Micro Family 150 V Input Actual size: 2.28 x 1.45 x 0.5 in 57,9 x 36,8 x 12,7 mm C S ® US C NRTL US DC-DC Converter Module Features Applications • DC input range: 100 – 200 V • Isolated output • Encapsulated circuitry for shock and Communications, control systems, medical, instrumentation, defense and aerospace. For details on proper operation please refer to: vibration resistance Design Guide & Applications Manual for Maxi, Mini, Micro Family. • Extended temperature range • • • • • • • • • • • (–55 to +100°C) Input surge withstand: 250 V for 100 ms DC output: 3.3 – 48 V Programmable output: 10 to 110% Regulation: ±0.2% no load to full load Efficiency: Up to 88% Maximum operating temp: 100°C, full load Power density: up to 91 W per cubic inch Height above board: 0.43 in. (10,9 mm) Parallelable, with N+M fault tolerance Low noise ZCS/ZVS architecture RoHS Compliant (with F or G pin option) Product Overview These DC-DC converter modules use advanced power processing, control and packaging technologies to provide the performance, flexibility, reliability and cost effectiveness of a mature power component. High frequency ZCS/ZVS switching provides high power density with low noise and high efficiency. Part Numbering e.g. V150C12C150BL Output Voltage 3 V 3 = 3.3 V 5 = 5V 8 = 8V 12 = 12 V 15 = 15 V 24 = 24 V 28 = 28 V 36 = 36 V 48 = 48 V Absolute Maximum Ratings Parameter Rating Unit +In to –In voltage –0.5 to +260 Vdc PC to –In voltage –0.5 to +7.0 Vdc PR to –In voltage –0.5 to +7.0 Vdc SC to –Out voltage –0.5 to +1.5 Vdc –Sense to –Out voltage Notes 1.0 Vdc Isolation voltage in to out 3000 Vrms Test voltage in to base 1500 Vrms Test voltage out to base 500 Vrms Test voltage Operating Temperature –55 to +100 °C M-Grade Storage Temperature –65 to +125 °C M-Grade Pin soldering temperature Mounting torque V1 5 0 C Product Grade Temperatures (°C) Grade Operating Storage E = - 10 to +100 - 20 to +125 C = - 20 to +100 - 40 to +125 T = - 40 to +100 - 40 to +125 H = - 40 to +100 - 55 to +125 M = - 55 to +100 - 65 to +125 500 (260) °F (°C) <5 sec; wave solder 750 (390) °F (°C) <7 sec; hand solder 5 (0.57) in-lbs (N-m) 6 each B Output Power Vout Pout 3.3 V 75 W 5V 100 W 8V 100 W 12 V 150 W 15 V 150 W 24 V 150 W 28 V 150 W 36 V 150 W 48 V 150 W Pin Style Finish Blank: Short Tin/Lead L: Long Tin/Lead S: Short ModuMate Gold N: Long ModuMate Gold F: Short RoHS Gold G: Long RoHS Gold K: Extra Long RoHS Gold 150 V Micro Family Rev 2.8 vicorpower.com Page 1 of 11 09/2015 800 927.9474 Baseplate Blank: Slotted 2: Threaded 3: Through-hole 150 V Input MODULE FAMILY ELECTRICAL CHARACTERISTICS Electrical characteristics apply over the full operating range of input voltage, output load (resistive) and baseplate temperature, unless otherwise specified. All temperatures refer to the operating temperature at the center of the baseplate. MODULE INPUT SPECIFICATIONS Parameter Min Typ Max Unit Operating input voltage 100 150 200 Vdc 250 Vdc 99.0 Vdc Input surge withstand Undervoltage turn-on 97.0 Undervoltage turn-off 81.9 84.9 Overvoltage turn-off/on 201.9 210 Notes <100 ms Vdc Disabled input current 220 Vdc 1.1 mA PC pin low Max Unit Notes ±1 % Vout nom. Nominal input; full load; 25°C Low line to high line; full load MODULE OUTPUT SPECIFICATIONS Parameter Min Typ Output voltage setpoint Line regulation ±0.02 ±0.20 % Temperature regulation ±0.002 ±0.005 % / °C Power sharing accuracy ±2 ±5 % 10 to 100% of full load 110 % Of nominal output voltage. For trimming below 90% of nominal, a minimum load of 10% of maximum rated power may be required. –0.5 to 4.7 –0.5 to 7.0 –0.5 to 10.9 –0.5 to 16.1 –0.5 to 20.0 –0.5 to 31.7 –0.5 to 36.9 –0.5 to 47.4 –0.5 