# SES-17 > high-throughput geostationary communications satellite operated by SES **Wikidata**: [Q28227881](https://www.wikidata.org/wiki/Q28227881) **Wikipedia**: [English](https://en.wikipedia.org/wiki/SES-17) **Source**: https://4ort.xyz/entity/ses-17 ## Summary SES-17 is a high-throughput geostationary communications satellite operated by SES, designed to provide advanced telecommunications services. Launched on October 24, 2021, it is part of SES’s fleet of satellites supporting global connectivity. ## Key Facts - **Class**: Communications satellite and geostationary satellite - **Operator**: SES S.A. - **Launch Date**: October 24, 2021 - **Launch Vehicle**: Ariane 5 ECA+ (Flight VA255) - **Launch Site**: ELA-3, Europe’s Spaceport in French Guiana - **Manufacturer**: Thales Alenia Space (France) - **Spacecraft Bus**: Spacebus-Neo-200 - **Power System**: Two spacecraft solar arrays and four PPS-5000 units - **Mass**: - Launch weight: 6,411 kg - Dry weight: 5,060 kg - **Orbit**: Geostationary orbit - **COSPAR ID**: 2021-095A - **NORAD ID**: 49332 ## FAQs ### Q: What is SES-17’s primary purpose? A: SES-17 is a high-throughput geostationary communications satellite designed to provide advanced telecommunications services, supporting global connectivity for SES’s customers. ### Q: Who operates SES-17? A: SES-17 is operated by SES S.A., a leading global satellite operator. ### Q: What launch vehicle was used to deploy SES-17? A: SES-17 was launched on an Ariane 5 ECA+ rocket (Flight VA255) from ELA-3, Europe’s Spaceport in French Guiana. ### Q: What is the spacecraft bus used for SES-17? A: SES-17 is based on the Spacebus-Neo-200 platform, developed by Thales Alenia Space. ### Q: How much does SES-17 weigh? A: SES-17 has a launch weight of 6,411 kg and a dry weight of 5,060 kg. ## Why It Matters SES-17 plays a crucial role in SES’s satellite fleet, providing high-throughput communications to support global connectivity. As a geostationary satellite, it operates in a fixed position relative to Earth, ensuring stable and reliable service. The satellite’s advanced design, powered by two spacecraft solar arrays and four PPS-5000 units, enhances its efficiency and performance. Launched on October 24, 2021, SES-17 contributes to SES’s mission of delivering cutting-edge satellite solutions to meet the growing demand for broadband and multimedia services worldwide. ## Notable For - **High-Throughput Capability**: SES-17 is designed to deliver high-throughput communications, supporting SES’s global connectivity services. - **Geostationary Orbit**: Its position in geostationary orbit ensures stable and reliable service coverage. - **Advanced Power System**: Equipped with two spacecraft solar arrays and four PPS-5000 units, it provides efficient power generation. - **Thales Alenia Space Manufacturing**: Built on the Spacebus-Neo-200 platform, highlighting Thales Alenia Space’s expertise in satellite design. - **Ariane 5 ECA+ Launch**: Successfully deployed on an Ariane 5 ECA+ rocket, demonstrating the reliability of the launch vehicle. ## Body ### Overview SES-17 is a high-throughput geostationary communications satellite operated by SES S.A. It was launched on October 24, 2021, aboard an Ariane 5 ECA+ rocket (Flight VA255) from ELA-3, Europe’s Spaceport in French Guiana. The satellite is based on the Spacebus-Neo-200 platform, developed by Thales Alenia Space, and is designed to provide advanced telecommunications services. ### Technical Specifications - **Mass**: - Launch weight: 6,411 kg - Dry weight: 5,060 kg - **Power System**: - Two spacecraft solar arrays - Four PPS-5000 units - **Orbit**: Geostationary orbit - **Identifiers**: - COSPAR ID: 2021-095A - NORAD ID: 49332 ### Launch and Deployment - **Launch Date**: October 24, 2021 - **Launch Vehicle**: Ariane 5 ECA+ (Flight VA255) - **Launch Site**: ELA-3, Europe’s Spaceport in French Guiana ### Operator and Manufacturer - **Operator**: SES S.A. - **Manufacturer**: Thales Alenia Space (France) ### Significance SES-17 is part of SES’s fleet of satellites, supporting global connectivity with its high-throughput capabilities. Its geostationary orbit ensures stable and reliable service, while its advanced power system enhances efficiency. The satellite’s successful deployment on an Ariane 5 ECA+ rocket underscores the reliability of the launch vehicle and the expertise of Thales Alenia Space in satellite manufacturing. ## References 1. [Source](https://space.skyrocket.de/doc_sdat/ses-17.htm) 2. Jonathan's Space Report 3. [Source](https://www.satbeams.com/satellites?norad=49332)