Wi-Fi and Bluetooth, which are highly integrated into daily life, are not only used for communication but also widely employed for high-resolution audio and video wireless transmission (Wi-Fi) and high-quality voice (music) wireless connection. The versions of Wi-Fi and Bluetooth are constantly improving. From 1080P/60 to today’s 8K, the amount of data transmitted per unit time has increased by dozens of times.
Equipment, technology, software, and engineering designers must also keep pace with these advancements. In addition to basic transmission rate improvements, compatibility between devices is crucial, encompassing core technologies.
It uses dense sequence transmission with MaxBurst technology to achieve uncompressed image quality wireless transmission, presenting flawless, undistorted, uncompressed 4K image quality. Audio and video synchronization efficiency is crucial when processing huge amounts of 4K data. PX Electronics employs high-sensitivity Matrix antennas corresponding to the transmission and reception ends, optimizing the signal transmission sequence through MaxBurst signal dense sequence technology. This shortens the continuous spacing of data packets, achieving real-time wireless transmission of massive 4K data with near-zero delay in the image. Additionally, a heat dissipation mechanism is designed to increase operational stability.
60GHz perfectly avoids interference and opens up a new horizon of enjoyment. Each set of wireless signals is calibrated by professional frequency instruments to comply with wireless radio frequency regulations and ensure the stability of wireless transmission frequencies.
Wireless signals exist between you and me in modern life. Wireless interference is common, but it cannot be tolerated when users experience wireless audio and video. Therefore, the PX R&D team gathered software calculation and hardware planning units to develop AirSmart technology. The transmission and reception ends communicate with each other in two directions. When the receiving end senses that the signal frequency density is insufficient, a notification is sent through an independent return channel. The system will perform pattern deduction and reorganization before transmitting. When external interference causes insufficient bandwidth, it can continue to receive signals point-to-point, achieving a smooth and uninterrupted viewing experience.
Designed with multiple placement mechanisms, it can be flexibly matched to various usage occasions to maximize the transmitting and receiving sensitivity of the transmission antenna. In addition to optimizing the transmitting and receiving sensitivity, the placement position is also extremely important. The team installed the signal meter in various actual home scenarios, and different inclined plane placement angles affected the signal transmission. To improve reception efficiency, the two best placement designs of 45 degrees and 90 degrees were synthesized, allowing adaptation to the home environment and enabling 4K signals to be transmitted wirelessly.