Solutions without Boundaries. PCB Surface Finishes. Todd Henninger, C.I.D. Sr. Field Applications Engineer Midwest Region



Similar documents
PRINTED CIRCUIT BOARD SURFACE FINISHES - ADVANTAGES AND DISADVANTAGES

SURFACE FINISHES. Technical Webinar DELIVERING QUALITY SINCE 1952.

Specification for Electroless Nickel/ Electroless Palladium/ Immersion Gold (ENEPIG) Plating for Printed Circuit Boards

How to Build a Printed Circuit Board. Advanced Circuits Inc 2004

PRODUCT PROFILE. ELECTROLOY in partnership with FCT Asia Pte Limited. in manufacturing. Nihon Superior Lead Free Solder Bar.

SURFACE FINISHING FOR PRINTED CIRCUIT BOARDS

Effect of PWB Plating on the Microstructure and Reliability of SnAgCu Solder Joints

What is a Surface Finish?

CHAPTER 5. OVERVIEW OF THE MANUFACTURING PROCESS

Good Boards = Results

Printed Circuit Design Tutorial

DRIVING COST OUT OF YOUR DESIGNS THROUGH YOUR PCB FABRICATOR S EYES!

CONSIDERATIONS FOR SELECTING A PRINTED CIRCUIT BOARD SURFACE FINISH

The Study, Measurement, and Prevention of Tarnish on Immersion Silver Board Finishes

Electroless Nickel / Immersion Gold Process Technology for Improved Ductility of Flex and Rigid-Flex Applications

Analysis of BGA Solder Joint Reliability for Selected Solder Alloy and Surface Finish Configurations

Alternatives To HASL: Users Guide For Surface Finishes

Lead Free Wave Soldering

Compliant Terminal Technology Summary Test Report

Review of the Impact of Intermetallic Layers on the Brittleness of Tin-Lead and Lead-Free Solder Joints

Printed Circuits. Danilo Manstretta. microlab.unipv.it/ AA 2012/2013 Lezioni di Tecnologie e Materiali per l Elettronica

Thermal Management Solutions for Printed Circuit Boards used in Digital and RF Power Electronics and LED assemblies

Choosing a Low-Cost Alternative to SAC Alloys for PCB Assembly

COPPER FLEX PRODUCTS

Safety Certification for Lead Free Flexible and Rigid-Flex PCBs

Neutral type Auto-Catalytic Electroless Gold Plating Process Abstract 1. Introduction 2. Experiment and Results

Lead-free Wave Soldering Some Insight on How to Develop a Process that Works

ENIG with Ductile Electroless Nickel for Flex Circuit Applications

, Yong-Min Kwon 1 ) , Ho-Young Son 1 ) , Jeong-Tak Moon 2 ) Byung-Wook Jeong 2 ) , Kyung-In Kang 2 )

Technical Note Recommended Soldering Parameters

Electroplating with Photoresist Masks

Anodes and Misc Equipment

Mounting of Meritec SMT Products Using Lead-Free Solder

Customer Service Note Lead Frame Package User Guidelines

Advanced Technologies and Equipment for 3D-Packaging

Flexible Printed Circuits Design Guide

How do you create a RoHS Compliancy-Lead-free Roadmap?

How to avoid Layout and Assembly got chas with advanced packages

Rogers 3003, 3006, 3010, 3035, 3203, 3206, 3210

Auditing a Printed Circuit Board Fabrication Facility Greg Caswell

Aspocomp, PCBs for Demanding Applications

Wetting Behavior of Pb-free Solder on Immersion Tin Surface Finishes in Different Reflow Atmospheres

Flex Circuit Design and Manufacture.

FLEXIBLE CIRCUITS MANUFACTURING

Introduction to Photolithography Concepts via printed circuit board (PCB) manufacturing. PCB Background Information (courtesy of Wikipedia)

First Published in the ECWC 10 Conference at IPC Printed Circuits Expo, Apex and Designer Summit 2005, Anaheim, Calif., Feb.

Historical production of rigid PCB s

FABRICATION 2011 SERVICES TECHNOLOGIES CAPABILITIES INDUSTRY

Lead-free Defects in Reflow Soldering

AMP INCORPORATED. Technical Report. The Tin Commandments: Guidelines For The Use Of Tin On Connector Contacts

Rigid Printed Circuit Board Requirements

Electronics and Soldering Notes

LEAD FREE HALOGENFREE. Würth Elektronik PCB Design Conference Lothar Weitzel 2007 Seite 1

MMIC packaging. 1. Introduction 2. Data interface. Data submittal methods. Data formats. Single chip & MCM solutions. Contents

Application Note. Soldering Methods and Procedures for 1st and 2nd Generation Power Modules. Overview. Analysis of a Good Solder Joint

Electronic Board Assembly

Lead-Free Soldering and Environmental Compliance: An Overview

DVD-15C Soldering Iron Tip Care

Company Introduction. Welcome to BEST. bestpcbs.com.

