ZVS Isolated DC-DC Converter Evaluation Board

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USER GUIDE UG:301 PI31xx-xx-EVAL1 ZVS Isolated DC-DC Converter Evaluation Board Chris Swartz Principal Applications Engineer Contents Page Introduction Introduction 1 PI31xx Series Product Description 2 Board Connections 2 Thermal Considerations 4 Ordering Information 14 The PI31xx-xx-EVAL1 evaluation board allows the user to test the basic operating principles of the PI31xx series of high-density DC-DC power converters and experience the performance and value of this solution compared to alternate conventional solutions. Each evaluation board is populated with the components that could be used in a final design. It is not designed or intended to be used in end product applications. Please read this document prior to the connection of test equipment and refer to the product data sheet for device specifications, descriptions and characteristics. Remember to follow good lab safety practices and use safety glasses at all times. The PI31xx-xx-EVAL1 is configured to support one single input and one single output. Each board offers pin-strap options for trimming the output voltage up and down, turning the converter on and off and adding EMI system Y capacitors. Additional parts are included to compensate for line impedance associated with long leads from the bench power supply to the converter. Additional component footprints are made available to allow the user to test different design configurations that may be required to meet their end needs. Kelvin-type test points are included to allow for easy and convenient connections of testing instruments for evaluation of efficiency, line/load regulation and transient response. A low-impedance oscilloscope connection using a Johnson jack is included for ripple measurement and evaluation of the output voltage during transient events. Each demo board is equipped with a heat sink to allow high-power operation with a small amount of air flow and to allow operation of the board over various temperature extremes. Figure 1 PI31xx-xx-EVAL1 Evaluation Board UG:301 Page 1

PI31xx Series Product Description The PI31xx operates over a wide-range input, delivering 50 or 60W output power depending on the individual model number. The PI31xx series is available in a space-saving surface-mountable 0.87 x 0.65 x 0.265 Power-System-in-a-Package (PSiP), achieving ~50% space reduction versus alternative solutions. The switching frequency of 900kHz allows for small input and output filter components which further reduces the total size and cost of the overall system solution. The output voltage is sensed and fed back to the internal controller using a proprietary isolated magnetic feedback scheme which allows for high bandwidth and good common-mode noise immunity. The PI31xx series requires no external feedback compensation and offers a total solution with a minimum number of external components. A rich feature set is offered, including +10%, 20% output voltage trim capability (depending on the model number), remote enable, overvoltage protection, adjustable soft start, overcurrent protection with auto restart to protect against both short-circuit and overload, and over and under input voltage lockout. A unique temperature monitor and protection circuit is included that provides an analog voltage proportional to the internal die temperature, as well as overtemperature shut down, restart and overtemperature-fault alarm signal. Board Connections 1. Connect Test Equipment a. Connect the input DC power supply to the target board as shown in Figure 6. The negative terminal should be wired to IN and the positive terminal should connect to the positive terminal of the DMM wired as a DC Ammeter. Be sure that the proper sized wires are used to allow minimum voltage drop for a maximum input current of up to 4A. Use ring lugs mated to the included fasteners on the evaluation board. If your input power supply has remote sense capability, it can be wired to the INN and INP test points if desired. Connect the positive terminal of the DMM to the +IN lug on the evaluation board. b. Connect the primary side DMM (for measuring the input voltage) to INN and INP respectively. c. Connect the oscilloscope as shown in Figure 6 if you are planning to measure both primary and secondary signals at the same time. If you do not have an isolated differential amplifier, it is important to note that simultaneous measurement of both primary and secondary referenced signals using an oscilloscope with a grounded chassis is not recommended, as it will short circuit the primary to secondary isolation barrier. Floating the oscilloscope is also not recommended due to the large capacitance introduced by this long standing practice. The best practice is to use an isolated differential amplifier or use an oscilloscope with isolated channels. That is, the input returns are isolated from each other and earth ground. d. Connect the output DC DMM to the test points OUTN and OUTP. These test points are done in a Kelvin type manner so that they have no high current flowing in them. e. Connect the DC Load to the output lugs OUT+ and OUT. It is critical for this connection to be low inductance. UG:301 Page 2

