Fibre satellite distribution
Encyclopedia
Fibre satellite distribution is a technology that enables satellite TV signals from an antenna
to be distributed using an optical fibre cable infrastructure and then converted to electrical signals for use with conventional set-top box
receivers.
Particularly applicable to satellite TV distribution systems in a multi-dwelling unit
, such as a block of flats (but useful in smaller domestic distribution systems too), such a hybrid fibre/electrical system reduces the cabling required, reduces signal noise and interference, and provides for an easy upgrade to increase the number of tuners connected at each dwelling.
Conventional systems that distribute the electrical satellite IF
signal via a star network of coaxial cable
require one relatively short cable run from the central distribution equipment to each tuner connected to the system, whereas in a fibre system, cables can be very long, and split at successive locations, in a tree structure without detriment to the reception.
Fibre cable is cheap in long runs, retailing at about twice the price of equivalent copper coaxial cable, but replacing four runs of coaxial cable with a single fibre cable.
It is also much smaller than the coaxial signal cable used for electrical IF distribution, but robust and flexible. The losses in a fibre system are almost negligible so very long cable runs of hundreds of metres are possible without any signal reinforcement.
Because the signal is carried as a beam of light, it is impervious to the electrical interference that even the best coaxial satellite cable may suffer, and cables can be safely and conveniently run alongside mains power cables. Power consumption is also lower than an equivalent electrical system.
However, since about 2007, UK company, Global Invacom (which also markets domestic and communal satellite reception and distribution equipment, including SCR single cable distribution equipment) has developed a low cost standardised system of optical fibre distribution suitable for domestic installations and small or medium commercial communal dish systems.
The development was assisted by satellite operator SES Astra
both with advice and financial support in the form of the prize for the Astra Innovation Contest run by Astra in 2007, which Global Invacom won for the proposal and initial development of optical fibre distribution systems for satellite TV.
.
An optical fibre system “stacks” the four sub-bands in frequency, one above the other, at the LNB, in the range 0.95 GHz-5.45 GHz (a bandwidth of 4500 MHz) and transmits them together as a modulated optical signal down the fibre cable using a 1310 nm semiconductor laser.
The losses in the cable are extremely small (in the region of 0.3dB/km) and the Global Invacom optical LNB output can be split up to 32 ways with a cable length of up to 10 km between the LNB and the receiver.
At, or near, the receiver, the optical signal is converted back to the traditional electrical signal with a virtual multiswitch, providing one or more outputs that “appear” to the receiver as a conventional LNB.
The single mode fibre cables use an 8μm fibre armoured with a steel wrap and Kevlar strands inside a plastic jacket. Fibre cable cannot be easily joined (an expensive fusion splicer is required for reliable joints) but pre-made cables with FC type screw-on connectors (mechanically similar in use, but smaller, to the F-connectors used for electrical satellite IF) are available in lengths from 1m to 100m. The same connectors are used on all the optical components of a system, including the optical LNB, splitters, cable joiners, virtual LNB units, etc.
The cables must be properly prepared (the end of the fibre itself cleaned) before connections are made and provision must be made to attenuate the LNB signal, to avoid overloading the receiver, if it is not split between receivers as there is so little attenuation inherent in the cable.
The optical LNB requires two cables connected – the fibre signal cable and a separate F-connector cable to supply the 12V supply to power the LNB electronics. If the installation is a conversion from an electrical system to fibre, an existing redundant coaxial signal cable can be used for the power supply.
Antenna (radio)
An antenna is an electrical device which converts electric currents into radio waves, and vice versa. It is usually used with a radio transmitter or radio receiver...
to be distributed using an optical fibre cable infrastructure and then converted to electrical signals for use with conventional set-top box
Set-top box
A set-top box or set-top unit is an information appliance device that generally contains a tuner and connects to a television set and an external source of signal, turning the signal into content which is then displayed on the television screen or other display device.-History:Before the...
receivers.
Particularly applicable to satellite TV distribution systems in a multi-dwelling unit
Multi-family residential
Multi-family residential is a classification of housing where multiple separate housing units for residential inhabitants are contained within one building or several buildings within one complex. A common form is an apartment building...
, such as a block of flats (but useful in smaller domestic distribution systems too), such a hybrid fibre/electrical system reduces the cabling required, reduces signal noise and interference, and provides for an easy upgrade to increase the number of tuners connected at each dwelling.
Conventional systems that distribute the electrical satellite IF
If
If is a conjunction that can introduce a conditional clause.If may also refer to:-Music:* If , a 1951 hit song by Perry Como.* If , 1970s British progressive jazz-rock band* If...
signal via a star network of coaxial cable
Coaxial cable
Coaxial cable, or coax, has an inner conductor surrounded by a flexible, tubular insulating layer, surrounded by a tubular conducting shield. The term coaxial comes from the inner conductor and the outer shield sharing the same geometric axis...
require one relatively short cable run from the central distribution equipment to each tuner connected to the system, whereas in a fibre system, cables can be very long, and split at successive locations, in a tree structure without detriment to the reception.
