RVmagnetics offers innovative Identification Tags (ID tags) to combat counterfeiting. These tags effectively differentiate authentic products from counterfeit ones and can be seamlessly embedded into a wide range of materials, including textiles, paper, and plastics. Incorporated directly into goods, labels, or coatings during manufacturing, ID tags do not alter material properties, require no power supply, and add no weight. Looking to provide your product with an unmistakable identity? Choose RVmagnetics MicroWire for a reliable solution.
Our ID tags use innovative MicroWire technology to create unique, unhackable codes embedded directly into products or applied as stickers. These tags resist external influences, operate contactlessly and can connect to a blockchain-based database for secure authentication.
ID tags by RVmagnetics are based on their unique MicroWire technology. MicroWires are composites with a magneto-metallic wire nucleus (diameter ca. 1–50 µm) and a glass coating (thickness 2–20 µm). The ID tags are created by mixing several MicroWires with different alloy compositions and lengths, positioned in random directions.
This combination provides a unique, unhackable code that can become part of apparel, accessories, spare parts, or equipment. Depending on the customer’s specifications or needs, the tags can be embedded inside the product or applied as a sticker.
The sensing system includes two coils, a board for computing power and communication, and integrated software. During final packaging and boxing, the tags are read using a mobile phone or a customizable reader.
The ID tags are designed to withstand external environmental factors without compromising response quality; neither magnets nor magnetic fields can affect the MicroWire. They operate contactlessly due to the magnetic nature of the MicroWires. Additionally, the tags can be rapidly produced, with 10,000 units manufactured in just 10 minutes.
The process begins with ID tags being embedded or inserted into materials during or after production. Each tag's unique code is scanned into a secure blockchain-based database, where users can store various data such as age, dates, status, or batch information.
A simple reading device is then used to verify authenticity, easily distinguishing original products from counterfeit ones. Every ID tag possesses an infinite number of unique codes, a "DNA" code matrix detectable at different frequencies, making them impossible to emulate or recreate.