LCL500PS48

AC/DC Enclosed Power Supply (PSU), ITE, 1 Outputs, 500 W, 48 VDC, 10.5 A

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Manufacturer: XP POWER
Product type: AC / DC Enclosed Power Supplies
No. of Outputs: 1Outputs
Output Power Max: 500W
Input Voltage VAC: 85V AC to 264V AC
Input Voltage AC Max: 264V
Input Voltage AC Min: 85V
Power Supply Approvals: ITE
Power Supply Output Type: Fixed
Output Current - Output 1: 10.5A
Output Voltage - Output 1: 48VDC

Delivery and price
Units per pack	1
Price	166.08 €
Current stock	10+
Lead time	30 days

Datasheet

- SIngle Output Industrial Supplies 

- High Efficiency 

- Low Cost 

- 150 W Convection Cooled 

- 500 W with Internal Fans 

- Outputs form 12 V to 48 V 

- 3 Year Warranty 

The LCL series is a low cost chassis mount product that is popular in industrial applications. The AC/DC supplies are enclosed in a metal case with terminal block input and output connectors. Three series offer 150 and 500 Watts. Each power range includes six single output models from 12 to 48 VDC. The user adjustable outputs cover all nominal voltage ranges. The LCL150 is convection cooled while the 500 Watt has an internal fan. 

All LCL models are approved to ITE (62368-1) safety standards and meet EN55032 Level B conducted emissions. Operating temperature range is from -10 °C to +70 °C with derating above +50 °C. Standard features include overvoltage, overload, short circuit, and over temperature protection. Remote sense is included on the LCL500 with Remote On/Off available. 

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## Models and Ratings 

|Output Power|Output Voltage|Trim Range|Output Current|Ripple & Noise(1)|Model Number|
|---|---|---|---|---|---|
|150 W<br>~~pO~~<br>~~pO~~|12.0 V<br>~~eG~~<br>~~pO~~|11.0-13.0 V<br>~~eG~~|12.5 A<br>~~eG~~|100 mV pk-pk<br>~~eG~~|LCL150PS12<br>~~eG~~|
||13.5 V<br>~~pO~~<br>~~ee~~<br>~~a~~|12.5-14.5 V<br>~~eG~~<br>|11.1 A<br>~~eG~~<br>|100 mV pk-pk<br>~~eG~~<br>~~Ge~~<br>|LCL150PS13<br>~~eG~~<br>|
||15.0 V<br>~~pO~~<br>~~ee~~<br>~~a~~|14.0-16.0 V<br>~~eG~~<br>|10.0 A<br>~~eG~~<br>|100 mV pk-pk<br>~~eG~~<br>~~Ge~~<br>|LCL150PS15<br>~~eG~~<br>|
||24.0 V<br>~~ee~~<br>~~a ~~<br>~~pO~~|23.0-25.0 V<br>~~eG~~<br> ~~GG~~<br>|6.3 A<br>~~eG~~<br>~~GG~~<br>|150 mV pk-pk<br>~~eG~~<br>~~Ge~~<br>~~GG~~<br>|LCL150PS24<br>~~eG~~<br>~~GG~~<br>|
||27.0 V<br> <br>~~pO~~|26.0-28.0 V<br> ~~GG~~<br>|5.6 A<br>~~GG~~<br>|150 mV pk-pk<br>~~GG~~<br>|LCL150PS27<br>~~GG~~<br>|
||48.0 V<br> <br>~~pOse~~|47.0-49.0 V<br> ~~GG~~<br>~~se~~|3.1 A<br>~~GG~~<br>~~se~~|250 mV pk-pk<br>~~GG~~<br>~~se~~|LCL150PS48<br>~~GG~~<br>~~se~~|
|500 W|12.0 V<br>~~po~~|11.0-13.0 V<br>~~po~~|42.0 A<br>~~po~~|120 mV pk-pk<br>~~po~~|LCL500PS12<br>~~po~~|
||13.5 V<br>~~ee~~<br>~~es~~|12.5-14.5 V<br>~~ee~~|37.0 A<br>~~ee~~|150 mV pk-pk<br>~~ee~~|LCL500PS13<br>~~ee~~|
||15.0 V<br>~~es~~<br>~~ee~~|14.0-16.0 V<br>~~GD~~|34.0 A<br>~~GD~~|150 mV pk-pk<br>~~GD~~|LCL500PS15<br>~~GD~~|
||24.0 V<br>~~es~~<br>~~ee~~<br>~~ee~~|23.0-25.0 V<br>~~GD~~<br>~~GG~~|21.0 A<br>~~GD~~<br>~~GG~~|150 mV pk-pk<br>~~GD~~<br>~~GG~~|LCL500PS24<br>~~GD~~<br>~~GG~~|
||27.0 V<br>~~ee~~<br>~~ee~~|26.0-28.0 V<br>~~GD~~<br>~~GG~~|18.5 A<br>~~GD~~<br>~~GG~~|150 mV pk-pk<br>~~GD~~<br>~~GG~~|LCL500PS27<br>~~GD~~<br>~~GG~~|
||48.0 V<br>~~ee~~<br>~~a~~|47.0-49.0 V<br>~~GG~~|10.5 A<br>~~GG~~|240 mV pk-pk<br>~~GG~~|LCL500PS48<br>~~GG~~|



