SHAPER: demostrador experimental de técnicas de linealización digital de amplificadores de potencia para acceso y backhaul inalámbrico 4G/5G
The waveforms being employed by fourthgeneration (4G) and candidate fifth-generation (5G) radio access and wireless backhaul technologies are based on modulation techniques that allow significantly increased spectral efficiency and capacity, and enable new spectrum sharing scenarios. However, the us...
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Zusammenfassung: | The waveforms being employed by fourthgeneration
(4G) and candidate fifth-generation (5G) radio
access and wireless backhaul technologies are based on
modulation techniques that allow significantly increased
spectral efficiency and capacity, and enable new spectrum
sharing scenarios. However, the use of high peak-to-average
power ratio (PAPRs) modulations requires inefficient operation
of the power amplifier (PA) to fulfill stringent spectral mask
and modulation accuracy requirements. With digital
linearization techniques such as crest factor reduction (CFR)
and digital predistortion (DPD), the classical linearity versus
power efficiency tradeoff can be mitigated and the network
capital and operational expenditures (CAPEX and OPEX) may
be reduced. This article describes the architecture and
linearization strategies employed by SHAPER (Solutions for
wideband Highly lineAr and efficient PowER amplification), a
demonstration platform for fast prototyping and experimental
validation of CFR and DPD techniques for multiple waveform
types and application environments.
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