A novel approach for characterization of multibeam communication payloads

IF 0.9 4区 计算机科学 Q3 ENGINEERING, AEROSPACE International Journal of Satellite Communications and Networking Pub Date : 2022-07-05 DOI:10.1002/sat.1452
Jatin Trivedi, Siddhant Joshi, Rakesh Vyas
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引用次数: 1

Abstract

Communication payload architecture has changed from a conventional single broad beam to a large number of spot beam forms to meet the ever-increasing data rate demand. Owing to the large telecommunication requirements of the user, current generation satellites are equipped with a large number of transponders/beams. Due to the increased number of payload beams, performance evaluation and validation time increases during all stages of the satellite integration process. Also, satellite testing in thermal–vacuum (TVAC) conditions is hugely cost-intensive. Under such circumstances, the conventional test setup established for multibeam payload characterization presents limitations and increases overall measurement time. The paper proposes a novel switch matrix (SWM) based architecture for integrated multibeam payload characterization at payload input and output to significantly reduce effective uplink and downlink transmission line chains required for RF characterization without compromising overall measurement accuracy. We have developed a Telecommand and Telemetry (TCTM) simulator system for closed-loop automated switching of switches in SWM to reduce human intervention and ensure safety aspects of payload. We present the SWM approach for two classes of high throughput satellites (HTS), namely, symmetrical and asymmetrical architectures. The results show that the proposed approach is robust and advantageous in overall RF performance, reduction in the number of interfaces, electromagnetic interference and electromagnetic susceptibility (EMI/EMC) considerations, electrical integrity, and ground test setup complexity compared with conventional characterization philosophy.

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一种表征多波束通信有效载荷的新方法
为了满足日益增长的数据速率需求,通信有效载荷结构已经从传统的单一宽波束转变为大量的点波束形式。由于用户的电信需求很大,当前一代卫星配备了大量的转发器/波束。由于有效载荷波束数量的增加,在卫星一体化过程的所有阶段,性能评估和验证时间都增加了。此外,在热真空(TVAC)条件下进行卫星测试成本非常高。在这种情况下,为多波束载荷特性建立的传统测试设置存在局限性,并且增加了总体测量时间。本文提出了一种基于开关矩阵(SWM)的新型架构,用于在有效载荷输入和输出处集成多波束有效载荷表征,以显着减少射频表征所需的有效上行和下行传输线链,而不会影响整体测量精度。我们已经开发了一个远程控制和遥测(TCTM)模拟器系统,用于SWM中开关的闭环自动切换,以减少人为干预并确保有效载荷的安全方面。我们提出了两类高通量卫星(HTS)的SWM方法,即对称和不对称架构。结果表明,与传统的表征方法相比,该方法在整体射频性能、减少接口数量、电磁干扰和电磁敏感性(EMI/EMC)考虑、电气完整性和地面测试设置复杂性方面具有鲁棒性和优势。
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来源期刊
CiteScore
4.10
自引率
5.90%
发文量
31
审稿时长
>12 weeks
期刊介绍: The journal covers all aspects of the theory, practice and operation of satellite systems and networks. Papers must address some aspect of satellite systems or their applications. Topics covered include: -Satellite communication and broadcast systems- Satellite navigation and positioning systems- Satellite networks and networking- Hybrid systems- Equipment-earth stations/terminals, payloads, launchers and components- Description of new systems, operations and trials- Planning and operations- Performance analysis- Interoperability- Propagation and interference- Enabling technologies-coding/modulation/signal processing, etc.- Mobile/Broadcast/Navigation/fixed services- Service provision, marketing, economics and business aspects- Standards and regulation- Network protocols
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