This paper evaluates the linearity performance in a wideband wireless backhaul transmitter when applying crest factor reduction (CFR) and digital predistortion (DPD) techniques to enhance the transmitted output power, and thus the power efficiency of the overall system, while fulfilling the communications system quality requirements and regulations. The CFR technique applied is the peak cancellation (PC), while the linearizer is based in an adaptive DPD with memory effects compensation. Order reduction techniques are also applied to mitigate the complexity of the DPD structure. The power amplifier is based in a 15 Watts GaN transistor. The test signal follows a multiband 4 channel 1024-QAM configuration (reaching up to 1 Gbps) with 12 dB of...
The digital front-end (DFE) is the most critical stage in a wireless base-station. The DFE along wit...
The advent of 5G has introduced more complicated modulation schemes that produce signals with high p...
The RF PA, as one of the most essential components in any wireless system, suffers from inherent non...
This paper evaluates the linearity performance in a wideband wireless backhaul transmitter when appl...
This paper evaluates the linearity performance in a wideband wireless backhaul transmitter when app...
Power amplifiers are essential components in wireless communication systems and are inherently nonli...
This paper presents how to apply order reduction in wide-band digital predistortion (DPD) linearize...
This project has been oriented to improve the efficiency and the linearization of power amplifiers (...
The use of spectrum-efficient digital modulation techniques and the cost advantage of utilizing a si...
In this paper, a complete design procedure, together with robust system validation approaches, is pr...
This paper presents an overview of different Digital Predistortion (DPD) techniques used in microwav...
Modern digital communication systems utilize OFDM and DS-CDMA signals because of their superior spec...
This paper presents two linearization strategies for a custom-designed wideband push-pull (PP) power...
The paper shows the impact of a base-band predistortion linearizazion scheme of high efficiency powe...
The digital front-end (DFE) is the most critical stage in a wireless base-station. The DFE along wit...
The advent of 5G has introduced more complicated modulation schemes that produce signals with high p...
The RF PA, as one of the most essential components in any wireless system, suffers from inherent non...
This paper evaluates the linearity performance in a wideband wireless backhaul transmitter when appl...
This paper evaluates the linearity performance in a wideband wireless backhaul transmitter when app...
Power amplifiers are essential components in wireless communication systems and are inherently nonli...
This paper presents how to apply order reduction in wide-band digital predistortion (DPD) linearize...
This project has been oriented to improve the efficiency and the linearization of power amplifiers (...
The use of spectrum-efficient digital modulation techniques and the cost advantage of utilizing a si...
In this paper, a complete design procedure, together with robust system validation approaches, is pr...
This paper presents an overview of different Digital Predistortion (DPD) techniques used in microwav...
Modern digital communication systems utilize OFDM and DS-CDMA signals because of their superior spec...
This paper presents two linearization strategies for a custom-designed wideband push-pull (PP) power...
The paper shows the impact of a base-band predistortion linearizazion scheme of high efficiency powe...
The digital front-end (DFE) is the most critical stage in a wireless base-station. The DFE along wit...
The advent of 5G has introduced more complicated modulation schemes that produce signals with high p...
The RF PA, as one of the most essential components in any wireless system, suffers from inherent non...