IPC High Reliability Forum

Date
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Join us for the IPC High Reliability Forum October 9-10, 2024, at the McKimmon Center in Raleigh, North Carolina. If you manufacture, design or test electronics for applications with unique safety, reliability, and lifetime requirements, you don’t want to miss this event! 

This event provides a unique opportunity to learn about the latest advancements in electronics, participate in industry discussions, and network with this respected community of professionals focused on electronics with high reliability requirements. 

Presentation topics will include:

  • Safety critical electronics considerations
  • Military, aerospace, medical, automotive, e-Mobility and other applications with specialized reliability requirements
  • Well-rounded, industry-curated content covering many different topics related to high reliability issues in PCB design, PCB fabrication materials, PCB assembly, PCBA surface reliability, emerging electronic technologies, mitigation strategies and test methods

MEET THE SPEAKERS

Dr. Denis Barbini

Dr. Denis Barbini
Technical Solutions Manager
Zestron

Presentation: Ensuring Reliability in High Voltage Electronics

Designing electronic assemblies for high voltage (HV) applications (800-1200V) in electric vehicle (EV) units presents unique reliability challenges. Recalls by EV Original Equipment Manufacturers (OEMs) have often been linked to particle-induced electrical breakdowns and moisture ingress in OCB/DC/DC units, leading to contamination and increased failure risks. The absence of standards like IEC 60664, which covers electrochemical migration (ECM), further complicates the design landscape for engineers, making it difficult to ensure proper insulation in the HV range.

In addition to common failure mechanisms under humidity, such as ECM and creep corrosion, emerging issues like Anodic Migration Phenomenon (AMP) due to insulation material aging pose further challenges. These failures can manifest later, causing short circuits, while particles can lead to arc discharges and thermal incidents. Addressing these risks is crucial in design Failure Mode and Effects Analysis (FMEA).

A new analytical approach to isolation coordination addresses these challenges by considering the assembly's conductivity under environmental influences. This method allows for deriving limits for ionic, filmic, and particulate contamination, as well as the insulation materials to be used, based on HV reliability tests.

The presentation will cover the use of ion chromatography, CoRe-/iodine vapor tests, and fritt-voltage analysis, illustrating their application through examples. Implementing these analytical techniques in the electronic assembly process can lead to significant cost savings while meeting increased reliability requirements. This approach is essential for next-generation powertrain (PT) units to enhance the acceptance and safety of EVs.

Bio

Dr. Denis Barbini is an esteemed electronics manufacturing and assembly professional. Formerly the Associate Director of the A.R.E.A. Consortium, he led the identification of critical needs in emerging technologies and assembly processes. With extensive hands-on experience, Denis has provided invaluable guidance and solutions to companies worldwide. His expertise lies in implementing cost-effective, reliable, and robust processes for electronic devices. Recently, he transitioned to the role of ZESTRON's Technical Solutions Manager, leveraging his 25 years of experience to drive the development of critical projects and explore new industry sectors.

Norbert Holle Headshot

Dr. Norbert Holle
Development Engineer
Robert Bosch GmbH 

Presentation: Voids in Solder Joints: The Past, the Present and the Future

A certain level of voiding both in surface-mount as well as through-hole solder joints generally has no negative impact on assembly reliability under thermo-mechanical or mechanical loads. Yet, concerns that excessive voiding may affect assembly reliability exist among various stakeholders in the supply chain, from Tier2 to OEMs. This calls for: (i) Common requirements for voiding levels for different solder-joint geometries; (ii) Non-destructive methods for the quantitative assessment of voiding.

This works summarizes previous work on the impact of voiding on assembly reliability and explains how standards have been updated in the light of the existing data.

It also provides an assessment of the current opportunities and challenges in assessing voiding levels non-destructively by X-ray inspection: Typical X-ray inspection systems used nowadays do not generally satisfy common requirements on gauge repeatability and reproducibility (gauge R&R) when employed to assess voiding in solder joints. An outlook towards the use of artificial intelligence, which can provide an opportunity to overcome weaknesses of traditional image analyses approaches, will also be given.