A New (Better) Approach to Tin Whisker Mitigation

Introduction to the Plastic Ball Grid Array (PBGA)

Printed Circuit Board - PCB presentation

17 IMPLEMENTATION OF LEAD-FREE SOLDERING TECHNOLOGY. Eva Kotrčová České Vysoké Učení Technické Fakulta Elektrotechnická Katedra Elektrotechnologie

PCB RoHS Update OCT08 ELECTRONICS MANUFACTURING SERVICES

Rework stations: Meeting the challenges of lead-free solders

italtec PRINTED CIRCUITS EQUIPMENT PRINTED CIRCUITS EQUIPMENT Insulator machines Echting machines Special equipment and machines

TAIYO PSR-4000 AUS703

Bob Willis leadfreesoldering.com

Flip Chip Package Qualification of RF-IC Packages

Lead-Free Wave Soldering of High Complexity PWB s

PCB Assembly Guidelines for Intersil Wafer Level Chip Scale Package Devices

Recommended Soldering Techniques for ATC 500 Series Capacitors

Pure Tin - The Finish of Choice for Connectors

Component Candidacy of Second Side Reflow with Lead-Free Solder

Wafer Bumping & Wafer Level Packaging for 300mm Wafer

An Overview of Surface Finishes and Their Role in Printed Circuit Board Solderability and Solder Joint Performance'

Lead-Free Rework Optimization Project

UNIT 4 METAL COATING PROCESSES

Lapping and Polishing Basics

2.3. Continuous Hot-Dip Galvanizing versus General (Batch) Galvanizing Rev 1.0 Jan GalvInfoNote. Introduction. Continuous Galvanizing

Evaluation of Soft Soldering on Aluminium Nitride (AlN) ESTEC Contract No /05/NL/PA. CTB Hybrids WG ESTEC-22nd May 2007

PC/104, PC/104 -Plus, VarPol connectors

Small Form- Factor Pluggable (SFP) DWDM

Dynamic & Proto Circuits Inc. Corporate Presentation

Printed Circuit Board Design, Prototyping, Production. Turning Ideas Into Reality

碧 澄 實 業 公 司 BICHENG ENTERPRISE COMPANY

ALPHA CVP NO-CLEAN, LEAD-FREE SOLDER PASTE ZERO-HALOGEN, LOW VOIDS, FINE FEATURE, EXCELLENT PIN TEST PERFORMANCE, SAC305 AND LOW AG CAPABLE.

Pb-Free Plating for Electronic Components

3835 West Conflans, Irving, Texas Call Us at (972) Fax (972)

Overview of Risk Assessment, Mitigation, and Management Research for Pb-free Electronics

Characterization and Kinetics of the Interfacial Reactions in Solder Joints of Tin-Based Solder Alloys on Copper Substrates

Materials Chemistry and Physics 85 (2004) Meng-Kuang Huang, Pei-Lin Wu, Chiapyng Lee

Lead-free Hand-soldering Ending the Nightmares

Flexible Circuit Simple Design Guide

UL Recognition in the view of a PCB manufacturer

How to Avoid Conductive Anodic Filaments (CAF)

Mounting Instructions for SP4 Power Modules

Lead Free Reliability Testing

Use of Carbon Nanoparticles for the Flexible Circuits Industry

Transcription:

Solutions without Boundaries PCB Surface Finishes Todd Henninger, C.I.D. Sr. Field Applications Engineer Midwest Region 1

Notice Notification of Proprietary Information: This document contains proprietary information of Viasystems and its receipt or possession does not convey any rights to reproduce or disclose its contents, or to manufacture, use, or sell anything it may describe. Reproduction, dissemination, disclosure, or use, in whole or in part, without specific written authorization of Viasystems is strictly forbidden. All data contained within this document are subject to this restriction. 2

Surface Finish Selection All about the connectivity between the PCB and component devices. Primary function is to either temporarily protect the copper area from oxidation prior to assembly or to form the foundation of the connection to the electronic device. Should enhance the assembly process and promote a reliable solder joint for long-term performance. 3

Available Finishes Sn/Pb Hot Air Solder Level (HASL) Lead-Free HASL Organic Solderability Preservative (OSP) Immersion Silver Immersion (White) Tin Electrolytic Nickel/Gold (Hard & Soft Au Wire Bondable) Electroless Nickel Immersion Gold (ENIG) Electroless Nickel Electroless Palladium Immersion Gold (ENEPIG) 4

Micro Units of Measurement Micro-inch (1 µ ) =.000001 (one millionth of a inch) Micro-meter (Micron) (1µm) = one millionth of a meter One Micron (1µm) =.00003937 (39 µin) 25.4 microns =.001 (1 mil) 5

Sn/Pb Hot Air Solder Level (HASL) Most common PCB finish in North America. 63% Tin / 37% Lead ( Eutectic composition) Molten solder applied to exposed pads in horizontal or vertical panel orientation. Excess solder is blown off the circuitry with forced hot air knife. Typical thickness range of.00003 -.0015 (30-1500 µ ). Melts at 183 degrees C. 12+ month shelf life (considered excellent). Issues: Surface Planarity for HDI applications (highly variable topography) Impact of thermal excursion (extreme process temperatures) RoHS/WEEE restrictions and environmental issues with the use of lead. 6

