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    underfill

    Abstract: SILICON CONTROL RECTIFIER DETAILS AN-1050 Aluminum alloys physical properties Ablestik underfill SN62 PB36 ag2 Copper SN62 PB36 ag2 alsic 105 alsic
    Text: AN-1050 DirectFET TM Technology Materials and Practices Application Note page Factors causing thermal fatigue 2 Summarized test results 2 Use of underfill beneath devices 3 Use of lead-free solder alloys 3 Use of insulated metal substrates 4 Use of conformal coatings


    Original     		PDF AN-1050 AN-1035, underfill SILICON CONTROL RECTIFIER DETAILS AN-1050 Aluminum alloys physical properties Ablestik underfill SN62 PB36 ag2 Copper SN62 PB36 ag2 alsic 105 alsic

    WLCSP smt

    Abstract: EIA-481-D-2008 Cu OSP and Cu SOP qfn tray pocket size 5 x 6 SUF1577-15 WLCSP stencil design without underfill SAC396 cte table flip chip substrate SAC 2.3 Ag bump composition
    Text: AN69061 Design, Manufacturing, and Handling Guidelines for Cypress Wafer-Level Chip Scale Packages WLCSP Author: Wynces Silvoza, Bo Chang Associated Project: No Associated Part Family: All Cypress WLCSP products Software Version: None Associated Application Notes: None


    Original     		PDF AN69061 AN69061 WLCSP smt EIA-481-D-2008 Cu OSP and Cu SOP qfn tray pocket size 5 x 6 SUF1577-15 WLCSP stencil design without underfill SAC396 cte table flip chip substrate SAC 2.3 Ag bump composition

    Loctite 3567

    Abstract: underfill Kester FDZ202P fbga Substrate design guidelines reflow hot air BGA fine BGA thermal profile reball INTEL underfill SMT
    Text: Application Note 7001 March 2002 Guidelines for Mounting Fairchild’s BGA Packages Dennis Lang, Applications Engineer Introduction The development of MOSFETs in BGA packages was a technology breakthrough, producing a device that combined excellent thermal transfer characteristics, high-current handling capability, ultra-low profile


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    underfill

    Abstract: rework reflow hot air BGA Loctite PCB design for very fine pitch csp package thick bga die size Loctite 3567 Intel BGA Solder FDZ202P Fairchild, BGA fbga Substrate design guidelines
    Text: Application Note 7001 March 2004 Guidelines for Using Fairchild’s BGA Packages Dennis Lang, Applications Engineer Introduction The development of MOSFETs in Chip Scale Package BGA packages was a technology breakthrough, producing a device that combined excellent thermal transfer characteristics, high-current handling


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    201676B

    Abstract: No abstract text available
    Text: APPLICATION NOTE Wafer Level Chip Scale Packages: SMT Process Guidelines and Handling Considerations Introduction The Skyworks Wafer Level Chip Scale Package WLCSP is a bumped die solution that can be used for in-module and/or standalone applications. WLCSP packaging technology is applied


    Original     		PDF 201676B 201676B

    TB451

    Abstract: intersil standard part marking wlcsp inspection
    Text: Technical Brief 451 PCB Assembly Guidelines for Intersil Wafer Level Chip Scale Package Devices Introduction SOLDER BALL: Sn/Ag/Cu There is an industry-wide trend towards using the smallest package possible for a given pin count. This is driven primarily by the handheld products market where the trend towards


    Original     		PDF TB451 intersil standard part marking wlcsp inspection

    underfill

    Abstract: cte table flip chip substrate ansys darveaux with or without underfill FR4 substrate height and thickness cte table bga cte table 63Sn37Pb application for bt 151 FR4 substrate
    Text: Reliability Study of High-Pin-Count Flip-Chip BGA Yuan Li, John Xie, Tarun Verma and Vincent Wang Altera Corp. 101 Innovation Drive, San Jose, CA 95134 [email protected] Abstract A family of 1.0-mm pitch full-array flip-chip BGAs were developed. These packages vary from 27 to 45 mm in package


    Original     		PDF 12x10-6 17x10-6 6x10-6 underfill cte table flip chip substrate ansys darveaux with or without underfill FR4 substrate height and thickness cte table bga cte table 63Sn37Pb application for bt 151 FR4 substrate

