Transmission. At the main transmission sites the Multiplexed Transport Stream is fed to the transmitters which produce an RF signal at the specified power. None of the transmitter outputs are synchronised with each other; they operate in a Multi-Frequency Network (MFN). At the main transmission sites each antenna is constructed in two halves and each half has its own feeder cable. The overarching design criterion is that the antenna can facilitate full power into either half of the antenna system. At the main transmission sites each Multiplexed Transport Stream has its own transmitter. Each transmitter has dual drives and there is an additional transmitter on site which can automatically replace any of the active transmitters if the need arises (N+1 configuration). The Service Provider employs solid state transmitters which have multiple output modules and therefore degrade gracefully in the vast majority of fault situations. The outputs from the active UHF transmitters are combined and the power split across the two halves of the antenna. An overview of the arrangement for main sites can be seen in Figure 7.2.1.
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Samples: Wholesale Access Reference Offer, Wholesale Access Reference Offer, Wholesale Access Reference Offer
Transmission. At the main transmission sites the Multiplexed Transport Stream is fed to the transmitters which produce an RF signal at the specified power. None of the transmitter outputs are synchronised with each other; they operate in a Multi-Multi- Frequency Network (MFN). At the main transmission sites each antenna is constructed in two halves and each half has its own feeder cable. The overarching design criterion is that the antenna can facilitate full power into either half of the antenna system. At the main transmission sites each Multiplexed Transport Stream has its own transmitter. Each transmitter has dual drives and there is an additional transmitter on site which can automatically replace any of the active transmitters if the need arises (N+1 configuration). The Service Provider employs solid state transmitters which have multiple output modules and therefore degrade gracefully in the vast majority of fault situations. The outputs from the active UHF transmitters are combined and the power split across the two halves of the antenna. An overview of the arrangement for main sites can be seen in Figure 7.2.1.
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Samples: Wholesale Access Reference Offer, Wholesale Access Reference Offer, Wholesale Access Reference Offer
Transmission. At the main transmission sites the Multiplexed Transport Stream is fed to the transmitters which produce an RF signal at the specified power. None of the transmitter transmitters outputs are synchronised with each other; they operate in a MultiMuli-Frequency Network (MFN). ) At the main transmission sites each antenna is constructed in two halves and each half has its own feeder cable. The overarching design criterion is that the antenna can facilitate full power into either half of the antenna systemhalf. At the main transmission sites each Multiplexed Transport Stream has its own transmitter. Each transmitter has dual drives and there is an additional transmitter on site which can automatically replace any of the active transmitters if the need arises (N+1 configuration). The Service Provider Network Operator employs solid state transmitters which have multiple output modules and therefore degrade gracefully in the vast majority of fault situations. The outputs from the active UHF transmitters are combined and the power split across the two halves of the antenna. An overview of the arrangement for main sites can be seen in Figure 7.2.17.3.1.
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Samples: Wholesale Access Reference Offer, Wholesale Access Reference Offer, Wholesale Access Reference Offer