NLP110 Series Single and triple output LOW TO MEDIUM POWER AC/DC POWER SUPPLIES 80-110 W AC/DC Universal Input Switch Mode Power Supplies 1 * * * * * * * * * Provides low voltage outputs Compliance to EN61000-3-2 (Power Factor = 0.98) Smallest industry standard package 6.5 x 3.0 x 1.26 inches 90 Vac to 264 Vac universal input range UL, CSA and VDE safety approvals and CE-Marked to LVD Overvoltage and short circuit protection VDE0871-B, EN55022-B, EN55011-B conducted noise VDE0871-A, EN55022-A, EN55011-A radiated noise Meets all applicable and relevant immunity standards EN61000-4-2, 4, 5 and 6 * Available RoHS compliant The NLP110 is a series of 110 W ac-dc open frame power supplies in a 3 x 6.5 x 1.26 inch package. The NLP110 is power factor corrected to meet EN61000-3-2 and is available in single and multiple output models. The multiple output models have a capability that is unique to the power supply market - they can deliver equal amounts of current on multiple low voltage outputs to support designs that will span the industry transition from 5 V logic to 3.3 V logic. The NLP110 is practically the same size as a 65 Watt 3 x 5 inch product, e.g. NLP65 - the one difference is that the footprint is a mere 1.5 inches longer. The NLP110 is primarily designed for networking applications in 1U shelves or boxes that have a heavy logic content such as access concentrators, midrange routers, LAN switches and shared media hubs. The availability of single output models with high peak load capability also means that the NLP110 can provide a power factor corrected solution for applications currently using the NFS110. 2 YEAR WARRANTY SPECIFICATIONS All specifications are typical at nominal input, full load at 25 C unless otherwise stated OUTPUT SPECIFICATIONS EMC CHARACTERISTICS (continued) Total regulation (Line and load) Main output Auxiliary outputs Rise time At turn-on Transient response Main output 75% to 100% step at 0.1 A/s 2.0% 5.0% 1.0 s, max. 5.0% or 250 mV max. dev., 1 ms max. recovery to 1% Temperature coefficient 0.02%/C Overvoltage protection Main outputs Short circuit protection Cyclic operation Minimum output current Single and multiple 125%, 10% See table Hold-up time 120 Vac, 60 Hz 90-264 Vac 47-63 Hz Input surge current (cold start) 120 Vac 230 Vac Safety ground leakage current 120 Vac, 60 Hz 230 Vac, 50 Hz Input current 120 120 230 230 Input fuse UL/IEC127 EMC CHARACTERISTICS Vac Vac Vac Vac 18 A max. 35 A max. @ @ @ @ 0.9 1.3 0.48 0.7 A A A A (12) EN55022, FCC part 15 EN55022, FCC part 15 EN61000-3-2 EN61000-4-2 EN61000-4-2 Level B Level A Compliant 16.7 ms @ 110 W 120 Vac, 80 W (-9605J) 75% min. Input/output Input/chassis 3000 Vac 1500 Vac Approvals and standards pending MTBF (@ 25 C) EN60950, VDE0805, IEC950, UL1950, CSA C22.2 No. 950, 283 g (10 oz) MIL-HDBK-217F ENVIRONMENTAL SPECIFICATIONS 220,000 hours min. (9) Thermal performance Operating ambient, 0 C to +50 C (See derating curve) Non-operating -40 C to +85 C 50 C to 70 C, ambient, Derate to convection cooled 50% load 0 C to 50 C, ambient, 80 W convection cooled 0 C to 50 C ambient, 110 W 150 LFM forced air Peak (0 C to +50 C, 60 s) (See Note 3) Relative humidity Non-condensing Altitude Operating Non-operating Vibration (See Note 8) 5-500 Hz Shock per MIL-STD-810E rms rms rms rms F3.15A H, 250 Vac 3 3 3 3 Isolation voltage 0.45 mA 0.75 mA 80 W 110 W 80 W 110 W Level Level Level Level Efficiency Weight Universal input Input frequency range Conducted emissions Radiated emissions Harmonic current emission correction ESD air ESD contact EN61000-4-5 EN61000-4-4 EN61000-4-3 EN61000-4-6 GENERAL SPECIFICATIONS Continuous INPUT SPECIFICATIONS Input voltage range (See Note 6) Surge Fast transients Radiated immunity Conducted immunity 5% to 95% RH 10,000 feet max. 30,000 feet max. 2.4 G rms peak 516.4 Part IV Level 3 Level 3 File Name: nlp110.pdf Rev (02): 08 Nov 2005 NLP110 Series Single and triple output LOW TO MEDIUM POWER AC/DC POWER SUPPLIES 80-110 W AC/DC Universal Input Switch Mode Power Supplies 2 For the most current data and application support visit