Facing the Future: The Role of 5G and Beyond in Shaping PCB Demand
It’s Only Common Sense: Stop Pitching, Start Listening
Trouble in Your Tank: Causes of Plating Voids, Pre-electroless Copper
Surrey Working Toward High-performing Wearable, Eco-disposable AI Electronics
October 30, 2020 | University of SurreyEstimated reading time: 1 minute
The University of Surrey has unveiled a device with unique functionality that could signal the dawn of a new design philosophy for electronics, including next-generation wearables and eco-disposable sensors.
In a study published in Advanced Intelligent Systems, researchers from the University of Surrey detail how their device, called the Multimodal Transistor (MMT), overcomes long-standing challenges and can perform the same operations as more complex circuits.
One of the breakthroughs is the MMT’s immunity to parasitic effects that reduce a transistor’s capacity to produce uniform, repeatable signals. These have hindered traditional “floating gate” designs ever since their invention in 1967, but this new structure promises efficient analogue computation for robotic control, AI and unsupervised machine learning.
Traditionally, gate electrodes are used to control a transistor’s ability to pass current. With Surrey’s device, on/off switching is controlled independently from the amount of current passing through the structure. This allows the MMT to operate at a higher speed than comparable devices and to have a linear dependence between input and output, essential for ultra-compact digital-to-analogue conversion. This also gives engineers unprecedented freedom of design, which could lead to greatly simplified circuits.
Dr Radu Sporea, Project Lead and Senior Lecturer in Semiconductor Devices at the University of Surrey, said: “Our Multimodal Transistor is a paradigm shift in transistor design. It could change how we create future electronic circuits. Despite its elegantly simple footprint, it truly punches above its weight and could be the key enabler for future wearables and gadgets beyond the current Internet of Things.”
Eva Bestelink is the co-inventor of the MMT. She chose to study Electronic Engineering at the University of Surrey after a career change. Eva said: “It has been an incredible journey since approaching Dr Sporea during my BEng with the idea to create a device based on neural function. When we started in 2017, we could not imagine all the benefits that would result from a relatively simple device design. I am lucky to be part of a group that is open-minded and willing to explore new ideas.”
Share on:
Suggested Items
The Shaughnessy Report: Solving the Data Package Puzzle
05/12/2025 | Andy Shaughnessy -- Column: The Shaughnessy ReportIf you ask fabricators about their biggest challenges, they’ll often point at PCB designers—the readers of this magazine. Yes, you! Why is it so difficult to create the ideal data package? It’s a fairly straightforward task. But this part of the design process keeps tripping up designers, even those who started in the industry before Pink Floyd split up.
I-Connect007 Editor’s Choice: Five Must-Reads for the Week
05/09/2025 | Andy Shaughnessy, Design007 MagazineTrade show season is wrapping up as we head into summer. Where has the time gone? I hope you all get the chance to take a vacation this year, because I know you’ve earned one. Speaking of which, when was my last vacay? If I can’t remember, it’s probably time for one. It’s been a busy week in electronics, with fallout from the back-and-forth on tariffs taking up most of the oxygen in the room. We have quite an assortment of articles and columns for you in this installment of Must-Reads. See you next time.
Imec Coordinates EU Chips Design Platform
05/09/2025 | ImecA consortium of 12 European partners, coordinated by imec, has been selected in the framework of the European Chips Act to develop the EU Chips Design Platform.
New Issue of Design007 Magazine: Are Your Data Packages Less Than Ideal?
05/09/2025 | I-Connect007 Editorial TeamWhy is it so difficult to create the ideal data package? Many of these simple errors can be alleviated by paying attention to detail—and knowing what issues to look out for. So, this month, our experts weigh in on the best practices for creating the ideal data package for your design.
RF PCB Design Tips and Tricks
05/08/2025 | Cherie Litson, EPTAC MIT CID/CID+There are many great books, videos, and information online about designing PCBs for RF circuits. A few of my favorite RF sources are Hans Rosenberg, Stephen Chavez, and Rick Hartley, but there are many more. These PCB design engineers have a very good perspective on what it takes to take an RF design from schematic concept to PCB layout.