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Figure 1.3 INTELSAT VII coverage (Pacific Ocean Region; global, hemispheric, and spot beams). (From Lilly, 1990, with permission.)
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The INTELSAT VIII-VII/A series of satellites was launched over the period February 1997 to June 1998. Satellites in this series have similar capacity as the VII/A series, and the lifetime is 14 to 17 years. It is standard practice to have a spare satellite in orbit on highreliability routes (which can carry preemptible traffic) and to have a ground spare in case of launch failure. Thus the cost for large international schemes can be high; for example, series IX, described later, represents a total investment of approximately $1 billion. Table 1.3 summarizes the details of some of the more recent of the INTELSAT satellites. These satellites provide a much wider range of services than those available previously, including such services as Internet, DTH TV, tele-medicine, tele-education, and interactive video and multimedia. Transponders and the types of signals they carry are
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TABLE 1.3
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INTELSAT Geostationary Satellites Location 342 E 62 E 325.5 E 60 E 335.5 E 64 E 332.5 E 359 E Number of transponders Up to 72 @ 36 MHz in C-Band Up to 27 @ 36 MHz in Ku Band Up to 72 @ 36 MHz in C-Band Up to 23 @ 36 MHz in Ku Band Up to 72 @ 36 MHz in C-Band Up to 22 @ 36 MHz in Ku Band Up to 72 @ 36 MHz in C-Band Up to 22 @ 36 MHz in Ku Band Up to 72 @ 36 MHz in C-Band Up to 22 @ 36 MHz in Ku Band Up to 72 @ 36 MHz in C-Band Up to 22 @ 36 MHz in Ku Band Up to 72 @ 36 MHz in C-Band Up to 23 @ 36 MHz in Ku Band Up to 70 @ 36 MHz in C-Band Up to 36 @ 36 MHz in Ku Band Launch date June 2001 August 2001 March 2002 February 2002 June 2002 September 2002 February 2003 June 2004
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Satellite 901 902 903 904 905 906 907 10-02
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described in detail in later chapters, but for comparison purposes it may be noted that one 36 MHz transponder is capable of carrying about 9000 voice channels, or two analog TV channels, or about eight digital TV channels. In addition to providing transoceanic routes, the INTELSAT satellites are also used for domestic services within any given country and regional services between countries. Two such services are Vista for telephone and Intelnet for data exchange. Figure 1.4 shows typical Vista applications. 1.4 U.S. Domsats Domsat is an abbreviation for domestic satellite. Domestic satellites are used to provide various telecommunications services, such as voice, data, and video transmissions, within a country. In the United States, all domsats are situated in geostationary orbit. As is well known, they make available a wide selection of TV channels for the home entertainment market, in addition to carrying a large amount of commercial telecommunications traffic. U.S. Domsats, which provide a DTH television service, can be classified broadly as high power, medium power, and low power (Reinhart, 1990). The defining characteristics of these categories are shown in Table 1.4. The main distinguishing feature of these categories is the equivalent isotropic radiated power (EIRP). This is explained in more detail in Chap. 12, but for present purposes it should be noted that the upper limit
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Figure 1.4 (a) Typical Vista application; (b) domestic/regional Vista network with standard A or B gateway. (From Colino, 1985; courtesy of ITU Telecommunication Journal.)
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TABLE 1.4
De ning Characteristics of Three Categories of United States DBS Systems High power Medium power Ku 11.7 12.2 14 14.5 FSS Point-to-point DBS No 2 FCC Yes 40 48 Low power C 3.7 4.2 5.925 6.425 FSS Point-to-point DBS Yes 2 3 FCC Yes 33 37
Band Downlink frequency allocation GHz Uplink frequency allocation GHz Space service Primary intended use Allowed additional use Terrestrial interference possible Satellite spacing degrees Satellite spacing determined by Adjacent satellite interference possible Satellite EIRP range (dBW)
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