Print Email Facebook Twitter A Wideband Four-Way Doherty Bits-In RF-Out CMOS Transmitter Title A Wideband Four-Way Doherty Bits-In RF-Out CMOS Transmitter Author Beikmirza, M.R. (TU Delft Electronics) Shen, Y. (TU Delft Electronics) de Vreede, L.C.N. (TU Delft Electronics) Alavi, S.M. (TU Delft Electronics) Date 2021 Abstract We present a wideband, 12-bit four-way Doherty Cartesian digital transmitter (DTX) featuring an innovative 50%-LO signed I/Q interleaved up-conversion technique that enables close to perfect orthogonal I/Q summation. The DTX incorporates a compact four-way lumped-element Doherty power combining network to enhance its average efficiency at deep power back-off (DPBO). It comprises a signed second-order hold (SOH) interpolation filter to suppress the sampling spectral replicas significantly. The proposed DTX is realized in a 40-nm bulk CMOS and delivers a peak output power of 27.54 dBm with drain and system efficiencies of 46.35% and 30.77%, respectively, at 5.3 GHz. At 12 dB DPBO, the realized DTX demonstrates a drain efficiency (DE) of 41.74%-39.27% in a 5.2-5.5 GHz band, respectively. Its intrinsic I/Q image, LO leakage, and C-IMD3/H 3BB for a 200 MHz tone spacing over a 4.8-6.2 GHz band are-64,-65, and-69 dBc, respectively, without calibration. Applying a simple memoryless 2× 1-D digital pre-distortion, its error vector magnitude and adjacent channel leakage ratio are lower than-31 dB and-39 dBc, respectively, for a six-carrier '40 MHz 256-QAM OFDM' signal with 18 dBm average output power and a 41% average DE. The signed SOH functionality is verified employing a four-carrier '80 MHz 512-QAM OFDM' signal with spectral purity of better than-35 dBc, while its baseband sampling frequency is 675 MHz. Subject 50%-LO clock distribution8-shape inductor/baluncurrent-mode class-D (CMCD)efficiency enhancementin-phase/quadrature (Q) interleavingradio frequency digital-to-analog converter (RF-DAC)sign-bit To reference this document use: http://resolver.tudelft.nl/uuid:07787a63-4dbb-45a0-8c06-563f7fccd307 DOI https://doi.org/10.1109/JSSC.2021.3105542 ISSN 0018-9200 Source IEEE Journal of Solid State Circuits, 56 (12), 3768-3783 Bibliographical note Accepted author manuscript Part of collection Institutional Repository Document type journal article Rights © 2021 M.R. Beikmirza, Y. Shen, L.C.N. de Vreede, S.M. Alavi Files PDF A_Wideband_Four_Way_Doher ... mitter.pdf 11.53 MB Close viewer /islandora/object/uuid:07787a63-4dbb-45a0-8c06-563f7fccd307/datastream/OBJ/view