Bio

Norbert Holle got his diploma in process technology at RWTH Aachen, Germany with diploma thesis at NTH Trondheim. In 2000 he received a PhD on “Investigations on the technical implementation of photobiological hydrogen production” at RWTH Aachen. In 1999 he started at Robert Bosch GmbH, Stuttgart as a research engineer with a focus on thermal high temperature processes for metals and ceramics. Since 2008 Norbert is working as a development engineer for assembly and interconnect technology. His main fields of experience are solder paste, SMT and reflow process topics, soldering defects (esp. voiding) and interactions of process - materials - PCB. 

Bob Neves Headshot

Bob Neves
Founder and Chairman/CTO
Microtek Laboratories & Reliability Assessment Solutions

Presentation: Advances in Assessing Via Structures for Soldering Process Survivability, Reliability and Robustness

Since the first via structures made with eyelets, the Electronics Industry has used microsections after thermal stress to evaluate quality after exposure to a simulated component attachment process.  As via structures have become increasingly complex and the component attachment processes more demanding, the thermal stress microsection has shown its inability to adequately meet the needs of the industry in determining via structure quality.  Over the last decade there has been a concerted effort to find a reasonable alternative the Thermal Stress microsection and to include a reliability aspect to the evaluation that is not as costly and time consuming as dual chamber thermal shock.  This presentation will touch on these efforts, test methods and set expectations for the latest methodologies that evaluate Solder Process Survivability, Reliability and Robustness of via structures.

Bio

Bob Neves is founder and Chairman/CTO of Microtek Laboratories & Reliability Assessment Solutions. He served as IPC Board Chair, and earned IPC Hall of Fame, IPC Presidents & Dieter Bergman IPC Fellow awards. He served as Chairman of IPC's TAEC, Rigid Board General Committee, HDI General Committee, Rigid Board Test Method Task Group, IEC TC91 Working Group 10 PCB Test Methods. He has participated on more than 50 IPC Technical Committees & has published dozens of articles and technical papers about Reliability, Testing, Test Methods & Failure Analysis & is the author of the PCB Acceptability section in Coombs “Printed Circuit Handbook” Sixth Edition.

Udo Welzel headshot

Dr. Udo Welzel
Senior Manager
Robert Bosch GmbH

Presentation: Voids in Solder Joints: The Past, the Present and the Future

A certain level of voiding both in surface-mount as well as through-hole solder joints generally has no negative impact on assembly reliability under thermo-mechanical or mechanical loads. Yet, concerns that excessive voiding may affect assembly reliability exist among various stakeholders in the supply chain, from Tier2 to OEMs. This calls for: (i) Common requirements for voiding levels for different solder-joint geometries; (ii) Non-destructive methods for the quantitative assessment of voiding.

This works summarizes previous work on the impact of voiding on assembly reliability and explains how standards have been updated in the light of the existing data.

It also provides an assessment of the current opportunities and challenges in assessing voiding levels non-destructively by X-ray inspection: Typical X-ray inspection systems used nowadays do not generally satisfy common requirements on gauge repeatability and reproducibility (gauge R&R) when employed to assess voiding in solder joints. An outlook towards the use of artificial intelligence, which can provide an opportunity to overcome weaknesses of traditional image analyses approaches, will also be given.

Bio

With a Diploma in Physics (University of Bayreuth, Germany) and a Doctoral degree in Chemistry (University of Stuttgart, Germany, 2002), Udo has profound knowledge in materials science and technology. He joined the Mobility Electronics Division of the Robert Bosch GmbH in 2012, where he now is responsible for Printed Circuit Board Technology Development. He is co-author of more than 90 scientific and technical papers and has given various invited lectures during scientific and technical conferences.

