
The Amazonas 5 Satellite Project is a significant undertaking that's been making waves in the tech world. The satellite is designed to provide high-speed internet connectivity to remote and underserved communities in Latin America.
The project's goal is to bridge the digital divide and bring people online, which is crucial for economic development and social inclusion. This is particularly important in regions where infrastructure is limited or non-existent.
Amazonas 5 is being built by Hispasat, a leading satellite operator in Europe, in partnership with other key players. The satellite is expected to be launched into orbit in the near future.
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Design and Build
The Amazonas 5 satellite is based on SSL's 1300 platform, which provides flexibility for a wide range of payloads. This platform is designed to meet the needs of commercial communications satellites.
The satellite bus used for the Amazonas 5 is the SSL 1300, with a launch mass of 5,900 kg (13,000 lb). It features two deployable solar panels.
The Amazonas 5 has a payload power of approximately 9.8 kW, which will be used to deliver service for 15 years or longer. This is made possible by the available power of 11.5 kW.
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Satellite Bus
The satellite bus is a crucial component of our satellite system, and it's based on the SSL 1300, a satellite bus produced by SSL. This particular bus has a launch mass of 5,900 kg.
It's worth noting that the SSL 1300 is a reliable and efficient choice, given its impressive design. The satellite bus has two deployable solar panels, which provide the necessary power for the satellite's operation.
Technical Specifications
The Amazonas 5 satellite is a remarkable piece of engineering, and understanding its technical specifications is crucial to appreciating its capabilities. It has a lifespan of more than 15 years, which is impressive.
The satellite is equipped with a significant amount of power, with 11.5 kW of available power. This is essential for its operation.
One of the key features of the Amazonas 5 is its advanced Ku and Ka band capabilities. It has 24 transponders in Ku band and 34 spot beams in Ka band. This allows for high-speed data transmission and connectivity.
The satellite was manufactured by SSL and launched by ILS. This collaboration resulted in a highly capable and reliable satellite.
Here's a summary of the satellite's key technical specifications:
Launch and Deployment
The Amazonas 5 satellite was launched from Baikonur Cosmodrome Site 200 in Kazakhstan on September 11, 2017, aboard a Proton-M Breeze M rocket.
Its initial launch date was September 9, but the Proton rocket's arrival from Moscow was delayed. The satellite was launched to a geostationary orbit with a periapsis of 35,780.1 km and an apoapsis of 35,808.7 km, with an orbital inclination of 0.0°.
The Amazonas 5 was placed at a longitude of 61° W to serve South America, providing internet connectivity to around 500,000 people in the region and opening up 500 new television channels.
Here's a summary of the satellite's orbital parameters:
Communications and Coverage
The Amazonas 5 satellite has a robust communication system, consisting of 24 Ku band transponders for its South America beam and 34 Ka band spot beams for its Brazil beam. This allows it to provide a wide range of services, including broadband and television services.
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With its advanced communication system, Amazonas 5 can even deploy 3G, LTE, and 5G networks, making it a cutting-edge technology in the field of telecommunications.
The satellite's coverage is impressive, with a total of 35 transponders in Ka band and 24 in Ku band, making it suitable for services of broadband and telecommunications in Latin America.
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Hispasat Contracts SSL for Satellite Build
Hispasat, a Spanish satellite telecommunications operator, has contracted Space Systems Loral (SSL) to build the Amazonas 5 satellite.
The Amazonas 5 satellite will provide a wide range of telecommunications services in Latin America, including broadband services in South America, Central America, and Mexico.
This new satellite constitutes an expansion of the Amazonas 4B project, which is a result of HISPASAT's measures to minimize the impact of an anomaly detected in the Amazonas 4A power subsystem.
The Amazonas 5 satellite has a high throughput Ka-band spot beam payload, which will be used for broadband services in the mentioned regions.
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It also has a Ku-band beam for fixed satellite services, which will be used for television, corporate networks, and other telecommunications applications.
The multi-mission payload of the Amazonas 5 will provide three coverage areas: Brazil in transmission, Latin America in transmission, and a coverage area excluding Brazil.
The Amazonas 5 is based on SSL's 1300 platform, which provides the flexibility needed to house a wide range of payloads for commercial communications satellites.
With approximately 9.8 kW of power, the Amazonas 5 is designed to deliver service for 15 years or longer and will be designed, manufactured, and tested at the SSL facilities in Palo Alto, California.
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