~~Notes:~~ 

_1. Measured with 20 MHz bandwidth._ 

## Input Characteristics 

Characteristic Minimum Typical Maximum Units Notes & Conditions ~~RG~~ Input Voltage - Operating 85 264 VAC Derate output power < 90 VAC. See fig. 1. ~~pf~~ Input Frequency 47 63 Hz EN61000-3-2 class A compliant Power Factor >0.9 ~~po~~ LCL150: EN61000-3-2 class C for loads ≥40% LCL500: EN61000-3-2 class C for loads ≥40% 2.1 LCL150 at 90 VAC Input Current - Full Load A 6.6 LCL500 at 90 VAC ~~qe~~ 50 LCL150, 230 VAC, cold start 25 ˚C Inrush Current A 60 LCL500, 230 VAC, cold start 25 ˚C ~~ee ee PT~~ Earth Leakage Current <2 mA 264 VAC/60 Hz ~~poee po~~ T3.15 A/250 V internal in-line fuse LCL150 Input Protection ~~————— a~~ T10 A/250 V internal in-line fuse ~~———————————e~~ LCL500 

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Input Derating Curve 100<br>Figure 1<br>90<br>0<br>Output Power (%)<br>**----- End of picture text -----**<br>


85 90 264 Input Voltage (VAC) 

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## Output Characteristics 

|Characteristic<br>~~po~~|Minimum|Typical|Maximum|Units|Notes & Conditions|
|---|---|---|---|---|---|
|Output Voltage - V1<br>~~po~~<br>~~po~~|12||48|VDC|See Models and Ratings table|
|Initial Set Accuracy<br>~~po~~<br>~~po~~<br>~~**p**o~~|||±100|mV|50% load|
|Output Voltage Adjustment<br>~~po~~<br>~~**p**o~~|±1|||V|See Models and Ratings table|
|Minimum Load<br>~~**p**o~~|0||~~o~~|A<br>~~o~~|~~o~~|
|Start Up Delay<br>~~po~~<br>~~———————SSSEae~~|~~po~~<br>~~———————SSSEae~~|~~po~~<br>~~———————SSSEae~~|2<br>~~po~~<br>~~———————SSSEae~~|s<br>~~po~~<br>~~———————SSSEae~~|~~po~~<br>~~———————SSSEae~~|
|Start Up Rise Time<br>~~———————SSSEae~~<br>~~po~~|~~———————SSSEae~~<br>~~es ee~~|~~———————SSSEae~~<br>~~ee~~|65<br>~~———————SSSEae~~|ms<br>~~———————SSSEae~~|LCL150<br>~~———————SSSEae~~<br>~~po~~|
||~~———————SSSEae~~<br>~~es ee~~|~~———————SSSEae~~<br>~~ee~~|35<br>~~———————SSSEae~~||LCL500<br>~~———————SSSEae~~<br>~~po~~|
|Hold Up Time<br>~~———————SSSEae~~<br>~~po~~<br>~~ee~~|10<br>~~———————SSSEae~~<br>~~es ee~~<br>~~——————ESSE~~|~~———————SSSEae~~<br>~~ee~~<br>~~——————ESSE~~|~~———————SSSEae~~<br>~~——————ESSE~~|ms<br>~~———————SSSEae~~<br>~~——————ESSE~~|115 VAC full load<br>~~———————SSSEae~~<br>~~po~~<br>~~——————ESSE~~|
|Line Regulation<br>~~po~~<br>~~ee~~<br>~~po~~|~~es ee~~<br>~~——————ESSE~~<br>~~es~~|~~ee~~<br>~~——————ESSE~~|±0.5<br>~~——————ESSE~~|%<br>~~——————ESSE~~|LCL150<br>~~po~~<br>~~——————ESSE~~<br>~~po~~|
||~~——————ESSE~~<br>~~es~~|~~——————ESSE~~|±0.3<br>~~——————ESSE~~||LCL500<br>~~——————ESSE~~<br>~~po~~|
|Load Regulation<br>~~ee ~~<br>~~po~~|~~——————ESSE~~<br>~~es~~|~~——————ESSE~~|±1<br>~~——————ESSE~~|%<br>~~——————ESSE~~|~~——————ESSE~~<br>~~po~~|
|Transient Response<br>~~po~~|~~es~~||4|%|Recovery within 1% in less than 500 µs<br>for a 50% load change<br>~~po~~|
|Ripple & Noise<br>~~pf~~<br>~~po~~|~~pf~~|~~pf~~|~~pf~~|~~pf~~|See Models and Ratings table<br>~~pf~~|
|Overvoltage Protection<br>~~po~~|110||140|%|Recycle input to reset|
|Overload Protection<br>~~po~~<br>~~a ~~|110<br> ~~OC~~|~~OC~~|150<br>~~OC~~|%<br>~~OC~~|Rated output power, delayed by 1 s minimum to<br>allowpeak loads. See fig2 & 3<br>~~OC~~|
|Short Circuit Protection<br>~~pT~~|~~pT~~||||Auto recovery, hiccup mode|
|Overtemperature Protection<br>~~pT~~|~~pT~~||||Output turns off when OTP triggered, measured<br>internally (Q1 temperature), auto recover when<br>internal temperature was reduced.|



## Output Overload Characteristics 

Figure 2 - LCL150PS12 

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Percent Overload<br>100% 102% 104% 106% 108% 110% 112% 114%<br>12.06<br>12.04<br>12.02<br>Unit enters hiccup mode<br>12<br>11.98<br>11.96<br>12.5 12.75 13 13.25 13.5 13.75 14 14.25<br>Current (A)<br>90Vac 115Vac 230Vac 264Vac<br>)Output Voltage (V<br>**----- End of picture text -----**<br>


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## Output Overload Characteristics 

Figure 3 - LCL500PS48 

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Percent Overload<br>100% 103% 105% 108% 110% 113% 115% 118% 120%<br>48.1<br>48<br>47.9<br>47.8<br>Unit enters hiccup mode<br>47.7<br>47.6<br>47.5<br>10.5 10.75 11 11.25 11.5 11.75 12 12.25 12.5<br>Current (A)<br>90Vac 115Vac 230Vac 264Vac<br>Output Voltage (V)<br>**----- End of picture text -----**<br>


## General Specifications 

Characteristic Minimum Typical Maximum Units Notes & Conditions ~~CO~~ Efficiency 85 88 % 230 VAC full load. See fig. 2 & 3 Isolation: Input to Output 3000 Input to Ground ~~ee~~ 1500 ~~GO~~ VAC Output to Ground ~~ee~~ 500 ~~ee pO ee~~ 45 ~~ee~~ 190 ~~pT~~ PFC Converter ~~es~~ 90 ~~ee~~ 110 ~~pT~~ Main Converter LCL150 Switching Frequency ~~ee~~ 62 ~~ee~~ 65 kHz ~~js~~ PFC Converter ~~es~~ 80 ~~ee~~ 190 ~~po~~ Main converter LCL500 ~~ee ee~~ 2.7 ~~js~~ LCL150 Power Density W/in[3] 4.9 LCL500 ~~ee.~~ ~~**p** o GG~~ MTBF ~~ee —_———~~ 200 kHrs MIL-HDBK-217F at 25 ˚C, GB ~~T~~ 1.39 (630) lb (g) LCL150 Weight See mechanical details 3.2 (1.45) lb (kg) LCL500 ~~po fff ef FT~~ 