Steven Dirkes Headshot

Steven Dirkes
Quality Assurance Specialist
Department of the Army

Presentation

More information coming soon!

Bio

Steven Dirkes, a Quality Assurance Specialist, plays a crucial role in assessing and evaluating service quality and also implements initiatives to enhance service delivery, contributing to better health outcomes and safer communities. 

Kenny Kakutani

Takenori “Kenny” Kakutani
Business Development Specialist
Taiyo Ink Manufacturing 

Presentation: Screen Printable Ink on PCBs and its Thermal Curing Type Coating Film That Exhibits Excellent Thermal Conductivity and High Insulation Properties

Printed circuit boards (PCBs) for automotive ECUs and communication modules are becoming smaller, higher density components, and embedded component technology is progressing. Components mounted on these PCBs generate heat, mostly transferred from the components to the PCBs. Therefore, it is necessary that not only the heat on the component surfaces be dissipated into the atmosphere or into the heat sink, but also the heat within the PCB, and the thermal design of mounted PCB has become more significant in recent years. In addition, to ensure high reliability and safety of PCBs, insulation materials for PCBs that can handle high voltages of 1,000 Volt or more are required.

Conventional heat-dissipating materials include TIM sheets and heat-dissipating grease, which are relay materials used to dissipate heat from the component surface to the heat sink, not the PCB, and have thermal conductivity but no insulation properties for consideration.

Based on our intensive study, we have developed a new material that has excellent thermal conductivity to dissipate heat from PCBs and high insulation properties, and can be easily printed on PCBs. This material is a uniformly dispersed ink consisting mainly of thermal curable resin and thermally conductive filler. It can be applied by general silk screen printing (like legend ink) as listed in the IPC standard, and is a permanent, fully cured coating (Tg:190℃), which is different from TIM sheets and grease that contain volatile components and change state. The cured film has a thermal conductivity of 3.3 W/mK and a dielectric breakdown voltage of 6,600 Volt per 100 μm film thickness. The appearance of the coating film is glossy, with a surface roughness (Ra) of less than 1.0 μm. The test using the coating film and an LED-mounted PCB has demonstrated that it effectively dissipates the heat from the PCB.

Bio

Takenori Kakutani is Business Development Leader of Taiyo Ink Mfg. Japan. Since 2005, he joined the Taiyo Ink, where he has been engaged in the R&D and the application of solder resist and various insulating materials for PCBs. He worked as a visiting engineer at the 3-D Packaging Research Center, Georgia Tech, Atlanta, US, from 2019 to 2021. He is currently involved in research marketing and product proposals of PCBs and IC packaging for automotive applications. He is a member of the Japan Institute of Electronics Packaging (JIEP) and the IPC standards.

Tim Pearson Headshot

Tim Pearson
Principal Materials and Process Engineer
Collins Aerospace

Presentation: Overview of using X-ray Inspection in Assessing Solder Joint Quality

X-ray inspection has become an increasingly common process control methodology in the past decade of electronics manufacturing. This has led to questions of how solder joint voiding impacts solder joint reliability. A significant amount of investigative work has been done to add to the industry knowledge, but there is still work to be done. This paper will review the IPC-J-STD-001 requirements concerning X-ray methodologies, the X-ray recommendations in Appendix C, the reliability papers for surface mount joints, and the practical application of X-ray inspection in a typical factory environment. This paper explains the intent of the J-STD-001 teams’ inclusion of their X-ray applications, the history of why there are voiding requirements for BGAs and BTCs, and the future of other voiding requirements that need to be addressed.

Bio

Tim Pearson is a Materials and Process Engineer in the Advanced Operations Engineering department of Collins Aerospace in Cedar Rapids, Iowa. Mr. Pearson graduated from Iowa State University with a BS in Materials Science and Engineering. Tim began his career as a Thin Films Engineer at Texas Instruments in a 300mm wafer fab. Tim has been working for Collins Aerospace (formerly Rockwell Collins) since 2015. In his current role, he helps develop new manufacturing processes, troubleshoots production issues, and does root cause analysis of failures related to soldering. He is a member of SMTA and IPC.

