Magnetic Levitation DIY Suspension Kit 12V Power Supply

Experience the fascination of Magnetic Levitation with the DIY Suspension Kit powered by a compact 12V supply. This pull-up maglev system uses a precise analog circuit and a Hall sensor to create a stable, frictionless levitation platform. With no physical contact, it minimizes wear, reduces maintenance, and operates with low noise and low energy consumption—perfect for experiments, demonstrations, and hands-on learning in electronics and magnetism.

Designed for versatility, it can work in a variety of environments, including vacuum or extreme temperatures, thanks to its contactless levitation principle. The force distribution is uniform across the magnetic pole surface, reducing stress and boosting long-term reliability. The kit is ideal for students, makers, and DIY enthusiasts who want to explore magnetic levitation, control electronics, and sensor feedback with real-world, observable results.

At intercyprus.com since 2002 — trusted for quality and reliability.

All electronic and mechanical equipment, devices and machines sold by InterCyprus to EU countries are CE certified and carry a two year warranty.

Benefits & Tips

• Learn the fundamentals of maglev technology with a hands-on, safe, and compact setup.
• Display lightweight objects in mid-air for demonstrations, projects, or classroom experiments.
• Use the blue potentiometer on the board to fine-tune magnetic force for stable levitation and optimal performance.

Product specifications

• Product name: pull-up maglev
• Power supply voltage: 12V 1A–2A
• Power consumption: 2–10W
• Size (approx.): 6.5 cm (L) × 6.5 cm (W) × 10 cm (H)
• Composition: analog circuit and Hall sensor
• Maximum suspended weight: ~50 grams
• Operating notes: connect power first, approach coil from bottom to top until suction at ~2 cm, then stabilize; adjust with the blue potentiometer if needed

Package includes

• DIY kit × 1

Warnings / Reminders

• Do not let the magnet adhere to the coil when powered on, as it can easily damage the device.
• Failure to discharge the float for a long time can cause overheating of the transistor and coil. If you encounter issues after several attempts, unplug the power supply and retry after a short rest.
• Keep magnets away from other electronic products such as mobile phones and bank cards.
• Long-term loads may require an additional fan to prevent coil temperature from affecting sensor operation.
• The float uses a magnet to attract a 2032 battery with an LED; shipped without the battery.