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Wound Conductors

Basic physics explains that when electricity flows along a conductor an electromagnetic (EM) field is created around the conductor. Collections of one or more conductors can be arranged into a coil or other desired curves such that the EM field created exerts a force on a nearby electrically conductive material or object with its own magnetic field such as a permanent magnet. This is the description of an electromagnet made from a wound conductive material. Wound conductor elements are useful across many industries and can also be used to generate the flow of electricity when a nearby EM field is in motion.

For centuries, copper has been the primary material used in wound conductor elements across all industries. Copper is a good electrical conductor. Superconductors are perfect conductors and enable significant increases in energy density in wound conductor elements. Learn more about why and how Infinity Physics is advancing technology of wound conductors.

Energy Devices

As described above, the fundamental principle governing the conversion of mechanical energy into electrical energy and vice-versa is a curved or coiled electrical conductor. Devices using wound conductors are found throughout the world today and include electric motors in laptop fans to battleships, electric generators in proximity sensors to wind turbines. In addition to energy conversion, created EM fields from and in wound conductor devices are used in the sensors inside tiny seismometers to detect the slightest of vibrations to some of the world’s most powerful magnets used to steer beams of charged particles for high energy physics research.

From power grid sensors to medical imaging to electric vehicles to space travel, there are many opportunities for the increase in energy density from using superconductors in energy devices to improve our world. Learn more about why and how Infinity Physics is on the forefront of improving energy devices across many industries.

Power Devices

Power = Energy / Time. Control of energy in the time domain imparts varying degrees of complexity in devices depending upon precision required and the amount of energy involved. Demands of increasing technology are requiring ever greater energy density in electrical power devices such as power supplies, transformers, and fault current limiters used to protect power grids. Learn more about why and how Infinity Physics is on the forefront of improving power devices.