Tony Lin

Dr. Tony Lin
Principal Software Engineer
Cisco

Presentation: Machine Learning Use Cases in Cisco Manufacturing

Cisco products typically go through various function tests during manufacture and one of the most time-consuming tests is two-corner (2C) test which is conducted in an environmental chamber that can generate high-temperature high-voltage and low-temperature low-voltage environment. The run time for the 2C test can be up to 10 hours and the setup process can be quite complex. Since 2C testing is the highest cost and longest test in our flow we identified the opportunity to realize significant financial benefit by reducing the test time while maintaining the quality targets in the field. To realize these benefits, we developed a machine learning (ML) model based on model-driven telemetry (MDT) sensor data to classify if a unit under test (UUT) is likely to fail 2C test. This methodology enables us to make real-time decisions on which UUT can skip 2C testing thus reducing overall test time and manufacturing cost.

Using machine learning also helped us identifying if there is a strong correlation between the test failure and the MDT sensors, if so, what are the sensors contributing the most to the failure. Our product typically consists of hundreds if not thousands of sensors from the ASIC and the PC board. To identify which sensors are anomalous and causing the product to fail requires us to leverage various machine learning technologies, such as classification and anomaly detection. I will share with you a few scenarios where ML helped us to diagnosis the failures more efficiently.

Bio

Tony Lin is a Principal Software Engineer from Cisco supply chain, and he has been with Cisco for more than 12 years. Before joining Cisco, he had served various leadership and researcher roles at Yahoo Inc., Redback Networks, Bell Labs, and a few startups. Tony received his Ph.D. in Computer Science from New York University, and his focus has been on Big Data, Data Mining, Machine Learning, and AI. 

Ben Gumpert Headshot

Ben Gumpert
MSME, Manufacturing Engineer
Lockheed Martin

Presentation: BTC Assembly and X-Ray Challenges

Electronics component packages have changed dramatically over the last 20 years in the drive for smaller, more capable electronics products. While much of that development was evolutionary, with similar packages offered in smaller formats, manufacturers have more recently created a multitude of unique package styles, particularly in the group of Bottom Termination Components. Industry documentation has struggled to keep up with the development of the component manufacturers, so it is often left to the assembler to decide how best to install these package styles. Changes to solder alloys and component finishes have increased voiding in general, and these new packages present challenges to the electronics assembler to ensure low voiding and robust solder connections that also provide an adequate thermal path. This presentation will discuss the challenges of assembly and solder joint evaluation and will present potential options for assembly improvement.

Bio

Ben has worked in the electronics industry for 23 years and is currently a Fellow at Lockheed Martin. He has experience in a variety of manufacturing assembly processes, with a prime focus on circuit card assembly. He has led numerous internal research projects related to soldering and solder joint reliability, as well as participating in several industry round robin studies. Ben is an active participant on several industry standard committees and is currently the Chair of IPC's Pb-free Electronics Risk Management (PERM) council.

Tony Lentz Headshot

Tony Lentz
MBS Chemistry, Field Application Engineer
FCT Assembly

Presentation: Reliability of Electronics from a Solder and Flux Perspective

What is electronic reliability, and how is it measured?  How do solder alloys and fluxes affect reliability?  This presentation addresses these questions from a solder and flux perspective.  High reliability alloys are used to improve the lifespan of electronics in “harsh environments.”  Low temperature alloys (peak reflow < 200 °C) are used to reduce heat related defects during manufacturing.  No clean solder pastes and fluxes are formulated to optimize soldering performance and leave residues that are “high reliability.” 

