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IMAPS & SMTA UMD Student Chapter and IMAPS Chesapeake Chapter Spring Technical Symposium

Mar 06, 2019 03:00pm -
Mar 06, 2019 07:00pm
(GMT-5)

Event Description

IMAPS & SMTA UMD Student Chapter and IMAPS Chesapeake Chapter Spring Technical Symposium

Wednesday, March 6, 2019

3:00 p.m.-7:00 p.m.

11100 Johns Hopkins Road (Applied Physics Laboratory), Howard County Room #3, Laurel, MD 20723

 

The IMAPS Chesapeake Chapter along with the University of Maryland student chapter of IMAPS and SMTA, will hold its Spring Technical Symposium on March 6th, 2019, at the Applied Physics Laboratory (APL) in Johns Hopkins University. The symposium will focus on emerging trends in electronics packaging and the associated reliability concerns. This will be the first collaborative meeting between IMAPS and SMTA student chapters and is expected to attract people with a wide range of background hence providing great networking opportunity for students, professors and professionals.

The event will kick off with speeches from eminent speakers on topics covering thermal interface materials for power module packaging, bi-metal interface degradation in wire bonds and trends in packaging materials and their reliability. Dinner will be served for all attendees and participants. Selected topics will be presented as posters by the students of University of Maryland during the dinner session.

Tentative Agenda:

3:00 PM

Registration and Opening Remarks

3:30 PM

Interfacial Degradation of Copper Wire Bond in Combined (Thermal Aging + Cycling) Loading Condition

Subramani Manoharan, Center for Advanced Life Cycle Engineering, University of Maryland

4:00 PM

The Impact of Glass Style and Orientation on the Reliability of SMT Components

Maxim Serebreni, DfR Solutions

4:30 PM

Design Challenges and Opportunities in Package-Integrated Transient Thermal Mitigation

Michael Fish, Army Research Laboratory

5:00 PM

Networking and Student Poster Session

5:45 PM

Event Wrap up and Closing Remarks

6:00 PM

Dinner

Registration Fees:

$10 Students
$25 IMAPS Members
$30 non-IMAPS Members

Parking is available free of cost for the attendees at the visitor parking lot shown below.  Enter the building named Lobby 1 and check-in with APL staff.

Click Here to see a campus map

Speakers and Abstracts

Speaker: Subramani Manoharan, CALCE

Presentation Title: Interfacial Degradation of Copper Wire Bond in Combined (Thermal Aging + Cycling) Loading Condition

Abstract: Copper (Cu) wire bonds have become the dominant wire material used in microelectronic packages, which has replaced gold (Au) in majority of applications. Cost savings has been the key factor to drive this transition in wire bond material, although there are other advantages to Cu such as better electrical and thermal conductivity, slower intermetallic compound (IMC) formation and reduced wire sweep during transfer molding. However, two critical reliability concerns exist with Cu wire bonds, namely, growth of electrically resistive and brittle IMCs and fatigue of bond wire, which makes them not suitable for harsh environments such as in industrial, military and automotive electronics.

A review of literature shows fracture at wire neck as the most commonly reported failure mode. However, with the growth of IMC at interface, the location of failure shifts to interfacial separation. This is studied in detail through performing thermal cycling experiments with long dwell times at high temperature that promotes interfacial IMC growth, to replicate actual use condition. Additionally, most of the work presented in literature use lab made wire-bonded specimen in their study on test packages, which may not replicate actual commercial off-the-shelf (COTS) parts which have several different geometrical and material parameters. A unique test approach is adopted to study this two-part failure and model its failure time by including the myriad of factors that exists in COTS packages. Additionally, critical factors contributing to failure are identified and studied in detail to establish a physics-based model to predict failure.

About the Speaker: Subramani Manoharan is a PhD candidate in Mechanical Engineering at the University of Maryland, College Park. His research focuses on electronics packaging with emphasis on interconnect technology such as wire bonding, lead-free solder and underfills for industrial and commercial applications. His interests also include material characterization and failure analysis of microelectronics. He is member of ASME, IMAPS and IEEE organizations and actively serves as a reviewer for some of their journals.