to 62.9 Vdc Vdc Vdc Vdc Vdc Vdc Vdc Vdc Vdc Programming range 10 +Out to –Out — Absolute Maximum Ratings 3.3 V 5V 8V 12 V 15 V 24 V 28 V 36 V 48 V Over operating temperature range Externally applied Externally applied Externally applied Externally applied Externally applied Externally applied Externally applied Externally applied Externally applied Note: For important information relative to applications where the converter modules are subject to continuous dynamic loading, contact Vicor applications engineering at 800-927-9474. THERMAL RESISTANCE AND CAPACITY Parameter Min Typ Max Unit Baseplate to sink; flat, greased surface 0.24 °C/Watt Baseplate to sink; thermal pad (P/N 20265) 0.21 °C/Watt Baseplate to ambient 10.9 °C/Watt Baseplate to ambient; 1000 LFM 2.8 °C/Watt Thermal capacity 48 Watt-sec/°C 150 V Micro Family Rev 2.8 vicorpower.com Page 2 of 11 09/2015 800 927.9474 150 V Input MODULE FAMILY ELECTRICAL CHARACTERISTICS (CONT.) MODULE CONTROL SPECIFICATIONS Parameter Min Typ Max Unit Notes PRIMARY SIDE (PC = Primary Control; PR = Parallel) PC bias voltage current limit 5.50 1.5 5.75 2.1 6.00 3.0 Vdc mA PC current = 1.0 mA PC voltage = 5.5 V PC module disable 2.3 2.6 2.9 Vdc Switch must be able to sink ≥4 mA. See Fig. 2 4 7 ms 0.5 Vavg UV, OV, OT, module fault. See Figs. 3 and 5 PC module enable delay PC module alarm PC resistance 0.9 1.0 1.1 MΩ See Fig. 3, converter off or fault mode PR emitter amplitude 5.7 5.9 6.1 Volts PR load >30 Ω, < 30 pF PR emitter current 150 PR receiver impedance 375 500 625 Ω PR receiver threshold 2.4 2.5 2.6 Volts Minimum pulse width: 20 ns 12 modules Without PR buffer amplifier mA PR drive capability 25°C SECONDARY SIDE (SC = Secondary Control) SC bandgap voltage 1.21 1.23 1.25 Vdc SC resistance 990 1000 1010 Ω SC capacitance SC module alarm Referenced to –Sense 0.033 µF 0 Vdc With open trim; referenced to –Sense. See Fig. 7 Unit Notes MODULE GENERAL SPECIFICATIONS Parameter Min Typ Max Isolation test voltage (in to out)* 3000 Vrms Complies with reinforced insulation requirements Isolation test voltage (in to base)* 1500 Vrms Complies with basic insulation requirements Isolation test voltage (out to base)* 500 Vrms Complies with operational insulation requirements Isolation resistance 10 MΩ Weight (E, C, T grade) 1.9 (52.8) 2.1 (59.3) 2.3 (65.8) ounces (grams) Weight (H, M grade) 2.1 (58.7) 2.3 (65.2) 2.5 (71.7) ounces (grams) Temperature limiting 100 115 Agency approvals °C in to out, in to baseplate, out to baseplate See Figs. 3 and 5. Do not operate coverter >100C. UL60950-1, EN60950-1, CSA60950-1, IEC60950-1. With appropriate fuse in series with the +Input cURus, cTÜVus, CE * Isolation test voltage, 1 minute or less. Note: Specifications are subject to change without notice. 150 V Micro Family Rev 2.8 vicorpower.com Page 3 of 11 09/2015 800 927.9474 150 V Input MODULE SPECIFIC OPERATING SPECIFICATIONS 3.3 Vout, 75 W (e.g. V150C3V3C75BL) Parameter Efficiency Ripple and noise Output OVP setpoint Dissipation, standby Load regulation Load current Current limit Short circuit current Min 78 4.14 0 23.1 15.8 Typ 79 94 4.3 3.3 ±0.02 26.1 26.1 Max 118 4.46 3.9 ±0.2 22.7 30.7 30.7 Unit % mV Volts Watts % Amps Amps Amps Notes Nominal input; full load; 25°C p-p; Nominal input; full load; 20 MHz bandwidth 25°C; recycle input voltage or PC to restart (>100 ms off) No load No load to full load; nominal input Unit % mV Volts Watts % Amps Amps Amps Notes Nominal input; full load; 25°C p-p; Nominal input; full load; 20 MHz bandwidth 25°C; recycle input voltage or PC to restart (>100 ms off) No load No load to full load; nominal input Unit % mV Volts Watts % Amps Amps Amps Notes Nominal