-
- News
- Books
Featured Books
- pcb007 Magazine
Latest Issues
Current IssueEngineering Economics
The real cost to manufacture a PCB encompasses everything that goes into making the product: the materials and other value-added supplies, machine and personnel costs, and most importantly, your quality. A hard look at real costs seems wholly appropriate.
Alternate Metallization Processes
Traditional electroless copper and electroless copper immersion gold have been primary PCB plating methods for decades. But alternative plating metals and processes have been introduced over the past few years as miniaturization and advanced packaging continue to develop.
Technology Roadmaps
In this issue of PCB007 Magazine, we discuss technology roadmaps and what they mean for our businesses, providing context to the all-important question: What is my company’s technology roadmap?
- Articles
- Columns
Search Console
- Links
- Media kit
||| MENU - pcb007 Magazine
ASMPT: Highly Flexible Die and Flip-chip Bonder for Co-packaged Optics Production
November 20, 2024 | ASMPTEstimated reading time: 2 minutes
The high-precision AMICRA NANO die and flip-chip bonder has been specially developed for the production of co-packaged optics where which optical and electronic components are integrated in a common housing. With its exceptional process stability and a placement accuracy of ±0.2 μm @ 3 σ, this innovative bonding system is ideally equipped for the communication technology of the future.
Co-packaged optics manufacturing is a key process in the production of compact, miniaturized components for today's high-performance data centers and networks that require energy-efficient and high-performance data transmission with minimal latency. To shorten the electrical signal paths, chips and optical interfaces are tightly integrated in a very small space.
“The complexity of semiconductors is constantly increasing and poses enormous challenges, especially with regard to bonding technology,” explains Dr. Johann Weinhändler, Managing Director of ASMPT AMICRA and responsible for ASMPT’s Semiconductor Solutions Division in Europe. “The chips have more and more inputs and outputs, but they must not get any larger. This means that ever finer structures have to be processed with high precision, and this is exactly why we have developed the AMICRA NANO.”
Stable connections with no solder or glue
The NANO die and flip-chip bonder overcomes these challenges by employing an innovative hybrid bonding technology that does not require any solder paste or glue. Instead, it creates stable mechanical and electrical connections with atomic diffusion.
Precision is the prerequisite for further miniaturization
While hybrid bonding enables a high degree of miniaturization, it requires exceptional placement accuracy – in part, because the components no longer center themselves during the heat treatment. The AMICRA NANO places dies from wafers or waffle packs with an accuracy of ±0.2 µm and bonding forces ranging from 0.1 to 20 N, achieving a throughput of 200 to 400 components per hour. With specifications like these, the machine is aimed at the high-mix/low-volume market, for example for chip sets, small lots, prototypes, or feasibility studies for new processes.
The AMICRA NANO achieves its high precision with four high-resolution camera systems that monitor the process from die pickup to final alignment and inspection. Thanks to the machine’s unique design, it is possible to map both the element being placed and the substrate through the bond head at any time. The machine even has an infrared illumination system that penetrates the dies.
Highly flexible technology with an ultra-clean process environment
The machine is also exceptional with regard to its flexibility because it can handle direct and indirect hybrid bonding as well as various soldering and gluing processes. The AMICRA NANO offers three different heating options, including laser soldering and UV curing. Since many processes are highly sensitive to contaminants, the machine is equipped with a HEPA filtering and ionization system that ensures a high-purity operating environment.
Fast computers need fast communication
Hybrid bonding will soon be crucial wherever maximum performance is required in the smallest of spaces – for example, in high-performance and quantum computers, AI systems, IoT devices, or autonomous vehicles. “In particular, converting electrical into optical signals and vice versa is becoming increasingly important, for which light-emitting and light-sensitive components must be placed with exceptional precision,” Dr. Weinhändler sums up. “Having this fast fiber-optic communication technology at your disposal is essential if you want to exploit the potential of future data centers to the fullest.”
Suggested Items
Tresky's Laser- and Photodiodes DIE Bonding in Optoelectronics
11/05/2024 | Tresky GmbHIn the dynamic world of optoelectronics, where light and electronics come together, connection technology plays a crucial role for the performance and lifespan of laser diodes (LD) and photodiodes (PD).
HBM5 20hi Stack to Adopt Hybrid Bonding Technology, Potentially Transforming Business Models
10/30/2024 | TrendForceTrendForce reports that the focus on HBM products in the DRAM industry is increasingly turning attention toward advanced packaging technologies like hybrid bonding.
NEOTech Announces Implementation of Enhanced Wire Bonding Process to Boost Microelectronics Manufacturing Efficiency
10/08/2024 | NEOTechNEOTech, a leading provider of electronic manufacturing services (EMS), design engineering, and supply chain solutions in the high-tech industrial, medical device, and aerospace/defense markets, is excited to announce the recent implementation of an enhanced wire bonding manufacturing process for microelectronics circuit assemblies.
iNEMI Packaging Tech Topic Webinar: Packaging Interconnect Material Technology Series
09/19/2024 | iNEMIThe International Electronics Manufacturing Initiative (iNEMI) continues its Packaging Interconnect Material Technology Series with a webinar on Transient Liquid Phase (TLP) Bonding for High-Temperature Soldering Processes.
iNEMI Presents Packaging Interconnect Material Technology Series with Dr. Kazuhiro Nogita
09/09/2024 | iNEMIiNEMI, a leading electronics manufacturing industry association, is pleased to announce a two-part webinar series focusing on packaging interconnect material technology. Dr. Kazuhiro Nogita, a leading expert in the field, will present on September 17-24, 2024.