16-QAM OFDM-Based W-Band Polarization-Division Duplex Communication System with Multi-gigabit Performance

Abstract: This paper presents a novel 90 GHz band 16-quadrature amplitude modulation (16-QAM) orthogonal frequency-division multiplexing (OFDM) communication system. The system can deliver 6 Gbps through six channels with a bandwidth of 3 GHz. Each channel occupies 500 MHz and delivers 1 Gbps using 16-QAM OFDM. To implement the system, a low-noise amplifier and an RF up/down conversion fourthharmonically pumped mixer are implemented using a 0.1-μm gallium arsenide pseudomorphic high-electronmobility transistor process. … Show more

“…We use a Xilinx Virtex‐7 XC7VX980T field‐programmable gate array (FPGA). The structure of the preamble is nearly identical to the one used in our previous study . However, because the FFT size is different from that in our previous study, the preamble code and the number of subcarriers for the preamble data are different.…”

“…If the receiver for the ideal LoS MIMO link is used and transmitter 2 (Tx2) does not transmit (x 2 (t) = 0), the receiver output is written as 3) Figure 3 shows the simulation and measurement results for the powers ofx 1 ðtÞ andx 2 ðtÞ, as well as the ratio between them. 4) In Fig. 3, the power ofx 2 ðtÞ is minimized when there is no amplitude difference (G 11 = G 21 ).…”

“…In particular, the first section in the preamble is used for the LoS MIMO alignment mismatch estimation and compensation, as well as for the signal detection and automatic gain control (AGC). Most of the modulation and demodulation techniques in our previous study are intended for use in a digital modem [4]. 7) For LoS MIMO communication, the cross-correlation of the first section of the preamble is used for LoS MIMO These are the modulation scheme, forward error correction (FEC) technique, signal detection, timing synchronization, carrier frequency offset compensation, and carrier phase recovery.…”

“…However, microwave backhaul links generally require line‐of‐sight (LoS) propagation. Various methods for improving spectral efficiency have been studied in previous works . Polarization division multiplexing (PDM), which employs independent datasets from two orthogonal polarizations (such as vertical and horizontal polarizations) at the same frequency to double the total data throughput, was used in .…”

“…Various methods for improving spectral efficiency have been studied in previous works . Polarization division multiplexing (PDM), which employs independent datasets from two orthogonal polarizations (such as vertical and horizontal polarizations) at the same frequency to double the total data throughput, was used in . Cross‐polarization isolation must be sufficiently large to improve the performance of PDM systems; this is accomplished by using two separate antennas , an orthomode transducer (OMT) device or a cross polarization interference cancellation (XPIC) algorithm .…”

16-QAM OFDM-Based K-Band LoS MIMO Communication System with Alignment Mismatch Compensation

“…We use a Xilinx Virtex‐7 XC7VX980T field‐programmable gate array (FPGA). The structure of the preamble is nearly identical to the one used in our previous study . However, because the FFT size is different from that in our previous study, the preamble code and the number of subcarriers for the preamble data are different.…”

“…If the receiver for the ideal LoS MIMO link is used and transmitter 2 (Tx2) does not transmit (x 2 (t) = 0), the receiver output is written as 3) Figure 3 shows the simulation and measurement results for the powers ofx 1 ðtÞ andx 2 ðtÞ, as well as the ratio between them. 4) In Fig. 3, the power ofx 2 ðtÞ is minimized when there is no amplitude difference (G 11 = G 21 ).…”

“…In particular, the first section in the preamble is used for the LoS MIMO alignment mismatch estimation and compensation, as well as for the signal detection and automatic gain control (AGC). Most of the modulation and demodulation techniques in our previous study are intended for use in a digital modem [4]. 7) For LoS MIMO communication, the cross-correlation of the first section of the preamble is used for LoS MIMO These are the modulation scheme, forward error correction (FEC) technique, signal detection, timing synchronization, carrier frequency offset compensation, and carrier phase recovery.…”

“…However, microwave backhaul links generally require line‐of‐sight (LoS) propagation. Various methods for improving spectral efficiency have been studied in previous works . Polarization division multiplexing (PDM), which employs independent datasets from two orthogonal polarizations (such as vertical and horizontal polarizations) at the same frequency to double the total data throughput, was used in .…”

“…Various methods for improving spectral efficiency have been studied in previous works . Polarization division multiplexing (PDM), which employs independent datasets from two orthogonal polarizations (such as vertical and horizontal polarizations) at the same frequency to double the total data throughput, was used in . Cross‐polarization isolation must be sufficiently large to improve the performance of PDM systems; this is accomplished by using two separate antennas , an orthomode transducer (OMT) device or a cross polarization interference cancellation (XPIC) algorithm .…”

16-QAM OFDM-Based K-Band LoS MIMO Communication System with Alignment Mismatch Compensation

Generation of an orbital angular momentum mode based on a cassegrain reflectarray antenna

90GHz polarization-division duplex RF transceiver for multi-gigabit transmission