Global SMT & Packaging June 2010 (#10.6) - European edition

www.globalsmt.net

The Global Assembly Journal for SMT and Advanced Packaging Professionals

Volume 10 Number 6 June 2010

The importance of bond strength measurement Integrated testing, modeling and failure analysis of CSPnl for board level reliability Teaming for improved ruggedized product reliability

ISSN 1474 - 0893

David David Crimp Crimp Interview Interview Inside Inside NEW NEW PRODUCTS PRODUCTS INDUSTRY INDUSTRY NEWS NEWS INTERNATIONAL INTERNATIONAL DIARY DIARY

Contents

Volume 10, No. 6 June 2010

Global SMT & Packaging is distributed by controlled circulation to qualified personnel. For all others, subscriptions are available at a cost of £181.50 for the current volume (twelve issues). No part of this publication may be reproduced, stored in a retrieval system, transmitted in any form or by any means electronic, mechanical, photocopying, recording or otherwise without prior written consent of the publisher. No responsibility is accepted for the accuracy of information contained in the text, illustrations or advertisements. The opinions expressed in the articles are not necessarily those of the editors or publisher. ISSN No. 1474-0893 © Trafalgar Publications Ltd Designed and Published by Trafalgar Publications Ltd, Bournemouth, United Kingdom Printed by Ovid Bell, Fulton, MO, USA.

Contents 2

European edition

12

LEDs offer a bright future Trevor Galbraith

Technology Focus

12 The importance of bond strength measurement Bob Sykes, XYZTEC 16 Integrated testing, modeling and failure analysis of CSPnl for board level reliability Rex Anderson, Tong Yan Tee, Long Bin Tan et al, Amkor Technology, Inc. 30 What is AOI Resolution? Igor Sosman and Adam Shaw, ORPRO Vision 36 Teaming for improved ruggedized product reliability Dennis Gradler, Kimball Electronics Group

30

Special Features

40 44 46 52 54

Show report: NEPCON lights shine brightly SMT Answers Case Study: High quality manufacturing need not mean high production costs Interview—David Crimp, Cookson Electronic Materials 2010 SMT/HYBRID/PACKAGING Technology Preview

52 regular columns

4

Basic printed board repair and rework for copper tracks and pads, part 2 Bob Willis

24 Healthy recovery, but keep watching over your shoulder! Walt Custer and Jon Custer-Topai Other Regular Features

6 40 60 61 62

Industry News New Products Association News IMAPS Europe International Diary

Shear testing of BGA solder bumps—page 12.

www.globalsmt.net

Global SMT & Packaging – Celebrating 10 Years – June 2010 – 1

Editorial

Trevor Galbraith

Editorial Offices Europe Global SMT & Packaging Trafalgar Publications Ltd 8 Talbot Hill Road Bournemouth Dorset BH9 2JT United Kingdom Tel: +44 (1202) 388997 E-mail: news@globalsmt.net Website: www.globalsmt.net United States Global SMT & Packaging PO Box 7579 Naples, FL 34102 USA Tel: (866) 948-5554 Fax: (239) 236-4682 E-mail: news@globalsmt.net China Global SMT & Packaging Electronics Second Research Institute No.159, Hepin South Road Taiyuan City, PO Box 115, Shanxi, Province 030024, China Tel: +86 (351) 652 3813 Fax: +86 (351) 652 0409 Editor-in-Chief Trevor Galbraith Tel: +44 (0)20 8123 6704 (Europe) Tel: +1 (239) 784-7208 (US) E-mail: editor@globalsmt.net Managing Editor Heather Lackey Tel: +1 (866) 948-7778 E-mail: hglackey@globalsmt.net

Circulation & Subscriptions Kelly Grimm Tel: +1 (866) 948-7779 E-mail: subscriptions@globalsmt.net

Advertising

Global SMT & Packaging offers effective print, web, email and video advertising opportunities. Contact your local sales rep today. Americas—Derek Laborie (print & video) Tel: +1 (866) 948-5557 Mobile: +1 (603) 661-5828 dlaborie@globalsmt.net Sandy Daneau (digital) Tel: +1 (866) 948-7775 Cell: +1 (603)-686-3920 sdaneau@globalsmt.net Europe—Andy Kellard Tel: +44 7766 951665 akellard@globalsmt.net Asia/Pacific— Debasish P. Choudhury Tel: +91 120 6453260 dchoudhury@globalsmtindia.in Korea— Sang Hun Oh Tel: +82 -(0)10-6833 9597 sanghunoh@globalsmt.net Asia— Carol Chen tancarole@yahoo.com.tw

Editor-in-Chief

LEDs offer a bright future Have you ever been in a situation where you were distantly aware of something happening in the background, but you didn’t pay much attention to it, then suddenly, something happens and it’s as if somebody switched a light on? In my case, it happened on a recent visit to China, and the light that was switched on was an LED. We had all heard about the growing applications of LEDs for lighting, LED screens on TV and the ever-growing signage and display industries. The scale of this growth however, is mind blowing—LEDs are going to completely replace incandescent lighting within as little as the next three to five years, globally! In part, this is being driven by legislation. China, for example, has mandated that all incandescent lighting is replaced with LEDs by 2012. LEDs consume much less energy, generate less heat and give a brighter, clearer luminescence. In an energy conscious world, they are manna from heaven. So who benefits from this revolution? The answer is virtually everyone in the SMT supply chain. LED manufacturing uses all stages in the SMT process; however, there is a strong requirement for systems that handle large board sizes. Even cleaning is required for many of the outdoor applications that need to be conformal coated to prevent dendrite growth and other soils that could degrade the performance of the LED. There are also some new entrants in the form of test companies that measure the luminance and many other characteristics of the LED assemblies before sorting them into bin codes. Comparing the LED market to other new markets for SMT suppliers, such as solar, the LED business is principally market driven, whereas the PV market is mostly government policy driven. Unlike the PV industry, however, the LED market opens up a lot of opportunities for contract electronics manufacturers. The cost of en-

2 – Global SMT & Packaging – Celebrating 10 Years – June 2010

try into PV has dissuaded all but the very biggest CEMs to venture into cell production and module assembly. Fragile recovery Rounding out this month’s editorial, there seems to be some gray clouds gathering over the financial problems in Europe, threatening the fragile global recovery. So far there are no signs of it affecting the current boom in electronics manufacturing in the emerging countries and to a lesser extent in the United States. However, one amusing comment I heard this week came from the outgoing Treasury Minister in the United Kingdom. On his empty desk he left this message for his incoming successor, “I’m afraid to tell you there is no money. Kind regards and good luck!” This is a phrase that many of us have heard too often over the past 18 months.

—Trevor Galbraith.

www.globalsmt.net

Henkel – Materials Partner of Choice for the Electronics Industry No matter where you are or what your process requires, you can count on Henkel’s expertise. Our unmatched portfolio of advanced materials for the semiconductor and assembly markets, all backed by the innovation, knowledge and support of Henkel’s world-class global team, ensures your success and guarantees a low-risk partnership proposition.

Title

Basic printed board repair and rework for copper tracks and pads, part 2

Bob Willis

Basic printed board repair and rework for copper tracks and pads, part 2 Last month we covered the process of parallel gap welding, materials, specifications, the repair sequence and quality and inspection. Here we finish up with step-by-step instructions for three methods of repairing and replacing copper pads. Repair and replacement of copper pads on surface mount boards.

Method 1 1. To repair a damaged and lifted pad, the pad should be completely removed from the PCB. If the pad is connected to a copper track, this should first of all be cut close to the pad with a scalpel. Be careful to only cut through the copper and not through into the laminate. 2. Clean and roughen the base laminate using a fibreglass brush. This prepares the surface for pad replacement and helps to provide better adhesion. 3. Choose the required size of pad and carefully remove the repair mount. The selection of pad size is best achieved by laying the foil sheet over the repair site to gauge the size. If the new pad is to be connected to a surface track, ensure that the new pad has enough copper track left when removing from the frame to ensure a minimum of 3mm overlap with the existing track on the base laminate. The pads on the repair mount are produced on a 0.020-0.050” pitch; therefore if two adjacent pads on an SOIC (small outline integrated circuit) or PLCC (plastic leaded chip

carrier) are damaged, it will be better to leave them connected together until they are bonded onto the laminate. 4. Using a fibreglass brush, clean one side of the replacement pad and track; this will give a good ‘key’ for the adhesive. This step may be conducted prior to removal from the repair frame. If the pad is not to be connected to a surface track, proceed to step 10(a). 5. Apply a thin film of liquid flux to the newly cleaned track and lightly tin the surface, ensuring that solder does not flow on to the pad. Tinning is best achieved with a fine-tipped soldering iron using a small gauge solder wire. The tinning operation should also be carried out to the track on the base laminate. 6. Using solvent, clean excess flux from both surfaces. 7. Apply a fresh coating of flux to the track on the laminate. 8. Using tweezers, place the replacement pads/track into position and carefully solder the two tracks together. 9. Clean to remove excess flux. 10. Apply a thin film of epoxy resin to the underside of the new pad and carefully push flat to the laminate. Apply a small piece of self adhesive polyimide tape to ensure that the pad does not lift. The pad should be ‘ironed’ flat through the tape using the burnishing tool. Proceed to step 11. a. This stage is only applicable to isolated pads which are not connected to a surface track. b. Take a piece of polyimide tape and

4 – Global SMT & Packaging – Celebrating 10 Years – June 2010

place the new pad onto the tape ensuring that the cleaned surface is facing away from the tape. Apply a thin film of adhesive to the copper pad and carefully place the tape onto the laminate ensuring that the pad is correctly aligned. The pad should be ‘ironed’ flat using the burnishing tool. Polyimide adhesive tape is preferred because it is very thin, leaves no residue and is translucent; therefore it is easy to check the alignment of the pad through the tape. It is sometimes helpful to mask adjacent pads using the tape to ensure the minimum spread of adhesive. 10. Allow adhesive to cure, preferably at 60˚C for one hour. 11. Allow PCB to cool and carefully remove the tape. 12. Carefully clean excess adhesive from around the pad using the fibreglass brush. If any dull patches are visible on the pad after cleaning this shows a presence of adhesive remaining on the pad, therefore the pad should be re-cleaned to achieve a bright uniform finish. 13. Clean using solvent. 14. Resolder component to the new pad. If a component is not to be immediately soldered to the pad the copper should be protected from oxidising by a thin film of liquid flux. Method 2 If the damage is to a multilayer board,

www.globalsmt.net

SI NC

E 20 0 3

O

S• IC

• CO

LE ON E CTRO N KS

It’s true. If placed end to end, the over 400,000,000 hand-helds made with ALPHA® solder paste in 2009 would reach around the world at the equator – 24,900 O GE miles. We went the distance with hand-held assemblers to NS NS OLUTIO meet their critical demands for device performance and reliability, especially drop shock resistance. They asked us for: • Pb-free with zero halogen content • High throughput with low print cycle time • High resistance to head-in-pillow defects • Maximum first pass print yield, even with fine features • Worldwide applications expertise and process support • Global product consistency and performance AL

®

Over 400,000,000 hand-helds made with ALPHA® solder paste in 2009 would reach around the world. Z ER O H

alpha solder paste

Title

TM

ALPHA® solder paste consistently met their needs in 2009. Challenge us to meet yours in 2010. For more information go to www.alphasolderpaste.com.

Visit us at SMT Nuremburg, Hall 9 – Stand 624

Worldwide/Americas Headquarters • 109 Corporate Boulevard • South Plainfield, NJ 07080 • USA • +1-800-367-5460 • www.alpha.cooksonelectronics.com European Headquarters • Forsyth Road • Sheerwater • Woking GU215RZ • United Kingdom • +44-1483-758-400 Asia-Pacific Headquarters • 1/F, Block A • 21 Tung Yuen Street • Yau Tong Bay • Kowloon, Hong Kong • +852-3190-3100 © 2010 Cookson Electronics

www.globalsmt.net

Global SMT & Packaging – Celebrating 10 Years – June 2010 – 5

Basic printed board repair and rework for copper tracks and pads, part 2

PCB eyelets cannot be used to achieve a satisfactory repair—see Repair Method 4 for this type of board. 1. To repair a damaged and lifted pad, the pad should be completely removed from the PCB. If the pad is connected to a copper track this should first of all be cut close to the pad with a scalpel. Be careful to only cut through the copper and not through into the laminate. 2. Clean and roughen the base laminate using a fibreglass brush. 3. Choose the required size of pad and carefully remove from the repair mount. Note: ensure that the new pad has enough copper track left when removing from the frame to ensure a minimum of 3 mm overlap with the existing track on the base laminate. 4. Choose the required size of eyelet to suit the hole in the board, bearing in mind that the hole diameter will be reduced by the wall thickness of the eyelet, therefore it may be necessary to open out the hole to suit. It may also be necessary to open the hole out in the replacement pad. If so the pad should be placed onto a scrap piece of material and held in place with polyimide tape. The hole can then be opened out to the correct size using a high speed drill, (the tape will hold the pad in position during the drilling operation). 5. If the eyelet has the same diameter as the copper pad there is no need to reinforce the pad with adhesive; the eyelet will hold the pad in position. Proceed to Repair Method 3. 6. If the pad is larger than the eyelet, or if the customer specification requires it, a film of epoxy resin will need to be applied to the underside of the pad before placing it into position. 7. Using the fibreglass brush, clean one side of the replacement pad and track. Also clean the bare laminate; this will give a good “key” for the adhesive. 8. Apply a thin film of liquid flux to the newly cleaned track and lightly tin the surface, ensuring that solder does not flow onto the pad. The tinning operation should also be carried out to the track on the base laminate. 9. Using solvent, clean excess flux from both surfaces. 10. Apply a fresh coating of flux to the track on the laminate. 11. Using tweezers, the pad should be placed into position over the damaged area—the hole in the pad can be

aligned with the hole in PCB by using a pointed, non solderable probe and the track soldered into position. Note: it is important to ensure that the minimum amount of solder is used for this purpose. 12. Clean off all traces of flux and carefully apply a thin film of epoxy resin to the underside of the pad. Press the pad down onto the PCB and, ensuring that no adhesive gets into the hole, place a small piece of polyimide tape over the pad to hold it in position. The pad should be ‘ironed’ flat through the tape using the burnishing tool. 13. Allow adhesive to cure, preferably at 60˚C for one hour. 14. Allow PCB to cool and carefully remove the tape. 15. Carefully clean excess adhesive from around the pad using the fibreglass brush. Note: if any dull patches are visible on the pad after cleaning, this shows a presence of adhesive remaining on the pad. The pad should be recleaned to achieve a bright uniform finish. 16. Choose the correct size eyelet and carefully place into the hole through the new pad. The eyelet can then be mechanically secured using the correct setting tools for the particular eyelet. 17. Finally, apply a thin film of liquid flux around the connections and carefully solder both sides of the eyelet to give a good electrical connection. 18. Clean using solvent. Method 3 Replacement of small pads without adhesive

6. Finally carefully solder both sides of the eyelet to give a good electrical connection. Also, if necessary, resolder the replacement track to give a good connection. 7. Clean using solvent. Repair of damaged pads on multilayer PCBs The problem with multilayer PCBs is that if the pads are damaged it is important to achieve a satisfactory electrical connection to the plated through hole—which may have been damaged along with the copper pad. It is not possible to use an eyelet to repair a multilayer board because of the problem of connecting to any inner layers in the inside wall of the PTH. The pad itself can be repaired as per Method 2, but the PTH must be repaired by a plating process_details of this equipment can be supplied if required. Correct rework and repair of assembled boards will eliminate rework to the level discussed here. A number of rework video tapes and interactive CD-ROMs have been produced by the author and are available at www.bobwillis.co.uk.

Bob Willis is a process engineer providing engineering support in conventional and surface mount assembly processes.He runs production lines for suppliers at exhibitions and also provides seminar and workshops world wide. Bob will be presenting Master Classes at SMT Nurenberg in Germany for those engineers visiting the show. For further information on how Bob may be able to support your staff contact him via his web site, bobwillis.co.uk

1. Apply a thin film of liquid flux to the newly cleaned track and lightly tin the surface. The tinning operation should also be carried out to the track on the base laminate. 2. Using solvent, clean excess flux from both surfaces. 3. Apply a fresh coating of flux to the track on the laminate. 4. Using tweezers, place the replacement pad/track into position, choose the correct size eyelet and place it through the pad and into the hole in the PCB. ‘Tack’ solder the two pads together, ensuring that the solder does not run back around the eyelet. 5. Choose the correct size eyelet and carefully place into the hold through the new pad. The eyelet can then be mechanically secured using the correct setting tools for the particular eyelet.

6 – Global SMT & Packaging – Celebrating 10 Years – June 2010

www.globalsmt.net

Title

SM T PAC /HYB R sta KAGIN ID nd 7-3 G 33

www.globalsmt.net

Global SMT & Packaging – Celebrating 10 Years – June 2010 – 7

Title Industry News

Industry News New order bookings for SMT equipment continue to rise worldwide SIPLACE Marke tIntelligence Stephanie Pepersack.jpg According to the latest market analyses conducted by Siemens Electronics Assembly GmbH & Co. KG (SEAS), electronics manufacturers are heavily investing in SMT equipment again. The main growth engines continue to be plants in China and the rest of Asia, but orders from Europe are also on the rise for SIPLACE and other equipment suppliers. In the first five months of its current fiscal year from October 2009 through February 2010, the SIPLACE team recorded as many orders as during the entire twelve months of 2008/2009. The order bookings for SMT equipment prove that the economic recovery is picking up speed. For the period from October through February, global new order bookings more than tripled compared to the same period last year. China played the dominating role, but since the middle of 2009 order bookings from Europe have begun to recover as well (posting a plus of 30 percent from January to February alone). www.siplace.com GaN power management chip market set for boom Thanks to rapid growth in the high-end server, notebook, mobile handset and wired communication segments, the gallium nitride (GaN) power management semiconductor market is expected to reach $183.6 million in revenue in 2013, up from virtually nil in 2010, according to iSuppli Corp. GaN is an emerging process technology for power management chips that recently moved beyond the university-based testing phase and into the commercialization stage. The technology represents an attractive market opportunity for suppliers by providing their customers with capabilities that may be out of the reach of present semiconductor process materials. The adoption of GaN devices will be driven by the improved efficiency and small form factors enabled by the material. www.isuppli.com New regional sales manager Northern Europe/key account manager for Juki Mr. Milan Zourek has joined the JUKI Automation Systems Europe team as regional sales manager Europe North/key account manager. Mr. Zourek is experienced in the sales process of SMD pick & place machines as well as in the general electronic market. He has worked for Panasonic and Hitachi. www.jas-smt.com

Digi-Key offers ‘wealth of information’ with Tyco Electronics Supplier Marketing Center Electronic components distributor Digi-Key Corporation provides direct access to more than 28,750 3-D models and more than 60,000 datasheets for Tyco Electronics (TE) products from Digi-Key’s Supplier Marketing Center (SMC) designed for Tyco Electronics, www.digikey.com/ tycoelectronics. Digi-Key’s Tyco Electronics SMC also provides 18 PTM Online... On Demand® product training modules, exclusive to Digi-Key, for various TE products with new PTMs to be added in the future. www.digikey.com, www.tycoelectronics.com Manufacturing Technology Centre chooses Europlacer iineo Blakell Europlacer Ltd.’s award-winning iineo machine has been chosen for a worldclass Manufacturing Technology Centre being built in Coventry. The company took part in an open tender for the supply of two surface mount machines, with some very stringent requirements, such as 01005 placement capability, device size of up to 35 mm in height and a weight of 80 grams, PCB dimension of up to 700 mm x 600 mm and intelligent feeder capacity in excess of 200 x 8 mm per machine. The Centre is a collaborative partnership including global manufacturers, Universities and research and technology organisations. www.europlacer.com

