 (3.8) max penetration<br>1.24 (31.54) 0.22 (5.59)<br>9.70 (246.44)<br>8.60 (218.44)<br>5.55 (140.9) x2<br>A A 4.00<br>(101.6) Logic Connector  [(3)]<br>2.68 aWe) ° o| JST B14B-PHDSS<br>(68.0) x2 _— a<br>Pin Function<br>1 +Sense<br>A 2 -Sense<br>| ({ h a “6 fe} 3 Power Fail<br>4 No Connection<br>5 Current Share<br>1.24 (31.54) x2 6 Current Share<br>7 +Inhibit<br>8 -Inhibit<br>9 +5V Standby<br>10 +5V Standby<br>Notes 11 5V Standby Return<br>1. All dimensions in inches (mm).   3. Logic connector J301 mates with JST housing PHDR-14VS and   12 5V Standby Return<br>2. Tolerance .xx = ±0.02 (0.50); .xxx = ±0.01 (0.25)  SPHD-001T-P0.5 crimp terminals. 13 No Connection<br>14 No Connection<br>**----- End of picture text -----**<br>


01 Mar 2023 

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Updated at June 10, 2026

XP Power is a globally recognized leader in the design and manufacture of critical power solutions for the electronics industry. With a steadfast commitment to total quality and in-house engineering expertise, the company delivers highly reliable components that support complex applications across the industrial, healthcare, and technology sectors. Their extensive manufacturing capabilities provide engineers with a broad and dependable source for innovative power products. Our extensive portfolio of XP Power components is heavily focused on robust power and line protection. The core of this offering features a vast selection of high-performance AC/DC converters, designed to meet the rigorous efficiency and footprint demands of modern electronic systems. Complementing these are numerous reliable DC/DC converters, providing versatile options for precise voltage regulation and seamless system integration. Beyond their primary power conversion ranges, XP Power manufactures specialized components to address specific design challenges. Our selection includes essential passive components, such as power line filters for effective EMC and RFI suppression, ensuring signal integrity and strict regulatory compliance. Additionally, we provide dedicated AC/DC LED power supplies tailored for reliable, long-lasting performance in advanced commercial and industrial lighting applications.

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