Flexible Hybrid Electronics: Innovation Trends, Opportunities and Challenges

Flexible Hybrid Electronics: Innovation Trends, Opportunities and Challenges
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Flexible Hybrid Electronics: New IDTechEx Report on Innovation Trends, Opportunities and Challenges

While flexible electronics have been around for years, either as flexible PCBs or genuinely printed electronics, there has always been a trade-off between flexibility and capability. Circuits with a few printed transistors based on organic semiconductors could be printed onto flexible substrates but were not generally capable of significant data processing. On the other hand, thanks to adherence with Moore’s law, very capable silicon ICs (integrated circuits) are incredibly cheap on a per transistor basis but impose a rigid form factor and require careful placement onto a substrate.

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Flexible Hybrid Electronics

A prototypical flexible hybrid electronics circuit (left), which must as a minimum include conductive interconnects printed onto a flexible substrate along with a placed integrated circuit. Additional functionality may include thin film photovoltaics (PV), a thin film battery and printed sensors. Schematic (right) showing how FHE breaks the existing compromise between processing capability and flexibility. To learn more please refer to IDTechEx’s reportFlexible Hybrid Electronics 2020-2030: Applications, Challenges, Innovations and Forecasts”.

Flexible hybrid electronics (FHE) ends this compromise (see schematic). It promises to combine the extensive processing capability of integrated circuits with a flexible form factor, and with printed rather than etched conductive interconnects. This combination of attributes opens a wide range of application possibilities, across many different industries. Indeed, the new IDTechEx report finds that this could be a $3 Bn market by 2030.

Ubiquitous Electronics

The global market research firm, IDTechEx, believe that FHE provides a compelling technological approach towards the vision of ubiquitous electronics. The combination of flexibility, processing/communication capability and ultimately compatibility with low-cost, high volume continuous manufacturing methods is unique to FHE, but highly applicable to many different sectors. Their new FHE report identifies five main application sectors: smart packaging, wearable/healthcare monitoring, consumer electronics, industrial/environmental monitoring, and automotive/aeronautical.

For each application sector, IDTechEx's Analysts evaluate a range of prototypes from different manufacturers/research centres, and for each application subsector outline the required circuit attributes, technologies and their technological readiness level. This insight is then employed in constructing detailed market forecasts, by both volumes and revenues, for each application sub-sector.

RFID Sensors

Perhaps the most compelling opportunity for FHE is ubiquitous, low cost wirelessly enabled RFID sensors. These could be employed in industrial and environmental monitoring, and in smart packaging. Such capability is a prerequisite for the vision of connected devices and the ‘Internet of Things’, in which data from an increasingly wide range of items is transmitted to the cloud before applying machine learning. At present, passive RFID tags are produced by the billion. Indeed, IDTechEx have been analyzing the RFID market research since the early 2000s and estimate around 18 billion RFID tags will be produced in 2020 (see the IDTechEx report titled “RFID Forecasts, Players and Opportunities 2019-2029” for a complete analysis of the global RFID industry).

Passive RFID tags are only capable of communicating with a reader when specifically addressed. Furthermore, as the name suggests, their only functionality is identification. FHE would enable ‘RFID sensors’ that can monitor other attributes such as temperature, humidity, stress and strain at specified intervals, and then transmit that information either to a reader or via wireless networks.

The picture below shows a prototype multimodal sensor from Boeing, which could be applied to industrial equipment large and small and would transmit information via Bluetooth to help predict equipment failure and thus improve productivity. Also shown is a prototype sensor from Wiliot, which has Bluetooth capability but does not include a thin film battery, instead harvesting electromagnetic energy from its surroundings. A battery-less approach seems a promising route to ubiquitous RFID sensors, since thin film batteries have limited capacity and will increase device size, cost and manufacturing complexity.

Flexible Hybrid Electronics

A prototype multimodal sensor incorporating a thin film battery (top, from Boeing, taken from Flex 2020 Conference in San Jose California), and a simpler battery-free sensor on a paper substrate (bottom, from Wiliot). To learn more please refer to IDTechEx’s new report titled “Flexible Hybrid Electronics 2020-2030 Applications, Challenges, Innovations and Forecasts”.

Flexible Hybrid Electronics: Innovative Thinned ICs

Such a vision will need such RFID sensors to be manufactured in very large volumes with a low cost per unit. This requires R2R (roll-to-roll manufacturing), which is currently employed for passive RFID tags. Adapting this method to FHE introduces some considerable challenges, since FHE circuits require a thinned die, and likely other passive components, to be mounted onto a flexible substrate.