8 – Global SMT & Packaging – Celebrating 10 Years – June 2010

ZOT expands with new MYDATA machine For ZOT Engineering, a supplier of advanced manufacturing solutions to the UK electronics industry, a new MYDATA MY100SX14 pick-and-place machine has extended the company’s PCB assembly facilities to cover virtually every type of component currently available, including the latest tiny 01005 devices. The new machine complements the company’s existing MYDATA TP11 pick-and-place machine, which is still delivering excellent results after fifteen years of use. www.mydata.com CyberOptics wins Best Emerging Exhibit of the Year 2010 CyberOptics Corporation has been awarded the Best Emerging Exhibit of the Year 2010 China East by SMTA China for its QX500™ AOI system. The QX500™ combines a unique image acquisition solution to provide highest-speed inspection at 100cm²/sec. The introduction of SIM modules in QX500™ offers “on-the-fly” AOI inspection combined together with CyberOptics’ patented image processing technique, SAM. This dual advantage undoubtedly sets it apart from the conventional inspection methods. www.cyberoptics.com Kyzen’s Phil Zhang receives Best Presentation Award from SMTA China Kyzen’s Phil Zhang has been awarded Best Presentation of Vendor Conference One (CE10) at the SMTA China East 2010 Award Presentation Ceremony for the presentation titled “Flux Residue and Its Impact on Reliability.” Published research documents the importance of cleaning when populating the circuit board with low clearance

www.globalsmt.net

Title

Meet us at

SMT/HYBRID PACKAGING 2010

Messezentrum NUREMBERG

June 8 - 10

Surface Mount Technology

SmartTech, booth 7-219

AOI solutions to reduce defective PCBAs LIVE DEMO Stand Production line «Future Packaging», BOOTH 6-430

automotive

consumer computer telecom Innovative by Synapse

3DSPI

Fast and Compact

Large board

5K

SERIES

Dual-lane

7KDL SERIES

CREATING VALUE www.vitechnology.com www.globalsmt.net

Global SMT & Packaging – Celebrating 10 Years – June 2010 – 9

Industry News

components and highly active leadfree solder fluxes. The purpose of this presentation was to help engineers identify the sources of residue and impact on reliability. www.kyzen.com ZESTRON Europe promotes Sandra Pilz to product manager ZESTRON recently promoted Ms. Sandra Pilz to product manager at ZESTRON Europe, Germany. Ms. Pilz is responsible for ZESTRON’s product management and organization, focusing mainly on stencil & maintenance cleaning applications as well as the semiconductor backend and photovoltaic industries. Furthermore, she supports part of ZESTRON’s official distributor base and manages press activities and trade shows in the European market. www.zestron.com Nordson YESTECH wins fourth Service Excellence award Nordson YESTECH, a subsidiary of Nordson Corporation, has for the fourth time, been awarded the coveted Service Excellence Award for 2010 from Circuits Assembly Magazine, which was announced at the 2010 APEX Expo in Las Vegas, Nevada. Nordson YESTECH was once again acknowledged for its outstanding customer service achievements in the field of Test and Inspection Equipment. www.nordsonyestech.com Etek Europe appoint new operations manager Following the continued expansion of Etek Europe Ltd, the company has just appointed Valerie Anderson as operations manager. Valerie has 20 years proven experience of financial management within the commercial aviation industry, having worked at a senior level within BAE SYSTEMS (Operations) Ltd in the position of finance manager. Valerie will be based in the new Etek Ayr Office and can be contacted on: Cell / Mobile +44 (0)7774 687 413 Email: vanderson@etekeurope.com. www.etek-europe.com Paragon Electronics Group appoints new group director of purchasing for European-wide role The Paragon Electronics Group has appointed Murray Dilks as group director of purchasing. Murray will be responsible for procurement across the group with specific focus on consolidation of spend

across the sites and driving tangible improvements and efficiencies in the supply chain. www.paragon-electronics-group.com JJS Electronics strengthens its European business development team JJS Electronics s.r.o. appointed Ian Bird as European business development manager, a role which will see him use his extensive experience in B2B sales to support the growth of the company in Germany, the Czech Republic, Slovakia and Austria. www.jjselectronics.com Start-up of IPTE Factory Automation NV (FA) The sale of the automation division of IPTE NV to founding members Huub Baren, Sr, and Vladimir Dobosch has been completed. The new company will operate under the name of IPTE Factory Automation (FA) NV. The headquarters of IPTE FA will be the city of Genk in Belgium. At present IPTE FA employs 450 members of staff. At the German site in Heroldsberg near Nuremberg, there are some 100 members of staff on the job. www.ipte.com Join the Defence and Aerospace Technology Roadshow In September, the Defence and Aerospace Technology Roadshow, supported by Aerospace Manufacturing, once more takes to the road visiting the major sites of some of the largest organisations in the Industry. Airbus, Thales, Selex, BAE Systems, Goodrich, Rolls-Royce and many others are on the proposed schedule for this annual tour which now enters its third year. Electronics companies can meet with the design and development teams directly on their premises on board a unique exhibition vehicle enabling them to demonstrate and showcase their product to the engineers who often don’t get along to the more traditional trade shows. A maximum of 24 spaces are available on a first come basis and if you are interested in taking part you should contact organiser John Aldridge on 0118 988 6823, email him at john@dream-marketing.co.uk or visit www.dream-marketing.co.uk Rohde & Schwarz sets up new SMT production unit in Vimperk RohdeSchwarz.jpg Rohde & Schwarz Závod Vimperk expanded their production facilities with a completely new SMT line that includes five JUKI assemblers (four KE-2070 high-speed

10 – Global SMT & Packaging – Celebrating 10 Years – June 2010

chip shooters, one KE-2080 high-speed flexible mounter, one TR6 matrix tray changer and the intelligent feeder setup system “Batch Traceability“) plus a printer, a cleaning unit, an oven, an AOI system as well as a fully automatic warehousing system. With the installation of this new SMT production line Rohde & Schwarz can realise the complete process chain of complex “high mix/low volume” projects in Vimperk. www.jas-smt.com, www.rohde-schwarz.com Assembléon wins three top pick & place awards; MC-24X named best product of 2010 Royal Philips Electronics subsidiary Assembléon has won three major pick & place awards for 2010. Besides collecting Circuits Assembly’s Service Excellence Award for the seventh year running and the tenth since 2000, Assembléon has picked up two awards for its MC-24X modular placement machine, introduced as the most versatile, space-efficient machine on the market—the SMT’s VISION pick & place award and Circuits Assembly’s New Product Introduction award. www.assembleon.com LPKF receives the 2010 Hermes Award Laser beams turn simple plastic parts into sophisticated electronics components: this idea earned LPKF Laser & Electronics AG the prestigious Hermes Award. The idea is impressive: add PCB tracks to existing plastic parts and they take on additional electronic functions. The nomination was based on a package including the method and the laser system. The new systems, available since the summer of 2009, allowed the production capacity in its current main application field of cell phone antennas to be increased from 20 million in 2009 to 100 million for 2010. www.lpkf.de

www.globalsmt.net

SM T PAC /HYB R sta KAGIN ID nd 7-4 G 30

The importance of bond strength measurement

The importance of bond strength measurement Bob Sykes, XYZTEC, Panningen, The Netherlands Electrical and thermal bonds are such an integral part of electronic and semiconductor construction that they may often be taken for granted. Modern electronic assembly methods employ a myriad of bonding processes, each one a vital step in the manufacture of the final product. A typical consumer product such as a laptop computer may contain hundreds of thousands of bonds, yet if one fails it will probably result in a system breakdown. Keywords: Bond Testing, Quality Assurance, Force Displacement Measurement, Bond Strength Modeling, High Impact Testing

Introduction Bond strength measurement is far from the highest profile portion of the electronic and semiconductor industries but it has matured with it, in some cases unnoticed. This doesn’t alter the fact that a precise knowledge of bond strength quality measurement during product design and subsequent manufacture is directly related to product success, customer satisfaction and profitability. To serve this need, a modern bond test system must be capable of accurately testing bond wires, solder bumps, dies, leads, chips and lids, as well as other applications with strengths varying from a few grams of force to as much as hundreds of kilograms of force. Investigating the roots of bond testing, outlining what is required to perform a good bond test and what a modern bond tester should be capable of performing is essential in defining an accurate bond testing protocol. Getting back to basics, why measure bond strength in the first place? Bonds fail

either in production or end use, and these failures can be caused by their geometry, material or processing factors. These factors greatly affect and ultimately define the quality and integrity of the bond. Measuring bond strength is then a useful tool during the design process and for quality control to minimize product variability, ensure manufacturing yield and increase end product reliability. Bond testing has been around for so long you might not have thought what it is really for and how it should be done? The basic types of bond testing include pull and shear which are applied to either the destruction of the bond or to some force below this value in the form of a nondestructive test. A push test is sometimes used but this is closely related to the pull test. Non-destructive tests are normally used when extreme reliability is required such as in military or aerospace applications. In these cases, every bond is tested to ensure the utmost quality level making this routine relatively time consuming and

Figure 1. Shear testing of gold ball bonds within a semiconductor device.

12 – Global SMT & Packaging – Celebrating 10 Years – June 2010

www.globalsmt.net

The importance of bond strength measurement

Figure 2. Impact measurement unit testing chip capacitor mounted on printed circuit board.

costly. More commonly bonds are tested to destruction on a batch-sampling basis with the peak force and failure mode being recorded for statistical analysis. This is indeed a good starting point but requires examination in more detail. The best place to start is with the failure mode. This is based on the assumption that there is a particular failure mode, or range of modes, that may occur within a product. It is therefore reasonable to assume that the bond test should replicate the mode, or modes of interest. However, exact replication is not always possible. The test load must be applied to some part of the sample and transferred through the sample to the bond. If this part of the sample is the only option and is weaker than the bond itself, the sample will fail before the bond. Shear testing A good example of this is shear testing of a gold ball bond and wire bonds within a semiconductor device (Figure 1). A good gold ball bond will be stronger than the ball so the failure mode of a strong bond will be gold ball shear. It is not uncommon for production engineers to use this failure mode alone as an indication of bond strength but it does represent a limit to the capability of the test. A better test would produce a bond failure and record a higher force that corresponds with the bond strength. One of the prime objectives of a bond test designer is to try to produce the failure mode of interest. As mentioned, peak force is by far

www.globalsmt.net

the most common metric for measuring bond strength. This is very often all that is needed but a force-displacement graph conveys a lot more information. Traditionally force time was recorded because this is relatively easy to obtain but it is far less interesting. If the test is done at constant speed the difference between a force-time and force-displacement graph is only one of scale on the X-axis typically denoting time or displacement. However, when testing with small bond deflections, high forces or at moderate test speeds maintaining a constant test velocity can be extremely difficult. In these cases a velocitytime graph may lead to a misinterpretation of the test results. Using displacement one can visualize the force increasing and falling as the bond yields relate directly to the geometry of the sample. In addition the area of the force-displacement graph equals the energy absorbed by the bond, which in itself is an alternative bond strength metric that is particularly valuable when testing resistance to mechanical shock. As previously mentioned, obtaining an accurate force-displacement graph can be challenging. In rigid bonds such as a die attach the deformation of the bond to failure is extremely small and typically less that the deformation that occurs in a well-designed test machine performing the test. The best way to overcome this is to use an external displacement sensor that directly measures the deflection of the tool applying the load to a datum point on the sample synchronously with the force measurement. Such a

system typically requires nanometer resolution. The good news is that peak force is often all that is needed for this type of test and this is not affected by the types of errors that are typically seen in a displacement measurement. Another use of the force-displacement graph is in bond strength modeling. This is of growing interest driven by the possibility that the strength and reliability of a bond may be virtually guaranteed during the design process. Given the massive range of geometries, materials and processes used this is no small undertaking. However, particular designs can be modeled and the model qualified by a bond test. The assumption being that if the model successfully predicts the failure mode and forcedisplacement of a given bond test, there is a very good chance it will also make an accurate prediction modeling of a real-life loading condition. We should be aware that no bond test exactly replicates the real thing. For example when a chip capacitor bond breaks it is not because a shear tool has subjected it to a load (Figure 2). Like any experiment the act of the measurement process can potentially change the measurement. Bond testing is typically a strength analog or comparator but nonetheless is an essential control tool in assuring product quality in electronic assemblies. Solder bump testing For many years, solder bumps have been sheared at speeds of less than 1 mm/second. It has been found that testing at these speeds almost always produces failures in the bulk solder but manufacturing and end use failures occur in the bond interface. Recent developments have shown that testing at speeds in the range of hundreds or thousands of millimeters per second more often produce the ‘failure mode of interest’ at the bond interface which is therefore much more meaningful (Figure 3). Holding the sample is of equal importance. In many bond test applications, sub-micron precision is required while in other cases forces of up to hundreds of kilograms of force are often a requirement. High force applications of up to 500 kilograms (Kgf) means that great attention be applied to this detail together with the contribution of a skilled or knowledgeable technician as one of the keys to ensure quality results. Standard fixtures are often used but this sometimes requires modification or custom tooling has to be designed to hold the sample. Clamping is normally required to fully support the sample when it is subjected to the test load but in such

Global SMT & Packaging – Celebrating 10 Years – June 2010 – 13

The importance of bond strength measurement

Figure 3. Shear testing of BGA solder bumps.

a fashion that the bond is not stressed and negligible sample deflection occurs.

tions using multiple layers of silicon is driving a corresponding increase in this type of test. It also has relevance when a layer Die pull applications or die is very thin and the stress concentraDie pull, also referred to as stud pull, has tion on the side of the sample exceeds its been used for many years as an alternative yield stress in a shear test. In these cases loading condition to the more frequently the stud pull test distributes the load over used shear test. It is generally a more difthe larger top surface. ficult test since a stud has to be glued to Ease of use is another fundamental rethe die which can then be pulled to test quirement of any bond testing system. Any the bond (Figure 4). The strength of the complex measurement system potentially adhesive bond between the die and the runs the risk of producing errors due to opstud will limit the maximum load that can erator misunderstandings and or fatigue. be applied to the bond. Adhesive strengths Ease of use also directly affects throughput of around 20 to 30 megapascal (MPa) are and cost of ownership. The most common possible and current research is trying to interface with the operator or engineer is increase this limit to 45 MPa. The increase that the software must be straightforward, in stacked die and wafer-to-wafer applicaintuitive and yet comprehensive and flexible for the very wide range of bond testing applications it must serve. Hardware is also important, starting with the loading of a sample through to continuous and easy testing. Controls and optics, usually a stereo zoom microscope, must be conveniently and ergonomically placed. A final ingredient in a bond tester is flexibility. There Figure 4. High force bond tester performing die pull or stud pull test.

14 – Global SMT & Packaging – Celebrating 10 Years – June 2010

are many differing demands made upon a modern bond testing system. To serve this range of applications the machine must be flexible for the wide variety of tests and samples. Some requirements are narrow and so the system must be configurable to a cost effective solution. Other requirements can be varied and so the same configurability can be used to enable on-site changeover for a wide variety of applications. To achieve this, a range of various frame sizes are needed that have an open layout with accurate and long travel axes coupled to an easy way of changing between test sensors. In effect, a multifunctional bond tester equipped with automatic selection of pull, shear and impact tools and interchangeable revolving measurement unit and impact measurement unit sensors has a high degree of versatility and is capable of bond testing a wide variety of semiconductor and printed circuit board assembly applications. Conclusion The subject of bond testing is far ranging and varied but the value that it contributes to ensuring product quality cannot be overlooked. Precise force displacement measurement using a modern bond tester allows bond strength modeling that can successfully predict the various failure modes and can be used as an accurate prediction model of real life loading conditions.

Bob Sykes is Chief Technical Officer for XYZTEC BV located in Panningen, The Netherlands. In his role he has gained worldwide recognition as an expert in the field of the development and design of bond testing equipment and has improved bond test methodology and solder joint integrity throughout the semiconductor and electronics assembly industries. He may be contacted at bob.sykes@xyztec.com.

www.globalsmt.net

Title

www.globalsmt.net

Global SMT & Packaging – Celebrating 10 Years – June 2010 – 15

Integrated testing, modeling and failure analysis of CSPnl for board level reliability

Integrated testing, modeling nl and failure analysis of CSP for board level reliability

Rex Anderson, Tong Yan Tee, Long Bin Tan et al, Amkor Technology, Inc., Chandler, Arizona, USA The wafer level chip scale package (WLCSP) is gaining popularity for its performance and for its ability to meet miniaturization requirements of certain electronic products, especially handheld devices like cell phones. Through an aggressive product development program which includes experiment and simulation, Amkor has developed the next level of WLCSP (CSPnl™), a product which exhibits superior board level reliability when subjected to drop impact, a strong requirement for portable electronics. This paper will focus on the reliability characterization of CSPnl drop test performance, with board design recommendations to eliminate board trace failures which could reduce the component’s actual drop test life by five to nine times. The paper demonstrates that CSPnl can exhibit two distinct failure modes under two different test board designs, resulting in a vast difference in drop test lifetimes. Integrated testing, modeling and failure analysis is performed to understand the failure mechanism of both cases. Keywords: WLCSP, Board Level Reliability, Drop Test This paper was original presented at IWLPC 2008 in San Jose, California.

Introduction modeling, material characterization and WLCSP with various design failure analysis is performed to design configurations1-2 is fast becoming a new CSPnl products to exceed customer common package for high performance requirements for different applications. applications. Due to innovative Figure 1 shows a typical bump and stack-up production processes utilized in WLCSP structure for CSPnl. manufacturing and the accompanying rise in the price of gold, the traditional Board level drop testing of CSPnl wire-bond package is no longer as attractive The reliability performance of IC packages as it used to be. In addition, WLCSP during drop impact has become a great provides the smallest form factor to satisfy concern, due to increasing demand multifunctional device requirements along and popularity of handheld or portable with improved signal integrity for today’s electronics such as mobile phones, digital latest hand held electronics. Existing cameras, and PDAs. The mechanical wire-bond products can be easily converted shock resulting from mishandling during to WLCSP by adding a redistribution transportation or customer usage may layer (RDL) during backend wafer level cause interconnect failure, which may processing. Since the I/O pads do not have lead to malfunctions or end of life of the to be routed to the perimeter of the die, product18. When an electronic product is the WLCSP die can be designed to have dropped onto the ground, the impact force a much smaller footprint as compared to is transmitted to the PCB, interconnects, its wirebond counterpart, which means and package. Product level drop testing19 more die can be packed onto a single is complicated because it depends on wafer to reduce overall processing costs many factors such as drop height, drop per die. Essentially, WLCSP enables the orientation, component layout on the next generation of portable electronics at a PCB, product design, etc. Board level competitive price. drop testing is a more viable option Through an aggressive product to characterize the joint/interconnect development program that includes reliability, because it is more controllable experiment and simulation, Amkor has than product level drop testing. A few developed the next level of WLCSP JEDEC test standards3-5 provide guidelines (CSPnl™) to service the WLCSP market. to conduct board level drop tests. Amkor’s CSPnl devices are put through Since board level drop testing is a key extensive reliability testing that includes qualification test for portable electronics, board level drop tests, thermal cycling tests and cyclic bend tests that are governed by JEDEC test standard3-7. In order to insure first to market of CSPnl, Amkor has established finite element models that can predict the board level reliability performance as a function of factors such as stackup layer thickness (dielectric and Cu thicknesses), under bump metallurgy (UBM) opening, die sizes, ball layout, and solder alloy materials. Integrated testing, Figure 1. CSPnl bump and stacked-up structure.

16 – Global SMT & Packaging – Celebrating 10 Years – June 2010

www.globalsmt.net

Integrated testing, modeling and failure analysis of CSPnl for board level reliability

related studies have become a topic of interest by many researchers over the past few years9-18, 20-24. Experimental setup for drop testing and FA The setup of a board level drop tester follows the guidelines of JEDEC drop test standards3-5, having 15 WLCSPs (3 x 5 matrix) assembled on a test board (132 mm x 77 mm) The test board is connected to a fixture and then mounted to a drop block with screws. The drop block is dropped from a certain height along two guiding rods, onto a rigid base covered with a rubber layer. A multi-channel in-situ high speed data acquisition system is used to measure input/output acceleration, in-plane strains on board, and resistance of daisy-chained components. The JEDEC standard recommends certain input acceleration values and pulse shapes3-5. The testing described in this paper applies JEDEC condition B (1500G/0.5 ms) and condition H (2900G/0.3 ms). Condition H is applied for cases with extraordinarily long life, because it is impractical to test these cases at a lower impact intensity such as condition B. Dye & pry tests (D&P) and cross-sectioning are performed on failed samples to determine the failure locations and failure modes. Drop simulation There have been many types of drop modeling techniques established in the past few years by various researchers20-24 for different advanced packages. Most of the techniques have focused on solder joint reliability analysis. In this project, a common 3D geometry model is established for both board level drop testing and thermal cycling. For drop simulation, fine details such as PCB traces, Cu/ RDL, stack-up layers, IMC, and UBM, are considered. In this paper, modeling is applied mainly for relative comparison of stress distribution within the Cu traces and failure analysis. Integrated testing, FA & modeling analysis The drop test results in Figure 2 for two different CSPnl devices—Type 1 & Type 2—are compared in Weibull plots. In addition, the detailed parameters and results are summarized in Table 1. Testing began with 4 boards that consisted of 15 packages (Design Type 1) per board using the common JEDEC drop test condition B (1500G/0.5 ms). CSPnl Design Type 1 has a die size of 5.4 mm x 5.4 mm with 144 I/O (12 x 12 full array) on a 400 μm ball www.globalsmt.net

pitch and SAC405 solder. The test board trace design (labeled as “Old Board” in this paper) is circled in the illustration of Figure 3. Figure 2 and Table 1 show that the PCB subassembly with CSPnl Design Type 1 (Old Board, 1500G) has its first failure (FF) at 81 drops and has a characteristic

Figure 2. Weibull plots of CSPnl drop test results.

