4x4 MIMO

4x4 MIMO, sometimes referred to as 4T4R, uses four antennas to establish up to four streams of data with the receiving device. Compared to ordinary single antenna (SISO) networks, 4x4 offers up to a 400% increase in throughput.

With four spatial streams established the data payload is divided across all four antennas and transmitted over the same frequency band. Unlike 2x2 MIMO2x2 MIMO: A wireless communication configuration that uses two antennas, each capable of both transmission (the multiple inputs) and reception (the multiple outputs). This setup allows the transmission and reception of up to two independent data streams simultaneously over the same frequency band,… where it was feasible to simply use two polarisations, the use of four unique polarisations is rare. With reduced isolation and Envelope Correlation Coefficient (ECC), this has significant implications - most notably under clear channel conditions where the construction of physically independent propagation paths are not possible.

The use of older 2x2 MIMO equipment on 4x4 networks also has implications, where the transmission must operate in 4x2 mode to map data streams appropriately. Tests performed by China TelecomChina Telecom: China Telecom Corporation Limited is a leading telecommunications company based in China. It was established as a separate entity from its parent company, China Telecommunications Corporation, following the liberalisation of the Chinese market. The company was incorporated on 10 September 2002 as a… in 2017 demonstrated that in good signal areas 2x2 equipment slowed down when the network was upgraded to 4x4 MIMO.

4x4 MIMO equipment is however widely available with most smartphones and modems now compatible. Under strong signal conditions 4x4 provides around a 90% improvement over 2x2 MIMO, and under weak conditions as high as 160% faster than 2x2.

In comparison to older 2x2 antennas, design complexity increases dramatically. With most manufacturers unable to provide four distinct polarisations nominal MIMO configurations are most common. Individual antenna elements are instead subjected to intensive simulation to determine appropriate positioning within the radome that maximises spatial separation, ECC, and inter-port isolation.

It generally not practical use passive 4x4 MIMO external antennas due to the substantial amounts of cabling involved. For applications such as cell edge connectivity, or fixed wireless access, active elements are built into the 4x4 array, eliminating the need for additional cables and connectors.