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A single-frequency network or SFN is a type of radio network that operates several transmitters on a single frequency. To avoid interference, each station is usually run synchronously with the others, using GPS or a signal from the main station or network as a reference clock. Both FM and AM radio stations can operate in this manner, as can other non-broadcast operations, but television has proven to be more difficult. When this technology is used in a simplified form, a secondary transmitter may be known as a booster or on-channel repeater.
Synchronization of multiple signals can prove to be very difficult, particularly in systems that require high bandwidth. Most attempts at repeating analog television on the same channel results in "ghosting," since the repeater creates a second path of information (multipath). However, the conversion to digital television will allow SFNs to be used reliably for carrying moving images. This will be easiest in systems that use COFDM as the transmission mechanism. COFDM uses a large number of very low-bandwidth signals, so it is fairly easy to synchronize multiple transmitters. DVB-T (used in Europe and many other areas) and ISDB-T (used in Japan) both use COFDM and are well-suited to SFN operation. COFDM is also widely used in digital radio systems.
The 8VSB modulation system used in the United States for digital TV might allow the use of single-frequency networks there, although this is unclear. The system was not designed with on-channel repeaters in mind, but because the system Single frequency networks is relatively good at "ghost canceling," it may be possible (early 8VSB receivers were not very good at handling multipath, but later systems have seen significant improvements).
An alternative technical solution to the SFN is the multi-frequency network (MFN).
See also
- Broadcast translator
- DVB,ISDB-T,ATSC
- OFDM,Guard interval
Electronics Topics
The field of electronics is the study and use of systems that operate by controlling the flow of electrons or other electrically charged particles in devices such as thermionic valves and semiconductors. The design and construction of electronic circuits to solve practical problems is part of the fields of electronic engineering, and the hardware design side of computer engineering. The study of new semiconductor devices and their technology is sometimes considered as a branch of physics.
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