input; full load; 25°C p-p; Nominal input; full load; 20 MHz bandwidth 25°C; recycle input voltage or PC to restart (>100 ms off) No load No load to full load; nominal input Unit % mV Volts Watts % Amps Amps Amps Notes Nominal input; full load; 25°C p-p; Nominal input; full load; 20 MHz bandwidth 25°C; recycle input voltage or PC to restart (>100 ms off) No load No load to full load; nominal input Unit % mV Volts Watts % Amps Amps Amps Notes Nominal input; full load; 25°C p-p; Nominal input; full load; 20 MHz bandwidth 25°C; recycle input voltage or PC to restart (>100 ms off) No load No load to full load; nominal input Output voltage 95% of nominal Output voltage <250 mV 5 Vout, 100 W (e.g. V150C5C100BL) Parameter Efficiency Ripple and noise Output OVP setpoint Dissipation, standby Load regulation Load current Current limit Short circuit current Min 81.5 6.03 0 20.4 14 Typ 82.7 180 6.25 4.5 ±0.02 23 23 Max 225 6.47 6.7 ±0.2 20 27 27 Output voltage 95% of nominal Output voltage <250 mV 8 Vout, 100 W (e.g. V150C8C100BL) Parameter Efficiency Ripple and noise Output OVP setpoint Dissipation, standby Load regulation Output Current Current limit Short circuit current Min 82.5 9.36 0 12.7 8.75 Typ 84 180 9.7 5.3 ±0.02 14.4 14.4 Max 215 10.1 7.5 ±0.2 12.5 16.9 16.9 Output voltage 95% of nominal Output voltage <250 mV 12 Vout, 150 W (e.g. V150C12C150BL) Parameter Efficiency Ripple and noise Output OVP setpoint Dissipation, standby Load regulation Load current Current limit Short circuit current Min 86.5 13.7 0 12.7 8.75 Typ 87.5 220 14.3 5.5 ±0.02 14.4 14.4 Max 275 14.9 11 ±0.2 12.5 16.9 16.9 Output voltage 95% of nominal Output voltage <250 mV 15 Vout, 150 W (e.g. V150C15C150BL) Parameter Efficiency Ripple and noise Output OVP setpoint Dissipation, standby Load regulation Load current Current limit Short circuit current Min 86.9 17.1 0 10.2 7 Typ 87.9 135 17.8 3.6 ±0.02 11.5 11.5 Max 169 18.5 4.8 ±0.2 10 13.5 13.5 Output voltage 95% of nominal Output voltage <250 mV 150 V Micro Family Rev 2.8 vicorpower.com Page 4 of 11 09/2015 800 927.9474 150 V Input MODULE SPECIFIC OPERATING SPECIFICATIONS (CONT.) 24 Vout, 150 W (e.g. V150C24C150BL) Parameter Efficiency Ripple and noise Output OVP setpoint Dissipation, standby Load regulation Load current Current limit Short circuit current Min 86 27.1 0 6.37 4.37 Typ 87.7 64 28.1 4.3 ±0.02 7.19 7.19 Max 80 29.1 5 ±0.2 6.25 8.44 8.44 Unit % mV Volts Watts % Amps Amps Amps Notes Nominal input; full load; 25°C p-p; Nominal input; full load; 20 MHz bandwidth 25°C; recycle input voltage or PC to restart (>100 ms off) No load No load to full load; nominal input Unit % mV Volts Watts % Amps Amps Amps Notes Nominal input; full load; 25°C p-p; Nominal input; full load; 20 MHz bandwidth 25°C; recycle input voltage or PC to restart (>100 ms off) No load No load to full load; nominal input Unit % mV Volts Watts % Amps Amps Amps Notes Nominal input; full load; 25°C p-p; Nominal input; full load; 20 MHz bandwidth 25°C; recycle input voltage or PC to restart (>100 ms off) No load No load to full load; nominal input Unit % mV Volts Watts % Amps Amps Amps Notes Nominal input; full load; 25°C p-p; Nominal input; full load; 20 MHz bandwidth 25°C; recycle input voltage or PC to restart (>100 ms off) No load No load to full load; nominal input Output voltage 95% of nominal Output voltage <250 mV 28 Vout, 150 W (e.g. V150C28C150BL) Parameter Efficiency Ripple and noise Output OVP setpoint Dissipation, standby Load regulation Output Current Current limit Short circuit current Min 86.9 31.5 0 5.46 3.75 Typ 87.5 80 32.7 5.3 ±0.02 6.16 6.16 Max 100 33.9 7.4 ±0.2 5.36 7.24 7.24 Output voltage 95% of nominal