Advantages
The primary benefit of using optical fibre for a satellite TV IF distribution system is that the fibre can carry the entire received spectrum on one cable, which can then be split to provide for multiple tuners, without requiring a separate feed from the antenna to each tuner. Additional outlets can be added to increase the number of receivers within one home without accessing the central antenna or main infrastructure.Fibre cable is cheap in long runs, retailing at about twice the price of equivalent copper coaxial cable, but replacing four runs of coaxial cable with a single fibre cable.
It is also much smaller than the coaxial signal cable used for electrical IF distribution, but robust and flexible. The losses in a fibre system are almost negligible so very long cable runs of hundreds of metres are possible without any signal reinforcement.
Because the signal is carried as a beam of light, it is impervious to the electrical interference that even the best coaxial satellite cable may suffer, and cables can be safely and conveniently run alongside mains power cables. Power consumption is also lower than an equivalent electrical system.
Development
While optical fibre has been used for telephone and Internet backbone data, and even for television and multimedia carriage for terrestrial cable, for many years, use for satellite IF distribution has been held back by considerations of cost and installation convenience.However, since about 2007, UK company, Global Invacom (which also markets domestic and communal satellite reception and distribution equipment, including SCR single cable distribution equipment) has developed a low cost standardised system of optical fibre distribution suitable for domestic installations and small or medium commercial communal dish systems.
The development was assisted by satellite operator SES Astra
SES Astra
Astra is the name for the geostationary communication satellites, both individually and as a group, which are owned and operated by SES S.A., a global satellite operator based in Betzdorf, in eastern Luxembourg. The name is sometimes also used to describe the channels broadcasting from these...
both with advice and financial support in the form of the prize for the Astra Innovation Contest run by Astra in 2007, which Global Invacom won for the proposal and initial development of optical fibre distribution systems for satellite TV.
How it works
The complete spectrum of Ku-band satellite reception stretches from 11.70 GHz-12.75 GHz across two signal polarisations, or a bandwidth of about 4000 MHz. This cannot be carried on a single coaxial cable and so in a conventional satellite reception system, just one of four sub-bands (received in vertical and horizontal polarization, and high and low frequency,) is sent from the antenna to the indoor receiver as 0.95 GHz-2.15 GHz IF. Which sub-band is required is signalled from the receiver to the antenna’s LNB by a 13/18V and 0/22 kHz tone on the LNB supply sent up the same coaxial cable. In a single antenna distribution system, special quattro LNB supplies all four sub-bands at once, from four outputs and these are supplied as required to each of the multiple outlets connected to an IF multiswitchMultiswitch
A multiswitch is a device used with a quattro LNB to distribute satellite TV signals to multiple receivers from a single dish and LNB....
.
An optical fibre system “stacks” the four sub-bands in frequency, one above the other, at the LNB, in the range 0.95 GHz-5.45 GHz (a bandwidth of 4500 MHz) and transmits them together as a modulated optical signal down the fibre cable using a 1310 nm semiconductor laser.
The losses in the cable are extremely small (in the region of 0.3dB/km) and the Global Invacom optical LNB output can be split up to 32 ways with a cable length of up to 10 km between the LNB and the receiver.
At, or near, the receiver, the optical signal is converted back to the traditional electrical signal with a virtual multiswitch, providing one or more outputs that “appear” to the receiver as a conventional LNB.
Practical considerations
Although the hybrid optical fibre/electrical system provides many advantages over electrical IF distribution to widespread or complex systems, it also requires a new approach by installers familiar only with electrical installations.The single mode fibre cables use an 8μm fibre armoured with a steel wrap and Kevlar strands inside a plastic jacket. Fibre cable cannot be easily joined (an expensive fusion splicer is required for reliable joints) but pre-made cables with FC type screw-on connectors (mechanically similar in use, but smaller, to the F-connectors used for electrical satellite IF) are available in lengths from 1m to 100m. The same connectors are used on all the optical components of a system, including the optical LNB, splitters, cable joiners, virtual LNB units, etc.
The cables must be properly prepared (the end of the fibre itself cleaned) before connections are made and provision must be made to attenuate the LNB signal, to avoid overloading the receiver, if it is not split between receivers as there is so little attenuation inherent in the cable.
The optical LNB requires two cables connected – the fibre signal cable and a separate F-connector cable to supply the 12V supply to power the LNB electronics. If the installation is a conversion from an electrical system to fibre, an existing redundant coaxial signal cable can be used for the power supply.