2. Default Pin Strap Configuration a. Ensure the pin straps are in the following default locations before proceeding: nenable = Not Used (enabled) ntrim_up = Not Used n = Not Used nopt1 = Not Used nopt2 = Not Used 3. Pin Strap Functions a. ENABLE Adding a strap on this pin will cause the converter to shut down. b. TRIM_UP Adding a strap in this location will adjust the output voltage up by 10%. c. Adding a strap in this location will adjust the output voltage down by 10%. Only one strap can be connected at a time. If both trim straps are out, the output voltage should be set to the model s nominal output. 4. Trimming and Soft Start a. For those customers who wish to trim to another voltage by changing the preset trim resistors to another value, the trim equation shown in Figure 2 can be used: Figure 2 PI31xx trim equation R LOW = ( V DESIRED ) R REFI ( V OUT_NOM ) + V DESIRED R HIGH = ( R REFI ) ( V OUT_NOM) V ERO + V DESIRED V REF V REF (( V OUT_NOM ) + V DESIRED ) Where: R1 = R LOW R3 = R HIGH V ERO = 4.9 and V REF can be found in the appropriate model datasheet. Figure 3 shows an equation for soft-start configuration where C7 = C REF Figure 3 PI31xx soft-start equation C REF = T 6 230 10 SS_DESIRED 23000 Figure 4 PI31xx trimming equivalent circuit ENABLE PI31xx R HIGH 10kΩ R REFI TRIM/SS V ERO V REF R LOW SGND UG:301 Page 3

Thermal Considerations The PI31xx-xx-EVAL1 is supplied with optional heat sinks. At present, Vicor offers four different heat sink options to accommodate the customers space and cooling needs. Heat sinks are available in two sizes, one with 6.3mm fins and the other with 11mm fins. Each of those heat sinks can be ordered with a specific air flow direction in mind, both cross flow and longitudinal are supported. Please refer to the product website www.vicorpower.com for more information. Table 1 PI31xx-xx-EVAL1 input-output pin description Pin Name Type Description IN+ Input/Lug Primary side positive input voltage terminal. IN Input/Lug Primary side negative input voltage terminal. OUT+ Output/Lug Isolated secondary DC output voltage positive terminal. OUT Output/Lug Isolated secondary DC output voltage negative terminal TM Test/Pin Temperature measurement output pin with respect to SGND. 3V = 300 K 10mV/ K. SGND Test/Pin Signal ground, primary side referenced. TRIM/SS Test/Pin Monitor pin for the soft-start voltage and trim voltage reference with respect to SGND. ENABLE Test/Pin Allows for monitoring of the ENABLE signal with respect to SGND INN INP YN YP OUTP OUTN Test/Pin Test/Pin Output/Pad Output/Pad Test/Pin Test/Pin Kelvin sense connection for input supply ( ) and input voltage measurement test point. Kelvin sense connection for input supply (+) and input voltage measurement test point. Optional test pad for connection of optional "YN" capacitor to external system ground. Optional test pad for connection of optional "YP" capacitor to external system ground. Kelvin sense connection for output voltage (+) and output voltage measurement test point. Kelvin sense connection for output voltage ( ) and output voltage measurement test point. OUT Test/Pin PCB test jack for low noise measurement of the output voltage. Table 2 PI31xx-xx-EVAL1 evaluation board pin strap and jumper description Name Description ENABLE If strap is installed, unit is turned off. If strap is removed, unit will be enabled. TRIM_UP If strap is installed, trims output voltage up 10%. If strap is installed, trims output voltage down 10%. OPT1 Allows optional connection of heat-sink assembly to second return ( IN). OPT2 Allows optional connection of heat-sink assembly to secondary return ( OUT). UG:301 Page 4

Table 3 PI31xx-xx-EVAL1 evaluation board maximum I/O ratings Name Max Voltage Max Current IN+ 100V 20A IN 100V 20A OUT+ 20V 20A OUT 20V 20A 10V 100mA OPT1 10V 100mA OPT2 10V 100mA OUT 10V 100mA INP 10V 100mA INN 10V 100mA ENABLE 10V 100mA TRIM/SS 10V 100mA SGND 10V 100mA TM 10V 100mA OUTP 20V 100mA OUTN 20V 100mA UG:301 Page 5