Lead-Free Solder Same application process (HASL) as Sn/Pb Solder. Common alloys: Sn/Ag/Cu (SAC), Sn/Cu/Co, Sn/Cu/Ni/Ge. Slightly more planar (uniform) coating than can be achieved with tin/lead solders. Typical thickness range of.0003 -.001 (300-1000 µ ). Melts at 228 degrees C. Environmentally Friendly (RoHS & WEEE compliant). 12 month shelf life. Issues: Low demand as PCB finish (outsourced when required). Aggressive on copper, depending on the alloy. Relatively new compared to Sn/Pb solder (less history). 7

Organic Solderability Preservative (OSP) Preserves copper surface from oxidation until assembly. Very thin coating (100-4000 Angstroms). Applied in a vertical (dip tank) or conveyorized chemical process. Flat, planar surface, well suited to tight-pitch pads (BGA, QFP). < 6 month shelf life (considered poor). Very manufacturable (no concerns). Issues: Difficult to inspect (transparent and colorless). Sensitive to handling. typically applied as final mfg process. Limited shelf life. Requires relatively aggressive flux at assembly. 8

Immersion Silver Metallic solderability preservative. 8-15 micro-inches of nearly pure silver. Excellent solderability. Flat, planar surface. Aluminum wire bondable. 6-12 month shelf life. Issues: Sensitive to handling, electrical test, and packaging. 9

Immersion Tin Forms a copper/tin intermetallic joint. Provides a dense, uniform coating with superior hole wall lubricity. Top choice for backplane panels assembled by pressfit pin insertion. Engineered to be very fine grain and non-porous. 6 month shelf life. Issues: Sensitive to handling. Environmental issues with Thiourea (carcinogen) used in processing. 10

Electrolytic Ni/Au (Hard/Soft Bondable) Au electroplated in varying thicknesses over a base of electroplated Ni. Au hardness controlled for application (50-90 knoop = soft / 130-200 knoop = hard). Hard Au = 99.6% purity (Type 2, Grade C) Soft Au = 99.9% purity (Type 3, Grade A) 12+ month shelf life. Type Thickness Comments Rectifier Anode Cathode (PWB) Gold Flash 5 15 µinches Full Body Gold 30 60 µinches Selective Gold 30 50 µinches Bondable Gold 30 80 µinches Solderable Trace undercut/skin effect issues Contact switches and gold fingers Wire Bonding (soft Au) 11

Electrolytic Ni/Au Issues/Concerns Gold PCB Substrate Nickel Copper Full-Body Gold Undercut (when bussing isn t possible) aka Gold as Etch Resist 12

Electroless Nickel Immersion Gold (ENIG) Two-layer metallic coating over catalyzed copper (ion exchange). Ni is a diffusion barrier to the Cu and is the surface to which the soldering occurs. Au protects the nickel from oxidation during storage. Au also provides low contact resistance, excellent shelf-life, and good wetting. Flat, planar surface excellent for fine-pitch pads (BGA, QFP). 2-8 µ Au over 120-240 µ Ni. Good Contact Resistance (1 million + cycles). 12 month shelf life. Issues: Electroless nickel/phosphorous can have undesirable magnetic properties. Aluminum wire bondable, but not gold wire. 13

Electroless Ni / Electroless Pd / Immersion Au (ENEPIG) Electroless Ni layer of 120 240 µ deposited on the copper surface. Coated with an electroless palladium layer (4 to 20 µ ) Topped with immersion gold (2 to 8 µ ). Forms a superior solder joint with SAC solders. Palladium layer eliminates corrosion potential from immersion reaction. Creates an ideal gold wire bondable surface. Allows thinner gold than electrolytic soft bondable gold, therefore less expensive. Fastest growing surface finish. 12 month shelf life. Issues: Palladium does not form a strong intermetallic bond with lead in Sn/Pb solders. 14

Surface Finish Characteristics/Cost Type Planarity Solderability Al Wire Bondable Au Wire Bondable Contact Surface Relative Cost Adder * HASL POOR GOOD NO NO NO 1.0 LFHASL FAIR GOOD NO NO NO 1.0 OSP GOOD GOOD NO NO NO 1.0 IMM Ag GOOD GOOD YES NO NO 1.1 IMM Sn GOOD GOOD NO NO NO 1.1 ENIG GOOD GOOD YES NO YES 1.1 ENEPIG GOOD GOOD YES YES YES 2.5 Elec Au GOOD GOOD YES (soft only) YES 3.5 * Finish cost factor only, all other features being equal. 15

Worldwide Usage by Surface Finish by Revenue of Consumable Materials by Area of PCBs Manufactured Tin HASL ENIG HASL Tin ENIG Silver OSP OSP Silver Source: Printed Circuits Handbook, 6 th Edition (Coombs) 2006 16

www.viasystems.com Thank You! 17

2026 © DocPlayer.net Privacy Policy | Terms of Service | Feedback  | Do Not Sell My Personal Information