High reliability and low temperature solder alloys include elements to increase strength, improve compliance, and control melting point.  No clean solder pastes and fluxes are formulated to enhance solder joint creation and to be “safe” to leave on the printed circuit board assembly (PCBA).   These materials will be discussed, and reliability data presented.  The goal is to give an overview of solder alloy and flux contribution to reliability of electronics. 

Bio

Tony Lentz began his career in the electronics industry in 1994 as an engineer at a PCB manufacturer for 5 years. From 1999 to 2012, he worked for FCT Companies as a laboratory manager and facility manager. Since 2013, Tony has focused on field application and R&D for FCT Assembly solder and stencil products. He has written and presented many papers at industry events. Tony is the chair of the IPC J-STD-004 task group and vice-chair of the IPC J-STD-005 task group. He is a speaker of distinction with SMTA and holds B.S. and M.B.S. degrees in Chemistry.

Erin Tillery headshot

Erin Tillery
Graduate Student, Ph.D. Candidate
Textile Technology Management, Wilson College of Textiles, NC State University

Presentation: Ruggedness Test of a New Standardized Test Method for Abrasion Resistance of E-Textiles

Standard test methods provide product developers with information regarding materials' suitability for different purposes. Typically, current standards are suitable for determining the mechanical properties of new materials. However, in the case of electronic textiles (E-Textiles) and wearable technology (wearables), adding conductive components with added functionality makes utilizing textile standards difficult, and these standards will not provide information on mechanical and electrical properties of conductive elements. New standards for E-Textile and wearables testing are needed to ensure product developers can obtain the information necessary to make informed decisions about new products. Standards organizations such as the American Society for Testing and Materials (ASTM) and the Institute for Printed Circuits (IPC) are working on new methods for testing E-Textiles and wearables but must ensure the tests are rugged before publication and industry adoption. This study focuses on performing a ruggedness test for a new IPC test method for abrasion resistance of E-Textiles.

Bio

Erin Tillery is a graduate student at the NC State University Wilson College of Textiles working towards a Ph.D. in Textile Technology Management. Her research is focused on technology transfer in the textile industry, and she is currently working on projects related to E-Textiles and wearable technology. Her former work at Mississippi State University during her undergraduate and master's degrees includes work with new test methods for E-Textiles, creation of new wearable technology products, and wearables for human performance monitoring.

Michael Rein

Dr. Michael Rein
Director of Engineering
AFFOA

Presentation: Enabling E-Textile Building Blocks and Ensuring E-Textile Reliability from Conductive Yarns to Full Soft Systems

A common factor limiting the commercialization or deployment of e-textile products is their vulnerability to mechanical and environmental stressors. Combination of electronics with textiles requires development of new approaches to ensure reliable performance as well as defining new design rules to allow for reliable system design. In this talk I will present the work that AFFOA has done in establishing design rules and reliability testing and evaluation of soft systems that include conductive yarns, connectors and joins, yarn and electronics encapsulation as well as tools to ensure reliability of the full system.

Bio

Dr. Michael Rein is the Director of Engineering at the Advanced Functional Fabrics of America (AFFOA) manufacturing institute. Dr. Rein is leading technology and product development that introduce advanced multifunctional fibers and electronics into textiles to enable a high-tech transformation of the US textile industry. Dr. Rein received a BSc degree in Materials Engineering and a BA in Physics from the Technion – Israel Institute of Technology, MSc in Chemistry from the Weizmann Institute and PhD in Materials Science and Engineering from MIT.  

AGENDA

Wednesday, October 9, 2024
The Old and The New Come Together (Voiding and Other Challenges)

The Old and The New Come Together (Voiding and Other Challenges)

Speakers: 

Tony Lentz, FCT Solder
Presentation: Reliability of Electronics from a Solder and Flux Perspective

Udo Welzel, Robert Bosch
Presentation: Voids in Solder Joints: The Past, the Present and the Future

Ben Gumpert, Lockheed Martin
Presentation: BTC Assembly and X-Ray Challenges

Tim Pearson, Collins Aerospace
Presentation: Overview of using X-ray Inspection in Assessing Solder Joint Quality

Panel Discussion: What Math is Required to Assess 75% Hole Fill?