CSPnl Design

Board Type

Test Condition

First Failures (# drop)

Type 1

Old

1500G/ 0.4 ms

81

Type 1

New

2900G/ 0.3 ms

648

Type 1

New

1500G/ 0.5 ms

Acc. Factor for FF

8.000

Char. Life (# drop)

Acc. Factor for C. Life

437

-

2194

5.017

1962

24.222

4057

9.248

(predicted)

(predicted)

(predicted)

(predicted)

Type 2

New

2900G/ 0.3 ms

1605

-

3656

-

Type 2

New

1500G/ 0.5 ms

4860

3.028

6761

1.849

Table 1. Summary of drop test results. Design Type 1 vs. Type 2 is a difference of CSPnl stack-up designs. Board Type “Old” vs. “New” is a difference of PCB I/O routing approach from the longitude or latitude direction.

life (failure rate of 63.2%) of 437 drops, which is on par with or greater than drop life of many other similarsize WLCSPs or large-size BGAs reported in the literature. FFs are usually much less than 100 drops while characteristic life is usually >100 Figure 3. Correlation of modeling and failure analysis. Board traces circled with the drops. dashed lines indicate the PCB I/O approach in the “Old Board” design from the lonAt first gitude direction. To limit board side failures, the “New Board” design utilized PCB glance, the I/O traces in the latitude direction where stress values were lower. drop test life of CSPnl (Type rows (see Figure 3) of I/O. These rows are 1, Old Board) appears to be reasonable known to be critical failure locations for and in fact exceeded a common industry both BGA’s and WLCSPs 10, 12, 14, due to drop requirement of FF >40 drops. As a differential bending of chip and test board, usual FA practice, cross-sectioning was which induces high bending stress performed to cut along AA and A’A’ Global SMT & Packaging – Celebrating 10 Years – June 2010 – 17

Integrated testing, modeling and failure analysis of CSPnl for board level reliability

in the PCB length direction. Surprisingly, for this particular study, there was a very high percentage of cases where failures could not be found by AA and A’A’ crosssectioning. After unsuccessfully finding failures in the WLCSP by cross sectioning the first two outer rows, it was determined that the failures must have occurred in the PCB. This was later verified with FA on the PCBs. In the few cases where failures were found in the WLCSP, it was determined that Cu/RDL vertical cracks (see Figure 4 in later section as an example) were the most common failures, followed by the less common case of solder joint cracks near the PCB side. As mentioned, due to a high percentage of failures not identified by AA and A’A’ cross-sectioning of the WLCSP, effort was spent to perform top-down grinding (see Figure 3, BB view), to delayer the PCB subassembly until board traces were exposed. With this FA method, PCB trace cracks were observed at locations near the outer row balls. The primary failure was identified as I/O trace cracks in the PCB (see regions circled in Figure 3). High stress regions were identified in the PCB traces that approach in the longitudinal direction with drop modeling simulation (red/yellow color, see Figure 3, bottom-right images), which correlated well to the trace cracks identified and observed in the PCB FA. The FA for CSPnl (Type 1, Old Board) was taken a step further and a new method was developed to insure the failure was more efficiently and accurately identified. The new technique is called “L-Cut” or bi-directional orthogonal cross-sectioning. First, AA cross sectioning is performed. If no failure is found, then the same sample is cross-sectioned along the critical board trace directions (e.g. CC view in Figure 3) predicted by the drop simulations. With standard FA techniques, the failure would not be identified in the sample. However, with the L-Cut method, the board trace failure can consistently be found (see Figure 3, board trace failure found in CC view). Using the L-cut technique, it was determined that the PCB trace failure was the primary failure mode and WLCSP Cu/RDL trace fracture on the WLCSP side was the secondary mode of failure. The reason for multiple failure modes for the “Old Board” is that after the first few components have failed under drop testing (e.g. 81 drops for first failure), the same test board continued under repeated drop impacts until 400 drops or more. Therefore, secondary failure modes (i.e. WLCSP Cu/RDL vertical

cracks) or even tertiary failure modes (e.g. solder joint crack or PCB pad liftoff) had time to develop in the later stages of the drop testing. These failure modes were also confirmed as secondary because they were randomly distributed across the die and did not always appear in the first two critical rows of I/O (AA and A’A’ views in Figure 3), i.e. they do not follow the behavior of primary failure mechanism10 which shows higher bending stress in the PCB longitudinal direction than in the latitudinal direction. If FA was not carefully performed (e.g. L-cut method), one would make the mistake of reporting WLCSP Cu/RDL vertical cracks as the primary failure mode because the PCB cracks would not be found and only secondary or tertiary modes would be identified. Without using the L-cut method, many of the samples would be primarily labeled as “failure not found” or a few of the samples would show Cu/ RDL failures. The standard FA method would mischaracterize the true drop test performance of the CSPnl because the failures would not be credited to the PCB, but labeled as not-found or mistakenly credited to the CSPnl as Cu/RDL failures. Since the primary drop test failure mode for the CSPnl Type 1 parts with the “Old Board” is PCB trace crack, the drop test results are not a true indication of CSPnl reliability but are more a reflection of PCB reliability. This implies that if a package (i.e. BGA, WLCSP, or other CSP) has a failure free life of more than 100 drops (compared with 81 drops for the PCB trace), the actual drop test performance of components might be underestimated. Real drop test life for CSPnl Enhanced drop test board design From the characterization study described in Section 2.0, the PCB trace routing was redesigned. The PCB trace direction was changed from a longitudinal routing as in Figure 3 to trace latitudinal routing as illustrated in Figure 4. After this redesign, Cu trace stresses are redistributed from PCB traces to the Cu pad and RDL traces on the component side. In turn, the primary failure mode at the PCB traces may be eliminated and the device of interest, CSPnl can be properly tested and optimized. Drop test results of CSPnl with the “New Test Board” will be reported in the next section.

Drop test matrix and condition The drop test results of CSPnl for the same Design Type 1 using the “New Board”

18 – Global SMT & Packaging – Celebrating 10 Years – June 2010

(traces routed in PCB latitudinal direction from the package outline) are illustrated in the Weibull plots of Figure 2. In addition, detailed parameters and results are summarized in Table 1. Initial trial tests of CSPnl using one new board under 1500G/0.5ms (JEDEC condition B) shows that there were no failures up to 1000 drops. Although a desirable result, the New Board design coupled with the superior performance of CSPnl Type 1 created a challenge to produce statistically significant data within a reasonable amount of time. For example, the drop count to produce a statistically significant number of failures would result in the testing of about only one board per day (assuming 6000 drops/ working day). For large test matrices, this produces a tremendous amount of wear on the drop tester and prolongs testing time. For a meaningful engineering comparison of different design cases, sufficient failures must be generated for plotting of Weibull graphs. Therefore, a much stronger JEDEC condition H (2900G/0.3 ms) was applied to the Type 1 & Type 2 CSPnl parts mounted on the New Boards. CSPnl Type 1 is similar to CSPnl Type 2 with only a difference in stack-up design (detailed analysis of design improvement will be reported in a future publication). Referring to the plots in Figure 4 for the New Board design, the difference between the 1500G/0.5 ms and 2900G/0.3 ms test condition is a factor of about two times (to be exact, 6761/3656 = 1.849) in characteristic life and about three times (to be exact, 4860/1605 = 3.028) in FF for CSPnl Type 2 (see Figure 2 and Table 1). This factor is consistent with findings of other researchers23-24 who reported about 2-5 times difference in life for BGAs under the B and H test conditions. In-house FA also shows that the failure modes of both test conditions are consistent, i.e. related to WLCSP Cu/RDL. Therefore, it was determined that JEDEC condition H (2900G/0.3 ms) could be applied as an accelerated drop test condition. In addition, drop test life at JEDEC condition B (1500G/0.5 ms) can be conservatively estimated as twice the former value for JEDEC condition H. Integrated testing, FA & modeling analysis Figure 2 and Table 1 show that the PCB subassembly with CSPnl Design Type 1 (New Board, 2900G) has its FF at 648 drops and a characteristic life of 2194 drops, which is five times longer in life than the same component tested using the Old Board (primary failure mode was PCB

www.globalsmt.net

Addressing package advancement challenges with innovative contactor probe technology

www.globalsmt.net

Global SMT & Packaging – Celebrating 10 Years – June 2010 – 19

Integrated testing, modeling and failure analysis of CSPnl for board level reliability

trace). By applying the same accelerated factor (1.849 for characteristic life, 3.028 for FF) between 1500G and 2900G (Type 2, New Board), the actual drop test life of CSPnl (Type 1, New Board, 1500G) can be predicted as high as 1962 drops (648 drops x 3.028) for FF and 4057 drops (2194 drops x 1.849) for characteristic life (see Table 1), which is about nine times longer characteristic life (4057/437) and 24 times longer FF (1962/81) than the same CSPnl (Type 1, 1500G) using the Old Board! In order to confirm the primary failure mode of Type 1 with the New Board, both dye & pry tests and cross-sectioning were performed (see Figure 4). With the “New Board” design, board trace cracks were not observed. Furthermore, failures were predominantly Cu/RDL trace cracks at the component side. As indicative of primary failures, the WLCSP Cu/RDL failures were found along the two outer rows of I/O, along the PCB longitudinal direction (see Figure 4). Thus, with the change in board design, failures were moved from the PCB side to the component side. The failure mode will be shifted whenever the weakest link of the system is removed. Using the FA techniques previously described, the weakest link was identified and eliminated which led to a true measure of CSPnl reliability (details of CSPnl design improvement will be published in future publication). Therefore, CSPnl with Design Type 1 has FFs of 648 drops and 1962 drops under 2900G and 1500G JEDEC test conditions, respectively. As mentioned, the required minimum failure-free life is 40 drops under the 1500G testing condition. This particular design of CSPnl has 49 times the required failure margin! This superior drop performance will enable

future CSPnl designs with larger die sizes (e.g. 7 x 7 mm or even 10 x 10 mm) and more I/O count. The Old Board design from previous studies discussed in the “Board level drop testing of CSPnl” section reduced actual drop test performance by about nine times for characteristic life, and 24 times for FF. Therefore, when the same WLCSP is tested by customers or third parties, care should be taken in board design to avoid PCB trace failure during drop testing, so that the true drop test performance can be quantified for the WLCSP of interest Similarly, board designs should be carefully considered to prevent issues during component assembly that can also reduce testing lifetime results. The board trace design consideration is very different from the cases of using a low-CTE board to improve TC life (reducing CTE mismatch) or using a stiffer test board (reducing differential bending) to improve drop test life. For component manufacturers, a component’s true board level reliability should be test board independent (possible through standardization of test boards by JEDEC), where the failure ideally should occur at the component side or solder joint interconnect. Boad level TC tests of CSPnl Thermal cycling performance of CSPnl is usually studied in parallel with drop testing because while one package design variation is positive for drop performance, the inverse may be true for TC performance. In addition, certain product applications require a shift in priorities between drop and TC performance where TC is more important than drop. The fundamentals of thermal cycling (TC) tests and modeling of board level

solder joint reliability have been widely studied by many researchers25-32. Therefore, in this paper, TC testing and modeling methods are not emphasized. The focus is to characterize the thermal cycling performance of CSPnl, which is product specific. Board level TC testing is a very common test requirement to ensure reliable package performance under extreme operating temperature conditions. For applications such as automotive, mainframe servers, routers and switches, TC testing is still an important consideration. Therefore, design compromise is required between the drop test, the TC test, and even the bend test, so that the product is optimized for its targeted application. In near future publications, CSPnl performance under TC testing and bend testing will be presented. Experimental setup for thermal cycling test The board level thermal cycling test condition applied is -40°C to 125°C (1 cycle/hr) which complies with the JEDEC test standard6. The required fatigue life varies among customers and their varying applications. However, a common TC requirement is typically a failure-free life of 500 cycles. The same CSPnl Design Type 1 (5.4 mm x 5.4 mm die size, 144 I/O on a 400 μm ball pitch with SAC405 solder) was tested. Modeling of thermal cycling tests For typical solder materials, the creep processes are expected to dominate the deformation kinetics because solder is above half of its melting point at room temperature and the loading rate is slow enough for creep deformations to occur.

Figure 4. Modeling and FA of Cu/RDL vertical crack.

20 – Global SMT & Packaging – Celebrating 10 Years – June 2010

Figure 5. CSP thermal cycling test results. nl

www.globalsmt.net

Title

Award Winning Products and Service

Our Industry Awards Demonstrate Our Commitment to Excellence and to The Success of Our Customers.

EXPECT MORE...

MV-3 Desktop AOI Series

www.globalsmt.net

SM T PAC /HYB R sta KAGIN ID nd 7-5 G 06

MV-7 Inline AOI Series

3 MORSE ROAD • OXFORD, CT 06478 PHONE: (+1) 203-881-5559 • FAX: (+1) 203-881-3322 www.mirtecusa.com

Global SMT & Packaging – Celebrating 10 Years – June 2010 – 21

Integrated testing, modeling and failure analysis of CSPnl for board level reliability

Darveaux’s approach31-32 with Anand’s viscoplastic model is applied to calculate the average plastic work or strain energy density (SED) per cycle accumulated along the critical failure interface. Larger SED leads to shorter solder joint fatigue life. Integrated testing, FA & modeling analysis Figure 5 shows that CSPnl Design Type 1 has FF of 617 cycles, mean life of 979 cycles and characteristic life of 1032 cycles. This exceeds the minimum requirement of 500 failure-free cycles. Figure 6 indicates that the failure mode of CSPnl under the TC test is typical, i.e. bulk solder failure near the component side at the corner ball. The failure location and interface correlates well with the modeling prediction, mainly due to CTE mismatch of the die and the PCB. The highest SED is located at the corner ball which has the largest distanceto-neutral point (DNP). Unlike the drop test, the TC behavior of CSPnl is closer to BGAs and conventional WLCSPs. Therefore standard design guidelines can be applied to improve its performance. For example, the SAC405 solder alloy, which has better TC performance than SAC105, can be selected, since the design margin for drop test is larger and can be compromised.

Conclusions Amkor’s CSPnl (5.4 mm x 5.4 mm die size, 144 I/O on a 400 μm ball pitch with SAC405 solder) has exhibited superior drop test performance with first-failures at 648 drops and 1962 drops under 2900G and 1500G JEDEC test conditions, respectively. CSPnl has also exceeded the thermal cycling performance requirement of 500 cycles under -40°C to 125°C (1 cycle/hr). These results imply that much larger die sizes are possible for future WLCSP products used in handheld and portable electronics where more emphasis is placed on drop test lifetime. Integrated testing, modeling and failure analysis has identified the primary and secondary failure modes of CSPnl under drop and thermal cycling tests. It was shown that board trace layout could affect the reported drop test lifetime of WLCSPs or BGAs that have lifetimes larger than 100 drops because PCB traces may break earlier and provide a misrepresentation of the actual WLCSP or BGA performance. It is highly recommended that JEDEC test standards specify PCB trace routing in the latitudinal direction, so as to avoid board trace failure during drop testing and to accurately determine the true drop lifetime of the component under test.

Figure 6. Thermal cycling modeling and FA correlation.

22 – Global SMT & Packaging – Celebrating 10 Years – June 2010

Acknowledgements The authors would like to thank Economic Development Board (EDB) of Singapore for funding of this project under Innovation Development Scheme (IDS). Appreciation is extended to colleagues from R&D group of Amkor Korea: ES Sohn, SW Cha, TK Hwang and WJ Kang, for their technical support. References 1. Fan, X.J. and Han, Q., “Reliability Challenges and Design Considerations for Wafer-Level Packages,” ICEPT Conference Proc., 2008, China. 2. Garrou, P., “Wafer Level Chip Scale Packaging (WL-CSP): An Overview,” IEEE Trans. Of Adv. Packaging, 2000, Vol. 23(2), pp. 198-205. 3. JEDEC Standard JESD22-B111, Board Level Drop Test Method of Components for Handheld Electronic Products, 2003. 4. JEDEC Standard JESD22-B104-B, Mechanical Shock, 2001. 5. JEDEC Standard JESD22-B110, Subassembly Mechanical Shock, 2001. 6. JEDEC Standard JESD22-A104C, Temperature Cycling, 2005. 7. JEDEC Standard JESD22B113, Board Level Cyclic Bend Test Method for Interconnect Reliability Characterization of Components for Handheld Electronic Products, 2006. 8. Alajoki, M., Nguyen, L., and Kivilahti, J., “Drop Test Reliability of Wafer Level Chip Scale Packages,” 55th ECTC Conference Proc., 2005, pp. 637-644. 9. Goh, K.Y., Luan, J.E., and Tee, T.Y., “Drop Impact Life Prediction Model for Wafer Level Chip Scale Packages,” 7th EPTC Conference Proc., Singapore, 2005, pp. 58-65. 10. Tee, T.Y., Ng, H.S., and Zhong, Z.W., “Design for Enhanced Solder Joint Reliability of Integrated Passives Device under Board Level Drop Test and Thermal Cycling Test,” 5th EPTC Conference Proc., Singapore, 2003, pp. 210-216. 11. Tsai, T.Y., Lai, Y.S., Yeh, C.L., Chen, R.S., “Structural Design Optimization for Board-level Drop Reliability of Wafer-level Chip-scale Package,” Microelectronics Reliability Journal, 2008, Vol. 48, pp. 757-762. 12. Tee, T.Y., Ng, H.S., Luan, J.E., Yap, D., Loh, K., Pek, E., Lim, C.T., and Zhong, Z.W., “Integrated Modeling and Testing of Fine-pitch CSP under Board Level Drop Test, Bend Test, and Thermal Cycling Test,” ICEP

www.globalsmt.net

Integrated testing, modeling and failure analysis of CSPnl for board level reliability

Conference Proc., Japan, 2004, pp. 35-40. 13. Luan, J.E., Tee, T.Y., Pek, E., Lim, C.T., Zhong, Z.W., and Zhou, J., “Advanced Numerical and Experimental Techniques for Analysis of Dynamic Responses and Solder Joint Reliability during Drop Impact,” IEEE Transactions on Components and Packaging Technologies, 2006, Vol. 29(3), pp. 449-456. 14. Tee, T.Y., Ng, H.S., Lim, C.T., Pek, E., and Zhong, Z.W., “Impact Life Prediction Modeling of TFBGA Packages under Board Level Drop Test,” Microelectronics Reliability Journal, 2004, Vol. 44(7), pp. 11311142. 15. Luan, J.E., Tee, T.Y., Goh, K.Y., Ng, H.S., Baraton, X., Bronner, R., Sorrieul, M., Hussa, E., Reinikainen, T., Kujala, A., “Drop Impact Life Prediction Model for Lead-free BGA Packages and Modules”, EuroSime Conference Proc., Germany, 2005, pp. 559-565. 16. Ibe, E., Loh, K., Luan, J.E., Tee, T.Y., “Effect of Unfilled Underfills on Drop Impact Reliability Performance of Area Array Packages,” 56th ECTC Conference Proc., 2006, pp. 462-466. 17. Tee, T.Y., Ng, H.S., Lim, C.T., Pek, E., and Zhong, Z.W., “Board Level Drop Test and Simulation of TFBGA Packages for Telecommunication Applications,” 53rd ECTC Conference Proc., 2003, pp. 121-129. 18. Tee, T.Y., Ng, H.S., Lim, C.T., Pek, E., and Zhong, Z.W., “Drop Test and Impact Life Prediction Model for QFN Packages,” Journal of Surface Mount Technology, 2003, Vol. 16(3), pp. 3139. 19. Lim, C.T., Low, Y.J., Tan, L.B., Seah, S., Wong, E.H., “Drop Impact Survey of Portable Electronic Products,” 53rd ECTC Conference Proc., 2003, pp. 113-120. 20. Dhiman, H.S., Fan, X.J., and Zhou, T., “Modeling Techniques for Board Level Drop Test for a Wafer-Level Package,” ICEPT Conference Proc., 2008, China. 21. Tee, T.Y., Luan, J.E., Ng, H.S., “Development and Application of Innovational Drop Impact Modeling Techniques,” 55th ECTC Conference Proc., 2005, pp. 504-512. 22. Ng, H.S., Tee, T.Y., and Luan, J.E., “Design for Standard Impact Pulses of Drop Tester using Dynamic Simulation,” 6th EPTC Conference Proc., Singapore, 2004, pp. 793-799.

www.globalsmt.net

23. Luan, J.E. and Tee, T.Y., “Effect of Impact Pulse Parameters on Consistency 3600CPH = 120 + (8mm) feeders of Board Level SQ foot print = L (42”) x W (42”) Drop Test MaX Board Size: 558.8mm (22.0”) x 609.59mm (24.0”) and Dynamic Responses,” 55th ECTC 4000C = Traditional Dependability + New Technology Conference Proc., 2005, pp. 665-673. 24. Lai, Y.S., Yang, P.C., Yeh, C.L., “Effects of Different Drop ® Test Conditions on Board-level Reliability of Chip-scale Packages,” Microelectronics Reliability Journal, 2008, Vol. 48, pp. 274–281. 25. Zhang, X., Kripesh, V., For more info visit: www.goppm.com Chai, T.C., Tan, Email: ppm@goppm.com or Call: 603.895.5112 T.C., Pinjala, Windows is a registered trademark of Microsoft Corporation D., “Board level solder joint reliability EMAP Conference Proc., Singapore, analysis of a fine pitch Cu post 2003, pp. 184-189. type wafer level package (WLP),” 30. Ng, H.S., Tee, T.Y., Goh, K.Y., Luan, Microelectronics Reliability Journal, J.E., Reinikainen, T., Hussa, E., and 2008, Vol. 48, pp. 274–281. Kujala, A., “Absolute and Relative 26. Tee, T.Y., Lim, M., Ng, H.S., Baraton, Fatigue Life Prediction Methodology X., and Zhong, Z.W., “Design Analysis for Virtual Qualification and Design and Optimization of Wirebond Enhancement of Lead-free BGA,” 55th Stacked Die BGA Packages for ECTC Conference Proc., 2005, pp. Improved Board Level Solder Joint 1282-1291. Reliability,” Keynote Paper, EuroSIME 31. Darveaux, R., Banerji, K., Mawer, A., Conference Proc., France, 2003, pp. and Dody, G., “Reliability of Plastic 207-213. Ball Grid Array Assembly,” Ball Grid 27. Tee, T.Y., Ng, H.S., Yap, D., Baraton, Array Technology, J. Lau Editor, X., and Zhong, Z.W., “Board Level McGraw-Hill, New York, 1995, pp. Solder Joint Reliability Modeling 379-442. and Testing of TFBGA Packages for 32. Darveaux, R., “Effect of Simulation Telecommunication Applications,” Methodology on Solder Joint Crack Microelectronics Reliability Journal, Growth Correlation,” 50th ECTC 2003, Vol. 43(7), pp. 1117-1123. Conference Proc., 2000, pp. 104828. Tee, T.Y., Ng, H.S., Yap, D., and 1058. Zhong, Z.W., “Comprehensive BoardLevel Solder Joint Reliability Modeling and Testing of QFN and PowerQFN Packages,” Microelectronics Reliability Journal, 2003, Vol. 43(8), pp. 13291338. 29. Tee, T.Y., Ng, H.S., and Zhong, Z.W., “Design Optimization of Wafer-Level CSP Solder Joint Reliability,” 5th

Lesson 1 :

$28,750.00

Global SMT & Packaging – Celebrating 10 Years – June 2010 – 23

Healthy but keep watching over your shoulder! Tsunamirecovery, growth waves followed by modest swell

Walt Custer and Jon Custer-Topai

Healthy recovery, but keep watching over your shoulder! Growth accelerated in the first four months of 2010 as SE Asia led the electronics recovery and all regions followed. The global purchasing managers’ index (Chart 1) reached a high in April, and electronic equipment growth is now positive for all geographic regions (Chart 2). Using the Henderson Ventures’ 2008 global electronic equipment market size estimate as a base year and the growth rates from Chart 2, actual monthly electronic equipment sales by region can be calculated (Chart 3). SE Asia obviously dominates. Based upon composite quarterly financials of 69 large, global OEMs, electronic equipment sales grew 13% in 1Q’10 vs. 1Q’09 (Chart 4). The ratio of inventories/ sales remained well controlled throughout the supply chain (Chart 5). All sectors of the “electronic food chain” enjoyed positive first quarter growth (Chart 6). SEMI equipment “led the charge” but most sectors had double-digit growth compared to the very poor first quarter of 2009.