Figure 5 Schematic diagram IN+ IN F1 L1 OUT+ C20 C21 C1 C2 C3 C4 C5 + TRIM_UP SGND R1 90.9kΩ C6 C7 390pF DNP R3 301kΩ ENA ENABLE TRIM/SS INN INP R2 100kΩ R4 100Ω TM YP CY1 CY2 YP 4.7nF 4.7nF +IN SGND +OUT TM TRIM/SS PI31xx ENABLE OUT IN YN OUTP C8 C9 C10 C11 C12 C13 C14 C15 C16 C17 C18 C19 OUTN OUT OPT1 HS OPT2 CY3 CY4 YN 4.7nF 4.7nF Scope OUT HS UG:301 Page 6

Table 4 PI3101-00-EVAL1 1 1 U1 PI3101-00-HVIZ NA EA Vicor PI3101-00 High-Density PSiP 2 6 C8-C19 GRM21BR71A106KE5 10µ F 3 6 C1-C4, C20-C21 GRM31CR72A105KE1 1µ F 4 4 CY1-CY4 GRM31BR73A472K 4700p F 5 1 L1 FP3-2R0-R 2µ H Coilcraft Inductor Murata X7R Ceramic Capacitor 10V Murata X7R Ceramic Capacitor 100V Kemet X7R Ceramic Capacitor 50V 0805 7 1 C5 EEU-FC2A470 47µ F Panasonic Electrolytic Capacitor 100V 8 1 R1 MCR10EZPF9092 90.9k Ω Rohm Resistor 0805 1% 9 1 R3 MCR10EZPF3013 301k Ω Rohm Resistor 0805 1% 10 1 R2 MCR10EZPF1003 100k Ω Rohm Resistor 0805 1% 11 1 R4 MCR10EZPF1000 100 Ω Rohm Resistor 0805 1% 12 1 F1 0154003DR 3 A Littlefuse Fuseblock 3A SMT Table 5 PI3105-00-EVAL1 1 1 U1 PI3105-00-HVIZ NA EA Vicor PI3105-00 High-Density PSiP 2 6 C8-C19 GRM21BR71A475KE5 4.7µ F 3 6 C1-C4, C20-C21 GRM31CR72A105KE1 1µ F 4 4 CY1-CY4 GRM31BR73A472K 4700p F 5 1 L1 FP3-R47-R 470n H Coilcraft Inductor Murata X7R Ceramic Capacitor 25V Murata X7R Ceramic Capacitor 100V Kemet X7R Ceramic Capacitor 50V 0805 7 1 C5 EEU-FC2A470 47µ F Panasonic Electrolytic Capacitor 100V 8 1 R1 MCR10EZPF9092 90.9k Ω Rohm Resistor 0805 1% 9 1 R3 MCR10EZPF3013 301k Ω Rohm Resistor 0805 1% 10 1 R2 MCR10EZPF1003 100k Ω Rohm Resistor 0805 1% 11 1 R4 MCR10EZPF1000 100 Ω Rohm Resistor 0805 1% 12 1 F1 0154003DR 3 A Littlefuse Fuseblock 3A SMT UG:301 Page 7

Table 6 PI3106-00-EVAL1 1 1 U1 PI3106-00-HVMZ NA EA Vicor PI3106-00 High-Density PSiP 2 6 C8-C19 3 6 C1-C4, C20-C21 GRM21BR71E- 225KA73L GRM31CR71H- 475KA12K 2.2µ F 4.7µ F 4 4 CY1-CY4 GRM31BR73A472K 4700p F 5 1 L1 FP3-R47-R 470n H Coilcraft Inductor Murata X7R Ceramic Capacitor 25V Murata X7R Ceramic Capacitor 50V Kemet X7R Ceramic Capacitor 50V 0805 7 1 C5 EEU-FC1J101L 100µ F Panasonic Electrolytic Capacitor 63V 8 1 R1 MCR10EZPF9092 90.9k Ω Rohm Resistor 0805 1% 9 1 R3 MCR10EZPF3013 301k Ω Rohm Resistor 0805 1% 10 1 R2 MCR10EZPF1003 100k Ω Rohm Resistor 0805 1% 11 1 R4 MCR10EZPF1000 100 Ω Rohm Resistor 0805 1% 12 1 F1 0154008DR 8 A Littlefuse Fuseblock 8A SMT Table 7 PI3106-01-EVAL1 1 1 U1 PI3106-01-HVIZ NA EA Vicor PI3106-01 High-Density PSiP 2 6 C8-C19 3 6 C1-C4, C20-C21 GRM21BR71E- 225KA73L GRM31CR71H- 475KA12K 2.2µ F 4.7µ F 4 4 CY1-CY4 GRM31BR73A472K 4700p F 5 1 L1 FP3-R47-R 470n H Coilcraft Inductor Murata X7R Ceramic Capacitor 25V Murata X7R Ceramic Capacitor 50V Kemet X7R Ceramic Capacitor 50V 0805 7 1 C5 EEU-FC1J101L 100µ F Panasonic Electrolytic Capacitor 63V 8 1 R1 MCR10EZPF9092 90.9k Ω Rohm Resistor 0805 1% 9 1 R3 MCR10EZPF3013 301k Ω Rohm Resistor 0805 1% 10 1 R2 MCR10EZPF1003 100k Ω Rohm Resistor 0805 1% 11 1 R4 MCR10EZPF1000 100 Ω Rohm Resistor 0805 1% 12 1 F1 0154008DR 8 A Littlefuse Fuseblock 8A SMT UG:301 Page 8

