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Design Considerations and FPGA Implementation of a Wideband All-Digital Transmit Beamformer with 50 Fractional Bandwidth

机译：带宽为50％的宽带全数字发送波束形成器的设计考虑因素和FPGA实现

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In this work, we report design and implementation of an all-digital transmit phased array. The key design considerations have been reviewed including applications of multi-core DSM and wideband beamformer based on space-time theory. The built prototype of 8-element array using a commerical FPGA board demonstrated the feasibility of designing real-time wideband digital beamformer. The measured beam pattern for RF frequency of 2.5 GHz with 1.25 GHz bandwidth agreed well with simulation. To the authors' knowledge, this fractional bandwidth of 50% is the widest one reported so far. This advances the state-of-the art in terms of fractional bandwidth by more than 40 times, which shows that all-digital transmitter is a very promising technology for next generation directional communications such as 5G and beyond.

机译：在这项工作中，我们报告了全数字发射相控阵的设计和实现。审查了关键的设计考虑因素，包括基于空时理论的多核DSM和宽带波束形成器的应用。使用商业FPGA板构建的8元素阵列原型证明了设计实时宽带数字波束形成器的可行性。在1.25 GHz带宽下2.5 GHz的RF频率下测得的波束方向图与仿真非常吻合。据作者所知，此带宽的50％是迄今为止报道的最大带宽。这使最新技术的小数带宽提高了40倍以上，这表明全数字发射机是下一代定向通信（如5G及更高版本）非常有前途的技术。

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《IEEE/MTT-S International Microwave Symposium 》|2020年|1073-1076|共4页
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Sravan Pulipati; Rui Ma;
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all digital transmitters; digital wideband beamformers; massive phased arrays;

机译：全数字发射机;数字宽带波束形成器;大规模相控阵;

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1. Implementation of wideband digital transmitting beamformer based on LFM waveforms [J] . Wei Fu, Defu Jiang, Yu Su, Signal Processing, IET . 2017 ,第2期

机译：基于LFM波形的宽带数字发射波束形成器的实现
2. High-Resolution All-Digital Transmit Beamformer for High-Frequency and Wearable Ultrasound Imaging Systems [J] . IEEE transactions on very large scale integration (VLSI) systems . 2020 ,第2期

机译：适用于高频和可穿戴超声成像系统的高分辨率全数字发射波束形成器
3. An FPGA-based design and implementation of an all-digital serializer for inter module communication in SoC [J] . Maher Assaad, Mohammed Alser IEICE Electronics Express . 2011 ,第23期

机译：基于FPGA的全数字串行器的设计和实现，用于SoC中的模块间通信
4. Designing and implementing Wideband Digital Beamforming for high bandwidth communications using FPGAs [C] . John C. Porcello IEEE Aerospace Conference . 2016

机译：使用FPGA设计和实现宽带数字波束成形以实现高带宽通信
5. Design of digital beamformers for high -frequency ultrasound transducer arrays using field-programmable gate array (FPGA). [D] . Hu, Changhong. 2006

机译：使用现场可编程门阵列（FPGA）设计用于高频超声换能器阵列的数字波束形成器。
6. Design of Quad-Port Ultra-Wideband Multiple-Input-Multiple-Output Antenna with Wide Axial-Ratio Bandwidth [O] . Pawan Kumar, Shabana Urooj, Areej Malibari 2020

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7. Design considerations of real-time adaptive beamformer for medical ultrasound research using FPGA and GPU [O] . So HKH, Yu ACH, Chen J 2012

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8. Application of multirate digital filter banks to wideband all-digital phase-locked loops design [R] . Sadr, R., Shah, B., Hinedi, S. 1992

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Design Considerations and FPGA Implementation of a Wideband All-Digital Transmit Beamformer with 50 Fractional Bandwidth

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