The difference between a conventional magnet and a programmable one isn't strength — it's control. A conventional magnet has exactly one trick, and one force curve. A programmable magnet lets you draw the curve you want.
What a conventional magnet can do
A standard magnet has North on one face and South on the other. Bring two together and you get a single, monotonic behavior: attraction (or repulsion) that simply grows as the gap closes. Useful — but it's the only curve you get, and it reaches out far, grabbing anything ferrous nearby.
What changes with a coded face
A programmable magnet (a "Polymagnet," also called a correlated, coded, or software-defined magnet) prints many small poles — maxels — on one face in an engineered pattern. When two coded faces meet, their fields add where the codes align and cancel where they don't. Now the force is a function of both position and rotation, so you can shape it:
- Attract (conventional) — one smooth pull.
- Spring — attracts at a distance, repels below a set gap: non-contact springiness.
- Twist-release — peak hold at 0°, force collapses at ~20° rotation.
- Detent — a periodic curve that clicks into positions.
- Align — force peaks only at the correct seated position and orientation.
Same magnet material. The behavior lives in the pattern, not the part.
Stronger up close — and shorter reach on purpose
Because the North and South maxels sit next to each other, the flux takes short loops right at the surface instead of arcing out to a far pole. Two consequences matter for design:
- Higher near-field strength — on sheet metal, holding force can reach up to about 4x a conventional magnet of the same size (design- and test-dependent).
- Short reach — the field is near-zero beyond about a quarter inch. That's a feature: far less stray field to disturb a compass, wireless charging, a credit card, or nearby electronics.
When to use which
Reach for a conventional magnet when you just need to hold two things together and cost per part is everything. Reach for a programmable magnet when you need behavior — self-alignment, a latch, a spring, a twist-release, a detent — or when a conventional magnet's long stray field would be a problem. In many designs one programmable part replaces three or four conventional components.
See the behavior for yourself
It's hard to believe until it's in your hand. Order a demo kit, design your pattern, or talk to an application engineer about a custom force curve.
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