IPC assembly documents contain visual acceptance criteria for 75% vertical solder fill in some plated-through holes.  This group will discuss how the 75% is assessed.
Moderator: Dr. Milea Krammer, Honeywell Aerospace
Panelist: Jon Vermillion, BAE Systems
Leo Lambert , EPTAC Corporation
Symon Franklin, Custom Interconnect Limited

THE KEYNOTE and MORE

THE KEYNOTE and MORE

More information coming soon!

Is it High Voltage?

Is it High Voltage?

Speakers:

Denis Barbini, Zestron USA
Presentation: Ensuring Reliability in High Voltage Electronics

Steven Dirkes, United States Department of the Army

Takenori “Kenny” Kakutani, Taiyo Ink
Presentation: Screen Printable Ink on PCBs and its Thermal Curing Type Coating Film That Exhibits Excellent Thermal Conductivity and High Insulation Properties

 

What’s New Now? - E-Textiles/Advanced Technology/Design

What’s New Now?  - E-Textiles/Advanced Technology/Design 
Speakers:

Michael Rein, AFFOA
Presentation Title: Enabling E-Textile Building Blocks and Ensuring E-Textile Reliability from Conductive Yarns to Full Soft Systems

Erin Parker Tillery, Textile Technology Management
Presentation: Ruggedness Test of a New Standardized Test Method for Abrasion Resistance of E-Textiles

5:00 PM - 6:00 PM | Reception with student poster presenters and exhibitors

Reception with student poster presenters and exhibitors

Thursday, October 10, 2024
Here Comes the Testing and Related Challenges

Here Comes the Testing and Related Challenges

Panel Discussion: What Assurance and Challenges Do Vintage IPC Test Methods Such As ROSE Pose For New Technology?
Developed in the 1970s, the ROSE test is used in manufacturing facilities to assess cleanliness by measuring flux residues in solution. Experts will discuss the usage, challenges, and limitations of utilizing ROSE testing for no clean fluxes used in today’s electronics. 
Moderator: Eric Camden, Foresite, Inc.
Panelist: Joe Russeau, Precision Analytical Laboratory
Lynn  Rozanski, Raytheon 
Dave Hillman, GEN3 Systems

Panel Discussion: How Does 80-Year-Old Test Methods and Technology Based On 40-Year-Old Data Play into the Current Industry?
Decades-old test methods and technology continue to be used in today’s rapidly evolving electronics industry. An experienced subject matter expert (SME) and a former IPC Emerging Engineer will discuss the limitations and challenges these legacy practices pose, as well as their implications for modern reliability and innovation.
Moderator: Eric Camden, Foresite, Inc.
Panelists: Brian Chislea, Dow Corporation
Paige Fiet, TTM Technologies 

Bob Neves, Microtek Laboratories & Reliability Assessment Solutions
Presentation: Advances in Assessing Via Structures for Soldering Process Survivability, Reliability and Robustness

What Now? The Future is Calling

What Now? The Future is Calling

Speaker:
Dr. Tony Lin, Principal Software Engineer, Cisco
Presentation Title: Machine Learning Use Cases in Cisco Manufacturing

Wrap Up Panel: What Action Do We Take to Preserve the Industry
Considering the future, this group will discuss ways to address the challenges of producing high reliability products in a world of fast-paced technological advancements, user needs and sustainability.
Moderator: Teresa Rowe, Sr. Director Standards, IPC 
Panelists: Dr. Thomas Marktscheffel, ASMPT GmbH & Co. KG
Christina Rutherford, Honeywell Aerospace Technologies 
Jacynth Anderson, Lockheed Martin
Steven Bowles, Lockheed Martin

12:00 PM - 1:00 PM | Networking Lunch

Networking Lunch Buffet

Thank you for participating in the event! 

