Communications Technology Satellite Explained

Communications Technology Satellite
Names List:CTS
Hermes
Mission Type:Communications
Operator:NASA
Cospar Id:1976-004A
Satcat:08585
Mission Duration:2 years (planned)
(achieved)
Manufacturer:Communications Research Centre Canada
Launch Mass:680 kg
Power:1200 watts
Launch Date:17 January 1976, 23:28:00 UTC
Launch Rocket:Delta-2914 (D-119)
Launch Site:Cape Canaveral, LC-17B
Launch Contractor:McDonnell Douglas
Entered Service:21 May 1976
Last Contact:October 1979
Orbit Reference:Geocentric orbit
Orbit Regime:Geosynchronous orbit
Orbit Longitude:116.0° West
Orbit Epoch:17 January 1976
Apsis:gee
Trans Band:Ku band

The Communications Technology Satellite (CTS), known as Hermes, was an experimental high-power direct broadcast communications satellite. It was a joint effort of Canadian Department of Communications, who designed and built the satellite, NASA who tested, launched and operated the satellite, and European Space Agency (ESA) who provided the 1200 watts solar panels and other devices. The three agencies shared the satellite and the data from the experiments.

Although the launch of the ATS-6 spacecraft in 1974 marked the end of NASA's program of experimental communications satellites. NASA participated in a Canadian satellite venture known initially as "Cooperative Applications Satellite-C" and renamed Hermes. This joint effort involved NASA and the Canadian Department of Communications. NASA's Lewis Research Center provided the satellite's high-power communications payload. Canada designed and built the spacecraft; NASA tested, launched, and operated it. Also, the European Space Agency provided one of the low-power traveling-wave tubes and other equipment. Hermes was launched 17 January 1976 and operated until October 1979.[1]

Launch

It was launched on 17 January 1976, from Cape Canaveral in Florida by a Delta 2914 rocket. Designed for a two-year mission it was the basis of experiments past its intended lifetime until October 1979 when a system failure broke all contacts with it. Unlike most communications satellites of the period, which had spin-stabilized bodies covered with solar cells, the Hermes CTS was three-axis stabilized and had its solar panels spread out on two huge "wings".

Satellite

The satellite was meant to test the practical aspects of a high powered satellite using large antennas beaming television signals directly to homes equipped with small antennas, and two-way communications with mobile stations.[2] When it was launched it was the most powerful communications satellite in existence.

This three-axis stabilized satellite was designed as a test vehicle to carry communications-related equipment. The purpose of its launch into an equatorial, Earth-synchronous orbit was:

The spacecraft was a short (1.17-m) right cylinder (1.8-m diameter) with two parallel (1.72-m apart) plane surfaces symmetrically truncating the curved surface. These plane surfaces were also parallel to the cylinder axis. Relatively long, narrow (1.3- by 6.5-m) solar arrays were extendable from mechanisms mounted on the parallel plane sides.[3]

Communications Experiments

The CTS satellite also made history as being the first communications satellite used for video art, by artist Keith Sonnier in 1977 for his 2-part piece titled "Send/Receive Satellite Network", in which video and character generator text and graphics were fed over the satellite between the East and West Coasts of the United States. This marked the first time that satellite communication technology was used for video art. NASA cooperated with Sonnier's project and provided a satellite uplink truck for access to the CTS satellite. The piece was produced in two parts, "Phase I", which was a critique of satellite technology and whether it would become accessible to the public rather than the commercial and military purposes for the technology at that time, using feeds sent over the satellite by the artist and other participants, and "Phase II", which featured excerpts of the feeds sent.

Several communities in the Canadian wilderness participated in a series of realistic tests of its capacities. Experiments in telemedicine for Emergency medical services, teleconferencing and community TV were conducted. The satellite was also used in May 1978 to televise Stanley Cup hockey playoffs to Canadian diplomats in Peru to demonstrate its international capacity. This was the first direct-to-home satellite television broadcast in the world. It covered about 40% of the Earth's surface, from its geostationary orbit. In Canada alone, 37 tests were done using a family of 27 ground terminals. The experiments led to the creation of the hybrid Anik B satellite which was both a standard Anik model and a platform for pilot projects of direct broadcast TV.

In 1987, Canada's Department of Communications and NASA received an Emmy Award for developing direct broadcast TV satellite technology with the Hermes CTS program.

See also

External links

Notes and References

  1. Web site: SP-4217 Beyond The Ionosphere: Fifty Years of Satellite Communication, chapter 6, 1958-1995. NASA. 1997. 22 June 2020.
  2. Web site: Rapp. William. Ogden. Dail. Wright. Denis. December 1982. An overview of the Communications Technology Satellite (CTS) project. 2020-10-11. NASA. en.
  3. Web site: Display: Hermes 1976-004A. 14 May 2020. 21 June 2020.
  4. Web site: Experiment1 Hermes 1976-004A. NASA. 14 May 2020. 22 June 2020.
  5. Web site: Experiment2 Hermes 1976-004A. NASA. 14 May 2020. 22 June 2020.
  6. Web site: Experiment3 Hermes 1976-004A. NASA. 14 May 2020. 22 June 2020.
  7. Web site: Experiment4 Hermes 1976-004A. NASA. 14 May 2020. 22 June 2020.
  8. Web site: Experiment5 Hermes 1976-004A. NASA. 14 May 2020. 22 June 2020.