Output voltage <250 mV 36 Vout, 150 W (e.g. V150C36C150BL) Parameter Efficiency Ripple and noise Output OVP setpoint Dissipation, standby Load regulation Output Current Current limit Short circuit current Min 82.9 40.4 0 4.25 2.91 Typ 84.6 69 41.9 5.4 ±0.02 4.8 4.8 Max 87 43.4 6.3 ±0.2 4.17 5.63 5.63 Output voltage 95% of nominal Output voltage <250 mV 48 Vout, 150 W (e.g. V150C48C150BL) Parameter Efficiency Ripple and noise Output OVP setpoint Dissipation, standby Load regulation Load current Current limit Short circuit current Min 86.9 53.7 0 3.19 2.19 Typ 88.1 80 55.7 5.8 ±0.02 3.6 3.6 Max 100 57.7 6.7 ±0.2 3.13 4.23 4.23 Output voltage 95% of nominal Output voltage <250 mV 150 V Micro Family Rev 2.8 vicorpower.com Page 5 of 11 09/2015 800 927.9474 150 V Input BASIC MODULE OPERATION C2* 4.7nF C4* 4.7nF +IN F1* +OUT PC SC C1* 0.2µF PR –IN –OUT C3* 4.7nF C5* 4.7nF For C1 – C5, keep leads and connections short. Figure 1 — Basic module operation requires fusing, grounding, bypassing capacitors. * See Maxi, Mini, Micro Design Guide. Comprehensive Online Application Information The Design Guide and Applications Manual includes: • Application circuits • Design requirements • EMC considerations • Current sharing in power arrays • Thermal performance information • Recommended soldering methods • Accessory modules – filtering, rectification, front-ends • Mounting options ...and more. CLICK HERE TO VIEW DESIGN GUIDE Also at vicorpower.com • PowerBench online configurators • Over 20 Application Notes • Online calculators – thermal, trimming, hold-up • PDF data sheets for ALL Vicor products 150 V Micro Family Rev 2.8 vicorpower.com Page 6 of 11 09/2015 800 927.9474 150 V Input PRIMARY CONTROL - PC PIN Module Enable/Disable Module Alarm The module may be disabled by pulling PC to 0 V (2.3 V max) with respect to the –Input. This may be done with an open collector transistor, relay, or optocoupler. Converters may be disabled with a single transistor or relay either directly or via “OR’ing” diodes for 2 or more converters. See Figure 2. The module contains “watchdog” circuitry which monitors input voltage, operating temperature and internal operating parameters. In the event that any of these parameters are outside of their allowable operating range, the module will shut down and PC will go low. PC will periodically go high and the module will check to see if the fault (as an example, Input Undervoltage) has cleared. If the fault has not been cleared, PC will go low again and the cycle will restart. The SC pin will go low in the event of a fault and return to its normal state after the fault has been cleared. See Figures 3 and 5. Primary Auxiliary Supply During normal operation only, the PC Pin can source 5.7 V @ 1.5 mA. In the example shown in Figure 4, PC powers a module enabled LED. +IN +IN Disable PC PC PR PR SW1 1M –IN –IN Disable = PC < 2.3 V [a] Figure 2 — Module enable/disable. +OUT Auto Restart 50 Ω 2-20 ms typ. f(VIN) SW2 SW3 5.7 Vdc (0-3 mA) SC 1K 6K 1.23 Vdc SW1, 2, & 3 shown in "Fault" position –OUT Not applicable for 300 Vdc Input family Figure 3 — PC/SC module alarm logic. +IN Fault PC PC "Module Enabled" Input Undervoltage Input Overvoltage [a] Over Temperature Module Faults 40 µs typ. 5.7 V 4 kΩ PR SC –IN 1.23 V Figure 5 —PC/SC module alarm timing. Figure 4 — LED on-state indicator. +IN Optocoupler 2-20 ms typ. +OUT Comparator PC SC 4k Alarm PR –IN –OUT Figure 6 —Isolated on-state indicator. 1.00 V Figure 7 — Secondary side on-state indicator. 