Remembering that these various first quarter 2010 growth figures are relative to the chasm of early 2009, the recent huge 1Q’10 regional semiconductor shipment growth rates are not surprising (Chart 7). Global chip shipment growth (+58.3% on a 3-month basis) appeared to be near this current business cycle’ high in March. Although the world semiconductor shipment growth rate will soon peak, actual growth will continue as long as the 3/12 is greater than 1.0. SEMI equipment shipments were up 79% worldwide in 1Q’10 vs. 1Q’09 (Chart 9). Capital equipment sales normally outgrow consumables in the upturns and decline more in the downturns of a business cycle. Large EMS providers finally saw modest sales growth (+7%) in the first quarter (Chart 10) following seven quarters of contraction. The Taiwan-based ODM companies (Chart 11) by comparison enjoyed much stronger (+48%) first quarter growth. The printed circuit board industry

20100328

End markets

Global IT spending will grow 7.7% in 2010.—Forrester Research Computers: • Worldwide PC Shipments grew 27.4% in 1Q’10 to 84.3 million units—Gartner • Global PC shipments increased 15% in 4Q’09, led by notebook sales.—IDC

20100513

Global "Purchasing Managers" Index 58

(Chart 12) followed the world electronics food chain both in the 2009 depression and the early 2010 recovery. Based upon Custer Consulting Group’s global model, PCB sales declined 20% in 2009 but are on track to rebound 21% this year. So…are our problems all behind us? Not quite. Financial troubles in Europe, the massive oil spill off the U.S. gulf coast, flight disruptions due to Iceland’s volcano and rapidly inflating raw material cost are among the reasons for caution. We are definitely recovering, but we need to keep looking over our shoulder!

Global Electronic Equipment Shipment Growth

DIFFUSION INDEX

56

1.6

54 52

EXPANSION

50

CONTRACTION

48

3/12 rate of growth in local currency

1.5 1.4

Taiwan/China Europe Japan USA 0

1.3

46 44

1.2

42

1.1

40

1

38

0.9

36

0.8

34

0.7

32 1 2 3 4 5 6 7 8 9 10 11 12 1 2 3 4 5 6 7 8 9 10 11 12 1 2 3 4 5 6 7 8 9 10 11 12 1 2 3 4 5 09 10 07 08

JPMorgan

Europe = Eurostat EU27 NACE C26 (computer, electronic & optical products)

0.6

1 4 7 10 1 4 7 10 1 4 7 10 1 4 7 10 1 4 7 10 1 4 7 10 1 4 7 10 1 4 7 10 1 4 7 10 1 4 7 10 1 4 02 03 04 05 06 07 08 09 10 00 01

CALENDAR YEAR

Chart 1.

24 – Global SMT & Packaging – Celebrating 10 Years – June 2010

Chart 2.

www.globalsmt.net

Healthy recovery, but keep watching over your shoulder!

• Portable PC market is expected to grow to 215 million units and US$117 billion, in 2010.—DisplaySearch Mobile Communications: • Global cell phone shipments grew 22% to 295 million units in 1Q’10 as economy recovers and smart phone desire grows.—IDC • Global 3G handset shipments will grow 40% to 358 million units in 2010.—Strategy Analytics Automotive: • Global automobile electronics market is expected to be worth US$176 billion by 2012.—TEEMA • U.S. cars and light truck sales climbed 24% y/y in March to 1.07 million units.—Autodata • China sold 13.6 million vehicles in 2009. Consumer: • Global shipments of LCD TVs will grow 10% to 41.76 million units in Q2.—TRI • Home automation systems revenue 20100513

EMS, ODM & related assembly activity • Contract manufacturers will manufacture 1.1 GW of solar panels in 2010, up 200% from 369 MW in 2009.— iSuppli • Top 50 EMS providers’ sales for 2009

World Electronic Equipment Monthly Shipments

20100508

Converted @ Constant 2008 Exchange Rates

100

250

$ Billions N America

Europe

Japan

totaled an estimated $134.4 billion.— Manufacturing Market Insider • Worldwide EMS sales will have a CAGR of 8% for 2010-2014 after a 11% decline in 2009.—IDC ACW Technology’s Durham, North Carolina, manufacturing facility received ITAR approval. Altek will relocate its electronics manufacturing and tech products businesses from 245 East Elm St. to 89 Commercial Boulevard in Torrington, Connecticut. API Technologies’ CEO Steve Pudles was elected vice chairman of the IPC board of directors. Assembly Contracts Limited (ACL) entered a strategic partnership to jointly design and integrate wireless components for Cinterion. Benchmark Electronics is a supplier of AccuVein’s AV300 vein finder. Briton EMS teamed up with MYDATA. CLS Holdings appointed CEO Henry

will approach $12 billion worldwide in 2015.—ABI Research. • Internet-connected TVs to reach 55% in total sales by 2013.—CEA • Video game hardware sales fell 4% to $440.5 million in March as prices of consoles were down 16% y/y. Peripherals: • Global monitor sales will rise 4% y/y to 170 million units in 2010.—Samsung Taiwan • Pocket projector shipments will grow from 0.5 million units and $117 million in revenues in 2009 to 142 million units and $13.9 billion in revenues in 2018.—DisplaySearch

SE Asia

Electronic Equipment Suppliers Composite of 69 Public Companies +13%

Preliminary 1Q'10 based upon partial data

200

80

Revenue, Net Income & Inventory

$ Billion

150 100

60

50

40

0 -50

20

Revenue Income

0

Inventory

1 3 5 7 9111 3 5 7 9111 3 5 7 9111 3 5 7 9111 3 5 7 9111 3 5 7 9111 3 5 7 9111 3 5 7 9111 3 5 7 9111 3 5 7 9111 3 5 00 01 02 03 04 05 06 07 08 09 10

Source: Custer Consulting Group

Chart 3.

20100508

CALENDAR YEAR

0.85

Semiconductor EMS OEM Component Distrib

0.70 0.65 0.60 0.55 0.50 0.45 0.40

Distr

0.35

Chips

0.30

EMS

0.25 0.20

OEM 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 00 01 02 03 04 05 06 07 08 09 10

CY

Chart 5.

www.globalsmt.net

7

-2

-6 -12

-1

2 -12

-1

0

5

4

7 10 10 11 11 14 12 13 13 20 14 10 16 19 16 20 17 18 17 16 15

-5

8 13 15 21 17

57 59 63 65 66 60 53 48 46 44 42 39 39 39 38 38 40 41 42 41 42 42 43 42 44 47 49 49 48 51 52 52 54 56 57 52 49 47 48 48 49

Computer 11, Internet 5, Storage 7, Communication 11, SEMI 13, Medical 3, Instruments 6, Military 6

20100512

Large Component Distributors, Semiconductor, EMS & Quarterly Inventory/Sales ($) OEM Companies

0.75

11 11 10

Chart 4.

Inventory/Sales Ratio

0.80

1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 00 01 02 03 04 05 06 07 08 09 10

135 139 144 151 129 135 127 136 120 123 124 136 125 131 137 154 147 155 153 171 158 163 165 182 169 177 181 200 185 197 206 229 208 220 219 213 184 194 201 226 207

Global "Electronic Foodchain" Growth 1Q'10 vs. 1Q'09 (preliminary results)

Electronic Equipment Military Business & Office Instruments & Controls Medical Communication Internet Computer Storage SEMI Equip

13

2 1

21

7 6 16

Semiconductors (SIA) Passive Components Component Distrib EMS-Large EMS-Medium ODM PCB PCB Process Equip

27 40

78 58 55

25 27 TBD

40 0

20

50 47

40

60

80

100

% Change

US$ equivalent at fluctuating exchange; based upon industry composites including acquisitions

Chart 6.

Global SMT & Packaging – Celebrating 10 Years – June 2010 – 25

Healthy recovery, but keep watching over your shoulder!

Klotz non-executive director of NOTE AB. Corintech appointed Julia Cotton customer support manager. Electronic Design Packaging Systems purchased an ORPRO Vision’s VT-S22 AOI system. Enics added a Teradyne TS121A ICT-test machine in Västerås, Sweden. Enics added 100 new employees in Elva, Estonia. EPIC received awards for responsiveness, dependability/timely delivery, manufacturing quality, technology and value in the category for EMS companies with revenues between $101 million to $500 million. EPIC Technologies and SFO Technologies formed a strategic alliance. Federal Electronics received an interconnect assembly contract for a Trident II (D5) MK6 life extension guidance system (Mk6LE). Flextronics: • delivered one millionth automotivegrade embedded wireless module to Sierra Wireless. • was ordered to pay EUR 11 million to former employees in Châteaudun, France. • started microinverters production for Enphase. • began producing solar modules for Q-Cells. • will double its laptop production capacity in China this year with new plant in Suzhou. • will run a California solar panel factory with SunPower. Foxconn/Hon Hai: • acquired Sony’s LCD TV assembly in Slobakia. • had 118,700 employees in China at the end of 2009, up 9.7% from 108,200 in 2008; total labor costs dropped 27.83% from US$672 million in 2008

computers in St. Petersburg, Russia, for Hewlett-Packard. • is adding 6,000 additional workers for its PC manufacturing factory in Chongqing, China. • is enlarging its Wuhan Manufacturing base. HDP User Group released new guidelines for producing Pb free printed circuit assemblies. Incap celebrated its 10-year presence in Estonia. Integrated Micro-Electronics opened new factory in Chengdu, China. Jabil began manufacturing Roombas for iRobot. JJS Electronics appointed Ian Bird European business development manager and Richard Barratt principal NPI engineer. Kimball Electronics: • Jasper Facility achieved AS9100 aerospace registration. • Poland operation received ISO 13485 medical certification. Lightspeed Manufacturing named David Kleffman director of operations. Limtronik added Goepel electronic’s automated x-ray inspection system OptiCon X-Line 3D. Morey Corporation VP of operations Taymur Ahmad received 1st Annual SMT VISIONARY Award. NBS receieved AS9100 certification for Design and Assembly at their Santa Clara, California, manufacturing headquarters. Nippon Manufacturing Service acquired Shima Electronic. Note: • received a manufacturing contract for Crem coffee machine control electronics in Tangxia, China. • was appointed supplier of RF-based

20100501

20100501

Monthly Semiconductor Shipments $ Billions (3-month average) 3/09 Americas

2.58

3/10 3.82

PCB assemblies for Axell Wireless in Estonia. • former president and CEO, Arne Forslund was named Colfax vice president of Europe, Middle East, Africa and Asia. Panasonic outsourced its budget digital camera output to Sanyo. PCB Motors released a new “jigsaw” stator technology allowing motors to be mounted in, onto or above a PCB. RADA Electronic Industries received $1.6M in follow-on production and maintenance orders. Rimaster secured an order from CNS Systems. Rohde & Schwarz added a new SMT production line in Vimperk, Czech Republic. Sanmina-SCI: • acquired BreconRidge for $53M. • deployed Aegis software globally. • expects to have 20% of its global revenues out of India by 2015. • is spending Rs. 250 crore to build a facility in Chennai, India. • received expanded outsourcing contract from Symmetricom. Seaward installed i-Pulse machine and ancillary SMT equipment at its factory in Peterlee, County Durham, UK. Stadium Electronics appointed John Harley business development manager. STI added a Heller 1913MKIII convection reflow/ curing oven. STI Electronics’ Pat Scott received IPC Distinguished Committee Service award. Suntron Corporation implemented Valor to advance its DFM capabilities. Teletek Electronics received certificate from Polish laboratory CNBOP. TT electronics renewed global medical manufacturing partnership with BioOhio. United EMS (Warrington North West

to US$485 million in 2009.

• opened a pilot assembly line to make

% CH +48.2%

Europe

2.17

3.08

+42.0%

Japan

2.51

3.59

+ 43.0%

Asia Pacific

7.31

12.57

+72.0%

14.57

23.06

+58.3%

Global Semiconductor Shipments 3-Month Growth Rates on $ Basis

1.6

3/12 Rate of Change

1

2

1.4

13

10

5 4

1.2

8

6

3

7

9 11

12

1 0.8 0.6 0.4

Total SIA www.sia-online.org/

Chart 7.

26 – Global SMT & Packaging – Celebrating 10 Years – June 2010

1591591591591591591591591591591591591591591591591591591591591591591591591591591 5/10 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 00 01 02 03 04 05 06 07 08 09 10

Total $ Shipments from All Countries to an Area SIA website: www.sia-online.org/

Chart 8.

www.globalsmt.net

Tsunami growth waves followed by modest swell

Follow the road to maximum velocity production With Data I/O programmers and the FlashCORE III programming engine, you can quickly program data files of any size into the latest device technologies and products. Key Benefits: Fastest performance for maximized production rates – Read and write speeds near theoretical device limits – Extremely fast downloads over Ethernet Supports latest device types and sizes – MoviNAND, OneNAND, iNAND, e-MMC, and more. – Support for files > 4 GBytes Proven Quality Solutions from the world leader in programming – Works with all algorithms, adapters, and software solutions created for previous FlashCORE programming engines.

For more information, visit www.dataio.com/promotions/FlashCOREIII www.globalsmt.net

Global SMT & Packaging – Celebrating 10 Years – June 2010 – 27

Healthy recovery, but keep watching over your shoulder!

20100504

Global Semiconductor & Semiconductor Capital Equipment

Large EMS Providers Composite of 10 Public Companies

20100505

3-Month Shipment Growth Rates on $ Basis

2.8 2.6 2.4 2.2

Quarterly Revenue Growth

3/12 Rate of Change Semiconductors SEMI Capital Equip Series 5

2

Capital Equipment

60.0

40.0

Chips

1.8 1.6

Excludes Foxconn

20.0

1.4 1.2 1

0.0

0.8 0.6

-20.0

0.4 0.2 1591591591591591591591591591591591591591591591591591591591591591591591591591591 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 00 01 02 03 04 05 06 07 08 09 10

Sources: SIA; Semiconductor Equipment Association of Japan, CCG est for 3Q & 4Q'09 SEMI

Chart 9. 20100311

1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 01 02 03 04 05 06 07 08 09 10

Benchmark+Pemstar, Celestica, Elcoteq, Flextronics+Solectron, Jabil, Plexus, Sanmina-SCI, Sypris, Universal Scientific, Venture Mfg

Chart 10.

Large ODM Companies Composite of 10 Public Manufacturers Quarterly Revenue Growth

80

-40.0

20100428

60

% Growth in NT$ (quarter vs same quarter in prior year)

50

World PCB Shipments (with forecast) Converted @ Constant 2008 Exchange Rates $ Billion Assumptions: Europe = composite European SIA & local PCB assoc data Japan & N. America from JPCA & IPC data Taiwan/China based upon 44 rigid & flex company composite Rest of Asia growth = Taiwan/China 44 company composite Data scaled to match Henderson Ventures annual totals 2007 based upon sum of monthly totals

+21%

60

-20%

40

40 20

30

0 -20

20 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 99 00 01 02 03 04 05 06 07 08 09 10

Asustek Computer, Compal Electronics, Foxconn, Innolux Display, Inventec, Inventec Appliance, Lite On Technology, Mitac International, Quanta Computer, Wistron

Chart 11.

England) invested in JUKI mounters. Victron opened new 30,000 SF facility in Rosarito, Mexico, and plans to add another 30,000 SF within the same location by end of next year. Victron • celebrated its 27th Anniversary. • named David Yu vice president supply chain management. Materials & process equipment 3M: • Electronic Solutions Division introduced halogen-free embedded capacitance material. • released material library for use in ANSYS simulation software. ASYS appointed Jeff Copson as national sales manager for ASYS and EKRA products. Blakell Europlacer secured orders for 10 machines from UK-based manufacturers during March and April 2010.

31.6 38.6 31.2 29.4 31.7 37.6

42.9 51.7 54.3 51.1 40.9 46.2

1 3 5 7 9111 3 5 7 9111 3 5 7 9111 3 5 7 9111 3 5 7 9111 3 5 7 9111 3 5 7 9111 3 5 7 9111 3 5 7 9111 3 5 7 9111 3 5 7 9111 3 5 7 9111 01 02 03 04 05 06 07 08 09 10 11 99 00

CALENDAR YEAR Source: Custer Consulting Group - synthesized from Henderson Ventures annual estimates and N. American, Japanese & Taiwan/China monthly PCB shipments and SIA European chip shipments

Chart 11.

Bliss Industries’ Shana Bliss promoted to VP of sales & marketing. Bob Black was awarded IPC President’s award. Christopher Associates added Bruce Barton to its applications engineering team. Cookson Group named Jeff Harris as nonexecutive director to its board. Data I/O introduced ProLINE-RoadRunner for MYDATA pick and place machines. DuPont Circuit & Packaging Materials introduced Pyralux® TK flexible circuit materials for high speed and high frequency PCBs. ESI USA achieved ISO 14001 certification. Everett Charles Technologies’ CEO John Hartner received IPC appreciation award. GOEPEL electronics appointed ATM as sales representative for its JTAG/boundary scan instrumentation systems. Henkel introduced Multicore LF620 leadfree solder paste. Hitachi High-Technologies opened Chi-

28 – Global SMT & Packaging – Celebrating 10 Years – June 2010

nese Service Center. Huntsman launched halogen-free TPU for cables. Indium announced a high-melting Pb-free solder alternatives agreement with Ormet Circuits. IPTE completed sale of automation division to founding members Huub Baren, Senior, and Vladimir Dobosch. Juki: • named Milan Zourek its Northern Europe sales manager • rolled out a new small-size mounting machine “JX-100 LED” for long circuit boards (800 x 360 mm) that was designed for LED boards. Maskless Lithography introduced its MLI2027 direct-write lithography system. Matrix Electronics named MacDermid its Canada distributor. NeoDec, the Holst Centre and TNO formed partnership on metallic inks for flexible electronics applications.

www.globalsmt.net

Healthy recovery, but keep watching over your shoulder!

Nippon Sheet Glass named ex DuPont VP Craig Naylor as its president. Nordson EFD introduced new BackPack™ valve actuator. OK International launched new European webstore. Ovation Products named Tony Du sales manager for North America. Panasonic Flex Material qualified for use at Lenthor Engineering. Park Electrochemical named Susan Macaluso its director of engineering. Photo Stencil expanded capacity and capability at its Malaysian manufacturing facility. Polyonics introduced a flame retardant, halogen free polyimide label material. RPS introduced its new 3D Fiducial Vision Inspection. Sojitz unveiled polyimide that dissolves in N-methyl pyrrolidone. STI Electronics appointed Jack Harris as an outside sales representative for Texas, Oklahoma, Arkansas and Louisiana. SunRay Scientific launched UV cured ZTACH™ anisotropic conductive adhesives for assembly of flexible electronics. TAMURA commercialized a new black light absorbing material “APB-300-11” for flexible circuits designed for LED array. Technica and Maskless Lithography signed a sales and distribution agreement. Tektronix opened a multilingual European customer care and centre of excellence in Schaffhausen, Switzerland. ZESTRON Europe promoted Sandra Pilz to product manager. ZTEST refinanced and consolidated three outstanding loans of its wholly owned subsidiary Permatech Electronics Corporation. ZOT Engineering invested in MYDATA MY100SX14 pick-and-place machine.

Y.Cheetah

Experience brilliance in any job!

Benefits:

Walt Custer is an independent consultant who monitors and offers a daily news service and market reports on the PCB and assembly automation and semiconductor industries. He can be contacted at walt@custerconsulting.com or visit www.custerconsulting.com. Jon Custer-Topai is vice president of Custer Consulting Group and responsible for the corporation’s market research and news analysis activities. Jon is a member of the IPC and active in the Technology Marketing Research Council. He can be contacted at jon@custerconsulting.com.

■

Secure your findings with brilliant X-ray images

■

Any task in your daily routine solved quickly

■

1-click solutions

Further information ■

Please contact our sales organization or visit us at www.yxlon.com

Sharp.Fast.Versatile.

YXLON. The reason why

YXLON International GmbH, a company of the COMET Group. Essener Bogen 15, D-22419 Hamburg, T: +49 40 527 29 - 0, F: +49 40 527 29-170, E-mail: yxlon@hbg.yxlon.com, www.yxlon.com

www.globalsmt.net

Global SMT & Packaging – Celebrating 10 Years – June 2010 – 29

What is AOI Resolution?

What is AOI Resolution? Igor Sosman and Adam Shaw, ORPRO Vision With so many machine vision systems on the market, and the megapixel arms race in the consumer camera arena, the concept of resolution can be a confusing one.This document describes each of the contributing factors, and the underlying principles. This document should be essential reading for anyone interested in understanding the difference between megapixels and resolution. Keywords: Automated Optical Inspection, Optical Resolution Optical Magnification

This document explains the concept of magnification and resolution for automated optical inspection (AOI) systems. The concepts described are common to all machine vision systems making use of an objective or lens, and camera or sensor. By way of simple examples, the following will be explained: Optical Magnification is the ratio between an objects actual size, and its projected size, most commonly on the surface of the sensor. Optical Resolution is the smallest distance between two distinct objects which can be reproduced at the projected surface. Pixel Resolution or Pixel Count is the number of pixels comprising an image, or the number of pixels on a sensor. Pixel Size is physical size of an object represented by one pixel of the object projected image on the sensor. Radiometric Image Resolution is the number of discrete levels present in the image, in a gray scale image this is the number of grey scales used to represent intensity or reflectivity. Spacial Image Resolution is the smallest distance between two lines which could be resolved in an image, or the number of independent pixel values per unit length. Image Acquisition Image acquisition is the process by which objects become digital images, which can then be processed. When the object is illuminated an image can be acquired. Each of the parts described above come together to result in an image from which image processing algorithms can extract useful information. The algorithms finally determine the System Resolution, which is the smallest difference in a test characteristic that could be resolved, or detected, by the system. Optical Magnification An object seen by an AOI is lit by the illumination system. Light rays emitted from the source follow the laws of reflection. Reflected rays are captured by the lens to form an image, or object projection. Real systems make use of complex,

30 – Global SMT & Packaging – Celebrating 10 Years – June 2010

optical objectives rather than simple lenses. However, the principal can be well understood with a thin lens model, as shown in Figure 1. Optical magnification is the ratio between the projected object size h and its actual size H. Optical magnification can be expressed in characteristics of the system such a focal length of the lens F and distance to the object D. Hence, magnification M :

Optical Resolution We replace the object in Figure 1 with two points A and B. The minimum distance between A and B, as shown in Figure 2, that is still distinguishable on the image plane is the optical resolution. Points are always projected on the image plane as a small disk known as an Airy Disk (shown in Figure 3) at a certain distance between A and B they will be projected as two overlapping disks. The radius Rd of an Airy Disk is dependent upon aperture a (of the optics), wavelength λ of the light and the distance D' between the image plane and the lens:

If the angle between the line B-B' and A-A' is α then the distance A'B' is given by

The image of A' and B' can only be distinguished if The minimal distance between A and B can be described as

The minimal angle αmin could be found by substitution of δh into the Airy Disk equation:

www.globalsmt.net

IPC APEX EXPO round-up: The lights are back on in Las Vegas

SM T PAC /HYB R sta KAGIN ID nd 6-3 G 00

Quality, Precision and Cost Savings Regardless of your current application, cost reductions can be achieved without compromise! Techcon Systems precision fluid dispensing equipment offer:

• • • • •

Increase yields Reduce rejects Cut down labor cost Improve process control Lower fluid waste

Contact: Techcon Systems www.techconsystems.com 1-714-230-2398

Dispensers & Valve Controllers www.globalsmt.net

Fluid Dispensing Valves

Dispensing Syringes

Dispensing Tips

Global SMT & Packaging – Celebrating 10 Years – June 2010 – 31

What is AOI Resolution?