www.artesyn.com/powergroup/products.htm OUTPUT CURRENT OUTPUT VOLTAGE PEAK MIN (6) MAX (1) 150 LFM (2) 300 LFM 6 MODEL NUMBERS (7,14,15) 15 A 22 A 22 A 22 A 50 mV 2.0% NLP110-9605J +12 V 0.3 A 6.4 A 9.2 A 9.2 A 11.5 A 120 mV 2.0% NLP110-9612J +48 V 0A 1.6 A 2.3 A 2.3 A 2.5 A 240 mV 2.0% NLP110-9617J +24 V 0.2 A 3.2 A 4.6 A 4.6 A 6.0 A 240 mV 2.0% NLP110-9624J +5 V (A) 0.5 A 13 A 16 A 18 A 18 A 50 mV 2.0% NLP110-9693J +3.3 V (B) 0.2 A 13 A 16 A 20 A 20 A 50 mV 2.0% +12 V 0A 0.65 A 1.0 A 1A 1A 120 mV 5.0% +3.3 V (A) 0.5 A 13 A 16 A 20 A 22 A 50 mV 2.0% +2.5 V (B) 0.1 A 13 A 16 A 20 A 22 A 50 mV 2.0% +12 V 0A 0.65 A 1A 1A 1A 120 mV 5.0% +12 V (A) 0.2 A 6.5 A 8.5 A 8.5 A 10 A 1200 mV 2.0% +3.3 V (B) 0.5 A 13 A 16 A 20 A 22 A 50 mV 2.0% -12 V 0A 0.65 A 1A 1A 1A 120 mV 5.0% +12 V (A) 0.2 A 6.5 A 8.5 A 8.5 A 10 A 120 mV 2.0% +5 V (B) 0.2 A 13 A 16 A 18 A 22 A 50 mV 2.0% -12 V 0A 0.65 A 1A 1A 1A 120 mV 5.0% 7 5 TOTAL 0.5 A N 4 (5) +5 V 1 3 RIPPLE REGULATION Notes 2 (4) (3) Free air convection. Multiple output units: maximum continuous output power not to exceed 80 W. For -9693J; I3.3 V = 13 A max.; I5.0 V = 13 A max.; I3.3 V + I5.0 V 16 A. For -9694J; I3.3 V = 13 A max.; I2.5 V = 13 A max.; I3.3 V + I2.5 V 16 A For -9695J; I3.3 V = 13 A max.; I12 V = 6.5 A max.; I3.3 V + I12 V 16 A. For -9608J; I5.0 V = 13 A max.; I12 V = 6.5 A max.; I5.0 V + I12 V 16 A. Single output units: maximum continuous output power not to exceed; 75 W on -9605J; 76.8 W on -9612J,-9624J, and -9617J. 150 LFM forced air cooling from L4 side. Multiple output units: maximum continuous output power not to exceed 105 W. For -9693J; I3.3 V = 16 A max.; I5.0 V = 16 A max.; I3.3 V + I5.0 V 20 A. For -9694J; I3.3 V = 16 A max.; I2.5 V = 16 A max.; I3.3 V + I2.5 V 20 A For -9695J; I3.3 V = 16 A max.; I12 V = 8.5 A max.; I3.3 V + I12 V 20 A. For -9608J; I5.0 V = 16 A max.; I12 V = 8.5 A max.; I5.0 V + I12 V 20 A. Single output units: maximum continuous output power not to exceed 110 W for all models. 300 LFM forced air cooling from L4 side. Multiple output units: maximum continuous output power not to exceed 110 W. For -9693J; I3.3 V = 20 A max.; I5.0 V = 18 A max.; I3.3 V + I5.0 V 22 A. For -9694J; I3.3 V = 20 A max.; I2.5 V = 20 A max.; I3.3 V + I2.5 V 22 A For -9695J; I3.3 V = 20 A max.; I12 V = 8.5 A max.; I3.3 V + I12 V 22 A. For -9608J; I5.0 V = 20 A max.; I12 V = 8.5 A max.; I5.0 V + I12 V 22 A. Single output units: maximum continuous output power not to exceed 110 W for all models. Peak output current lasting less than 30 seconds with duty cycle less than 5%. During peak loading, output voltage may exceed total regulation limits. Figure is peak-to-peak for convection power rating. Output noise measurements are made across a 20 MHz bandwidth using a 6" twisted pair, terminated with a 10 F electrolytic capacitor and a 0.1 F ceramic capacitor. Minimum load required for correct start-up and operation on single outputs and on main output of multiple versions. Failure to observe minimum load on main output will not allow the supply to start-up correctly. Some electronic test loads have a large delay time before they start drawing current even though the voltage from the supply is present. During this time delay, there is no load on the output and as a result, the supply cannot start-up properly and maintain its correct output voltage. In these instances, a dummy resistive load across the output may be necessary to load the output of the supply until the test load can function correctly and draw the intended minimum load. Minimum load required on auxiliary outputs to maintain regulation. 8 9 10 11 12 13 14 15 NLP110-9694J NLP110-9695J NLP110-9608J For models NLP110-9608J and NLP110-9695J, the 12 V output is floating. For -12 V output, pin 11 on J2 has to be connected to Return making pin 12 the -12 V output Three orthogonal axes, random vibration 10 minutes for each axes, 2.4 G rms 5 Hz to 500 Hz. For optimum reliability, no part of the heatsink should exceed 110 C, and no semiconductor case temperature should exceed 120 C. CAUTION: Allow a minimum of 1 second after disconnecting line power when making thermal measurements. This product is only for inclusion by professional installers within other equipment and must not be operated as a stand alone product. The EMI specifications reference measurements made with the power supply mounted on a grounded metal sheet extending 1 inch beyond each edge, using an unshielded cable. No external filtering required during conducted emissions testing but some applications may require additional filtering to achieve system compliance. A line choke, (ac input cords looped twice through an EMI suppression toroid) was used during radiated emissions testing. Considerable radiated testing in 1U six-sided boxes has shown that units can meet level B in typical systems. Application support is available from the factory to assist with EMI compliance. All models require a minimum mounting stand-off of 6.35 mm (0.25 inches) in the end use product. The `J' suffix indicates that these parts are Pb-free (RoHS 6/6) compliant. TSE RoHS 5/6 (non Pb-free) compliant versions may be available on special request, please contact your local sales representative for details. NOTICE: Some models do not support all options. Please contact your local Artesyn representative or use the on-line model number search tool at http://www.artesyn.com/powergroup/products.htm to find a suitable alternative. File Name: nlp110.pdf Rev (02): 08 Nov 2005 NLP110 Series Single and triple output LOW TO MEDIUM POWER AC/DC POWER SUPPLIES 80-110 W AC/DC Universal Input Switch Mode Power Supplies 3 For the most current data and application support visit www.artesyn.com/powergroup/products.htm Mechanical Notes A All dimensions are in inches (mm). 2 6.50 (165.10) 6.050 (153.670) 0.23 (5.842) J4 4 3 12 1 2.550 (64.770) J2 ! F1 3 1 T1 (REF.) J1 1 1 2 J3 J5 2 1 J2 Pin 1 Pin 2 Pin 3 Pin 4 Pin 5 Pin 6 Pin 7 Pin 8 Pin 9 Pin 10 Pin 11 Pin 12 OUTPUT PIN CONNECTIONS SINGLE TRIPLE No Connection V (B) No Connection V (B) No Connection V (B) Return Return Return Return Return Return Return Return V (A) V (A) V (A) V (A) V (A) V (A) No Connection V (C) No Connection V (C) Return 1 2 3 4 Optimum. Very good. Good. Not recommended. 0.23 (5.842) ALL DIMENSIONS IN INCHES (mm) MAXIMUM COMPONENT HEIGHT IS 1.26 (32.00) INPUT PIN CONNECTIONS J1 Pin 1 AC Neutral Pin 2 No Connection Pin 3 AC Line J3 Pin 1 V (A) Sense + Pin 2 V (A) Sense J4 Pin 1 Safety Earth J5 Pin 1 V (B) Sense + Pin 2 V (B) Sense - 3.00 (76.20) Recommended direction for forced air relative to power supply orientation shown below. DERATING CURVE Output Power (Watts) 110W 80W 150 LFM FORCED AIR COOLING NATURAL CONVECTION COOLING 55W 40W 0C 10C 20C 30C 40C 50C 60C 70C (7) Input and output connectors Mating connectors AC (J1) connector type Molex 26-60-4030 or equivalent. AC (J1) mating connector type Molex 09-50-3031 or equivalent with Molex 08-50-0105 or equivalent crimp terminals. DC (J2) connector type 12 position Molex Spox type 26-48-1125 or equivalent. DC (J2) mating connector type Molex Spox type 26-03-3121 and contact 08-52-0113. Sense (J3) connector type Molex 22-23-2021 or equivalent. Sense (J3) mating connector type Molex 22-01-3027 and contact 08-50-0113. Earth (J4) connector type Male 0.250 quick disconnect. Earth (J4) mating connector type Molex 90028. Sense (J5) connector type Leoco 2421P02H000. Sense (J5) mating connector type Leoco 2420S020000 and contact 2453TPB00V1. International Safety Standard Approvals VDE0805/EN60950/IEC950 File No. 10401-3336-1096. UL1950 File No. E136005. CSA C22.2 No. 950 File No. LR41062C. Datasheet (c) Artesyn Technologies(R) 2005 The information and specifications contained in this datasheet are believed to be correct at time of publication. However, Artesyn Technologies accepts no responsibility for consequences arising from printing errors or inaccuracies. The information and specifications contained or described herein are subject to change in any manner at any time without notice. No rights under any patent accompany the sale of any such product(s) or information contained herein. www.artesyn.com File Name: nlp110.pdf Rev (02): 08 Nov 2005