150 V Micro Family Rev 2.8 vicorpower.com Page 7 of 11 09/2015 800 927.9474 150 V Input SECONDARY CONTROL - SC PIN PARALLEL BUS - PR PIN Output Voltage Programming Parallel Operation The output voltage of the converter can be adjusted or programmed via fixed resistors, potentiometers or voltage DACs. See Figure 8. The PR pin supports paralleling for increased power with N+1 (N+M) redundancy. Modules of the same input voltage, output voltage, and power level will current share if all PR pins are suitably interfaced. Compatible interface architectures include the following: +OUT RU Trim Up Error Amp 1 kΩ SC Load RD Trim Down 0.033 μF –OUT 1.23 V AC coupled single-wire interface. All PR pins are connected to a single communication bus through 0.001 µF (500 V) capacitors. This interface supports current sharing and is fault tolerant except for the communication bus. Up to three converters may be paralleled by this method. See Figure 9. Transformer coupled interface. For paralleling four or more converters a transformer coupled interface is required. See Figure 10. For details on parallel operation please refer to the RD (ohms) = Design Guide & Applications Manual for Maxi, Mini, Micro Family.. 1,000 Vout Vnom – Vout 4.7 nF RU (ohms) = 1,000 (Vout –1.23) Vnom – 1,000 1.23 (Vout – Vnom) + +IN 0.2 µF 0.001 µF Z1* Figure 8 — Output voltage trim down and trim up circuit. – PC Module 1 PR –IN Low inductance ground plane or bus Trim Down 4.7 nF 4.7 nF +IN 1. This converter is not a constant power device – it has a constant current limit. Hence, available output power is reduced by the same percentage that output voltage is trimmed down. Do not exceed maximum rated output current. 2. The trim down resistor must be connected between the SC and pins. Do not bypass the SC pin directly with a capacitor. Trim Up 1. The converter is rated for a maximum delivered power. To ensure that maximum rated power is not exceeded, reduce maximum output current by the same percentage increase in output voltage. 2. The trim up resistor must be connected between the SC and pins. Do not bypass the SC pin directly with a capacitor. 0.2 µF 0.001 µF Z1* Module 2 PR –IN 4.7 nF Parallel Bus Figure 9 — AC coupled single-wire interface. * See Maxi, Mini, Micro Design Guide. 4.7 nF + +IN 0.2 µF T1 Z1* PC Module 1 PR –IN – 4.7 nF 3. Do not trim the converter above maximum trim range (typically +10%) or the output over voltage protection circuitry may be activated. 4.7 nF +IN 0.2 µF T2 Z1* Trim resistor values calculated automatically: On-line calculators for trim resistor values are available on the vicor website at: asp.vicorpower.com/calculators/calculators.asp?calc=1 Resistor values can be calculated for fixed trim up, fixed trim down and for variable trim up or down. PC PC Module 2 PR –IN 4.7 nF Parallel Bus Figure 10 — Transformer-coupled interface. 150 V Micro Family Rev 2.8 vicorpower.com Page 8 of 11 09/2015 800 927.9474 150 V Input PARALLEL BUS / VOLTAGE DROP COMPENSATION +S R7 21.0 k R1 SC R2 U1 PS2701 +OUT Module #2 trimmed down 2 % L O A D SC –OUT • At the discretion of the power system designer, a subset of all modules within an array may be configured as slaves by connecting SC to –Out. SC R11 36.5 k U2 R5 1.00 k TLV431 R6 C1 1.65 k 470 pF C2 0.22 µF R8 4.02 k Vcc 200 mV U3 LM10 Gnd R Load R10 1.24 k –S See Component Selection section below. • This module is designed for point of load regulation, where remote sensing is not required. Active voltage drop compensator, as shown here, may be used in applications with significant distribution losses. Please consult with the Micro Family Isolated Remote Sense Application Note for additional information. Ground Plane –OUT R3 2.55 k R9 –Out • Do not use output OR’ing diodes with MicroMods. +OUT Module #3 trimmed down 4 % C3 R4 + –OUT +Out – SC + Module #1 Designated