Linear Motion Reinvented
​They scale from micron-sized devices, hold position without power, travel unlimited distances, and operate in the vacuum, the deep sea - all with surgical precision.


Our compact and powerful actuators play the same role for machines as muscles do in nature
From micro-medical robots to deep space explorers, our actuators unlock capabilities that regular motors can’t.
Engineered for extreme environments, they deliver silent force without magnets, oil, or even maintenance.

Real revolution happens rarely.
Not every engineer can participate in it.
You can.
Spiketon M1

Spiketon M1 is a simple, compact, lightweight, high-precision linear actuator designed to move a carriage along rails
Spike AA1

2-plate amplified piezo actuator 0.5–1 mm stroke, 1,000N max push force, 20 kHz, press-formed metal.
Spike AA2

Advanced amplified piezo actuator with 0.5–1 mm stroke, 1,000 N push force, and 20 kHz silent operation. Optimized for high-performance integration (e.g., Spiketon).
What You Can Build
Enables surgical precision and micro-scale intervention where traditional actuators fail.
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Precision surgical tools and robots
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Prosthetics and exoskeletons
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Diagnostic equipment (MRI, ultrasound)
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Ventilators and life support systems

Current Status and Milestones
Unique Design and IP
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Received excellent technology review from NASA.
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Named Best Hardware Startup in San Francisco, 2023.
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Recognized by Autodesk Innovation Center.​
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Strategic partnership with Northwestern University.
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Draper University Acceleration Program resident.
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Plug and Play Accelerator Program resident.
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Solid IP portfolio: three patents granted, 10 pending.
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Working prototype.
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Open Source CERN-OHL license









Our Mission
Together, we build the muscles that move the future
In a world where robotics is reshaping life, Spike unlocks what was never possible before - compact, silent, ultra-powerful actuators that move like muscles, yet thrive where traditional motors fail.
We open-sourced everything.
So, together with engineers, researchers, builders, and dreamers, we can create the tools, devices, applications, and machines that will define what comes next.
This isn’t just hardware.
It’s a turning point for humanity.
And it all started in a San Francisco garage, as open-space motors for Mars rovers.
Do you have an idea? Let's discuss!
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