Table 8 PI3108-00-EVAL1 1 1 U1 PI3108-00-HVMZ NA EA Vicor PI3108-00 High-Density PSiP 2 6 C8-C19 3 6 C1-C4, C20-C21 GRM21BR71A- 106KE5 GRM31CR71H- 475KA12K 10µ F 4.7µ F 4 4 CY1-CY4 GRM-31BR73A472K 4700p F 5 1 L1 FP3-R47-R 470n H Coilcraft Inductor Murata X7R Ceramic Capacitor 10V Murata X7R Ceramic Capacitor 50V Kemet X7R Ceramic Capacitor 50V 0805 7 1 C5 EEU-FC1J101L 100µ F Panasonic Electrolytic Capacitor 63V 8 1 R1 MCR10EZPF9092 90.9k Ω Rohm Resistor 0805 1% 9 1 R3 MCR10EZPF3013 301k Ω Rohm Resistor 0805 1% 10 1 R2 MCR10EZPF1003 100k Ω Rohm Resistor 0805 1% 11 1 R4 MCR10EZPF1000 100 Ω Rohm Resistor 0805 1% 12 1 F1 0154008DR 8 A Littlefuse Fuseblock 8A SMT UG:301 Page 9

Table 9 PI3109-00-EVAL1 1 1 U1 PI3109-00-HVMZ NA EA Vicor PI3109-00 High-Density PSiP 2 6 C8-C19 3 6 C1-C4, C20-C21 GRM21BR71A- 106KE5 GRM31CR71H- 475KA12K 10µ F 4.7µ F 4 4 CY1-CY4 GRM31BR73A472K 4700p F 5 1 L1 FP3-R47-R 470n H Coilcraft Inductor Murata X7R Ceramic Capacitor 10V Murata X7R Ceramic Capacitor 50V Kemet X7R Ceramic Capacitor 50V 0805 7 1 C5 EEU-FC1J101L 100µ F Panasonic Electrolytic Capacitor 63V 8 1 R1 MCR10EZPF9092 90.9k Ω Rohm Resistor 0805 1% 9 1 R3 MCR10EZPF3013 301k Ω Rohm Resistor 0805 1% 10 1 R2 MCR10EZPF1003 100k Ω Rohm Resistor 0805 1% 11 1 R4 MCR10EZPF1000 100 Ω Rohm Resistor 0805 1% 12 1 F1 0154008DR 8 A Littlefuse Fuseblock 8A SMT Table 10 PI3109-01-EVAL1 1 1 U1 PI3109-01-HVIZ NA EA Vicor PI3109-01 High-Density PSiP 2 6 C8-C19 3 6 C1-C4, C20-C21 GRM21BR71A- 106KE5 GRM31CR71H- 475KA12K 10µ F 4.7µ F 4 4 CY1-CY4 GRM31BR73A472K 4700p F 5 1 L1 FP3-R47-R 470n H Coilcraft Inductor Murata X7R Ceramic Capacitor 10V Murata X7R Ceramic Capacitor 50V Kemet X7R Ceramic Capacitor 50V 0805 7 1 C5 EEU-FC1J101L 100µ F Panasonic Electrolytic Capacitor 63V 8 1 R1 MCR10EZPF9092 90.9k Ω Rohm Resistor 0805 1% 9 1 R3 MCR10EZPF3013 301k Ω Rohm Resistor 0805 1% 10 1 R2 MCR10EZPF1003 100k Ω Rohm Resistor 0805 1% 11 1 R4 MCR10EZPF1000 100 Ω Rohm Resistor 0805 1% 12 1 F1 0154008DR 8 A Littlefuse Fuseblock 8A SMT UG:301 Page 10

