Asatellite phone (also called asatellite telephone orsatphone) is a type ofmobile phone that connects to thepublic switched telephone network through orbitingsatellites instead of terrestrialcell sites. They function in areas without terrestrial network coverage but require line-of-sight to a satellite. Most support voice, text, and low-bandwidth data services.
Satellite phones are used in areas where conventional communication infrastructure is unavailable or has been disrupted. Typical applications include maritime and aviation communication, remote expeditions, mining, logistics, and emergency response.[1]
Early handsets were large and required deployable antennas, while later models are comparable in size to ordinarysmartphones. Fixed ship and vehicle installations use directionalmicrowave antennas that track satellites automatically. Smaller systems may rely onVoIP oversatellite internet links such asBGAN orVSAT. Indoor reception is limited and may require external antennas or repeaters. More recently, unmodified smartphones with no special support for satellite communication are also able to be used fordirect-to-phone satellite telephony.[2][3]
The first voice signals relayed via satellite were transmitted in 1958 using the experimentalSCORE satellite, soon after the launch ofSputnik 1.MARISAT (1976) became the first dedicated mobile communications satellite and was later integrated into theInmarsat organization, founded in 1979.[4]
Satellite telephony systems operate mainly through two orbital types:geostationary orbit (GEO), about 35,786 kilometres (22,236 mi) above Earth, andlow Earth orbit (LEO), about 640 to 1,120 kilometres (400 to 700 mi). The orbit determines coverage area, latency, and terminal design.
GEO satellites appear fixed in the sky, allowing near-global coverage with few satellites. The long signal path introduces latency but supports higher data throughput than LEO networks. GEO service is reliable up to roughly 70° latitude; signal quality decreases near the poles or in obstructed terrain.
Notable GEO-based operators include:
LEO satellites orbit Earth every 70–100 minutes. Continuous service requires constellations of dozens of satellites, as each satellite remains visible for only several minutes.[5]
Major operators:
Both systems launched in the late 1990s, experienced bankruptcy, and were later restructured. Typical data speeds range from 2.4 to 9.6 kbit/s.
In 2022,T-Mobile US andSpaceX announced a partnership using second-generationStarlink satellites to provide limited mobile coverage via existingLTE spectrum.[7][8]
AST SpaceMobile is developing a3GPP-compliant space network linking standard smartphones to satellites in areas lacking terrestrial coverage.[9] In 2024,Iridium announced “Project Stardust”, a planned 5G non-terrestrial service for messaging andIoT devices.[10]
Satellite phone networks use special international numbering codes.Inmarsat numbers use +870. Historical codes +871–+874 were phased out in 2008.[11] LEO networks such as Iridium and Globalstar use ranges within +881, while smaller regional systems use +882 for international networks.
Satellite communication remains significantly more expensive than terrestrial mobile service due to launch and maintenance costs. Used handsets typically cost a few hundred US dollars; new models and broadband terminals several thousand. Service fees often include a monthly base charge and per-minute rates higher than cellular equivalents.[12]
Some governments restrict or require licences for satellite-phone use because the devices connect directly to foreign networks. Restrictions apply in countries including China, India, Myanmar, North Korea, and Russia, generally citing national security or spectrum management concerns.[13]
Modern satellite phone systems encrypt voice traffic, but earlier proprietary algorithms (GMR-1, GMR-2) were shown to have cryptographic weaknesses.[14] For sensitive communication, additional encryption or secure satellite services are used.
Satellite phones are valuable when terrestrial networks fail during natural disasters or conflicts. They have supported communication following events such as major earthquakes, hurricanes, and power outages.[15] Because each satellite beam serves large regions, capacity remains limited during widespread emergencies.
In the 2020s, some smartphones gained satellite connectivity for emergency use.Thuraya introduced the X5 Touch (2018) combining satellite and cellular communication.[16]Apple added emergency satellite messaging with theiPhone 14 (2022) and roadside assistance in theiPhone 15 (2023).[17] Such services typically support text-based communication and limited emergency data.
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