Figure 1. An image is formed of the object with height H, projected on the image plane with height h.

Figure 2. Two points ΔH apart, appear on the image plane δh apart.

!"#$%&'($)*+)*,-+*

1"/#($)2***3* ,&'4$/2*+5$/*6$#78)* .$/%0* Pixel Resolution !"#$ from light energy to voltage. The 39*-:'$;"/*<==>$ !"?(#($)2*@A* B85"*C*$D*>* The projection on the image plane is !a continuous distribution becomes discrete, two-dimensional continuous projection however the signal remains analogue. '4"E*8/"*)$'*0(#'()5&(#48;%"*8)E7$/"F*!80(&#*!*$D*#&:4*8*0(#G*(#*8*D&):'($)*$D*8H"/'&/"*"I*J8?"*%")5'4 ! I*8)0* of light energy. In an AOI, a camera is ! Temporal Sampling is the snapshot, '4"*0(#'8):"*K#*;"'J"")*'4"*(785"*H%8)"*8)0*'4"*%")#*(#*5(?")*;E #$ " 3F<< ! L F* " used to capture the projection, the sensor freezing the sampled voltage in time. This is located at the image plane. Different Having found the minimum angle αmin, can be achieved with a trigger, or electronic types of sensor are used in different types the minimal distance dmin becomes shutter. of camera, however regardless of the Quantizing is the final step, in technology, the conversion of the analogue, which analog to digital convertors take continuous, light distribution into a digital the analogue voltage and convert the image has three main steps: continuous values into a finite range of http://upload.wikimedia.org/wikipedia/en/1/14/Airy-pattern.svg Spatial Sampling in which the Optical lenses of very high quality are values. * continuous light distribution is converted described as Spatial Sampling defines the pixel M(5&/"*N*,(/E*K(#G! resolution. 0.0 +D*8)5%"*;"'J"")*/8E#*$$#*8)0*%%#*(# # I*'4"*0(#'8):"*%#$#*;"'J"")*(785"#*$D*%*8)0*$*$)*'4"*(785"* The sensor is made up of an evenly H%8)"*(#*5(?")*;E $% % #! L F*O4"*(785"#*$D*%*8)0*$*$)*'4"*(785"*H%8)"*8/"*0(#'()5&(#48;%"*$)%E*(D $% & #$ F* spaced grid of elements, each element O4"*7()(78%*0(#'8):"*;"'J"")*%*8)0*$*(#*5(?")*;E %7() % # 7() ! L F*O4"*7()(78%*8)5%"* # 7() *:$&%0*;"*D$&)0* measure the 0.2 light falling on it as a voltage ! ! This means that optical resolution is 6). This is converted discrete ;E*#&;#'('&'($)*$D*(Figure $% ()'$*"P&8'($)*D$/ #$ F*O4&#I* # 7() !L " 3F<< to!aL F*O4(#*E("%0# # 7() " 3F<< F*M()8%%EI* " " directly proportional to the wavelength λ. value by the analogue to digital convertor. ! "QH/"##($)*D$/*'4"*7()(78%*0(#'8):"*;"'J"")*$;R":'#*;":$7"# $ % 3 F << ! F*S(54TP&8%('E*%")#"#*8/"* 7() For optical inspection the visible The resulting of" these 0.4 image is a mosaic spectrum may be used, from ~400 nm " picture elements, or pixels (Figure 7). A 0"#:/(;"0*;E " 3F< F*O48'*7"8)#*'48'*'4"*$H'(:8%*/"#$%&'($)*(#*0(/":'%E*H/$H$/'($)8%*'$*'4"* (UV) to ~700 nm (infrared). ! sensor with 2048 columns and 1536 rows 0.6 J8?"%")5'4 $ 7() % ! F* λBlue ≈ 400nm = 0.40μm λRed ≈ 750nm = 0.75μm 0.8 These values, 0.4-0.75 μm, are the best possible optical resolution. Typically 1.0 optical aberration (from non-Gaussian

This can be simplified to

optics) will result in much worse values.

Figure 3. An Airy Disk.

! M(5&/"*9*K(DD"/")'*J8?"%")5'4"#*8)0*:$//"#H$)0()5*/8)5"#F*M$/*?(#&8%*()#H":'($)*1(#;%"*!"5($)*(#*&#"0F** Figure 4. The electromagnetic spectrum, showing the

visible range from 400-700nm.

~ 1(#(;%"*#H":'/&7*#'8/'#*J('4*8HH/$Q(78'"%E* !'()* J('4 !+*$

" 9==(& % =F9 '& *8)0*")0#*&H*

" @C=(& % =F@C'& F*

!

Figure 5. Image projected by the lens of points A and B is captured by the sensor as A' and B’.

32 – Global SMT & Packaging – Celebrating 10 Years – June 2010

Figure 6. Continuous distribution (green curve) is converted to discrete voltages per pixel.

www.globalsmt.net

Title

iineo - Reaping the Awards

• Very high feeder count (264 x 8mm) • Huge pcb size (up to 1500 x 600mm) • Linear motors • Digital cameras • User Friendly Graphical User Interface • Outstanding productivity • On the fly vision • Smart nozzles • 3DPS

Europlacer is justifiably proud to have won two of the industries most prominent awards in 2008. We are thrilled that our innovative new iineo machine not only gained recognition from the industry winning two independent awards within four months, but has also fuelled 22% growth throughout the year. The latest Global SMT Award places iineo as the premier medium speed flexible SMT pick and place machine available on the market; voted by an international committee of CEM/EMS manufacturers. This follows Circuit Assembly’s award for best NPI/multi-function machine presented at April’s APEX exhibition.

2008 Global SMT Award 2009 Frost & Sullivan Award

2008 Circuits Assembly 2008 Award

2008 Global SMT Award

Circuits Assembly Award

The combination of industry leading component range, very high feeder count, large board size, class-leading software and latest technologies such as linear motors and digital cameras differentiates iineo from its competitors. If you want to keep up with the competition and discover why your peers voted iineo the best flexible machine available then please contact us today.

*feeders andsoftware software fully compatible across all Europlacer machines *feeders and fully compatible across all Europlacer machines

Blakell Europlacer Ltd 30 Factory Road Upton Industrial Estate Poole, Dorset BH16 5SL UK Tel +44 (0)1202 266600 Fax +44 (0)1202 266599 Email: sales@europlacer.co.uk

www.globalsmt.net

Europlacer Industries SAS Route de Cholet 85620 Rocheservière France Tel +33 (0) 2 5131 0303 Fax +33 (0) 2 5106 5612 Email: contact@europlacer.fr

Europlacer North America 2521 Schieffelin Road, Suite 102 Apex, NC 27502 USA Tel +1 919 362 8623 Fax +1 919 362 8628 Email: sales@europlacer-na.com

Europlacer (Shanghai) Co., Ltd Unit 2207 Floor 2 Building B No. 51 Rijing Road Shanghai Waigaoqiao Free Trade Zone P.R. CHINA 200131 Tel +86 21 5868 3500 Fax +86 21 5868 3700 Email: contact@europlacer.cn

www.europlacer .com Global SMT & Packaging – Celebrating 10 Years – June 2010 – 33

What is AOI Resolution?

described in megapixels (or millions of pixels), in this example 3 megapixels.

255 204

51 0

0

2

204

51 2

0

0

Figure 7. Voltages are converted to integer values, an 8 bit integer gives 256 discrete values.

Pixel size The physical size of a single element of the sensor, or pixel, varies between 5 and 15 μm (Figure 8). More usually, pixel size p is taken to mean the logical pixel size, which is the ratio of the dimension l of an object to the number of pixels n its projection occupies:

The logical pixel size depends on physical pixel size, optical magnification and spatial sampling. If 1 mm of a real object is projected on to 40 pixels, the logical pixel size is 25 μm For sensors with square pixels, the logical pixel size in X and Y will be identical; this is most often the case.

Figure 8. An object projected onto the pixel grid.

of pixels has a resolution of 3,145,728 pixels. Sensor pixel resolution is typically

Radiometric image resolution We have already seen the analogue to digital conversion during quantizing of the image on the sensor. Continuous values over a range become compartmentalized to discrete values. Radiometric resolution is the number of discrete levels that this

34 – Global SMT & Packaging – Celebrating 10 Years – June 2010

value may have. Commonly used sensors use an 8-bit representation, resulting in 256 different values. The higher the radiometric resolution, or the more discrete values available, the better small differences in object characteristics can be represented. (Figure 9) Algorithmic resolution Overall system resolution depends on all the factors explained above, but it is not limited by them. Smart algorithms make it possible to perform very precise measurements. Consider the imaging of a laser scan of a PCB. The scanning of the PCB produces a height profile (see Figure 10) where the height of the object scanned is directly proportional to the displacement of the line from the base line. The accuracy of simple pixel counting is limited to the logical pixel size, in the example image, the logical pixel size is 20 μm. The number of pixels between the base line and the deposit may be counted in 20 µm steps. However, this image has a radiometric resolution of 256. Using sub-pixel line detection algorithms the exact position of

www.globalsmt.net

0"E(:'"0*$)*"#$%&'!(*(#*<=*V7K*R4"/"C$/"*)&7;"/*$C*;%8:L*E(F"%#*;"'J"")*'J$*J4('"*%()"#*(#*W&8)'(G"0*J('4

<=*V7*#'"E#K*

What is AOI Resolution?

<=*V7*#'"E#K*

M$/'&)8'"%D*/80($7"'/(:*/"#$%&'($)*$C*'4(#*(785"*(#*<XYK*R4(#*78L"#*E$##(;%"*'$*0 M$/'&)8'"%D*/80($7"'/(:*/"#$%&'($)*$C*'4(#*(785"*(#*<XYK*R4(#*78L"#*E$##(;%"*'$*0"'"/7()"*"F8:'*

second order derivative. By interpolation Igor Sosman is a Software Developer E$#('($)*$C*'4"*%()"#*&#()5*#&;QE(F"%*%()"*0"'":'($)*8%5$/('47#K* E$#('($)*$C*'4"*%()"#*&#()5*#&;QE(F"%*%()"*0"'":'($)*8%5$/('47#K* of the points around the zero crossing we at ORPRO Vision GmbH specialising in Z8:4*%()"*48#*8*:"/'8()*J(0'4*J('4*#$7"J48'*;%&//"0*"05"#K*R4"*7(00%"*E$/'($)*$C*"8:4*%()"*48#*E(F Z8:4*%()"*48#*8*:"/'8()*J(0'4*J('4*#$7"J48'*;%&//"0*"05"#K*R4"*7(00%"*E$/'($)* can define a continuous function, which Algorithm design. J('4*W&('"*4(54*()'")#('D*J('4*?8%&"*8;$?"*<<=K*,'*'4"*"05"*$C*'4"*%()"*E(F"%#*;":$7"*08/L"/*8)0*C()8%%D*'4"D gives the exact point of the zero crossing in Adam Shaw is R&D Manager at ORPRO J('4*W&('"*4(54*()'")#('D*J('4*?8%&"*8;$?"*<<=K*,'*'4"*"05"*$C*'4"*%()"*E(F"%#*;":$7"*08/ C80"*8J8D*'$*%"?"%*$C*=H*J4"/"*)$*/"C%":'($)*(#*E/"#")'K* sub-pixel accuracy. Vision GmbH. C80"*8J8D*'$*%"?"%*$C*=H*J4"/"*)$*/"C%":'($)*(#*E/"#")'K* Considering the sub pixel result, a more accurate line can be calculated which is independent of the logical pixel size. The described technique can deliver a tenfold improvement in accuracy, in the * !"#$%&'($)*+)*,-+* case of a 20 μm logical pixel, the accuracy 1"/#($)2***3* M(5&/"*>*M/857")'*$C*8*J4('"*%()"*#&E"/E$#('($)"0*J('4*'4"*<=*V7* of the measurement can be up to 0.2 μm. !"#$ E(F"%*5/(0K* .$/%0* 39*-:'$;"/*<==>$* !"?(#($)2*@A*

the line can be determined. Each line has a certain width, with somewhat blurred edges. The middle of each line has pixels with high intensity (above 220) towards the edge the pixels become darker until there is no longer a measurable reflection (value of 0). Each pixel row is a one dimensional function of integer values; they can be plotted as in Figure 12a. To find the edges, the second order derivative of the line is found (Figure 12b). Edges are located at the zero-crossing of the

!"#$

885

Figure 11. A section of the white line overlaid with ! M(5&/"*>*M/857")'*$C*8*J4('"*%()"*#&E"/E$#('($)"0*J('4*'4"*< Z8:4*E(F"%*/$J*78'4"78'(:8%%D*(#*8*$)"Q0(7")#($)8%*0(#:/"'"*C&):'($)*$C*()'"5"/*:$$/0()8'"#*T#""* the 20 μm grid. E(F"%*5/(0K* ,&'4$/2*+5$/*6$#78)* +)*$/0"/*'$*0"'":'*'4"*"05"#*D"*:8%:&%8'"*#":$)0*$/0"/*0"/(?8'(?"*$C*'4"*8; "#$%&'!)*UK* 1016 "#$%&'!((FG* 884 !"?(#($)2*@A* B85"*A*$C*>* 780 *

!"#$%&'($)*+)*,-+* .$/%0*

1019

1"/#($)2***3*

39*-:'$;"/*<==>$

783

Z8:4*E(F"%*/$J*78'4"78'(:8%%D*(#*8*$)"Q0(7")#($)8%*0(#:/"'"*C&):'($)*$C*()'"5"/

! 238

229

%&$ !'()*+,-.+/$012)'3,+)4$ 0

0

15

7

0

0

0

0

228 "#$%&'!)*UK* 12

236 4

0

0

*

-?"/8%%*#D#'"7*/"#$%&'($)*0"E")0#*$)*"FE%8()"0*8;$?"*E(F"%*#(G"H*%$5(:8%*E(F"%*#(G"*8)0*/80($7"'/(:* Figure 9. Two graphs created from the same analog data, on the left with 10-bit conversion, on the right with (785"*/"#$%&'($)I*4$J"?"/*('*(#*)$'*;$&)0"0*;D*'4"7K*678/'*8%5$/('47#*78L"*('*E$##(;%"*'$*E"/C$/7*?"/D* 8-bit conversion, scaled to 10-bits.

* M(5&/"*3=*Z8:4*E(F"%*/$J*(#*8*$)"Q0(7"#($)8%*C&):'($)*78EE()5* Figure 12. Pixel E(F"%*:$$/0()8'"#*()'$*:$//"#E$)0()5*E(F"%*()'")#('("#K*-)*'4(#*(785"*E(F"%* values plotted in X, ()'")#('("#*8/"*/"E/"#")'"0*;D*;%8:L*0$'#K*

E/":(#"*7"8#&/"7")'#K*

with intensity in Y (black spots) and 12b. Second order * derivative of the line ! M(5&/"*3=*Z8:4*E(F"%*/$J*(#*8*$)"Q0(7"#($)8%*C&):'($)*78E is found.

!

Figure 10. A height profile obtained by imaging a reflected laser beam from paste deposits of a PCB. The thin M(5&/"*A*B8#'"*N"(54'*B/$C(%"*$;'8()"0*;D*(785()5*$C*8*/"C%":'"0* E(F"%*:$$/0()8'"#*()'$*:$//"#E$)0()5*E(F"%*()'")#('("#K*-)*'4(#*(785"* line is the board, the thick lines represent 3 distinct deposits. ;"87*C/$7*8*E/()'"0*BOP*&#()5*%8#"/Q#:8))()5*0"?(:"K*R4"*%$)5*'4()* ()'")#('("#*8/"*/"E/"#")'"0*;D*;%8:L*0$'#K*

* H(5&/"*33*H(/#'*8)0*#":$)0*$/0"/*0"/(?8'(?"

4$/(G$)'8%*%()"*/"E/"#")'#*'4"*;8#"*;$8/0*%"?"%K*R4/""*'4(:L*%()"#*8/"* /"C%":'($)#*C/$7*$;S":'#*J('4*?8/($&#*4"(54'#K*

International Conformal Coating Workshop !

www.industryworkshops.com

I4"*"05"#*8/"*%$:8'"0*$)*'4"*J"/$K:/$##()5*$C*'4"*#":$)0*$/0"/*0"/(?8'(?"

+785()5*$C*8*%8#"/*#:8))"0*E8#'"0*BOP*E/$0&:"#*8*4"(54'*E/$C(%"*T#""*"#$%&'!(UH*J4"/"*'4"*4"(54'*$C*

+)'"/L$%8'()5*L$()'#*()*'4"*(77"0(8'"*?(:()('M*$C*'4"*J"/$K:/$##()5*D"*0"'"

November 16th-18th 2010 Deurne The Netherlands

'4"*#:8))"0*$;S":'#*(#*E/$E$/'($)8%*'$*'4"*0(#'8):"*;"'J"")*'4"*;8#"*%()"*8)0*'4"*0"?(8'"0*%()"#K*-;?($&#%D*'48'* D4(:4*L/$?(0"#*8*#&;KL(O"%*"05"*%$:8'($)P*Q8#"0*$)*'4"*#&;KL(O"%*/"#&%'*C$/*"05"*%$ %()"*%$:8'($)*(#*:8%:&%8'"0N*D4(:4*(#*8%/"80M*%$5(:8%*L(O"%*#(J"*()0"L")0")'G* 8::&/8:D*$C*8*#(7E%"*E(F"%*:$&)'()5*(#*%(7('"0*;D*'4"*%$5(:8%*E(F"%*#(G"K*R4&#*%$5(:8%*E(F"%*#(G"*$C*'4"*(785"*

I4"*#87"*#&;KL(O"%*8%5$/('47*(#*8LL%("0*'$*'4"*4"(54'*%()"#G*H()8%%MN*8;#$% The use of electronics is no longer limited to environments that are friendly to the electronic circuit 0"E(:'"0*$)*"#$%&'!(*(#*<=*V7K*R4"/"C$/"*)&7;"/*$C*;%8:L*E(F"%#*;"'J"")*'J$*J4('"*%()"#*(#*W&8)'(G"0*J('4*

board. These days, circuit boards are confronted with aggressive :8%:&%8'"0*8#*8*0(CC"/"):"*;"'D"")*#&;KL(O"%*8::&/8'"*;8#"*8)0*4"(54'*%()"*%$:8'($) environments that shorten the lifetime of an electronic circuit drastically. Circuit boards can be protected against these influences I4"*0"#:/(;"0*8%5$/('47*:8)*L/$?(0"*&L*'$*'")C$%0*8::&/8:M*(7L/$?"7")' M$/'&)8'"%D*/80($7"'/(:*/"#$%&'($)*$C*'4(#*(785"*(#*<XYK*R4(#*78L"#*E$##(;%"*'$*0"'"/7()"*"F8:'* using conformal coating. During this international event, speakers'4(#*"O87L%"*('*(#*<*T7P* from leading companies in the E$#('($)*$C*'4"*%()"#*&#()5*#&;QE(F"%*%()"*0"'":'($)*8%5$/('47#K* conformal coating industry will give their view on latest developments in the industry. ! <=*V7*#'"E#K*

Z8:4*%()"*48#*8*:"/'8()*J(0'4*J('4*#$7"J48'*;%&//"0*"05"#K*R4"*7(00%"*E$/'($)*$C*"8:4*%()"*48#*E(F"%#*

Register NOW! Learn about the process and be prepared!

J('4*W&('"*4(54*()'")#('D*J('4*?8%&"*8;$?"*<<=K*,'*'4"*"05"*$C*'4"*%()"*E(F"%#*;":$7"*08/L"/*8)0*C()8%%D*'4"D*

• Choice of coating material C80"*8J8D*'$*%"?"%*$C*=H*J4"/"*)$*/"C%":'($)*(#*E/"#")'K* • • • • • • •

Cleaning before coating Application method Curing Quality control Repair * Automation M(5&/"*>*M/857")'*$C*8*J4('"*%()"*#&E"/E$#('($)"0*J('4*'4"*<=*V7* E(F"%*5/(0K* Safety

© autor: MgA. Aleš Říha / design studio / Blansko / 2006

DCT s.r.o. / grafický manuál

str. 15

2.4 / označení společnosti / doprovodné logo / barevné varianty Z8:4*E(F"%*/$J*78'4"78'(:8%%D*(#*8*$)"Q0(7")#($)8%*0(#:/"'"*C&):'($)*$C*()'"5"/*:$$/0()8'"#*T#""*

"#$%&'!)*UK*

DCT development chemical technologies

DCT

DCT development chemical Q U A L I T Y S I N C Etechnologies 1989

Internat coating workshop 2010.indd www.globalsmt.net development chemical

1

DCT development chemical

*

Doprovodné logo společnosti k vnější prezentaci. Uvedené varianty rozlišují realizační možnosti jednotlivých aplikací a jejich použití při rozdílných technologiích zpracování s ohledem na použitou velikost, stejně jako pro zdůraznění či potlačení apelu sdělení.

!