Table 11 PI3110-01-EVAL1 1 1 U1 PI3110-01-HVIZ NA EA Vicor PI3110-01 High-Density PSiP 2 6 C8-C19 3 6 C1-C4, C20-C21 GRM21BR71E- 225KA73L GRM31CR71H- 475KA12K 2.2µ F 1µ F 4 4 CY1-CY4 GRM31BR73A472K 4700p F 5 1 L1 FP3-4R7-R 4.7µ H Coilcraft Inductor Murata X7R Ceramic Capacitor 25V Murata X7R Ceramic Capacitor 100V Kemet X7R Ceramic Capacitor 50V 0805 7 1 C5 EEU-FC2A470 47µ F Panasonic Electrolytic Capacitor 100V 8 1 R1 MCR10EZPF9092 90.9k Ω Rohm Resistor 0805 1% 9 1 R3 MCR10EZPF3013 301k Ω Rohm Resistor 0805 1% 10 1 R2 MCR10EZPF1003 100k Ω Rohm Resistor 0805 1% 11 1 R4 MCR10EZPF1000 100 Ω Rohm Resistor 0805 1% 12 1 F1 0154003DR 3 A Littlefuse Fuseblock 3A SMT Table 12 PI3111-01-EVAL1 1 1 U1 PI3111-00-HVMZ NA EA Vicor PI3111-00 High-Density PSiP 2 6 C8-C19 3 6 C1-C4, C20-C21 GRM21BR71E- 225KA73L GRM31CR71H- 475KA12K 2.2µ F 1µ F 4 4 CY1-CY4 GRM31BR73A472K 4700p F 5 1 L1 FP3-R47-R 470n H Coilcraft Inductor Murata X7R Ceramic Capacitor 25V Murata X7R Ceramic Capacitor 100V Kemet X7R Ceramic Capacitor 50V 0805 7 1 C5 EEU-FC1J101L 100µ F Panasonic Electrolytic Capacitor 63V 8 1 R1 MCR10EZPF9092 90.9k Ω Rohm Resistor 0805 1% 9 1 R3 MCR10EZPF3013 301k Ω Rohm Resistor 0805 1% 10 1 R2 MCR10EZPF1003 100k Ω Rohm Resistor 0805 1% 11 1 R4 MCR10EZPF1000 100 Ω Rohm Resistor 0805 1% 12 1 F1 0154008.DR 8 A Littlefuse Fuseblock 8A SMT UG:301 Page 11

Table 13 PI31xx-xx-EVAL1 packing list Item Qty Part Number U/M Description 1 1 PI31xx-xx-EVAL1 EA Evaluation PCB Assembly 2 1 32786 EA 6.3mm Heat sink Assembly 3 1 32784 EA 11mm Heat sink Assembly 4 1 33855 EA Heat sink Grounding Clip 5 4 32434 EA Heat sink Pushpins 6 4 N/A EA Screw, 6-32 7 4 N/A EA Nut, 6-32 Figure 6 PI31xx-xx-EVAL1 test set up OSCILLOSCOPE DC-20MHz BW DMM + CH1 CH2 + DC AMMETER 0 5A ISOLATED DIFF. + AMPLIFIER +IN PS1 + 0 100V DC 5A DC ELECT. LOAD 0 30A MIN IN + DMM UG:301 Page 12

Figure 7 Top-layer artwork 3oz copper Top Layer Figure 8 Mid-layer 1 artwork 2oz copper Midlayer 1 Figure 9 Mid-layer 2 artwork 2oz copper Midlayer 2 UG:301 Page 13

Figure 10 Mid-layer 3 artwork 2oz copper Midlayer 3 Figure 11 Mid-layer 4 artwork 2oz copper Midlayer 4 Figure 12 Bottom-layer artwork 3oz copper Bottom Layer UG:301 Page 14

