|Type||Public limited company|
|Elena Pisonero Ruiz, Chairperson of the board (since 20 March 2012)|
|Products||Internet, television, radio and mobile communications via satellite|
|Revenue||€200.3 million (2012)|
Number of employees
Hispasat is the operating company for a number of Spanish communications satellites that cover the Americas, Europe and North Africa from orbital positions 30.0° West and 61.0° West. It was formed in 1989 and its activities include provision of communication services in the commercial and government sectors (corporate networks, advanced telecommunications services, telephony, videoconferencing, etc.). Hispasat's fleet of satellites broadcast more than 1250 television channels and radio stations to more than 30 million homes, as well as providing services such as broadband to mobile telephones and landlines.
The first Hispasat satellite sent into orbit was Hispasat 1A, which was launched on 11 September 1992 on board an Ariane 4 launch vehicle from the Centre Spatial Guyanais near Kourou in French Guiana. It was put into geostationary orbit at 30° West, which is the location of all their subsequent satellites serving Spain and Europe.
The Amazonas satellites (61° West) were inaugurated in 2004 with the launch of Amazonas 1, which served the American market (mainly Latin America). Amazonas 2 was launched on 1 October 2009 and Amazonas 3 on 7 February 2013  replacing Amazonas 1, which was moved to a new position at 36° West in September 2013. Amazonas 4A was launched on 22 March 2014. A fifth generation of this satellite series, Amazonas 5, was launched on 11 September 2017.
Source: Hispasat official web site.
|Name||Launch date||Use||Constructor||Launch system||Orbital position||Transponders||Coverage|
|Hispasat 1A||11 September 1992||Digital television and government-military communications||Matra Marconi Space||Ariane 4||End of lifetime reached in 2003.|
|Hispasat 1B||22 July 1993||Digital television and government-military communications||Matra Marconi Space||Ariane 4||End of lifetime reached in 2003, although some transponders were active until June 2006.|
|Hispasat 1C||3 February 2000||Digital television and radio services as well as VSAT networks||Alcatel Space||Atlas 2AS, based on a Spacebus 3000B2 platform||End of lifetime reached in 2017.|
|Hispasat 1D||18 September 2002||Replacing Hispasat 1A and 1B for non-military uses||Alcatel Space||Atlas 2AS Centaur||143° West||28 Ku band transponders||Europe, North Africa, America|
|Amazonas 1||5 August 2004||Civil-communications||Astrium||Proton-M||61° West (Re-positioned to 36° West)||32 Ku band transponders and 27 C band transponders||Europe, North Africa, America|
|Amazonas 2||1 October 2009||Civil-communications||EADS Astrium||Ariane 5||61° West||54 Ku band transponders, 10 C band transponders and an advanced payload composed by an onboard processor capable of providing broadband multimedia services||North, Central and South America|
|Hispasat 1E||29 December 2010||Civil-communications||Space Systems / Loral||Ariane 5||30° West||53 Ku band transponders||Europe, North Africa, America|
|Amazonas 3||7 February 2013||Civil-communications||Space Systems / Loral||Ariane 5||61° West||33 Ku band transponders, 9 Ka band and 19 C band transponders||North, Central and South America|
|Amazonas 4A||22 March 2014||Civil-Communications||Orbital Sciences Corporation||Ariane 5||61° West||24 Ku band transponders||North, Central and South America – transponder capacity limited by power subsystem anomaly|
|Hispasat AG1||28 January 2017||Civil-communications||OHB-System||Soyuz ST-B||36° West||24 Ku band transponders and 3 Ka band transponders||Europe, North Africa and America|
|Amazonas 5||11 September 2017||Civil-communications||Space Systems/Loral||Proton-M||61° West||24 Ku band transponders and 34 Ka band spot beams||Latin America|
||6 March 2018 This satellite replaced Hispasat 1D||Civil-communications||Space Systems / Loral||Falcon 9||30° West||30 Ku band, 10 C band and 7 Ka beams||Europe, North Africa, America|
|Name||Comment||Use||Orbital position / Transponders / Coverage|
|Amazonas 4B||The project was cancelled in the wake of the power problems of Amazonas 4A. It was replaced by Amazonas 5||Civil-communications / Orbital Sciences Corporation / ?||61° west / ? / America|
|HisNorSat||Initially scheduled for launch in 2014, the project was suspended in September 2012||Military use, resulting from a collaboration agreement between Spain and Norway||– / 40 Ka and X band transponders / From Australia to America|
Ignis: The IGNIS project (integral communications system for the control of forest fires) is part of the Spanish Ministry of Science and Innovation's Innpacto project. It was launched in September 2011 with the main objective of developing short-term solutions to improve the telecommunications used while fighting forest fires.
Saturno: Hispasat is coordinating the SATURNO Project (SATellite Universal Redistribution NetwOrk). SATURNO is a tractor project, included within the Spanish government's 2010 Plan Avanza for R+D Competitiveness, the plan's main objective is to investigate innovative solutions for content distribution via satellites in the digital home in order to maximise use of existing infrastructure and develop necessary equipment and systems. Solutions developed as part of SATURNO are based on the use of high-speed IP technologies and the reuse of domestic cabling.
Jedi: The JEDI project (Just Exploring DImensions) started in 2010 with the objective of improving knowledge regarding the different formats and technologies related to 3D TV and how it will evolve and develop for consumers. JEDI is part of a European research project, ITEA 2, which forms part of the European EUREKA initiatives. Hispasat participates in the European JEDI consortium and is also a partner in the Spanish JEDI consortium collaborating on research and development projects under the aegis of Plan Avanza.
Phidias: PHIDIAS (Hybrid Platform for the Intelligent Diffusion of Applications and Services for Television) is an Avanza Plan project. Its objective is the development of an integrated platform for hybrid broadcast broadband television (HbbTV) that combines the broadcast and broadband delivery of television through the Internet. The aim is to investigate different alternatives for technological solutions for HbbTV by developing specific applications (social networks, personalized advertising, interactive applications etc.). The ultimate objective is to produce a working model for both terrestrial and satellite television.
Intogener: Hispasat participates in the INTOGENER Project to design a system to more precisely measure the flow of water in mountain watersheds with the objective of making the generation of hydroelectric power more efficient and sustainable. The project started in May 2012 and will be carried out in the Chilean Andes for a period of two years with a budget of over a million euros, with 50% of the budget coming from the European Space Agency (ESA). Other collaborators include Starlab, as the project's coordinator, Endesa Chile, the Pontifical Catholic University of Chile and the consultancy Future Water, which will provide the remaining 50% of the project's budget.