Master • The +Out and –Out power buses should be designed to minimize and balance parasitic impedance from each module output to the load. Plane – +OUT Figure 12 — Voltage drop compensation. Figure 11 — N+1 module array output connections. PIN STYLES* Designator Description Finish Notes (None) Short Tin/Lead Requires in-board, mounting L Long Tin/Lead On-board mounting for 0.065" boards S Short ModuMate Gold SurfMate or in-board socket mounting N Long ModuMate Gold On-board socket mounting F Short RoHS Gold Select for RoHS compliant in-board solder, socket, or SurfMate mounting G Long RoHS Gold Select for RoHS compliant on-board solder or socket mounting K Extra Long RoHS Gold Select for RoHS compliance on-board mounting for thicker PCBs (not intended for socket or Surfmate mounting) * Pin style designator follows the “B” after the output power and precedes the baseplate designator. Ex. V150C12T150BN2 — Long ModuMate Pins 150 V Micro Family Rev 2.8 vicorpower.com Page 9 of 11 09/2015 800 927.9474 150 V Input MECHANICAL DRAWINGS Converter Pins No. Function Label 1 +In + Primary 2 PC Control 3 Parallel PR 4 –In – 5 –Out – 6 7 Secondary Control +Out SC + DIMENSION L PIN SHORT – .55±.015 [14.0±.38] PIN LONG–– .63±.015 [16.0±.38] PIN EXTRA LONG–––- .71±.015 [18.0±.38] NOTES: 1. MATERIAL: BASE: 6000 SERIES ALUMINUM COVER: LCP, ALUMINUM 3003 H14 PINS: RoHS PINS GOLD PLATE 30 MICRO INCH MIN; NON-RoHS PINS: TIN/LEAD 90/10 BRIGHT 2. DIMENSIONS AND VALUES IN BRACKETS ARE METRIC 3. MANUFACTURING CONTROL IS IN PLACE TO ENSURE THAT THE SPACING BETWEEN THE MODULES LABEL SURFACE TO THE PRINTED CIRCUIT BOARD OF THE APPLICATION RANGES FROM DIRECT CONTACT (ZERO), TO THE MAXIMUM GAP AS CALCULATED FROM THE TOLERANCE STACK-UP AND IS NOT SUBJECT NEGATIVE TOLERANCE ACCUMULATION Figure 13 — Module outline ALL MARKINGS THIS SURFACE 0.062 ±0.010 1,57 ±0,25 PCB THICKNESS 0.800* INBOARD SOLDER MOUNT 20,32 0.525* 13,34 PLATED THRU HOLE DIA 0.275* 6,99 0.145* 3,68 LONG PIN STYLE 0.094 ±0.003 2,39 ±0,08 0.133 3,38 1 2 3 6 PINS STYLES SOLDER:TIN/LEAD PLATED MODUMATE: GOLD PLATED COPPER RoHS: GOLD PLATED COPPER FOR SOLDERING METHODS AND PROCEDURES PLEASE REFER TO THE MAXI, MINI, MICRO DESIGN GUIDE. 1.734** 44,04 50,80 7 ALUMINUM BASEPLATE 4 2.000* R SHORT PIN STYLE (7X) 0.094 ±0.003 2,39 ±0,08 ONBOARD SOLDER MOUNT 5 Unless otherwise specified, dimensions are in inches mm 0.06 (4X) 1,5 .400* 10,16 1.090** 27,69 *DENOTES TOL = ±0.003 ±0,08 0.45 11,5 0.53 13,5 Decimals Tol. 0.XX ±0.01 0.XXX ±0.005 ±0.25 **PCB WINDOW ±0.127 Figure 14 — PCB mounting specifications 150 V Micro Family Rev 2.8 vicorpower.com Page 10 of 11 09/2015 800 927.9474 Angles ±1° 150 V Input Vicor’s comprehensive line of power solutions includes high density AC-DC and DC-DC modules and accessory components, fully configurable AC-DC and DC-DC power supplies, and complete custom power systems. Information furnished by Vicor is believed to be accurate and reliable. However, no responsibility is assumed by Vicor for its use. Vicor makes no representations or warranties with respect to the accuracy or completeness of the contents of this publication. Vicor reserves the right to make changes to any products, specifications, and product descriptions at any time without notice. Information published by Vicor has been checked and is believed to be accurate at the time it was printed; however, Vicor assumes no responsibility for inaccuracies. Testing and other quality controls are used to the extent Vicor deems necessary to support Vicor’s product warranty. Except where mandated by government requirements, testing of all parameters of each product is not necessarily performed. Specifications