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## Efficiency vs Load 

Figure 4 - LCL150PS12 

Figure 5 - LCL500PS48 

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100%<br>90%80%70%60%50%40%30%20%10% ggpoyeLceeeepepept<br>0%<br>10 20 30 40 50 60 70 80 90 100<br>Load (%)<br>90Vac input 115Vac input 230Vac input 264Vac input<br>100%90% SS<br>80%70% PO<br>60%<br>50%40%30%20%10%0% pepepepepO<br>10 20 30 40 50 60 70 80 90 100<br>Load (%)<br>90Vac input 115Vac input 230Vac input 264Vac input<br>Efficiency<br>Efficiency<br>**----- End of picture text -----**<br>


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## Signals & Controls 

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Characteristics Notes and Conditions<br>Remote Sense Compensates for 0.25 V max each line. Fitted to LCL500 only.<br>Remote On/Off Fitted on LCL500. On = logic low or open circuit, OFF = logic high<br>Figure 6 - Remote Sense Connection Diagram<br>+Vout<br>R lead<br>J2 Pin 4 Sense (+)<br>Power Supply Load<br>J2 Pin 3 Sense (-)<br>R lead<br>-Vout<br>/ [e] [d]<br>Figure 7 - Remote On/Off<br>J2 Pin 2 Remote Control (+) Outputs Off<br>Power Supply<br>J2 Pin 1 Remote Control (-) Outputs On<br>iter<br>1. Applying <0.8 V on Pin 2 with respect to Pin 1 or open circuit, output turns ON. 2. Applying >4.5 V on Pin 2 with respect to Pin 1, output turns OFF<br>Environmental<br>Characteristic Minimum Typical Maximum Units Notes & Conditions<br>LCL150: Derates linearly from 100% load at<br>50 ˚C to 50% load at 70 ˚C<br>(see fig. 8). At -10 ˚C, 90 VAC, start up time<br>increases to 4 s (LCL150)<br>Operating Temperature -10 70 ˚C<br>LCL500: Derates linearly from 100% load at<br>55 ˚C to 50% load at 70 ˚C (see fig. 9). At<br>-10 ˚C, 90 VAC, start up time increases to 5 s.<br>Storage Temperature -40 85 ˚C<br>LCL150 convection cooled, & LCL500 has<br>Cooling internal fan.<br>Humidity 5 95 %RH Non-condensing<br>Operating Altitude 3000 m<br>ae Vibration 2 g 10-500 Hz, 10 mins per cycle on 3 axes<br>6<br>**----- End of picture text -----**<br>


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## Temperature Derating Curve 

Figure 8 - LCL150 

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Figure 9 - LCL500<br>**----- End of picture text -----**<br>


100 100 80 80 60 60 40 40 20 20 -10 0 10 20 30 40 50 60 70 -10 0 10 20 30 40 50 60 70 Ambient (ºC) Ambient (ºC) Electromagnetic Compatibility - Immunity (high severity level, EN61204-3) Phenomenon Standard Test Level Criteria Notes & Conditions ±4 kV Contact Discharge ESD EN61000-4-2 ±8 kV A Air Discharge ~~a ||~~ ±8 kV ~~**PO**~~ Coupling Plane Discharge ~~sO~~ Radiated RF EN61000-4-3 2 A ~~GG~~ EFT EN61000-4-4 2 A Installation Class 3 LCL150 Surge EN61000-4-5 A ~~Ee|~~ Installation Class 2 ~~PO~~ LCL500 ~~DG~~ Conducted RF EN61000-4-6 2 A ~~GO~~ Magnetic Field EN61000-4-8 1 A/m A Dip: 30% 10 ms A Dips and Interruptions EN61000-4-11 Dip: 60% 100 ms B ~~Bf asO~~ Dip: 100% 5000 ms B 

## ESD Points 

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LCL150<br>Mounting Holes<br>(4 on each side and 2 at bottom)<br>+ —)Cc ° c—>— -— Ge——s =<br>LCL500 — [™ Mounting Holes<br>(4 on each side and 4 at bottom)<br>**----- End of picture text -----**<br>


10 discharges at each polarity were applied at points indicated (contact and air discharges) 

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## Electromagnetic Compatibility - Emissions 

|Phenomenon|Standard|Test Level|Criteria|Notes & Conditions|
|---|---|---|---|---|
|Conducted|EN55032|Class B|||
|Radiated|EN55032|Class A|||
|Harmonic Currents|EN61000-3-2|Class A Equipment|||



## Conducted Emission Plots 

Figure 10 - QP Detector - LCL150PS12 

Figure 11 - AV Detector - LCL150PS12 

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## Xxxxxxxxxx Conducted Emission Plots 

