Super Thin Copper Magnet Wire 0.012 - 0.8mm UEW / PEW For Computer

Super Thin Copper Magnet Wire 0.012 - 0.8mm UEW / PEW For Computer

Using ultra-fine wires to manufacture inductive components and provide connectivity within miniature
devices requires the interplay of several innovative technologies. These technologies are predicated
on an array of methods for handling copper and other metal wires at any diameter, down to the finest serially
manufactured size of 56 AWG (0.012mm). Handling wires which can be 5‑10 times thinner than a
human hair is a non-trivial challenge, especially if the expected final shape of the wound coil is constrained
by a long list of physical and environmental factors, and must meet very strict tolerance requirements. The
machinery used for winding such coils, which controls and monitors the wire’s position and tension at any
given time during the winding process, is in most cases custom‑built by the coil manufacturer, and requires
state‑of‑the‑art micro‑motion and control systems. As a result, only a handful of manufacturers in the world
claim to have the technical capability to serially manufacture coils that small.

Features and benefits:

The use of innovative ultra-fine wire technologies opens a limitless range of new possibilities to designers of
miniaturization based medical equipment. The growing need to access very dense body regions, while minimizing interference with the body’s regular functioning, reducing energy consumption and lengthening implanted components’ lifetimes, underscores the importance of miniaturization in medical devices. Thus, for example, a miniature coil manufactured  as the navigation component in a cardio‑vascular catheter
performing cardiac ablation. This component, serving as a key element in a disposable catheter, is a typical
example of the technological ability to mass‑produce a miniature component having a high and predictable
quality at a reasonable cost. We foresee that as designers become more aware of these advanced technologies and the variety of applications that can utilize them, their usage will become increasingly widespread

Certificates:

ISO 9001-2000, ISO TS 16949, ISO 14001-2004,
UL Approved, RoHS Directive Met

Application:

1. Transferring energy to implants requiring battery charging or electrical charge input to activate and
   operate their systems

2. Radiating energy for RF treatments, heat treatments, or electromagnetic radiation‑based treatments

3. In‑vivo magnetic navigation, employing a local or external magnetic field

Specification: