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Breadboards are a familiar tool for many people who study electronics. The name "breadboard" has an interesting origin that dates back to the era of vacuum tube circuits. At that time, most components were large and bulky, so engineers would mount them on wooden boards—similar to how one might cut bread—using screws and nails. As technology evolved and components became smaller, the name "breadboard" stuck around, even though the design changed over time.
Today’s breadboards are typically square or rectangular, with multiple small sockets designed for solderless experimentation in electronic circuits. This makes it easy to insert or remove components as needed, eliminating the need for soldering. This not only saves time during circuit assembly but also allows for component reuse, making breadboards ideal for building, testing, and learning electronics.
Recently, Les Hall, a senior electronics engineer, had a creative idea: why not use 3D printing to reshape the traditional breadboard? His goal was to expand its functionality and make it more versatile.
“I’ve been working with breadboards for 30 years, whether in school or at work. They’ve become part of my life,†Hall said excitedly. “I developed a technique called ‘the neat freak method’ for wiring breadboards, and now I’ve invented a 3D-printed breadboard technology.â€
If you're new to this, you might be wondering what a breadboard is and why 3D printing one would be exciting. Let’s break it down.
“Traditional breadboards are flat and boring, even when connected together. They’re still all square. But with 3D printing, we can create breadboards in any shape or size—like the fuselage of an airplane or the body of a car. You can even customize them based on specific electronic needs,†Hall explained.
This innovation opens up new possibilities for flexible and complex circuit designs. When combined with 3D-printed conductive graphene wires, it could lead to a full solution for 3D-printed electronics.
“At a basic level, 3D-printed breadboards can have holes of any size or spacing, allowing for different components like audio jacks or switches. While that may sound simple, it actually unlocks endless possibilities,†Hall added.
This new approach could revolutionize how we think about prototyping and designing electronic systems, making the process more adaptable and creative than ever before.