Speaker: Maxim Serebreni, DfR Solutions

Presentation Title: The Impact of Glass Style and Orientation on the Reliability of SMT Components

Abstract: Printed circuit board (PCB) glass style and orientation can have a significant influence on thermal cycling reliability of surface mounted components.  DfR has conducted thermal cycling (-40°C to 125°C) tests on two PCB glass styles (1080 and 7628). The in-plane and out of plane Coefficients of Thermal Expansion (CTE) were measured and found to be about 3-4ppm/°C different in the X-Y directions of the boards.  To facilitate the reliability assessment of SMT component reliability four 0-ohm resistor sizes (2512, 1206, 0602 and 0402) were mounted on each board. Each board had 20 resistors with multiple orientations. The overall sample size consisted of 32 resistors of each size per glass style.  In addition, the PCBs have two pad sizes. The purpose of these experiments is to develop a model for validating fatigue life predictions for different laminate materials. This paper will present the experimental structure, results of the stress tests and variables on the reliability of the chip components and insight into the development of appropriate models.

About the Speaker: Maxim Serebreni is a Research Engineer at DfR Solutions. He has a background in experimental mechanics, material characterization and numerical modeling. His current research involves integration of Pb-free solder alloys in harsh use environments. He has consulted in the fields of electronics reliability, electronic packaging design and solder alloy metallurgy. He is currently completing his PhD in Mechanical Engineering at the University of Maryland, College Park under the supervision of Dr. Patrick McCluskey.


Speaker: Michael Fish, Army Research Laboratory

Presentation Title: Design Challenges and Opportunities in Package-Integrated Transient Thermal Mitigation

Abstract: 

Phase change materials (PCMs) have attracted the attention of researchers for their promise to buffer or mitigate the effects of transient thermal pulses within electronic systems. While widespread adoption has historically been held back by the by the low thermal conductivity of otherwise attractive materials with relevant transition temperatures, advancements in PCM enhanced composite materials, additive manufacturing, and more recent interest in low melting point metals has tipped the balance towards feasibility in highly transient systems. One impediment to deploying PCM enhanced packaging is a lack
of package-level design tools that can illustrate the tradeoffs between performance, size/weight, and cost that results from integrating phase-change materials and/or their composites. This work exhibits the extensions made to the Army Research Laboratory’s thermal-mechanical co-design tool, ARL ParaPower, to enable both phase change transient modeling and integration into system-level design tools. By providing rapid surveying capability within any particular design space, detailed simulation burden is reduced and the most promising demonstrators are prioritized.

About the Speaker: Dr. Michael Fish leads the transient thermal program as part of the Advanced Power Packaging group at the Army Research Laboratory. He has expertise in embedded thermal management, simulation, and thermal test bed development. His current effort is in the management and packaging of highly transient electronic systems, with particular focus on directed energy weapons and vehicle electrification and power conversion.  He holds a doctorate in Mechanical Engineering from the University of Maryland, College Park where he studied thermal phenomena in heterogeneously integrated systems. He received his BS and MS from the University of Virginia, studying micro/nanoscale heat transport and metrology.

 


Event Type:Chapter
Category:Chapter Meeting
Early registration ends on Feb 28, 2019.
Regular registration starts on Mar 01, 2019 and ends on Mar 05, 2019.
Late registration starts on Mar 06, 2019.
(GMT-05:00) Eastern Time (US & Canada)

 

Registration Fees
Fee TypeEarlyRegularLate
 Attendee
Member Fee: $25.00$25.00$30.00
Non-Member Fee: $30.00$30.00$35.00
 Student
Member Fee: $10.00$10.00$15.00
Non-Member Fee: $10.00$10.00$15.00
 SMTA Member
Member Fee: $25.00$25.00$30.00
Non-Member Fee: $25.00$25.00$30.00
 
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