Final answer:
The 802.11ad standard operates in the 60 GHz portion of the ISM band and has a maximum range of 10 meters. Also known as WiGig, it is designed for high-speed, short-range communication.
Step-by-step explanation:
The 802.11ad standard operates in the 60 GHz portion of the ISM band and has a maximum range of about 10 meters. This standard, also known as WiGig, is designed for high-speed, short-range communication, making it ideal for applications such as wireless docking stations and streaming HD video.
The 802.11 standard that operates at 60 GHz with a range of 10 meters is known as 802.11ad or WiGig, designed for short-range high-speed wireless connectivity.
The 802.11 standard that operates in the 60 GHz portion of the ISM band and has a maximum range of about 10 meters is known as 802.11ad. This technology, also referred to as WiGig, provides high-speed wireless connectivity but due to high frequency, it has limited range and cannot penetrate walls effectively. Consequently, it's primarily used in the same room for applications requiring high data transfer rates, such as streaming high-definition video.
The 802.11ad standard, operating in the 60 GHz portion of the Industrial, Scientific, and Medical (ISM) band, is designed for high-speed, short-range wireless communication. This standard is specifically known for its utilization of the 60 GHz frequency, offering significant advantages in terms of data transfer rates and bandwidth. With a maximum range of about 10 meters, 802.11ad is tailored for applications where high-speed connectivity over short distances is critical.
The 60 GHz frequency provides a wide bandwidth, enabling the transmission of large amounts of data at exceptionally fast rates. However, the drawback is its limited range, making it suitable for scenarios like wireless docking, high-speed data transfer between devices, and augmented reality applications within a confined space. The use of beamforming technology is common in 802.11ad, allowing for focused and directional communication, which helps mitigate some of the challenges associated with the higher frequency range.
Due to its short-range but high-throughput capabilities, the 802.11ad standard complements other Wi-Fi standards like 802.11ac, which operates in the 5 GHz band, offering a balanced approach to wireless networking by providing both high-speed, short-range communication and broader coverage for various use cases in modern wireless communication environments.