are subject to change without notice. Vicor’s Standard Terms and Conditions All sales are subject to Vicor’s Standard Terms and Conditions of Sale, which are available on Vicor’s webpage or upon request. Product Warranty In Vicor’s standard terms and conditions of sale, Vicor warrants that its products are free from non-conformity to its Standard Specifications (the “Express Limited Warranty”). This warranty is extended only to the original Buyer for the period expiring two (2) years after the date of shipment and is not transferable. UNLESS OTHERWISE EXPRESSLY STATED IN A WRITTEN SALES AGREEMENT SIGNED BY A DULY AUTHORIZED VICOR SIGNATORY, VICOR DISCLAIMS ALL REPRESENTATIONS, LIABILITIES, AND WARRANTIES OF ANY KIND (WHETHER ARISING BY IMPLICATION OR BY OPERATION OF LAW) WITH RESPECT TO THE PRODUCTS, INCLUDING, WITHOUT LIMITATION, ANY WARRANTIES OR REPRESENTATIONS AS TO MERCHANTABILITY, FITNESS FOR PARTICULAR PURPOSE, INFRINGEMENT OF ANY PATENT, COPYRIGHT, OR OTHER INTELLECTUAL PROPERTY RIGHT, OR ANY OTHER MATTER. This warranty does not extend to products subjected to misuse, accident, or improper application, maintenance, or storage. Vicor shall not be liable for collateral or consequential damage. Vicor disclaims any and all liability arising out of the application or use of any product or circuit and assumes no liability for applications assistance or buyer product design. Buyers are responsible for their products and applications using Vicor products and components. Prior to using or distributing any products that include Vicor components, buyers should provide adequate design, testing and operating safeguards. Vicor will repair or replace defective products in accordance with its own best judgment. For service under this warranty, the buyer must contact Vicor to obtain a Return Material Authorization (RMA) number and shipping instructions. Products returned without prior authorization will be returned to the buyer. The buyer will pay all charges incurred in returning the product to the factory. Vicor will pay all reshipment charges if the product was defective within the terms of this warranty. Life Support Policy VICOR’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS PRIOR WRITTEN APPROVAL OF THE CHIEF EXECUTIVE OFFICER AND GENERAL COUNSEL OF VICOR CORPORATION. As used herein, life support devices or systems are devices which (a) are intended for surgical implant into the body, or (b) support or sustain life and whose failure to perform when properly used in accordance with instructions for use provided in the labeling can be reasonably expected to result in a significant injury to the user. A critical component is any component in a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system or to affect its safety or effectiveness. Per Vicor Terms and Conditions of Sale, the user of Vicor products and components in life support applications assumes all risks of such use and indemnifies Vicor against all liability and damages. Intellectual Property Notice Vicor and its subsidiaries own Intellectual Property (including issued U.S. and Foreign Patents and pending patent applications) relating to the products described in this data sheet. No license, whether express, implied, or arising by estoppel or otherwise, to any intellectual property rights is granted by this document. Interested parties should contact Vicor's Intellectual Property Department. Vicor Corporation 25 Frontage Road Andover, MA, USA 01810 Tel: 800-735-6200 Fax: 978-475-6715 email Customer Service: [email protected] Technical Support: [email protected] 150 V Micro Family Rev 2.8 vicorpower.com Page 11 of 11 09/2015 800 927.9474