MH
M. Hashemi
12 records found
1
Fully digital transmitters (DTXs) have the potential of replacing analog-intensive transmitter (TX) line-ups in future massive multiple-input and multiple-output (mMIMO) systems since they hold the promise of higher system integration level and energy efficiency. DTX operation so
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Recently, digital transmitters (DTXs) that feature arrays of controlled digital PA (DPA) cells have become increasingly popular since they directly benefit from nanoscale CMOS technology, yielding reduced die area and highly efficient operation [1] -[6]. For wideband applications
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One of the biggest challenges in modern transmitter (TX) design, when going from the fourth generation (4G) to fifth generation (5G) communications network, is to handle the increased linearity requirements without introducing any compromise in the energy efficiency of the TX lin
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This article presents the first application of a digital-intensive intrinsically linear digitally controlled class-E technique in a Doherty configuration. By careful nonlinear segmentation and multiphase RF-clocking along with overdrive-voltage control and automatic duty-cycle co
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This paper presents a wideband linear direct-digital RF modulator (DDRM) in 40-nm CMOS technology. An innovative I/ Q-interleaving RF digital-to-analog converter (DAC) is proposed to enable the combination of in-phase (I) and quadrature (Q) signals in a more digital fashion, ther
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The maximum achievable linearity of a digital polar transmitter (DPTX) is mainly constrained by two RF-DAC associated nonidealities; namely, aliasing of sampling spectral replicas (SSR) of the AM and PM signals, and the presence of nonuniform quantization noise. In this work, usi
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A fully integrated RFDAC based phase modulator in 40nm bulk CMOS is presented. To boost in-band linearity and the frequency range of operation, a harmonic rejection RFDAC architecture that suppresses the 3rd and 5th harmonics is proposed. The achieved freque
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This paper presents an intrinsically linear wideband polar digital power
amplifier (DPA) operating in semi class-E/F2 mode. Without using any
type of digital pre-distortion (DPD), the proposed architecture achieves
high linearity by accurately controlling its AM-AM and AM-PM
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This paper presents a wideband linear direct digital RF modulator (DDRM) in 40nm CMOS technology. It features an advanced 2nd-order-hold interpolation filter and I/Q-interleaving harmonic rejection RF DACs. The 2×9-bit DDRM core occupies 0.21mm2 and consumes only 110mW at 1 GHz.
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This paper presents an advanced 2.3-2.8 GHz fully-integrated
digital-intensive polar Doherty transmitter realized in 40nm standard
CMOS. The proposed architecture comprises CORDIC, digital delay
aligners, interpolators, digital pre-distortion (DPD) circuitry in
combination wi
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A highly efficient and linear wideband digital polar CMOS class-E power amplifier (DPA) is presented. Using a compensated wideband Marchand balun with re-entrant coupled lines for the output matching network, more than 50% peak drain efficiency over 2.2-3GHz with 16-17dBm Pout ar
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To fully benefit from the progress of CMOS technologies, it is desirable to completely digitize the TX, replacing its final stage with a digitally controlled PA (DPA). The DPA consists of arrays of small sub-PAs that are digitally controlled to modulate the output amplitude, thus
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