One of the biggest issues with cellular broadband performance is that WiFi and LTE radios can't send and receive information at the same time—but a hardware solution involving a circulator could offer a creative solution.
Experimentation from a group of engineers from the University of Texas reveals that the use of a solid-state circulator can isolate transmission and reception loops, making it easier for the signals to be picked up by the radio and create the ability for the system to be tuned in real-time. This hardware-based solution makes it so that the process of transmitting and receiving data does not interfere with one another. Considering the dependence on LTE and WiFi systems, this has the potential to be a huge breakthrough in radio frequency technology.
Transmission-Improving Circuitry
Use of a Circulator Makes It Possible to Double Cellular WiFi
Trend Themes
1. Solid-state Circulator - Using a solid-state circulator can isolate transmission and reception loops, improving cellular broadband performance.
2. Real-time Tuning - The use of a circulator allows for real-time tuning of signals, enhancing the performance of WiFi and LTE radios.
3. Non-interfering Data Transmission - The hardware-based solution of a circulator enables data transmission and reception to occur simultaneously without interference.
Industry Implications
1. Wireless Communication - The wireless communication industry can benefit from the use of solid-state circulators to improve the performance of WiFi and LTE radios.
2. Internet Service Providers - Internet service providers can explore the potential of real-time tuning to enhance the efficiency of their WiFi and LTE networks.
3. Technology Hardware - The technology hardware industry can capitalize on the development of circulators that enable non-interfering data transmission for improved radio frequency technology.