    J-STD-005

    Abstract: IPC-SM-785 dispense needle for csp underfill dispense needle PCB design for very fine pitch csp package
    Text: AND8081/D Flip Chip CSP Packages Prepared by: Denise Thienpont ON Semiconductor Staff Engineer http://onsemi.com APPLICATION NOTE Package Construction and Process Description Introduction to Chip Scale Packaging This application note provides guidelines for the use of


    Original     		PDF AND8081/D J-STD-005 IPC-SM-785 dispense needle for csp underfill dispense needle PCB design for very fine pitch csp package

    Altera Flip Chip BGA warpage

    Abstract: with or without underfill DSASW0010612 cte table epoxy substrate you ad electronics Power consumption of FCBGA 53RD
    Text: Design Guidance for the Mechanical Reliability of Low-K Flip Chip BGA Package 1 Kuo-Chin Chang*, 2Yuan Li, 1Chung-Yi Lin, and 1Mirng-Ji Lii 1 Taiwan Semiconductor Manufacturing Company, Ltd. 6, Creation Rd. 2, HsinChu Science Park, HsinChu 300, TAIWAN * Tel: 886-3-5785112 Ext.6274; Fax: 886-3-5641737; E-mail: [email protected]


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    underfill

    Abstract: Aluminum alloys physical properties AN-1050 SILICON CONTROL RECTIFIER DETAILS alsic 105 SN62 PB36 ag2 International Power Devices silicon carbide LED lead-free solder joint reliability thermal cycle alsic
    Text: Application Note AN-1050 DirectFETTM Technology Materials and Practices Application Note Table of Contents Page Factors Causing Thermal Fatigue .2 Summarized Test Results .2


    Original     		PDF AN-1050 underfill Aluminum alloys physical properties AN-1050 SILICON CONTROL RECTIFIER DETAILS alsic 105 SN62 PB36 ag2 International Power Devices silicon carbide LED lead-free solder joint reliability thermal cycle alsic

    underfill

    Abstract: SN63A FR4 substrate hysol with or without underfill PCB design for csp package FR4 substrate epoxy hysol 4520
    Text: CHIP SCALE PACKAGE ASSEMBLY GUIDE INTRODUCTION Dallas Semiconductor developed Chip Scale Package CSP to be assembled with processes typical of Surface Mount Technology (SMT). Applying some special considerations to the traditional SMT assembly processes, customers realize reliable product assemblies. This document supplies the process


    Original     		PDF

    W-CSP footprint

    Abstract: MO-211-C DM056 wcsp package reliability WLCSP stencil design EH11 wcsp wcsp qualification WAN0158
    Text: w WAN_0202 Guidelines on How to Use W-CSP Packages and Create Associated PCB Footprints INTRODUCTION The Wolfson Wafer level ChipScale Package W-CSP is a die-sized package, which obtains electrical contact via solder bumps on the bottom surface of the device to a Printed Circuit Board


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    AN1279

    Abstract: WLCSP stencil design AN-1279 WLCSP underfill HASL underfill IPC-SM-785 JESD51-3 without underfill solder joint reliability
    Text: National Semiconductor Application Note 1279 March 2003 Table of Contents Introduction . Package Construction .


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    AN1279

    Abstract: WLCSP underfill AN-1279 without underfill IPC-SM-785 Solder paste stencil life WLCSP stencil design
    Text: National Semiconductor Application Note 1279 November 2003 Table of Contents Introduction . Package Construction .


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    AG04

    Abstract: No abstract text available
    Text: SI00-06 Surging Ideas TVS Diode Application Note PROTECTION PRODUCTS Semtech utilizes a proprietary electroless nickel plate process for the UBM paired with screen printed solder balls. The balls are laid out in a grid with a pin out pattern per JEDEC standard outline MO-211.


    Original     		PDF SI00-06 MO-211. AG04

    AN1079

    Abstract: AN-1079 IR0530
    Text: Application Note AN-1079 Board Mounting 0.5A FlipKYTM By Hazel Schofield and Philip Adamson, International Rectifier For part numbers IR0520CSPTR/PBF, IR0530CSPTR/PBF, IR05H40CSPTR/PBF Table of Contents Page Introduction .2


    Original     		PDF AN-1079 IR0520CSPTR/PBF, IR0530CSPTR/PBF, IR05H40CSPTR/PBF AN1079 AN-1079 IR0530

    SI00-06

    Abstract: SN62 PB36 ag2 SN62 PB36 ag2 Copper design ideas with or without underfill MO-211 SFC05-4 thermal cycling reliability SN62 PB36 ag2 gold smd ag2
    Text: SI00-06 Surging Ideas TVS Diode Application Note PROTECTION PRODUCTS Semtech utilizes a proprietary electroless nickel plate process for the UBM paired with screen printed solder balls. The balls are laid out in a grid with a pin out pattern per JEDEC standard outline MO-211.