Figure 13 Mechanical drawing 3.100 0.250 2.600 0.250 0.335 0.750 IN+ C22 C21 F1 Cool-Power Series Evaluation Board High Density Isolated DC-DC Converter L1 YP INP CY1 CY2 OUTP OUT+ 0.150 C5 C4 C3 C2 C1 C19 C18 C17 C16 OUT 3.100 2.430 IN ENABLE TRIM_UP R1 R4 R3 TRIM/SS C6 R2 C7 SGND TM INN ENABLE OUTN OPT1 OPT2 CY3 CY4 YN C15 C11 C14 C10 C13 C9 C12 C8 OUT 1.55 0.335 PI31 - EVAL1 0.150 0.750 Ordering Information The PI31xx Customer Evaluation Boards are specified by adding the suffix -EVAL1 to the base PI31xx-xx model number. Go to http://www.vicorpower.com/contact-us for ordering information. UG:301 Page 15

Limitation of Warranties Information in this document is believed to be accurate and reliable. HOWEVER, THIS INFORMATION IS PROVIDED AS IS AND WITHOUT ANY WARRANTIES, EXPRESSED OR IMPLIED, AS TO THE ACCURACY OR COMPLETENESS OF SUCH INFORMATION. VICOR SHALL HAVE NO LIABILITY FOR THE CONSEQUENCES OF USE OF SUCH INFORMATION. IN NO EVENT SHALL VICOR BE LIABLE FOR ANY INDIRECT, INCIDENTAL, PUNITIVE, SPECIAL OR CONSEQUENTIAL DAMAGES (INCLUDING, WITHOUT LIMITATION, LOST PROFITS OR SAVINGS, BUSINESS INTERRUPTION, COSTS RELATED TO THE REMOVAL OR REPLACEMENT OF ANY PRODUCTS OR REWORK CHARGES). Vicor reserves the right to make changes to information published in this document, at any time and without notice. You should verify that this document and information is current. This document supersedes and replaces all prior versions of this publication. All guidance and content herein are for illustrative purposes only. Vicor makes no representation or warranty that the products and/or services described herein will be suitable for the specified use without further testing or modification. You are responsible for the design and operation of your applications and products using Vicor products, and Vicor accepts no liability for any assistance with applications or customer product design. It is your sole responsibility to determine whether the Vicor product is suitable and fit for your applications and products, and to implement adequate design, testing and operating safeguards for your planned application(s) and use(s). VICOR PRODUCTS ARE NOT DESIGNED, AUTHORIZED OR WARRANTED FOR USE IN LIFE SUPPORT, LIFE-CRITICAL OR SAFETY-CRITICAL SYSTEMS OR EQUIPMENT. VICOR PRODUCTS ARE NOT CERTIFIED TO MEET ISO 13485 FOR USE IN MEDICAL EQUIPMENT NOR ISO/TS16949 FOR USE IN AUTOMOTIVE APPLICATIONS OR OTHER SIMILAR MEDICAL AND AUTOMOTIVE STANDARDS. VICOR DISCLAIMS ANY AND ALL LIABILITY FOR INCLUSION AND/OR USE OF VICOR PRODUCTS IN SUCH EQUIPMENT OR APPLICATIONS AND THEREFORE SUCH INCLUSION AND/OR USE IS AT YOUR OWN RISK. Terms of Sale The purchase and sale of Vicor products is subject to the Vicor Corporation Terms and Conditions of Sale which are available at: (http://www.vicorpower.com/termsconditionswarranty) Export Control This document as well as the item(s) described herein may be subject to export control regulations. Export may require a prior authorization from U.S. export authorities. Contact Us: http://www.vicorpower.com/contact-us Vicor Corporation 25 Frontage Road Andover, MA, USA 01810 Tel: 800-735-6200 Fax: 978-475-6715 www.vicorpower.com email Customer Service: custserv@vicorpower.com Technical Support: apps@vicorpower.com 2018 Vicor Corporation. All rights reserved. The Vicor name is a registered trademark of Vicor Corporation. All other trademarks, product names, logos and brands are property of their respective owners. 09/18 Rev 1.1 Page 16

Mouser Electronics Authorized Distributor Click to View Pricing, Inventory, Delivery & Lifecycle Information: Vicor: PI3106-01-EVAL1 PI3106-00-EVAL1 PI3111-00-EVAL1 PI3105-00-EVAL1 PI3101-00-EVAL1 PI3110-01-EVAL1 PI3109-01-EVAL1 PI3109-00-EVAL1 PI3108-00-EVAL1

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