Abstract
Digital predistortion (DPD) is known as an efficient solution to suppress nonlinear distortion of power amplifiers (PAs) in wireless transmitters to achieve both high linearity and power efficiency. In multiple input and multiple output (MIMO) applications, the power gains of multiple transmitting channels are usually different. Meanwhile, the channel crosstalk cannot be ignored, given the isolations between the physical channels are limited. Accordingly, the linearization performances of the conventional DPD methods are usually degraded. In this article, we propose a novel DPD method for MIMO transmitters, where both the crosstalk and different power gains of multiple channels are considered. In this method, the expected predistorted signals, which would be used to train the DPD model, are firstly obtained by an iterative algorithm derived from the contraction mapping theorem. Then, the coefficients of a MIMO-DPD model are extracted by fitting the DPD model to the obtained predistorted signal. Experimental results verify that the extracted coefficients can achieve an improved linearization performance for the MIMO transmitter with crosstalk between the channels, especially in the case where the channel gains are different. Specifically, for a $2 \times 2$ MIMO transmitter with -20 dB crosstalk and 1.2 dB difference between the two channel gains, the proposed DPD improves the adjacent channel power ratio (ACPR) from -31.4 dBc to -47.1 dBc, which outperforms the conventional DPD by 6.8 dB.
Highlights
M ULTIPLE input and multiple output (MIMO) is known as a promising technique to increase the system capacity by exploiting space diversity and forming multiple sub-channels that can work simultaneously
For MIMO transmitters, multiple radio-frequency (RF) channels are often integrated into one single compact chip to improve the integration and reduce the size of the transmitter
While for the crosstalk that originated before power amplifiers (PAs), nonlinearity of the PAs will make it difficult to compensate at the receiver side [7]
Summary
M ULTIPLE input and multiple output (MIMO) is known as a promising technique to increase the system capacity by exploiting space diversity and forming multiple sub-channels that can work simultaneously. The ILA technique is able to work properly in MIMO transmitters which only demonstrates one of the two impairments (either channel crosstalk or difference in channel gains) When these two impairments exist simultaneously, the predistorter coefficients extracted by the ILA-based method will unpredictably deviate from the optimum values. 2) DPD based on Multi-channel error feedback adaptation: A coefficients extraction method is derived to directly extract the pre-inverse function (predistorter) of a nonlinear MIMO transmitter. The convergence of the iterative algorithm is analyzed, and a range of values for the convergence rate is given Based on this iterative algorithm and its convergence property, a multi-channel error feedback adaptation method is proposed to obtain the predistorted signals of a practical MIMO transmitter.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