    Original     		PDF SI00-06 MO-211. SI00-06 SN62 PB36 ag2 SN62 PB36 ag2 Copper design ideas with or without underfill MO-211 SFC05-4 thermal cycling reliability SN62 PB36 ag2 gold smd ag2

    MICRO SWITCH PRESSURE PCB

    Abstract: Vishay Siliconix soldering bga without underfill 71990 AN824 63Sm DG3000DB Si8900EDB Si8902EDB UP78
    Text: AN824 Vishay Siliconix PCB Design and Assembly Guidelines For MICRO FOOTr Products Johnson Zhao INTRODUCTION Vishay Siliconix’s MICRO FOOT product family is based on a wafer-level chip-scale packaging WL-CSP technology that implements a solder bump process to eliminate the need for an


    Original     		PDF AN824 Si8902EDB Sn/37Pb 06-Jan-03 MICRO SWITCH PRESSURE PCB Vishay Siliconix soldering bga without underfill 71990 AN824 63Sm DG3000DB Si8900EDB UP78

    IR140CSP

    Abstract: IRF6156 AN-1079 IR130CSP IR1H40CSP IRF6100 IRF6100PBF IR140CSPPBF
    Text: Application Note AN-1011 Board Mounting Application Note for 0.800mm Pitch Devices For part numbers IRF6100, IRF6100PBF, IR130CSP, IR130CSPPBF, IR140CSP, IR140CSPPBF, IR1H40CSP, IR1H40CSPPBF By Hazel Schofield and Philip Adamson, International Rectifier Table of Contents


    Original     		PDF AN-1011 800mm IRF6100, IRF6100PBF, IR130CSP, IR130CSPPBF, IR140CSP, IR140CSPPBF, IR1H40CSP, IR1H40CSPPBF IR140CSP IRF6156 AN-1079 IR130CSP IR1H40CSP IRF6100 IRF6100PBF IR140CSPPBF

    Untitled

    Abstract: No abstract text available
    Text: Technical Data Sheet 3536 October-2009 PRODUCT DESCRIPTION 3536™ provides the following product characteristics: Technology Epoxy Appearance Black Components One component Product Benefits • Reworkable • Cures rapidly at low temperatures • Minimizes thermal stress


    Original     		PDF October-2009 CP52/20

    wafer level package

    Abstract: SN63 PB37 PROFILES with or without underfill IRF6100 desoldering
    Text: AN-1011 Wafer Level Package Technology Board Mounting Application Note for 0.800mm pitch devices page Device construction 2 Design considerations 3 Assembly considerations 4 International Rectifier AN-1011 Wafer Level Package Technology Board Mounting Application Note


    Original     		PDF AN-1011 800mm wafer level package SN63 PB37 PROFILES with or without underfill IRF6100 desoldering

    Pb210

    Abstract: flip chip substrate tolerance
    Text: Designing for Cost Effective Flip Chip Technology Application Note DESIGNING FOR COST EFFECTIVE FLIP CHIP TECHNOLOGY Bump and flip approaches to semiconductor packaging have gained acceptance in the industry. For the designer to take full advantage of this technology, attention to bump


    Original     		PDF AN0039 Pb210 flip chip substrate tolerance

    capture and electronic packaging

    Abstract: Flip Chip Substrate tolerance thermal conductivity of substrate chip pads layout dram layout structure Pb210
    Text: Designing for Cost Effective Flip Chip Technology Jack Bogdanski White Electronic Designs Corp. Designing for Cost Effective Flip Chip Technology Designing For Cost Effective Flip Chip Technology Bump and flip approaches to semiconductor packaging have gained acceptance


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    Untitled

    Abstract: No abstract text available
    Text: PRELIMINARY DATA SHEET SKY85606-11: 5 GHz, 802.11ac Switch/Low-Noise Amplifier Front-End VDD Applications • WiFi-enabled handsets, tablets, and mobile systems  System-in-Package SiP modules for embedded systems  802.11n/ac smartphones and tablets


    Original     		PDF SKY85606-11: 11n/ac 15-bump, JEDEC-J-STD-020) 202882B