GuRu Wireless Introduces Long-Range Wireless Power Transfer

GuRu Wireless has introduced a revolutionary technology to provide power remotely over large distances of about 30 feet. This technology has improved the operation time of rechargeable devices. An excellent example is an ISR drone that functions for 30 to 45 minutes on a single charge, can operate for up to 96 hours while receiving power using GuRu Wireless’s Power Transfer System.

Specifications of GuRu Wireless power transfer technology

This Power Transfer System is a modular, large-scale synchronous wireless system. Capable of delivering power ranging from milliwatts to kilowatts. It operates at 24GHz and can span over several kilometers. It can support various systems, from small IoT devices to large-scale defense systems.

This System operates within the millimeter wave spectrum. At these frequencies, the wavelength size is reduced significantly. This smaller wavelength allows the use of small antennas and precision in energy delivery is increased. This reduces the chip size, which is almost reduced in half compared to chips working on 10 GHz frequencies. Additionally, it uses RF Smart Lensing and Beam Forming. A single source emits the waves in all directions, making it inefficient for power transfer. To overcome this limitation GuRu Wireless Architecture uses multiple antennas to form a beam targeting receiver using the interference phenomenon. This creates a beam of RF energy, which can be steered with high precision making power transfer possible even if the target is moving.

Architecture

The GuRu Wireless architecture uses Application Specific Integrated Circuits (ASICs). ASICs combine millimeter wave integrated circuits, intelligent algorithms, and custom software. This helps ASICs to control all aspects of the system. ASICs ensure highly efficient, low-cost, and high-performance wireless energy transfer.

The architecture revolves around Tileable Modular Design. Meaning each transmitter module acts as a building block like Legos. These building blocks can be combined together to meet specific power and range requirements. For instance, an IoT device might require a transmitter of 1 Watt class – 3×3 cm, whereas an ISR drone requires a Kilo Watt Class – 90×90 cm transmitter while using the same building blocks. For use cases where space, weight and power (SWaP) are critical, GuRu Wireless architecture can deliver the lowest SWaP of any wireless power transfer solution.

Applications

The applications of GuRu Wireless span multiple sectors like aerospace and defense. Its technology sports systems like C4ISR by delivering high power over long distances, extending its flight times. In industrial and commercial settings, it enables wireless charging for IoT devices, sensors, and electrochromic windows. This reduces maintenance costs while improving sustainability and convenience. For infrastructure, it can ensure energy resilience by delivering power to remote locations during emergencies. It supports last-mile power delivery, and provides multiple sources of power to maintain operations during outages.

GuRu Wireless has innovated the ways of power transfer by combining cutting-edge technologies like millimeter wave spectrum operation, RF Smart Lensing™, custom ASICs, and modular scalability. Its ability to transfer energy wirelessly with precision, efficiency, and adaptability makes it a transformative solution across various sectors. GuRu’s innovations address modern challenges in energy delivery. GuRu Wireless has the potential to replace traditional power methods, it is paving the way for a future where power is seamlessly and reliably transferred over the air.

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