7-5-2010 15:20:58 Global SMT & Packaging – Celebrating 10 Years – June 2010 – 35

Teaming for improved ruggedized product reliability

Teaming for improved ruggedized product reliability Dennis Gradler, Kimball Electronics Group, Jasper, Indiana, USA When industrial ruggedized products fail in the field, printed circuit board assemblies (PCBAs) and/ or subassemblies are typically not repairable because encapsulation or conformal coating processes make rework impossible. As a result, building a reliable product from day one is desirable. The challenge becomes identifying weak links in the product design. In some cases, the issue may be related to manufacturing, but in other cases the issue may be related to mishandling or hostile conditions in the field. When manufacturing is outsourced, the necessary information needed to understand the root cause of field failures may not be clearly communicated between the customer and the contractor. This article looks at how Kimball Electronics Group is changing that dynamic by applying tools such as failure mode and effects analysis (FMEA) and product qualification processes such as highly accelerated life testing/ highly accelerated stress screening (HALT/HASS) to support early identification of design-based reliability issues for its industrial products customers. The benefits of this process are illustrated in a case study of board-level design modifications made as a result of early identification of potential reliability issues in an industrial product.

Introduction The process starts with an initial design review meeting to ensure that both the customer and contractor agree on the PCBA’s desired performance characteristics. This drives the product specification. In this example, the product was a redesign of an existing product that had been in the field for five years. Strong focus was placed on bringing predecessor design failure modes and failure records into consideration in developing the new design. The contractor’s field return analysis discipline simplified this process. Goals for the new design included conversion to RoHS compliance, elimination of failures driven by mishandling in the field and improvements in design for manufacturability (DFM) related to both the RoHS conversion and changes in placement equipment. Additionally, the customer had a buildto-order (BTO) requirement that caused some PCBAs to sit in queue within the manufacturing process. The design

qualification process needed to evaluate whether or not the additional queue time impacted solderability. Design changes included: • Converted the PCBA to RoHS compliant material. • Ground lines within the PCB had been shortened to address previously seen issues in EMI performance. • Free standing pins were replaced with a molded header. The product could be field programmed, however if a poor connection was made due to bent pins, field programming could become corrupted and generate a nonfunctional return. • Moved/reoriented small footprint chip devices from the edge of the PCBA. The prior design had a snap-from panel, rather than routed break to reduce cost. The change in layout was a DFM improvement. • Converted current sensing devices from axial lead precision shunt resistors to an SMT sense resistor.

Figure 1. Picture of cross section of two PCBs with differing Tg values.

36 – Global SMT & Packaging – Celebrating 10 Years – June 2010

www.globalsmt.net

Teaming for improved ruggedized product reliability

Figure 2. Pad layout of area under PowerFET AFTER changing the pad size.

One item present on the previous design that didn’t change was the pass mark at final functional test. The design review identified this as a best practice and mandated it as a required practice. Validating assumptions Following PCBA layout, an FMEA qualification plan was developed. For each characteristic identified, there was a set of tests defined to expose the part to conditions that would generate a failure

Figure 3. Pad layout of area under PowerFET prior to layout change to increase (slightly) the pad size.

mode. Since some of the failure modes would not be generated without longterm exposure to stressful environmental conditions, accelerated life testing was used. In this case the chosen tools were HALT and HASS profiling. A control group of PCBAs with a known performance level was tested under the same conditions as PCBAs utilizing the new design. The goal was to select new design options that had the same or

38 – Global SMT & Packaging – Celebrating 10 Years – June 2010

better life as the control group units and to understand which components failed first. The reason for interest in initial component failures was to investigate whether it was a failure driven by the component or by the attachment method. In addition to validating the design changes, testing was done to validate assumptions on: • Thermal exposures. Design specifications called for the PCBA to withstand up to four thermal exposures

Global SMT & Packaging – www.globalsmt.net March 2010 – 38

Teaming for improved ruggedized product reliability

during manufacturing. • Effect of aging on solderability. HASS was used to determine the effect of aging on solderability with various PCB finishes to support the additional wait state requirement driven by BTO. • Adherence of potting material. Effect of process variations during wave soldering that could impact adherence of potting material. The impact of solder mask finish (glossy vs. matte) was also evaluated. The HALT powered test found that powerFETs were overheating. This drove a change in the PCB to increase the thickness of the copper under that particular component. The design team anticipated that the change would solve the problem and performed a HASS test using a new control group and variant. They found marginal improvement because in converting the PCB to RoHS compliance, a change in the laminate increased its Tg. The unintended result of that change was increased thermal resistance, which decreased the anticipated thermal

www.globalsmt.net

dissipation associated with the increase in copper thickness. The design was respun again with a larger area of copper increase to compensate for this and HASS showed the desired result was achieved. The HALT included vibration. Results of the test indicated that some failures were precipitated by the forming of the leads on a radial capacitor. This drove changes in the forming tooling to increase the radius of the bend and remove small nicks that were creating the stress risers which were driving premature mechanical failure. The testing also validated the contractor’s recommendation to convert the axial lead precision shunt resistor to an SMT sense resistor. The customer had been reluctant to make the change, but the data indicated that the alternative recommendation performed equally well. The SMT alternative was cheaper and more manufacturable. Results Use of accelerated life testing helped the team quickly identify which of their design assumptions were correct and

which needed to be modified. The biggest surprise in testing results was the impact of the RoHS conversion on thermal dissipation. Being able to correct the issue at the design stage, rather than after it showed up as a root cause of field failures, saved both money and time. The product subsequently won an industry best-in-class design award. The first year reliability rate data showed significant improvement over the prior product. The first year reliability rate goal for the prior product had been 99.7%. The actual first year reliability of the new product was 99.91%, based on 73,000 assemblies in the field. Dennis Gradler is Kimball Electronics Group Industrial Solutions’ director of business development. Prior to joining Kimball he was (Production Manager / Technical Team Leader) with Flextronics and has over 20 years in the electronics industry in a variety of management and technical positions. He holds a B.S. degree from Hilbert College. He can be reached at dennis.gradler@kimball.com.

Global SMT & Packaging – Celebrating 10 Years – June 2010 – 39

Show report: NEPCON lights shine brightly

Show report: NEPCON

shine brightly

lights

Photos courtesy Reed Exhibitions

NEPCON Shanghai opened its doors to a flurry of activity on Tuesday, April 22nd. Healthy domestic demand coupled with the return of overseas consumer demand made for an exciting and busy week. However, this year there were some notable differences. The quality of Chinese manufactured equipment is definitely on the rise. We saw some new ovens, printers and inspection equipment that were equal to, and in some cases exceeded, their western counterparts. The major theme this year was LEDs— almost every manufacturer had a printer or mounter specifically tailored for the LED market. The LED market is destined to become one of the biggest industries for SMT equipment and materials in the next few years. Like the PV industry, LEDs will open up a whole new seam of opportunities for manufacturers of lighting, flat panel TV and signage. The big difference from PV, however, is the LED business is marketdriven as opposed to PV, which is driven by government policy. Here are some of the key developments from the show floor: MIRTEC continued the rollout of their new 15-megapixel camera on their MV 7L AOI system, which was first de-

buted at APEX in Las Vegas. The company established their own in-house camera development team and plan to utilize the latest camera technologies across their product range. The ISIS (Infinitely Scalable Imaging Sensor) has an 18 µm lens capable of inspecting a 87 x 67 mm board in 55 seconds. JUKI unveiled the JX100 LED pick and place machine. Particularly suited for the LED market with its 800 mm wide board size, the JX100 places 15,300 cph (IPC). It has an accuracy of ±0.05 mm at 3 sigma. The JX100 has a special library of nozzles for all types of LED components and has a feeder capacity of 30 + 30. Another new development on the JUKI booth was a fixed feeder bank option, reducing the cost of trolleys for those companies doing mid- to high-volume manufacturing. The fixed feeder bank has splicing functions built-in. JUKI also gave us a preview of the KE3020L, which is due to be released in July. The KE-3020L is fitted with electric feeders

40 – Global SMT & Packaging – Celebrating 10 Years – June 2010

that can handle IC placement and a wide range of other components from 01005. The electric feeders are faster and have a more stable ratio compared to the mechanical feeders. The KE-3020L is fitted with 40 + 40 feeders and has a placement speed of 18,000 cph (IPC) SONY also debuted a range of placement machines, and printers for the LED market. The SI-F130AI/WK LED mounter has a maximum board width of 600mm and a placement rate of 25,000 cph. It can accommodate 40 + 40 feeders. SONY also introduced a 700 mm wide stencil printer for the large flat panel market. Europlacer didn’t need to develop a new machine for LEDs. The inneo with its 1610 x 600mm board size is tailor made for this new market and is already finding new customers. GKG had one of the most interesting new products at the show. Again, targeted at the LED market, the G5 Pmax is a stencil printer that can print board sizes up to 1000 x 800 mm. The manufacturers

www.globalsmt.net

Title

Advanced SMT Solutions for Electronics Assembly As a multinational distributor, SEIKA has a strong reputation for providing high-performance and quality SMT solutions at cost-effective pricing. We even provide every product with full technical support, installation, and engineering services. Our reputation along with our partners is solid in Asia and Japan, and now it’s time the rest of the world discovers what the East already knows – our advanced machinery and materials for the electronics industry.

Hioki Flying Probe Tester

Visit us at

www.seikausa.com to see more of our products!

McDry Dry Cabinets

• High-speed, fixture-less testing • Fine pitch probing capability of 0.2mm

• Store MSDs safely without nitrogen • Conforms to IPC/JEDEC J-STD 033b.1

Sayaka PCB Router

Hirox Digital Microscopes

• Low stress depanelization • Easy software programming

• Inspect objects in 360° with patented Hirox design • BGA, QFP, cross section inspection with measurement

YJ Link Conveyors • Patented magnetic roller mechanism limits stress on PCB’s during transfer • Safety covers with interlocked doors

Anritsu 3D Solder Paste Inspection Machine • High-speed, ultra-high resolution • Easy programming, auto calibration

Seika Solder Paste Recycling System • Recover 90% of your solder paste waste • ROI within months!

Atlanta Office: 3030 Business Park Drive, #3030-B Norcross, GA 30071 Phone: (770) 446-3116 Fax: (770) 446-3118 Los Angeles Office: 3528 Torrance Blvd., Suite 100 Torrance, CA 90503 Phone: (310) 540-7310 Fax: (310) 540-7930

www.globalsmt.net

Global SMT & Packaging – Celebrating 10 Years – June 2010 – 41

Show report: NEPCON lights shine brightly

claim it is the biggest stencil printer on the market. The Pmax won two EM Asia awards during the show. WKK is no stranger to innovation. The difference this year is that the innovation was developed by them and not a third party equipment vendor. The iFlow 1020N is a 12 zone oven (10 heating + 2 cooling) that operates as reliably as any other oven they have sold in the past, and the price point is considerably more competitive. Complementing the iFlow 1020N is a new x-ray that has an x-y table,

a moving image intensifier that can achieve acute angles up to 60˚. KYZEN have seen significant growth in Asia driven by an increased demand for reliability, smaller geometries and increased conformal coating. Asia manager Erik Miller noted that “quality is increasingly becoming more important in China. They are also becoming more environmentally-friendly and have a desire to use proven chemistries, rather than cheaper solvents that caused deaths recently as a result of using Hexane.” All KYZEN products are hexane-free. MICROSCAN is another company on an aggressive growth path. Since acquiring the Siemens vision division two years ago, the company has expanded rapidly in the areas of electronics, life sciences and automotive. In the past 12 months they have registered over 60 patents and have a further 30 in the works. MICROSCAN

42 – Global SMT & Packaging – Celebrating 10 Years – June 2010

provides a range of vision systems for factory automation and inspection. Their key products employ track, trace and control and can perform anything from simple bar code scanning to full AOI inspection. Acculogic unveiled the Scorpion 980 DXI flying prober, which is 40% faster than its predecessor. The Scorpion is a double-sided board tester and also performs ICT and functional test. The maximum board size is 26” x 41” making it the largest flying probe machine on the market. Cyberoptics demonstrated the new QX500 AOI system—using SIM modules and strobe lighting, it seamlessly performs inline inspection at 100 cm per second. The QX500 uses a 5-megapixel camera and has a resolution of ±17 µm. VI Technology demonstrated their new 2K HS (high speed) AOI system. With a maximum board size of 350mm², the 2K HS is aimed at the Asian cell phone market. —Trevor Galbraith

www.globalsmt.net

Title

SMT / PAC HYBRID KAG stan ING 7-53 d 1B

www.globalsmt.net

Global SMT & Packaging – Celebrating 10 Years – June 2010 – 43

SMT Answers

SMT Answers SMT Answers, found online at answers.globalsmt.net, offers a place for members of the electronics manufacturing community to ask and answer questions—it’s a community-based ‘help board.’ Registration is not required for participation. Here are some recent questions and answers. Jump online any time to ask your own questions or help others out. When we solder FR1 board, we are facing problems with bubbles. What will be the possible reasons and how do we eliminate this issue?

during separation, the stencil will release under its own tension behind the squeegee.—Stephanie Henninger, Director of Technical Services, IIT, Inc.

A: Most likley humidity. Check your screen printers humidity and temprature controls and make sure they are functioning properly. This has been the problem when we had bubbles or blow holes. This may require a solder paste brand change. —jk A: The laminate might have absorbed moisture. You could try baking it before use. Removing the stencil is making peaks in paste—We are getting small peaks of solder paste at the ends of the deposits when we separate the stencil from the board on 0.020” pitch print. What’s the best way to solve this? A: Try reducing your separation speed. A: You’ve got “dog ears.” I expect you have rectangular apertures and the paste is adhering to the stencil in the corners. Try oblong apertures which typically give you better paste release. A: What thickness of stencil are you using? If it’s 6 thou (0.15 mm) then try a 5 thou (0.127 mm) stencil. A: Try and determine if the PCB is held stationary during stencil release. If there is lateral movement you will experience deformation of the solder deposits with the slightest movement. What tooling support are you currently using? A: To insure repeatble prints, vacuum supports of the PCB will eliminate movement of the PCB upon stencil separation. A: If you are printing on contact, try printing off contact, with a snap off that is equal to three times the stencil thickness. Rather than having a shift

Solder not flowing w/ENIG board. When we are wave soldering a double sided multilayer ENIG finished pcb, we are having a problem where the solder won’t flow from the bottom to the top side of the through hole. Advice? A: Have had you problem with other surface finishing too? Penetration of the flux in the hole OK? Preheat of the board OK? Dipping of the board in the solderbath OK? (2/3) Pls. check this: http://www.globalsmt. net/troubleshooter/wave_soldering.htm A: I presume its because youre using leadfree solder, the surface tension properties of which mean it won’t flow up a through hole to give you maximum reliability. Use proper tin-lead solder which wets the surface and wicks up the hole, and does it at a lower temperature.

Banning lead from paint and petrol— fine. Banning lead from solder was one of the stupidest EU decisions. The decision was made because lead can be made to leach out of CRT glass with acetic acid, but it turns out that in practice lead in landfill does not leach out. We refuse to jeopardise the reliability of our products and insist on using tin-lead solder. Making unreliable products does not help our customers or the planet. Replacing the lead with tin, which costs 10 times as much because it takes 10 times the resources to extract, does not help the planet. So long as you drive down the street and see two square meters of lead flashing on 90% of the roofs and so long as the Houses of Parliament have two acres of lead on them, all out in the rain, that remains our decision.—Paul Mardon MA (Eng Cambridge), Managing/Technical Director, Pulsar Light of Cambridge Ltd. A: There is issue of hole diameter. It is equal to lead size. It should be greater then lead. Please check hole diameter. Thanks. —Narendra Losing Test points fast? We are having more trouble keeping test points on our PCBs as high-speed SerDes buses move to 6gig and PCIe Gen 3 is 8 Gig. Anybody have ways to keep test points at 6, 8 or soon 10 Gig on SerDes so I can keep using my ICT? A: Do you have back drilled vias? A: It seems your ICT has reached its limitations. My suggestion: purchase a Boundary Scan system, either stand-alone or integrated in your ICT. That’ll be the solution.... A: You can use flying prober, which can access small component pads (3 mil only) and remove test points.

These questions and answers are the opinion of the author(s). The Publisher does not accept responsibility for the accuracy or veracity of the information contained on this page.

44 – Global SMT & Packaging – Celebrating 10 Years – June 2010

www.globalsmt.net

Title

FCT Assembly’s group of companies are premier suppliers of stencils, precision parts, and lead-free soldering products for the electronics industry with the technical expertise to help troubleshoot your most challenging problems.

Winner of 2008 and 2010 New Product Introduction Award Winner of 2009 Innovation Award

Winner of 2008 Innovation Award Winner of 2009 Global Technology Award

Winner of 2008 Vision Award

Winner of 2007 Global Technology Award

Winner of 2008 Advanced Packaging Award

A-Laser

Leader in Precision Cut Parts An innovative laser cutting company specializing in precision thin metal and thin plastic laser ablation. • • • • •

Precision Cut Parts Flexible Circuits High Precision Metal Parts High Precision Plastic Parts High Precision Polyimide Parts

www.fctassembly.com

www.globalsmt.net

Global SMT & Packaging – Celebrating 10 Years – June 2010 – 45

Case Study: High quality manufacturing need not mean high production costs

Case Study: High

quality manufacturing need not mean high production costs If you make products for the automotive medium to high volumes. Assembléon’s 24/7 technical support,” says market, quality and reliability are not Alps had been using Assembléon’s James Waddilove, Alps’ RF production negotiable. The costs of field returns previous generation FCM equipment, unit manager. “We do most calibration, are out of all proportion to component along with Fuji CP3, CP4 & CP6 maintenance and repair actions in-house, costs, so for automotive customers Right machines. This time, they decided on so don’t often need technical support. First Time manufacturing is an absolute an all Assembléon line-up. They chose However, when we do, we need instant requirement. Because of this, Alps the AX-301 and AX-501 high volume answers and instant solutions to problems. Electric Co. has created a reputation for machines, with the Topaz xi and xi2 for We have constant Internet and phone quality in its subassemblies and other (amongst other things) their useful coaccess to Assembléon’s engineers, and automotive products that it protects planarity testing for QFPs. The true parallel they can link into our system straight jealously. And as a decidedly high-end placement on AX-301 and AX-501 has through the router. This is a very useful manufacturer, it builds the same high established itself as the industry benchmark feature and allows Assembléon to test the quality into its radio frequency tuners for placement quality at high output. network remotely and even upload software and low-noise block converters (LNBs) for The machines combine speed, flexibility, revisions onto our system. Assembléon’s the consumer market, too (Figure 1). The accuracy and low defect rates with the partner, Elso, provides valuable local company produces for many household industry’s lowest cost per placement. support with site visits when needed, and name manufacturers, including Samsung, “As important, though, was hands-on training.” Sony, Sharp, Ford, Perfecting the art Volvo, Volkswagen, of electronics Technisat and Kathrein. Waddilove stresses Alps Electric Alps’ commitment Czech has a to “perfecting the Sebranice-based art of electronics.” manufacturing plant That means the that has consistently best balance achieved best-in-class between price, manufacturing. The functions, quality company recently and environmental needed to modernize considerations, like its pick & place energy and resource equipment, and conservation. the single major The low power requirement was to consumption of retain or improve Assembléon’s quality levels, but A-Series (around half without increasing that of its nearest manufacturing competitor) was costs. That of therefore a bonus, course also meant but not the main keeping uptime and reason Alps made production efficiency their decision. at a maximum. Alps Assembléon’s also needed a futureA-Series has a proof equipment fully controlled platform for placing pick-to-place cycle the smallest possible using a parallel components like Figure 1. Alps Electric is organized into three business units: automotive, consumer RF and Mechatronics/ robot system and 01005 chips that materials/process. constant component will be needed in

46 – Global SMT & Packaging – Celebrating 10 Years – June 2010

www.globalsmt.net

vjt.com

VJT REWOR

Title

www.globalsmt.net

VJ Technologies Rework Systems are the industry’s rework standard. The Summit Series is designed to meet tomorrow’s rework challenges today. The affordable 400 Series platform reworks a wide range of SMT and Through-Hole applications. Leading EMS and OEMs choose our systems for industry leading performance, proven reliability and uptime. Concerned about your Return on Investment? You need to look at VJT Systems!

SMT / PAC HYBRID KAG ING stan d 6306

VJ TECHNOLOGIES

Because Performance Matters! Global SMT & Packaging – Celebrating 10 Years – June 2010 – 47

Case Study: High quality manufacturing need not mean high production costs

board, so it helps to control each part individually. The AX-301 and AX-501 have a placement force that is adjustable between 1.5 N and 8 N. Although Alps does not normally need to adjust the placement force, it is essential for reliably placing components like connectors on the same board as micro-miniature chip components.

monitoring to ensure high production yield. The machines are designed for sixsigma accuracy, with automatic calibration maintaining accuracy even with changing environmental variables like temperature. There is artwork recognition, multi-level bad-mark reading and adaptive pick. High-resolution laser alignment brings placement accuracy of 40 microns, even in 01005 applications. “The Assembléon machines have greatly helped us improve our quality levels. These were previously better than 300 ppm for the whole production line (screen printing, pick & place and reflow soldering) which at the time was very competitive,” says Waddilove. “The A-Series machines have helped us cut that by an order of magnitude to only 27 ppm by, for example, virtually eliminating missing and misplaced components. To reach that figure, we made several major improvements to our lines, including tighter control of solder paste delivery and improving the cleanliness of the production room to below ten 5-micron particles per cubic meter.” Maximum output per hour is 165k components/hour for the AX-501 and 99k for the AX-301 (IPC 9850 output is 121k for the AX-501 and 77k for the AX-301). “In 2007, we had eight production lines making a total of 170 million placements a month. In 2008, we added another five robots to each of the AX-301 and AX-501 machines. That pushed up production levels to 240 million components from the same eight lines and even with the same machine footprints,” adds Waddilove. “This gave us the major benefit that we no longer needed to subcontract work out. It is always difficult maintaining in-house quality levels when you farm out manufacturing to subcontractors; keeping production in-house eliminates a whole lot of possible problems.” Most of Alps’ products combine large and small components on the same

Instant support “We have been greatly impressed by Assembléon’s field support,” remarks Waddilove. “It doesn’t feel at all like a normal customer/supplier relationship but much more like a true partnership. Assembléon has greatly helped us with our continuous process improvement program, with the stress being on optimizing the production line as a whole. That has been essential for us, since we have an absolute need for reliability of both equipment and service.” “We have very strict maintenance routines, regularly running the calibration software and checking equipment like index and stepper motors,” continues Waddilove. “We already had good experience of Assembléon’s ITF intelligent tape feeders from our FCM machines. We quickly calibrate and repair the feeders, with automated software messages alerting us when to change spare parts. With over 1000 feeders in the factory, we perform routine maintenance on each of them at least every two months. That guarantees that our production runs smoothly at all times.” The AX-501 and AX-301 allow up to 260 and 156 tape feeding positions respectively. Alps has used up to 240 of these on the AX-501 and 144 for the AX-301. It has also made extensive use of Assembléon’s Tray Extension Module, which allows up to 47 tray positions. The machines can be configured and re-configured in 6k steps from 30k to 77k (AX-301) or 121k (AX-501) components/ hour to match exact capacity requirements.

48 – Global SMT & Packaging – Celebrating 10 Years – June 2010

Fast changeover between family products Alps tends to produce long runs of products from a single family, and so doesn’t have to change component tapes and trolleys between runs. Changeover times are only 2 to 3 minutes between products of the same family. Changeovers between product families need to be made less often. They involve additional actions like opening up and cleaning the screen printer, and changing trolleys and occasionally robot heads “The average changeover between families only takes around 10 to 15 minutes. That includes checking the first board, along with all the actions we need to take for traceability – essential for automotive products,” says Waddilove. “We actually have total traceability, logging every change to the process including board and component suppliers, tapes, screens, solder batches, and even operators. That is something else that subcontractors find very difficult or even impossible.” Assembléon’s Management Information System helps Alps optimize its factory processes efficiently. That helps minimize parts consumption and optimize maintenance practices and operational processes. The company’s CoOps program helps improve Costs of Operation. It also helps get the best from equipment by optimizing output and yield of the entire line to maximize Value of Operations. “With a total defect rate of 27 ppm for equipment that places an average of 1-2 billion components a year, we believe that our reliability is something special” concludes Waddilove. A belief confirmed by Assembléon: even with the single-digit ppm rates of Assembléon’s A-Series, a whole line defect rate of below 30 ppm for such high volumes is virtually unique in the industry.

www.globalsmt.net

Title

www.globalsmt.net

Global SMT & Packaging – Celebrating 10 Years – June 2010 – 49

New Products

New products MYDATA announces Job Sequence Optimizer MYDATA has released MYPlan version 4.1, which includes a new Job Sequence Optimizer. The powerful optimization algorithm will calculate the best production sequence and changeover strategy, for any mix of products and batch sizes. The software eliminates unnecessary feeder movements while maintaining highest possible uptime and throughput, and in that way saves both time and resources. The new module will automatically calculate an optimized job sequence, using an advanced optimization algorithm that takes both machine speed and feeder loading effort into account. Jobs that are suitable to run together based on part commonality, will be placed in family kits. Other jobs will be run separately, with different changeover strategies depending on batch size and priority. Prototypes, large batches, variants of similar products, it doesn’t matter. MYPlan 4.1 will find the fastest way to get the job done, with a minimum of manpower! www.mydata.com New SIPLACE import function for irregular BGAs

Henkel’s Multicore LF620 leadfree solder paste sets the new benchmark for the lead-free era Henkel has developed and launched Multicore LF620: a new lead-free solder paste that effectively delivers on a broad range of demanding requirements, essentially offering a lead-free paste that has it all. This latest product from the global materials leader is a no-clean, halide-free, Pb-free solder paste that has a broad process window for printing, reflow and humidity resistance. In fact, the rigorous engineering at the foundation of Multicore LF620 ensures its consistent print performance with minimal hot slump even in regions with temperatures of 30°C (86°F) or more and relative humidity (RH) upwards of 80%. This makes Multicore LF620 well-suited for electronics firms that wish to use a single material for their worldwide operations, as its performance is unfailing regardless of extreme climate changes. www.henkel.com/ electronics

and significantly reduces the time required to process irregular BGAs. Importing the design data and the X/Y coordinates for each ball directly into the SIPLACE Pro programming system prevents transcription errors and significantly speeds up the time required to describe irregular BGAs. As a result, the whole line becomes a lot more productive—especially for new product introductions. www.siplace.com Customer feedback tells Manncorp to add intelligent soldering to product mix

Until now the irregular ball distances have made irregular BGA devices difficult and time-consuming to describe and program. For these components, Norbert Heilmann, SIPLACE technology scout, and the SIPLACE team in close cooperation with Todd Harris and the Intel Customer Manufacturing Enabling Team have developed a new solution that enables the SIPLACE Vision Teaching Station to import the Intel design data directly. This avoids transmission errors

Through a recent customer survey and other market research, Manncorp has learned that selective soldering systems rank high on equipment buyers’ wish lists. As a result, IS-450 is now part of the company’s extensive equipment line. The IS-450 automatically solders through-hole components onto mixed technology PCBs using an under-board mini-wave that precisely solders connectors, capacitors and

50 – Global SMT & Packaging – Celebrating 10 Years – June 2010

high-power devices onto boards at lead-free process temperatures of 250˚ to 330˚C. The IS-450 is quick to achieve payback since it solders from three to eight times faster and with higher accuracy than hand soldering. Defects common to both hand and wave-soldered boards, such as bridging, lifted pads, measling, etc., never occur with the IS-450. The system is introductorypriced at $59,995, valid until June 14, 2010. www.manncorp.com Multitest introduces e.services to optimize spare parts processing Multitest introduces e.services, the new online tool created to significantly save costs and time in spare parts processing. The easy-to-use online service allows users to minimize efforts for spare parts in both the operation and purchasing departments. Additionally, the online tool makes all related information readily available and easy to find. e.services optimizes the spare order process, and is an excellent real-time planning basis for lead times. With e.services, all necessary information regarding configuration requirements and part updates are easily accessible. Users may create online RFQs and track their order status at any time. www.multitest.com/e.services Universal’s Dimensions Linechart identifies production inefficiences Universal Instruments has bolstered its Dimensions line software suite with

www.globalsmt.net

the introduction of Linechart™, a performance-monitoring software module designed to increase utilization rates to over 90%. This new multi-vendor reporting software provides complete visibility into all production lines and quickly identifies factory inefficiencies. Linechart helps to maximize utilization by monitoring production lines and providing graphical feedback for several key performance indicators across both Universal and non-Universal pick-and-place equipment. When productivity falls below acceptable levels, the deficiency is easily identified. Linechart displays data down to the feeder and nozzle level, taking all the guesswork out of debugging issues. www.uic.com Practical Components supplies Newly Updated AIM Print Test Board and Kit Following the success of their 2007 test board and kit, Practical Components and Aim Solder have updated their offering with a new AIM print test board and kit that is designed to include many printing challenges commonly found in manufacturers’ assemblies. The updated version includes new and challenging component technologies that mirror reallife production environments. Added in the updated version are 0.4 and 0.5 mm pitch FusionQuad components, DualRow MLF, 01005 and 0201 resistors as well as other new components. Additionally, the kit contains BGA and microBGA pads, both having circular and square pad designs to test paste release. www.practicalcomponents.com Tests of multi chip modules GOEPEL electronic introduces new features to specially support hierarchical tests of multi chip modules (MCM) as new extension of its software platform SYSTEM CASCON™. The enhanced tools provide a hitherto unrivalled automation level for the generation of module and board centric Boundary Scan tests based on hierarchical library models. “In practice, multi chip modules play a highly important role to implement system-on-chip designs with integrated IEEE 1149.1 structures. Our new system features help to improve the efficiency of hierarchical test generation”, says Thomas Wenzel, managing director of the Boundary Scan division of the GOEPEL electronic GmbH. The MCM models’ full independence from target board design ensures a complete portability of the entire package, and releases users from handling

www.globalsmt.net

hierarchical CAD and Boundary Scan data. www.goepel.com Machine Vision Products announces new software enhancements to existing AOI product portfolio Machine Vision Products (MVP) announced new features within its version 5 software suite and computer technology. As inspection technology drives the need for higher rates of processing power due to increasing performance demands MVP has now introduced 64-bit computing technology to its highest end products. The new 64-bit operating systems will now come with a standard 12 Gig of memory with expansion capabilities up to 72 Gig of memory. The new software also includes integrated Gerber translation utilities, giving users the ability to generate full, production ready, 3D inspection programs from stencil data within five minutes. www.machinevisionproducts.com Ultimus II applies consistent amount every time, for higher output with less waste EFD Ultimus II Workstation.jpg Accurate, consistent application of cyanoacrylate is very often a critical in production, due to low viscosity of the liquid. Nordson EFD’s Ultimus II dispensing workstation solves this problem by using a precisely timed air pulse instead of guesswork to determine how much material is dispensed. For optimal control of thin fluids the system has a 0-15 psi ( 0-1 bar) psi pressure regulator and uses a microprocessor-based digital timer with four decimal places for exceptional control of deposit size. Cyanoacrylate is dispensed from a syringe reservoir that can be held like a pen or mounted on an optional arm to leave the operator’s hands free to position or assemble parts. The Ultimus II is an efficient, cost-effective alternate to squeeze bottles, hand syringes and other manual applicators. It eliminates costly rework and cuts adhesive use an average of 50%. www.nordsonefd.com Fiducial camera auto corrects coating pattern to accommodate board misalignment PVA (Precision Valve & Automation, Inc.) has released an active fiducial camera option for all PVA350, PVA650, and PVA2000 selective coating platforms. The 640 x 480 CMOS camera provides an unprecedented level of control and accuracy by automatically confirming alignment against a fixed reference point on each board. Each cycle can be corrected

New Products Interview

Interview—David Crimp, Cookson Electronic Materials David Crimp is a 25-year industry veteran (with a four year gap, as he likes to point out) and executive vice president, Europe, for Cookson Electronic Materials. What he doesn’t know about the European solder business is probably not worth writing about. Trevor Galbraith spoke to him recently about how Cookson seem to have fared better than many in the electronics interconnect business. The global economic recession in 2009 affected every business in virtually every industry. What metrics does Cookson use to monitor the industry, and how did Cookson react to the downturn? We monitor the industry closely and use analysts like Henderson and Prismark. Cookson itself reacted swiftly to the downturn through a rights issue to restructure debt, which was lauded by the city. We are also fortunate in having a global reach, so we did still experience growth in some areas. You opened a new manufacturing plant in Hungary last year. What do you manufacture there, and how has this location benefited you? Our timing may be considered fortunate in that we managed this major transfer when the market demand was low! The fundamental reason for the move was to get closer to our customers. This is the case now, post recession, as we find all the volume SMT assemblers in Eastern Europe.

A good example is Dual-Alloy SMT which has supplanted wave-soldering for large boards such as for TVs. The continued high cost of metals has also continued the trend towards lowersilver, lead-free alloys.

an optimized material deposit for each customer.

What trends have you noticed coming out the other side of this recession?

How important is Cookson’s stencil business? Do you have plans to divest it as some other large suppliers have done?

What is driving the trend towards halogen-free materials?

We see a definite accelerated trend away from wave soldering to SMT.

Cookson is unique in offering materials together with stencils, so we can focus on

52 – Global SMT & Packaging – Celebrating 10 Years – June 2010

As customers’ print challenges become more demanding, they look to a single point of reference to solve their problems.

Environmental pressure groups have shamed OEMs to become more environmentally aware. Halogens are

www.globalsmt.net

Interview

believed to be harmful when compounds containing them are combusted. We believe we are the first soldering materials company to offer a full line of halogen-free alternatives. You moved your global research and development headquarters to Bangalore, India. What benefits did you gain by moving this key department to Asia? Our R&D H.Q. remains in the U.S., and our Bangalore facility was opened three years ago to augment our global capabilities. We are constantly enhancing our team with the best young scientists we can find, and India has more honours kids than the U.S. has kids! Also, this location in Asia puts us right where the action is. You still do a lot of “blue sky” research when most of the industry has reverted to customer-led development only. Why do you think “bluesky” is still important? Of course it’s not all “blue sky” there! In fact, we have a full-line applications support and test facility to support our Asian customer base. But the fundamental research can get us ahead of the curve. Take halogen-free as an example! We had materials “on the shelf” before there was a market driver. Disruptive technologies galvanise industries: some of our nano-materials research could revolutionise the dieattach market. What do you think is driving the trend towards nano-materials, and do we have sufficient reliability data on these materials as an interconnect medium? Miniaturisation and lead-free are the major drivers. Nanomaterials have to create value to the user. In Cookson’s case, nAg for die-attach does. Data is being generated as the material

www.globalsmt.net

is adopted and will provide a guide to their use in other interconnect applications. Your SACX materials are a low-silver alternative. Is the conductivity and reliability data comparable or better than SAC305? Yes, the in-use performance of SACX Plus is comparable to SAC305 and can often improve process yield. Regarding reliability in the case of impact resistance SACX Plus actually out performs higher silver alloys. LEDs are a large growing segment. What materials does Cookson offer manufacturers of lighting and displays? LEDs are an exciting and fast growing market for us to exploit our material technologies. One great opportunity is in the area of low-temperature processing, which can be crucial for the performance of the devices being assembled. Photovoltaic is another area of growth worldwide. What benefits does your pre-fluxed Ready Ribbon bring PV manufacturers? Simple: improved throughput and cost avoidance—key benefits in this fast-developing new market where cost is key and driven by yield improvement. What recent developments have you made in your solder preform division? Several global OEMs have now specified preforms as part of their assembly process to add solder volume to specific “difficult” components. To satisfy this need, we now offer preforms on tape and reel packages for all pick and place equipment. David, many thanks for an interesting interview. Trevor Galbraith.

Global SMT & Packaging – Celebrating 10 Years – June 2010 – 53

Title

2010 SMT/HYBRID/ PACKAGING Technology Preview Here’s just a quick preview of some of the innovations you’ll find on the exhibition floor at SMT/HYBRID/PACKAGING in Nuremberg, Germany, June 8-10, 2010. AdoptSMT—Stand 7-102 AdoptSMT, the number one supplier of feeders in Europe, will showcase its latest Digital FeederMaster, which has been engineered to meet today’s existing standards in feeder accuracy. Digital FeederMaster raises feeder testing and calibrating to a new level. www.AdoptSMT.com Alpha - Cookson Electronics Assembly Materials—Stand 9-624 On show for the first time in Europe will be ALPHA® SACX Plus™ 0307, a low silver, lead-free alloy specially designed with proprietary additives to deliver soldering and reliability performance similar to higher silver SAC alloys (eg, SAC305 etc.) at up to 30% lower alloy cost. Also exhibited for the first time will be ALPHA® CVP-360, a halogen-free solder paste, available in ALPHA’s SACX ® alloys. www.alphametals.com

Assembléon—Stand 7-549 Royal Philips Electronics subsidiary Assembléon will show several recent developments to its pick & place range. Packing a PCB assembly line with 80 kcph (compo-

nents per hour) and up to 220 feeders into only 4 square meters, the company’s award winning MC-24 and MC-24X combination will help the European SMT industry to produce a variety of PCBs at very high speeds. Assembléon is building on its Smart Solutions campaign, showing its hardware and software for total PCB assembly, along with a new European web shop that simplifies the ordering of spare parts 24/7. New financial packages also make it easy for customers to acquire new machines like its MG-5.. www.assembleon.com The Balver Zinn Group and Cobar Europe BV—Stand 9-340 Balver Zinn will feature the i-SAC series of optimized alloyed SnAg solders. With the addition of cobalt (Co), the solidification characteristic of silver containing alloys has been improved to offer an optimised leadfree solder solution. Cobar Europe BV will highlight new environmentally friendly fluxes, featuring a low-VOC flux, Cobar 95-DRX. This flux is based on a water/solvent combination and offers improved soldering performance, as well as wicking characteristics that approach a solvent-based system, resulting in a perfect soldering performance. www.balverzinn.com, www.cobar.com BPM Microsystems—Stand 7-506 BPM Microsystems will feature the 3000FS finepitch automated device programmer. The 3000FS combines the best

54 – Global SMT & Packaging – Celebrating 10 Years – June 2010

qualities of BPM Microsystems’ robust 3000 series device handling system, with their latest Flashstream® programmer site technology, to produce the fastest production solution for flash memories. www. bpmmicro.com

Cyberoptics—Stand 7-430 Systems that will be highlighted at the show include the new QX500 AOI system, the new SE350 3D solder paste inspection system and the award winning SE500™100 percent 3D solder paste inspection system. The simple and robust SE350 is the newest addition to the 3D SPI system portfolio. Designed with CyberOptics’ calibrationfree sensor technology, the SE350 eliminates machine-to-machine variation across production lines while offering the lowest cost of ownership in the industry. www. cyberoptics.com Data I/O—Stand 7-539 Data I/O Corporation will showcase FlashCORE III, Data I/O’s highest performing FlashCORE programming architecture, and the ProLINE-RoadRunner™ automated inline programming feeder. With

www.globalsmt.net

2010 SMT/HYBRID/PACKAGING Technology Preview

The Nordson DAGE XD7600NT100HP is the most technologically advanced X-ray inspection system on the market today with ground breaking 100 nanometer (0.1 micron) feature recognition for finite analysis of the most challenging inspection applications.

support for the latest flash memory devices including SD, MMC, MoviNAND and iNAND, FlashCORE III is the best programming engine on the market supporting large devices and provides significant performance gains by increasing the download and read/write speeds by a factor of ten. www.dataio.com

The Award Winning XD7600NT100HP

Essemtec—Stand 7-203

The Ultimate in X-ray Inspection

Computerised Tomography

•

The XD7600NT100HP can be equipped with a computerised tomography (CT) option providing 3D modeling and volumetric measurement of solder joints, ideally suited for analytical investigations of solder interconnections for critical applications such as stacked die, MEMS, package-in-package and package-on-package.

Unique Nordson DAGE NT100 sealed-transmissive X-ray tube providing feature recognition down to 100nm (0.1 micron)

• Unique 10 watts power at sub-micron feature recognition

Essemtec’s new Paraquda pick & place machine is equipped with one of the most advanced drive systems on the market, with real-time positioning that minimizes the travel distance, maximizes performance and ensures high-speed placement precision. The system adds significant value by providing high precision, long life, high reliability and low maintenance costs. Each of Paraquda’s four autonomous assembly axes can place all components from 01005 up to large-sized fine pitch components. www.essemtec.com

• Distortion free 2.0 Mpixel images with >65,000 greyscale levels all displayed on a 24” HD monitor

See what the XD7600NT100HP can do for you at: SMT Nuremburg 2010: Hall 7, Stand No. 226

www.nordsondage.com | dpi-sales@nordsondage.com

features many enhancements to the Europlacer machine range such as a higher DG-3110 Single half page island.v3 AW.indd 1 feeder count, increased board size and increased maximum component height. The platform uses the company’s proven core features, including turret head, intelligent feeders and powerful software, while introducing technologies such as linear motors and digital cameras. www.europlacer.com Europlacer—Stand 7-219 The IINEO-I platform uses Europlacer’s unique Integrated Intelligence™ and

www.globalsmt.net

Finetech—Stand 6-406 Finetech will present its new SMD soldering and rework station FINEPLACER® core. The entry model for professional

07/04/2010 11:32

SMD rework addresses primarily small and medium sized enterprises that are planning to invest in a cost-effective and comprehensive solution

Global SMT & Packaging – Celebrating 10 Years – June 2010 – 55

2010 SMT/HYBRID/PACKAGING Technology Preview

with a wide range of applications. www.finetech.de IBL-Loettechnik GmbH— Stand 7-247 IBL will introduce its new vaccum vapor phase soldering system, VAC645, to Europe. IBL developed developed their patented In-Vapour vacuum technology in conjunction with the Fraunhofer Institute. The process provides a constant protective atmosphere between the soldering and the evacuation process. IBL vapour phase soldering technology provides a future oriented solution for today´s soldering tasks. www.ibl-loettechnik.de

Juki—Stand 7-333 JUKI will highlight its latest line-up of brand new and tried and tested chipshooters, flexible mounters and intelligent feeders. Appearing for the first time in Europe, the FX-2 high-speed chipshooter is JUKI’s latest high-speed modular mounter with production capacity increased by 20 percent over previous models, improved economical efficiency, operations and reliability. www.jas-smt.com KC Produkte GmbH—Stand 9-536 A new robotic conformal coating machine (SSC 600) can be seen at KC’s booth. The fast and accurate robot has a very small footprint of 21 square feet and can coat and dispense electronic boards of up to 12 by 17 inch. The system will be fitted with KC’s own spray head, Stream-Coat™ that can be run with membrane or jetting valves. www.kc-produkte.com KIC—Stand 7-320 KIC International Sales Inc. announces that its distributor Multi Components GmbH will highlight its MVP profile

and DVM2000—opens new horizons of mobility and speed. www.leica-microsystems.com

fixture. The KIC MVP uses embedded sensor technologies that accurately measure the profile of an individual PCB without the need to use the actual PCB beyond the initial program run. www.kicthermal.com Kyzen—Stands 7-531 and 7-537 Kyzen, providers of environmentally responsible, precision cleaning products for electronics and high-technology manufacturing, will feature their newest next generation stencil cleaning chemistry, EXAKLEAN™ E5612. EXAKLEAN™ E5612 is ready-touse on delivery and can be used in all types of stencil cleaning systems. Designed to clean all raw solder paste and fluxes at ambient (room) temperature, EXAKLEAN™ E5612 contains no solids—therefore no water rinsing is required. The pH neutral chemistry allows for high throughput with fewer defects, with no foam and low odour and has tested compatible with stencil materials and standard stencil cleaning equipment. www.kyzen.com Leica Microsystems—Stand 6-409

MIRTEC—Stand 7-506 MIRTEC will present their most technologically advanced AOI and SPI systems. The newest systems on show include the MV-7xi in-line AOI system, MV-3 Series desktop AOI system and MS-11 in-line SPI system. All visitors are invited to visit MIRTEC for a first hand demonstration of these highly developed technologies on distributor pb tec’s stand, 506, in Hall 7. Visitors to the MIRTEC stand will also be able to find out more about Intellisys® total quality management system software, which enables continuous process improvement by allowing the manufacturers to track and eliminate defects on inspected assemblies. www.mirteceurope.com, www.pbt.de Nordson DAGE—Stand 7-226 Nordson DAGE, a subsidiary of Nordson Corporation, will exhibit its award-winning XD7600NT100HP x-ray inspection system. The new XD7600NT100HP is the most technologically advanced x-ray inspection

Digital technologies have revolutionized everyone’s work and everyday lives. In particular, industrial quality control, which places the most stringent requirements on macroscopic and microscopic imaging and image processing, benefits from innovative, reliable digital technology. Leica Microsystems’ new generation of digital microscopes—Leica DVM5000, DVM3000,

56 – Global SMT & Packaging – Celebrating 10 Years – June 2010

www.globalsmt.net

DL Trade Ad 4_9:Layout 1

system on the market today with groundbreaking 100 nanometer (0.1 micron) feature recognition for finite analysis of the most challenging inspection applications. Equipped with a 2.0M pixel digital imaging system, the XD7600NT100HP offers oblique angle viewing of up to 70-degrees around any point of a 16”x18” (407x458mm) inspection area without compromising magnification. www.nordsondage.com

5/1/09 3:49 PM Page 1 2010 SMT/HYBRID/PACKAGING Technology Preview

THERE ARE NO SHORTCUTS TO A 5-MIL DOT Small, repeatable volumes are a challenge. But not impossible if you have been creating them as long as we have. However, to do it well, you need three things: Dispensing Expertise in a variety of applications: micro-attach, precision fill, highly-repeatable patterns; Micro Valve

Feasibility Testing and process verification based on years of product engineering, material flow testing, and software control; Nordson YESTECH—Stand 6-430 Visitors to the Nuremberg SMT/ Hybrid/ Packaging show in June will have an opportunity to see how automated x-ray inspection improves speed and reliability in electronics manufacturing. Throughout the event, Nordson YESTECH’s in-line X3 x-ray automated inspection system will be on show within a live demonstration production line. The X3’s state of the art, patented digital imaging technology achieves a high rate of failure detection with a fast throughput and few false calls. www.nordsonyestech.com

Product Development for patented valves, dispensing cartridges, needles, and accessories.