Figure 12 - QP Detector - LCL500PS48 

Figure 13 - AV Detector - LCL500PS48 

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## Xxxxxxxxxx Safety Agency Approvals 

|Safety Agency|Safety Standard|Category|
|---|---|---|
|CB Report|IEC62368-1|Informations Technology|
|UL|UL62368-1 CSA62368-1 via cUL|Informations Technology|
|TUV|EN62368-1|Informations Technology|



|Equipment Protection Class<br>Safety Standard|Safety Standard|Notes & Conditions|
|---|---|---|
|Class I<br>IEC62368-1|IEC62368-1|See safety agency conditions of acceptability for details|



## Mechanical Details - LCL150 

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1.02<br>(26.0)<br>1.97<br>(50.0) 0.90 ca cD [om }<br>(23.0) — 8 —) —<br>0.57<br>(14.5) | 4 pooon onoon oooon J<br>\| 7 <=) — _ —_—> ==><br>4.64 (118.0)<br>4 x M4 x 0.7 THD<br>0.15 (3.8) Max Screw Penetration<br>Terminal Block, M4 Screw 7 pins 0.37 (9.5) centre<br>———————————————————————— i aOUUUU UUUUU UUUUU<br>a OO OO OO OO<br>a SD YC<br>1 D S ——_——ee SS 2.44 (62.0) 2.83 (72.0)<br>(95.0)3.74 E o a oD SD SD<br>kel] . — w@ e — MH<br>ro o a mm Mm 2 x M4 x 0.7 THD<br>Ka Ol OHSOHS SH 0.15 (3.8) Max Screw Penetration<br>7 —a | EE Noon<2NoOnog ANAND2 2 2<br>J1 7.55 (192.0)<br>1.02 4.64<br>(26.0) (118.0) 4 x M4 x 0.7 THD<br>0.15 (3.8) Max Screw Penetration<br>0.57<br>(14.5) ST<br>0.90<br>(23.0) ° cc, ca<br>**----- End of picture text -----**<br>


~~Notes:~~ Weight: 1.39 lbs (630g) approx. Tolerance is ±0.05 (±0.2) maximum. Dimensions shown in inches (mm). 

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Pin Function<br>1 +Vout<br>2 +Vout<br>3 -Vout<br>4 -Vout<br>5 Ground<br>6 AC Neutral<br>7 AC Live<br>**----- End of picture text -----**<br>


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## LCL500 

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J1 Pin Connections<br>Weight:  3.2 lbs (1.45  kg) approx. Pin Function<br>Dimensions shown in inches (mm).  1 +Vout<br>Tolerance is ±0.05 (±0.2) maximum. 2 +Vout<br>3 +Vout<br>4 -Vout<br>5 -Vout<br>(36.01.41) 4 x M4 x 0.7 THD0.15 (3.8) Max Screw Penetration 67 Ground-Vout<br>2.08 1.00 8 AC Neutral<br>(53.0) (25.5) 9 AC Live<br>SS ae J (15.0)0.60 =<br>4 x M4 x 0.7 THD<br>Terminal Block, M4 Screw 9 pins 0.37 (9.5) centre 0.15 (3.8) Max Screw Penetration<br>1<br>J2 ay — hi Mudedaf AeRudely JERE<br>4 AIRFLOW<br>1 —<br>5.00 B— S | 3.54<br>(127.0) (90.0) J2 Pin Connections<br>Pin Function<br>1 Remote Control -<br>9 2 Remote Control +<br>| Le = I eoon0 aopon  pponel |<br>J1 9.21 (234.0) 7.75 (197.0) | (36.0)1.41 34 Sense +Sense -<br>9.84 (250.0)<br>Applying >4.5 V to Pin 2 with<br>1.41 7.75 (197.0) 0.60 respect to Pin 1 turns output off.<br>(0.36) (15.0) Applying <0.8 V to Pin 2 with<br>|— wees CuuuU UU0uU | |] turns output on.respect to Pin 1 or open circuit<br>1.00<br>— se (25.5) Mating Connectors (J2):<br>WST P4-I25002 housing<br>4 x M4 x 0.7 THD WST I25002BS contacts<br>0.15 (3.8) Max Screw Penetration<br>**----- End of picture text -----**<br>


21 April 20

Updated at February 9, 2023

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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