**Schedule Subject to Change

REGISTRATION INFORMATION

Pricing Details
Registration Member Nonmember
Conference Registration  $695.00  $875.00
Cancellation Policy

Cancellation Policy:
If you are unable to attend, you may send a coworker in your place. Please notify us of name changes as soon as possible. If you need to cancel, please e-mail KimDiCianni@ipc.org.
 
Note, all cancellations must be a written notice. Please note the cancellation policy below:

Attendees who cancel in writing by September 22, 2023 will incur a $100 cancellation fee. Cancellations received after September 22, 2023 will be responsible for the full fee.

Register now

Discounted Group Registration
Bring your colleagues and save 20%! Register five or more colleagues from the same company and receive 20% off each attendee's registration. If you would like to take advantage of this group discount, please reach out to KimDiCianni@ipc.org.

EXHIBIT & SPONSORSHIPS

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Cancellations will be accepted up to 15 days prior to the event. $100 cancellation fee will apply. No refunds will be given for notice less than 15 days prior to the event.

EXHIBITOR INFORMATION

Tabletop Exhibits

Tabletop Exhibits
$2,000 Member | $2,500 Nonmember   
Benefits include:

  • One 6' draped table
  • Two side chairs
  • One 6' draped table
  • One standard electrical outlet
  • Contact list of consented registered attendees
  • Logo on promotional materials, electronic and printed
  • One complimentary Conference registration for your exhibit staff, includes complimentary registration to IPC Builds (IPC committee meetings)

SPONSORSHIP OPPORTUNITIES 

Welcome Reception (exclusive, Wednesday evening)

$3,500  Member | $4,375 Nonmember

Benefits include:

  • Exclusive opportunity to deliver welcome address to attendees (3 minutes maximum)
  • One 6’ draped tabletop exhibit with two side chairs and one standard electrical outlet
  • Acknowledgement with sponsor logo on all printed conference materials
  • Acknowledgement with sponsor logo on all pre-conference electronic promotions
  • Signage at the event with sponsor name and logo
  • Opportunity to display sponsor promotional literature at the reception
  • Contact list of consented registered attendees
  • One complimentary Conference registration, includes complimentary registration to IPC Builds (IPC committee meetings)
Event Luncheon (exclusive, Wednesday)

$3,500 Member | $4,375 Nonmember

Benefits include:                                                           

  • One 6’ draped tabletop exhibit with two side chairs  and one standard electrical outlet
  • Tent cards with sponsor logo placed at each table
  • Acknowledgement with sponsor logo on printed conference materials
  • Acknowledgement with sponsor logo on pre-conference electronic promotions
  • Signage at the event with sponsor name and logo
  • Opportunity to display sponsor promotional literature
  • Contact list of consented registered attendees
  • One complimentary Conference registration, includes complimentary registration to IPC Builds (IPC committee meetings)
Event Refreshment Breaks (exclusive, Wednesday and Thursday)

$3,000 Member | $3,750 Nonmember

Benefits include:                                                           

  • One 6’ draped tabletop exhibit with one standard electrical outlet
  • Acknowledgement with sponsor logo on printed conference materials
  • Acknowledgement with sponsor logo on pre-conference electronic promotions
  • Signage at the event with sponsor name and logo
  • Opportunity to display sponsor promotional literature
  • Contact list of consented registered attendees
  • One complimentary Conference registration, includes complimentary registration to IPC Builds (IPC committee meetings)
Badge Lanyards, exclusive (sponsor provided)

$2,000 Member | $2,500 Nonmember

Benefits include:

Opportunity to distribute company branded badge lanyards to both High Reliability Forum and IPC Builds (IPC committee meeting) attendees. Benefits Include:

  • Acknowledgement with sponsor logo on printed conference materials
  • Acknowledgement with sponsor logo on pre-conference electronic promotions
  • Signage at the event with sponsor name and logo
  • Opportunity to display sponsor promotional literature
  • Contact list of consented registered attendees
  • One complimentary Conference registration, includes complimentary registration to IPC Builds (IPC committee meetings)
Attendee Giveaway (sponsor provided)

$2,000 Member | $2,500 Nonmember

Benefits include:

Opportunity to distribute company branded gift to both High Reliability Forum and IPC Builds (IPC committee meeting) attendees. Benefits include:

  • Acknowledgement with sponsor logo on printed conference materials
  • Acknowledgement with sponsor logo on pre-conference electronic promotions
  • Signage at the event with sponsor name and logo
  • Opportunity to display sponsor promotional literature
  • Contact list of consented registered attendees
  • One complimentary Conference registration, includes complimentary registration to IPC Builds (IPC committee meetings)

EXHIBITORS & SPONSORS






HOTEL AND LOCATION

Embassy Suites Hotel Raleigh-Crabtree
4700 Creedmoor Road
Raleigh, NC
Rate of $189 until September 13, 2024 or until all rooms are booked
Call 919-881-0000 or use the booking link below

RESERVE YOUR ROOM

Marriott Raleigh Crabtree Valley
4500 Marriott Drive
Raleigh, NC
Rate of $189 until September 13, 2024 or until all rooms are booked
Call 919-781-7000 or us the booking link below
Book your group rate for IPC Committee Meeting

Candlewood Suites Raleigh Crabtree
4433 Lead Mine Road
Raleigh, NC
Rate of $105 until September 23rd or until all rooms are booked
Call 919-789-4840 or use the booking link below

RESERVE YOUR ROOM

Traveling to the Hotel

A shuttle will be available Saturday - Thursday to/from the McKimmon Center and the IPC contracted hotels only.

Pickup Time:
Embassy Suites Crabtree: 7:30 am
Marriott Raleigh Crabtree: 7:35 am
Candlewood Suites Crabtree: 7:40 am

Dropoff Time:
The shuttle will be leaving at 5:15 pm from the McKimmon Center Saturday-Thursday to take attendees back to our contracted hotel block only.

*There will be an additional shuttle for those attending the Gnome Awards

CONTACT US 

Speaker and General Event Information

Julia Flynn 
Coordinator, Professional Development
JuliaFlynn@ipc.org

Exhibit and Sponsorship Sales Information

Kim DiCianni, CEM
Director, Trade Shows and Events
KimDiCianni@ipc.org 

Alicia Balonek, CEM
Senior Director of Trade Shows and Events
AliciaBalonek@ipc.org 

Registration Information

Kim DiCianni, CEM
Director, Trade Shows and Events
KimDiCianni@ipc.org 

Hotel and Location Information

Kristin Schueler, CMP
Director of Meetings and Events
KristinSchueler@ipc.org

Remote video URL
About IPC

IPC (www.IPC.org) is a global industry association based in Bannockburn, Ill., dedicated to the competitive excellence and financial success of its 5,000+ member-company sites which represent all facets of the electronics industry, including design, printed board manufacturing, electronics assembly and test. As a member-driven organization and leading source for industry standards, training, market research and public policy advocacy, IPC supports programs to meet the needs of an estimated $2 trillion global electronics industry. IPC maintains additional offices in Taos, N.M.; Washington, D.C.; Atlanta, Ga.; Brussels, Belgium; Stockholm, Sweden; Moscow, Russia; Bangalore and New Delhi, India; Bangkok, Thailand; and Qingdao, Shanghai, Shenzhen, Chengdu, Suzhou and Beijing, China.

McKimmon Center

1101 Gorman St
Raleigh, NC 27606
United States

McKimmon Center

McKimmon Center
1101 Gorman St
Raleigh, NC 27606
United States