Reliability Comparisons of FPBGA Assemblies Under Hot/Cold Biased Thermal Cycle
August 6, 2024 | Thomas Sanders, Seth Gordon, Reza Ghaffarian, Jet Propulsion LaboratoryEstimated reading time: 1 minute
Current trends in microelectronic packaging technologies continue in the direction of smaller, lighter, and higher density packages. The telecommunications industry and particularly mobile/portable devices have a strong need for lighter and smaller products. The current emerging advanced packaging (AP) technologies, including system-in-package (SiP) and 2.5D/3D stacked packaging, added another level of complexity and challenges for implementation. The AP covers a set of innovative technologies that package integrated circuits (ICs) to increase functionality, improve performance, and provide added value1. In contrast, traditional packaging methods cover different I/O density and I/O pitch depending on the targeted application’s requirements, performance, and cost. The AP with heterogeneous integration added additional thermal challenges compared to a single die package2.
For single-die packaging technologies, the density requirement led to a progression in ball-grid-array (BGA) packaging technologies implemented in early 2000. With increased I/O density and decreased package size, the new generation of fine pitch BGA (FPBGA) packages, such as chip scale packages (CSPs) are introduced. A variety of studies have been conducted examining the reliability of printed circuit board assemblies (PCBAs) using BGAs and FPBGAs3-6. Recently, a guideline on BGA and die size BGA (DSBGA) was released for high-reliability applications with consideration of various environmental requirements for a number of NASA mission applications7. There are significant thermal cycle (TC) test data in the range of -55℃ and 125℃, or lower TC ranges, for commercial and even high-reliability applications, which is covered by IPC 97018.
However, thermal cycle test results under extreme cold and cryogenic conditions, representative of deep-space mission applications, is rare. Tudryn et al.9, presented detailed thermal cycle evaluation for Martian environment including die attachment with wire bonds. Recently, Ghaffarian10 and Ghaffarian et al11 compared the low temperature thermal cycles, including -110°C to 20°C for SnPb solder assemblies. The test results covered surface mount technology (SMT) packages including column grid array (CGA) to hand-soldered plated through-hole (PTH) ceramic pin grid array (PGA) assemblies.
To read the entire article, which originally published in the August 2024 issue of the SMT007 Magazine, click here.
Suggested Items
Coastal RF Systems Joins StratEdge’s Network as Manufacturer’s Representative for Southern California
10/31/2024 | StratEdgeStratEdge Corporation, a leader in high-performance semiconductor packaging solutions, has appointed Coastal RF Systems as its exclusive Manufacturer's Representative for Southern California.
SEMICON Japan 2024 to Expand Scope with Spotlight on Advanced Design Innovation
10/23/2024 | SEMISEMICON Japan 2024, the largest gathering of leaders from the microelectronics manufacturing supply chain in Japan, will assemble more than 1,000 exhibitors showcasing semiconductor solutions for smart technologies from Dec. 11-13 at Tokyo Big Sight.
Unlock Unmatched Performance for Matched Impedance Devices with StratEdge at IEEE BCICTS 2024
10/22/2024 | StratEdgeStratEdge Corporation, an industry leader in high-frequency and high-power semiconductor packaging, is excited to announce its participation in the IEEE BiCMOS and Compound Semiconductor Integrated Circuits and Technology Symposium (BCICTS).
Calumet Electronics Leads US Organic Substrate Technology Innovation with KLA Corporation
10/17/2024 | Calumet ElectronicsCalumet Electronics of Michigan today announced it is pioneering organic substrate technology in the United States in collaboration with KLA Corporation, which also has a Michigan headquarters. KLA Corporation is a global technology leader that develops equipment and services to enable innovation throughout the electronics industry. The company provides advanced process control and process-enabling solutions used in the manufacturing of semiconductors and electronics.
SEMICON Europa 2024 to Explore Innovations in Advanced Packaging and Fab Management for a Sustainable Future
10/15/2024 | SEMISemiconductor industry experts will convene at SEMICON Europa 2024, November 12-15 at Messe München in Munich, to explore the latest trends and innovations in advanced packaging and fab management.