Relative to basic RFID ICs that have very limited functionality, thinned FHE ICs (for example a module with ADC and UHF RFID measuring 2.2 mm by 2.3 mm by 25 um) have much higher aspect ratios and more I/O pads, increasing both fragility and registration requirements during placement. Differential thermal expansion coefficients between polymeric substrates and silicon ICs pose additional challenges for robust attachment, particularly if the circuit is going to be exposed to a wide range of temperatures, such as in automotive applications.

Given this challenge, the production, handling and attachment of thinned dies are very much an innovation area. To learn more about the status, challenges, and innovations in R2R and/or pick-and-place of flexible ICs in flexible hybrid electronics, please see IDTechEx’s new report “Flexible Hybrid Electronics 2020-2030: Applications, Challenges, Innovations and Forecasts”. IDTechEx forecast that RFID sensors will start becoming widely adopted in 2025, with over 5 billion units sold per year by 2030.

From PI to PET

Of course, the widespread adoption of RFID sensors requires them to be as cheap as possible. This precludes the use of expensive PI (polyimide) substrates, which will likely be replaced with PET (and even paper for smart packaging applications).

This transition in substrate materials imposes challenges, in that conventional lead-free (SnAgCu) solder can no longer be used. The development of component attachment methods that are compatible with thermally fragile substrates is an area of innovation, including both low temperature solder, novel anisotropic conductive adhesives, and photo-sintered solder.

To learn more about the merits, status, performance characteristics and limitation, cost, roadmap, and innovators and suppliers of these low-temperature attachment technologies, please see the new IDTechEx report: “Flexible Hybrid Electronics 2020-2030 Applications, Challenges, Innovations and Forecasts”.

An Opportunity for Conductive Ink

Conductive ink, required for the printed interconnects in an FHE circuit, provides another opportunity for cost reductions. Currently, most conductive ink is silver based, but are intrinsically expensive due to the price of silver metal (around 400 $/kg). Copper based inks are potentially much cheaper but have long suffered from unwanted oxidation that reduces conductivity. Developing stable copper inks with at least equivalent conductivity to silver inks, while reducing the curing times and temperatures to facilitate rapid manufacturing with thermally fragile substrates is thus a substantial area of innovation. All these innovation trends are discussed extensively in the recently updated IDTechEx report titled “Conductive Ink Markets 2020-2030: Forecasts, Technologies, Players”.

An elegant compromise

In summary, FHE is a new approach to electronic circuits that bridges the gap between printed and conventional electronics, by combining flexibility with processing capability, along with the potential for both agile and continuous manufacturing methods. This combination of attributes is ideally suited to applications including smart packaging, wearable devices and industrial/environmental monitoring. Challenges, and hence innovation areas, are transitioning to cheaper thermally fragile substrates and hence low temperature attachment methods, lowering the conductive ink, and making FHE circuit production compatible with R2R manufacturing.

IDTechEx’s new report, “Flexible Hybrid Electronics 2020-2030: Applications, Challenges, Innovations and Forecasts”, offers a comprehensive analysis of this emerging technology frontier. The analysts from IDTechEx have been assessing and following the printed electronic technologies and markets for well over a decade. This report is based on fresh primary research including interviews and company visits with all the key players worldwide. It identifies and examines all the key innovation trends across the material and production systems, covering attachment, substrate, and metallization materials, as well as production techniques including high-throughput pick-and-place and various S2S and R2R printing techniques.

This report builds an application roadmap, showing how FHE will grow in complexity from simple RFID tags of today to complex flexible hybrid electronics of the future, enabling applications in smart packaging, industrial monitoring and wearable devices and more. It offers insightful analysis into application timeline, challenges, and innovation opportunities. Furthermore, it forecasts the growth of this enabling technology, showing that the market can exceed $3 bn by 2030. Smart packaging is forecast to be the dominant application by volume, although wearable/healthcare monitoring applications are likely to be first to achieve significant market penetration.

Flexible Hybrid Electronics

Market forecast (by revenue) for the adoption of FHE for various applications. These forecasts are based on a granular analysis of over 20 sub-categories, the benefits offered by FHE in each category, and price forecasts for application specific components and assembly methods. To learn more please refer to IDTechEx’s report “Flexible Hybrid Electronics 2020-2030: Applications, Challenges, Innovations and Forecasts”.

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Jacob Wolinsky is the founder of ValueWalk.com, a popular value investing and hedge fund focused investment website. Jacob worked as an equity analyst first at a micro-cap focused private equity firm, followed by a stint at a smid cap focused research shop. Jacob lives with his wife and four kids in Passaic NJ. - Email: jacob(at)valuewalk.com - Twitter username: JacobWolinsky - Full Disclosure: I do not purchase any equities anymore to avoid even the appearance of a conflict of interest and because at times I may receive grey areas of insider information. I have a few existing holdings from years ago, but I have sold off most of the equities and now only purchase mutual funds and some ETFs. I also own a few grams of Gold and Silver

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