A rebroadcasting system for retransmitting a television broadcast, which was received from a satellite, in a segment broadcasting, such as one-segment broadcasting and three-segment broadcasting, comprises: charging a solar battery during the daytime; recording broadcasts during the retransmission halt time; retransmitting television broadcasts, which are received from the satellite, in real time by use of central (one or three) segments and the charged power during any time when the output of the solar battery is low, for example, during the night, before sunset, after sunrise, or a rainy day; reproducing the recorded broadcasts; and retransmitting the reproduced recorded programs by use of any remaining segments, for example, segments adjacent to the central segments.

A rebroadcasting system for retransmitting a television broadcast, which was received from a satellite, in a segment broadcasting, such as one-segment broadcasting and three-segment broadcasting, comprises: charging a solar battery during the daytime; recording broadcasts during the retransmission halt time; retransmitting television broadcasts, which are received from the satellite, in real time by use of central (one or three) segments and the charged power during any time when the output of the solar battery is low, for example, during the night, before sunset, after sunrise, or a rainy day; reproducing the recorded broadcasts; and retransmitting the reproduced recorded programs by use of any remaining segments, for example, segments adjacent to the central segments.

This disclosure relates to a devices and methods related to satellite information broadcasting. Example embodiments may include frequency shifting an intermediate frequency (IF) signal down-conversion from the microwave-band. As an example, down-conversion involving local oscillators may lead to frequency drift due to varying temperature and/or humidity conditions. Correcting for the frequency drift may provide an opportunity to remove or filter excess bandwidth. Further embodiments may include receiving, in a tuning request, information about a transponder type. A frequency translation module may be adjusted based, at least in part, on the transponder type related to the IF signal being input into the frequency translation module. Such frequency-shifting and transponder-specific filtering may allow Single-Wire Multiswitch (SWM) devices to provide output signals with narrower bandwidth, which may improve signal quality, cable run length, reduce power demands, etc.

A satellite reception assembly may include a housing configured to support receipt and handling of a plurality of satellite signals. The housing may include circuitry incorporating integrated stacking architecture for supporting and/or providing channel and/or band stacking whereby particular channels or bands, from multiple satellite signals that are received via the satellite reception assembly, may be combined onto a single output signal that may be communicated from the satellite reception assembly to a gateway device for concurrent distribution thereby to a plurality of client devices serviced by the gateway device.

A satellite reception assembly may include a housing configured to support receipt and handling of a plurality of satellite signals. The housing may include circuitry incorporating integrated stacking architecture for supporting and/or providing channel and/or band stacking whereby particular channels or bands, from multiple satellite signals that are received via the satellite reception assembly, may be combined onto a single output signal that may be communicated from the satellite reception assembly to a gateway device for concurrent distribution thereby to a plurality of client devices serviced by the gateway device.