HY-FLO™ Valve with Thermal Controls

For Micro Dispensing, there is one product line that is proven and trusted by manufacturers in semiconductor packaging, electronics assembly, medical device, and electro-mechanical assembly the world over. DispenseLink® for Micro Volume Dispensing R

www.dltechnology.com

DL Technology is a registered trademark of DL Technology LLC. DispenseLink is a registered trademark of DL Technology LLC. HY-FLO is a trademark of DL Technology LLC.

ORPRO Vision—Stand 6-218 ORPRO Vision will demonstrate its complete range of paste and component inspection systems, including the Symbion S36 Plus and Symbion P36 Plus, and a new table-top prototype AOI system that offers full 3D inspection using five intelligent digital cameras, proprietary single-point illumination hardware, a newly developed set of software and an open cluster, native database. www.orprovision.com

www.globalsmt.net

Production Solutions— Stand 7-320 Production Solutions will be exhibiting its line of RED-E-SET board holders, including the award-winning RED-E-SET Ultra

HD, in distributor Multi-Components GmbH’s booth. The award-winning RED-E-SET Ultra HD eliminates expensive custom tooling plates, the need for new custom tooling plates for each board revision, defects due to inadequate board support, time-consuming changeovers and machine downtime. www.production-solutions.com Practical Components— Stand 7-243 Practical Components will showcase its latest portfolio of dummy components

Global SMT & Packaging – Celebrating 10 Years – June 2010 – 57

2010 SMT/HYBRID/PACKAGING Technology Preview

and test boards. Among the innovative technologies on show at the AAT Aston/ Practical booth will be Pac Tech Flip Chips and test boards, FusionQuad® components and thermal cycle test board, 15mm x 15mm Amkor POP components, 12mm Middle stack POP components, B-52 Cleaning test kits with isolated components, 01005 capacitors and resistors, and a newly revised Aim test board. www. practicalcomponents.com

SEHO—Stand 9-540 SEHO will showcase the PowerSelective, GoWave, GoReflow 2.3 and the new modular selective soldering concept SelectiveLine on stand 9-540, where soldering consultants will be on hand to meet visitors and discuss their soldering challenges. SEHO’s new SelectiveLine is a cost effective selective soldering system featuring the miniwave process, which favours the machine to be used for high product mix with small to medium production volumes. www.seho.de Siemens Electronics Assembly Systems—Stand 7-204 After the highly successful introduction of its SIPLACE SX1 and SX2 placement machines featuring swappable gantries (“Capacity-onDemand”), Siemens Electronics Assembly Systems will unveil the new SIPLACE SX4. As the flexible high-speed module of the SIPLACE SX-Series, the new machine shines with an astounding speed rating of 120,000 components per hour while taking up only 1.9 meters of line space, offering the perfect price-performance ratio especially for

users in the flexible high-speed segment. As part of its Capacity-on-Demand concept, the SIPLACE team will also introduce its trailblazing “Peak Demand” and “Floating Demand” rent-a-gantry business models. www.practicalcomponents.com SMT—Stand 9-128 Wetheim-based SMT Maschinen- und Vertriebs will be exhibiting its award-winning SMT Vacuum PLUS N2, the world’s latest innovation in soldering. Vaccum PLUS is a new system for improving the quality of solder joints. Any voids are eleminated in a vacuum chamber, which significantly improves the quality of the soldered product. Vacuum PLUS is available on all new SMT reflow soldering systems and can be retrofitted in exhisting machines. www. smt-wertheim.de STANNOL GmbH—Stand 9-541 STANNOL® GmbH offers a wide range of products and services relating to the soldering technology. STANNOL will be highlighting their new Flowtin® lead-free solders, which offer reduced copper and iron dissolution. Micro-alloyed Flowtin ensures improved surface texture on lead-free joints. www.stannol.de Techcon—Stand 6-300 Techcon Systems, a product group of OK International and a leading provider of

fluid dispensing systems and consumables, debuts the 700 Series premier dispensing syringe barrels. Techcon’s 700 Series is a drop-in replacement solution to preserve process without changing receiver heads and improves productivity. www.techconsystems.com Vi Technology—Stand 7-219 Vi TECHNOLOGY® 2K HIGH SPEED is a fast and compact AOI solution fitting the most demanding applications. It combines very high throughput and extremely small component inspection to meet the challenges of miniaturization in high throughput SMT environments. www.vitechnology.com

58 – Global SMT & Packaging – Celebrating 10 Years – June 2010

ZESTRON—Stand 7-314 At the SMT trade show in Nuremberg, visitors are encouraged to stop by ZESTRON’s

booth to receive information about the latest cleaning technologies as well as cost saving possibilities. ZESTRON’s process engineers will analyze the existing cleaning process and its main cost factors. They will focus on the optimal adjustment of the cleaning agent and the cleaning equipment, and the optimization of the parameter settings such as cleaning time, rinsing time, temperature, etc. The goal is to reduce losses to a minimum in order to realize the lowest cost per cleaned part. With ZESTRON’s cleaning agents and the support of the company’s process engineers, customers have been able to realize savings of up to 50% compared to their former cleaning processes. www.zestron.com Zevac—Stand 9-250 Zevac’s ONYX 32 offers the highest degree of automation out of the ONYX hot gas rework series. The open platform is designed for serial rework as well as for prototype and small series production. www.zevac.ch Global SMT & Packaging —Stand 7-148 Reaching six continents with its five magazine editions, Global SMT & Packaging magazine is truly a global industry resource. www.globalsmt.net

www.globalsmt.net

Presenting...

s” s: ice rie rv go Se ate on. c lli ct tra two mi 0 on o “C int $10 0: n < 01 ke d r 2 bro n an fo w een illio Ne s b m ha $100 >

Title

The 2010 GLOBAL Technology Awards The ONLY global awards program in the industry A GLOBAL Technology Award sends the message that your product or service is an innovation and quality leader in an industry crowded with competing products. Sponsored by Global SMT & Packaging magazine, the GLOBAL Technology Awards are now in their sixth year of recognizing and celebrating innovation in the electronics manufacturing industry. Entries are being accepted now through July 31st. Entries are invited from equipment, materials and EMS companies of all sizes. In addition to the award statue, winners receive publicity in a special awards issue of each of Global SMT & Packaging magazine’s five editions (US, Europe, China, Korea & South East Asia) as well as on the Global SMT & Packaging and GLOBAL Technology Award websites and in the Global SMT & Packaging email newsletters. Winners also receive a small poster for use at trade shows and an image and logo for use in advertising, websites and other promotional materials.

Enter now: http://awards.globalsmt.net

www.globalsmt.net

Global SMT & Packaging – Celebrating 10 Years – June 2010 – 59

Title Association & institutes news

Association & institutes news iNEMI organizes four new packaging initiatives The International Electronics Manufacturing Initiative (iNEMI) is organizing four new initiatives to address gaps in organic substrate technologies. These initiatives will focus on warpage (understanding the causes of, and establishing methods for measuring), wiring density and holistic modeling. The four proposed initiatives are: Primary Factors in Warpage: This initiative will focus on gaining a greater understanding of the causes of warpage, particularly in first and second level assembly, in order to better control it. The team will identify key material properties, process parameters, reflow profiles, package pitches, environmental factors and other contributors that impact warpage. Warpage Qualification Criteria: Current standards do not adequately predict good yield results at 1st and 2nd level assembly. This initiative proposes to define a qualification method and criteria that will more accurately predict results (e.g., sample size, precondition, variations of material and processes) and establish measurement methods (dimensional and test). Wiring Density Program: This program plans to develop a system-optimized, nextgeneration plus one technology that focuses on prioritized areas to achieve maximum wiring density at minimal cost (e.g., material set, low-cost lithography/ laser, plating, inspection and test). Holistic Modeling Process: The goal is to develop a multilevel design tool to optimize package designs for electrical, mechanical and thermal performance. The team proposes to identify critical materials properties and proposed specifications for a specific package type; determine data depth/accuracy in critical materials properties required for model effectiveness; and develop a holistic approach by involving data experts from materials, packaging and substrate suppliers. These initiatives are still in the organizational stage and anyone who is interested can participate in the regular teleconferences. For details about dates, times and call-in information, contact Jim

Arnold (North America) at jim.arnold@ inemi.org or Haley Fu (Asia) at haley.fu@ inemi.org.

Three New Training Products from SMART Group SMART Group provides a variety of training types to assist the electronics industry and to support its regular seminars and workshops. The organisation is has recently released three new training products: two CD-ROMs and a Poster Guide. All cover the topic of conformal coating.

Conformal Coating Inspection and Defect Guide Price £99 plus VAT The CD-ROM provides a simple guide to the use of coatings, their application and process, product benefits, inspection and quality control. A practical defect guide session will also allow delegates to examine coated boards using different materials and inspect the coating application. A unique feature of the CD is a number of engineers answering questions on coating processes, process defects and quality control in manufacture. Conformal Coating Inspection and Defect Guide Posters Price £45 plus VAT A separate 24 page colour poster guide is available. The photographic guide is ideal as a reference source for operators, inspection and training departments and is provided as an Acrobat pdf file. The individual sheets can be printed as A4 for bench top reference or as A3 colour posters for reference in manufacture. Alternatively they can be viewed on a PC with each page featuring three images illustrating points to examine or steps in the inspection process. Currently the guide features over 20 individual pages for on site printing and display. Conformal Coating Photo Album Price £99 plus VAT A photo CD-ROM album featuring over 290 colour images available to allow

60 – Global SMT & Packaging – Celebrating 10 Years – June 2010

engineers to create their own training material, PowerPoint files, process documents and standards. The photo CD covers many defects listed and is one of over 15 of CD-ROMs available. The photographs can also be used in marketing and advertising material or in technical articles provided the source is credited. They can be simply pasted into any Word or PowerPoint document for in-house company use. Photographs are provided in either Tiff or jpg file format. The images are not all one resolution but a mixture of high and low resolution. For more information contact Tony Gordon, SMART Group Secretary, email: info@smartgroup.orgThis e-mail address is being protected from spam bots, you need JavaScript enabled to view it Tel: +44(0)1494 465217

EIPC organize bonus programme at the EIPC Summer Conference Nuremberg The EIPC Summer Conference, Bonus Programme on Reliability and JISSO meeting will be organised in conjunction with the SMT/HYBRID/PACKAGING exhibition and conference which takes place on June 8-10, 2010. The Bonus Programme on Reliability takes place in two parts on Tuesday, June 8th. Bill Birch, president of PWB Interconnect Solutions, spends the early part of the afternoon on evaluating PWB reliability, testing copper structures and material reliability and new, cutting-edge reliability methods. After a short coffee break, Paul Reid, program coordinator for PWB Interconnect Solutions, gives an overview of the effect of lead-free assembly on PWB reliability and discusses failure modes. A complimentary CD of the presentations, including failure mode animations, will be made available to attendees. For more informatoin, visit www.eipc.org.

www.globalsmt.net

Association IMAPS News news

IMAPS Europe news We are pleased to announce the arrangement with IMAPS-Europe which will include in Global SMT & Packaging a section which will present news from the many IMAPS Chapters in Europe. The president of IMAPS Europe, Prof Nihal Sinnadurai, welcomes the opportunity to reach the readers of Global SMT & Packaging and to welcome them to the many events organised by the Chapters throughout Europe. IMAPS-Nordic News IMAPS Nordic 2010 Conference and Exhibition The IMAPS Nordic 2010 Conference and Exhibition will be held in beautiful Gothenburg, Sweden’s second largest city, 6-9 June 2010. Set at the Göta Älv river´s outlet to the Atlantic, in the centre of a vast and magnificently scenic archipelago seascape, the city is especially attractive during the summer season­—which is when you’ll be there for the conference! This year’s conference takes place at the Elite Park Avenue Hotel, a four-star hotel located in the heart of Gothenburg. This year, the conference features two days of presentations covering a wide range of current and pertintent topics. On Wednesday, the third day, two tutorials will be offered. The conference opens on the evening of Sunday 6th June, with a cocktail party. Monday kicks off with two keynote presentations. The technical keynote, “Integrated passive devices and silicon interposers,” presented by Jean-Marc Yannou of Yole Développement, will be followed by the business-focused keynote, “Investing in Intellectual Assets,” presented by Bill Brox of the Institute of Micro and Nanotechnology (IMEGO). After the keynotes, Monday offers presentations covering the latest in flip chip technology, advanced technologies and applications, reliability concerns, and polymers and adhesives. Tuesday offers presentations on 3D technology, encapsulations, bonding and substrates, and advanced methods and materials, followed by a visit to IMEGO. Visit www.imapsnordic.org to download the programme and register for the conference. Two tutorials are offered on Wednesday 9th June: “The need for increased cleanliness in modern SMT manufacturer,” presented by Dr. Craig Hillman, CEO of DfR Solutions, and

www.globalsmt.net

“Lead Free Reliability,” presented by Dr. Olli Salmela of Design for Reliability Nokia Siemens Networks. Tutorials are €200. To register for the tutorials, visit www. imapsnordic.org/registrations. IMAPS-UK News IMAPS-UK upcoming Events: Beyond Solder Technical Seminar At the NPL on 30th June 2010, Beyond Solder investigates different joining methods being utilised today. The event is supported by the IeMRC, NPL & TWI. Low cost fees are: Students £30, members £40 and non-members £60 (all + VAT), inclusive of lunch & refreshments and proceedings. Ample opportunity for networking. Complimentary tabletop exhibition from leading companies. Delegate and exhibition space is limited. Book early to avoid disappointment. The technical programme comprises Joining & Packaging Technology for High Temperature Electronics, Ultrasonically Bonded Copper Interconnects, Pressfit Connections for High Reliability & Automotive Applications, End-of-Life Options for Electronics Interconnects, Innovative Adhesive Technologies, Nano-scale Interconnects plus an IeMRC keynote on The Benefits, Challenges & Opportunities for Solder-free Connections. http://www.imaps.org.uk

Event Review: APM-MicroTech 2010, 28th Feb – 2nd March 2010 IMAPS-UK and IEEE jointly attracted academics, materials scientists, package engineers and industry consultants from a broad range of companies and institutions, to attend the co-located APMMicroTech2010 Seminar. A highly focused exhibition complimented the two-day Technical conference, whilst IEEE held several short courses on Sunday. The event was well attended on both Seminar days. IMAPS-UK hosted the first day themed “Disruptive Technologies”, where papers

highlighted state-of-the-art and emerging technology, which has the potential to displace standard processes and practice. Presentation topics included fine pitch copper wire bonding, advanced medical packaging and reliability. A selection of novel product solutions from industrial companies on pyroelectric arrays, hermetic packaging, MEMS and chip scale packaging, complimented the academic leaning of other papers presented. The first day’s busy schedule concluded with the IMAPS-UK members AGM, followed by the event networking dinner at which Brian Waterfield was presented with the Fellow of Society award from IMAPS (USA). Day 2 was on Advanced Packaging Materials was more heavily focused on materials interactions and applications. Conductive adhesives featured alongside interesting technical papers on tin whiskers, encapsulants, solder reactions and thermal management for LEDs. For those not attending, the full Technical Proceedings can still be purchased by contacting the IMAPS-UK Secretariat. Contacting IMAPS European Chapters The primary website for all of IMAPS Europe is http://www.imapseurope.org/. The IMAPS European chapters coordinate activities and events throughout Europe and, where possible, also in collaboration with IMAPS chapters in Asia and America. The main pan-European events are the European Microelectronics and Packaging Conferences (EMPC) every odd year (2009, 2011, 2013 etc) and the collaborative conference (with IEEECPMT) the European System-Integration Technology Conference (ESTC) every even year (2008, 2010, 2012, etc). Both EMPC and ESTC are scheduled to be held on the second Monday to Thursday of September every year. So, this is a date to put into your diaries.

Global SMT & Packaging – Celebrating 10 Years – June 2010 – 61

Title International Diary

International Diary 2-4 June Protec JISSO/JPCA Tokyo, Japan www.jpcashow.com

15-17 September GlobalTRONICS Singapore www.globaltronics.com.sg

8-10 June SMT/Hybrid/Packaging Nuremberg, Germany www.smt-exhibition.com

28-20 September IPC Midwest Conference & Expo Schaumburg, Illinois, USA www.ipcmidwestshow.com

13-15 July Semicon West San Francisco, California www.semiconwest.org 7-10 September electronica India/productronica India Bangalore, India www.productronica-india.com

31 October-4 November IMAPS Symposium Raleigh, North Carolina, USA www.imaps2010.org 9-12 November electronica Munich, Germany www.electronica.de

5-7 October GEM Expo Brazil São Paulo, Brazil www.gemexpobrazil.com 24-28 October SMTA International Orlando, Florida, USA www.smta.org/smtai

Stencil, Misprint, PCB & Maintenance Cleaning SMT Nuremberg, Hall 7, Stand 522

PBT Rožnov p.R., s.r.o.

Strong and Fast

3

NEW

Th rs Fulree-Yeaty! l Waran

Features!

SuperSWASH batch cleaning system

3

Th rs Fulree-Yeaty! l Waran

NEW

Features!

CompaCLEAN batch cleaning system

62 – Global SMT & Packaging – Celebrating 10 Years – June 2010

www.globalsmt.net

Title

Light a fire under your sales in the hottest market in South America GEM Expo Brazil offers you a unique opportunity to display your equipment and/or materials to a highly-focused audience of production engineers, managers and decision makers from contract manufacturers and other EMS companies throughout Brazil, Argentina and Chile. If you are a provider of equipment or materials to the PCB, EMS or Advanced Packaging communities, then this show is an essential forum where you will meet new and existing customers and network with your peers. The majority of electronics products are manufactured in Brazil for the Latin American market. This world-class event will attract exhibitors from Europe, Asia and the Americas to

display the latest equipment and materials that can enhance yield, improve reliability and save cost in today’s manufacturing environment. GEM Expo Brazil is fully supported by Brazilian and South American publications and trade associations. It will also contain an extensive conference and workshop program to meet the huge demand for training and process knowledge in Latin America. Book now to take advantage of our early-bird rates! Raw space from $315 per sq. metre. Shell scheme from $87 per sq. metre.

Learn more exhibiting at or sponsoring GEM Expo Brazil at www.gemexpobrazil.com.

October 5-7, 2010—EXPO CENTER NORTE, São PAULO, BRAZIL Venue Organizer

Sponsors GSP9.11

H H yb us S al ri a e l7 d t e , S Pa SM t a ck T nd ag 2 ing 0 8 Title

smart manufacturing

just got smarter

Gerd Koschnick,

Manager of Process Technology

Natalia Telwa, SMT Process Manager

Smart companies use Valor.

Peiker, one of the leading suppliers of components in the sector of communication technologies in vehicles as well as for professional radio applications, recently implemented Valor’s vManage manufacturing execution software suite in their manufacturing facility in Germany. The implementation of the software in Germany was a success, so that Peiker decided to deploy vManage in their manufacturing facility in Juarez Mexico, as well. Gerd Koschnick, Manager of Process Technology for Peiker, said: “The traceability requirements in the automotive industry are stringent. We needed a solution which could satisfy all our traceability regulations without adding to the unit costs, and also provides instant visibility into the chain of data from component lot codes to individual PCBs to final product assembly.” Natalia Telwa, SMT Process Manager, added: “What we did not realize was the added value we would receive from Valor’s traceability solutions. Not only do we have immediately accessible and accurate component trace data, but the vManage system also delivers closed loop control of our SMT machine feeder setups, low level warnings to trigger supply of replacement reels and real-time monitoring of our SMT line performance. So we are cutting downtime and improving productivity which lowers our unit costs. Plus: we have the traceability we needed in the first place.” Mr. Koschnick summarizes: “Implementing vManage in Germany was a smart decision. Now we are going to grow the benefits by expanding the deployment to our facility in Mexico.

www.Valor.com

64 – Global SMT & Packaging – Celebrating 10 Years – June 2010

www.globalsmt.net