Video sender: Difference between revisions
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The equipment requirement is usually either [[SCART]] (Europe), [[composite video]] or [[HDMI]]. |
The equipment requirement is usually either [[SCART]] (Europe), [[composite video]] or [[HDMI]]. |
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Video senders offer [[Analog signal|analogue]] or [[Digital data|digital]] solutions. Analogue versions may be subject to [[RF interference]] from other household wireless appliances such as [[cordless telephone]]s or [[wireless network]]s. Where-as [[Digital data|digital]] models utilise standards more familiar with Computer Networks such as Powerline |
Video senders offer [[Analog signal|analogue]] or [[Digital data|digital]] solutions and are used increasing to create connectivity around the home without the needs for cabling. Typical applications include the transmission of Television from a lounge to a bedroom or from a [[CCTV]] camera to a monitor or television. Analogue versions may be subject to [[RF interference]] from other household wireless appliances such as [[cordless telephone]]s or [[wireless network]]s and are becoming increasingly unpopular. Where-as [[Digital data|digital]] models utilise standards more familiar with Computer Networks such as [[Powerline]] or [[WiFi]] and are increasingly more popular as they handle [[HDMI]] connectivity. |
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Analogue solutions have the advantage of low manufacturing costs as the Video and Audio signals are simply modulated onto a carrier at 2.4 GHz . But they have the adverse effect of causing reduced bandwidth to [[WiFi]] networks and in some cases [[WiFi]] networks can cause picture interference on the video sender signal |
Analogue solutions have the advantage of low manufacturing costs as the Video and Audio signals are simply modulated onto a carrier at 2.4 GHz or 5.8GHz. But they have the adverse effect of causing reduced bandwidth to [[WiFi]] networks and in some cases [[WiFi]] networks can cause picture interference on the video sender signal. More information can be found in the article on [[electromagnetic interference at 2.4 GHz]]. See [http://www.techtir.ie/tv-radio/video-senders] for explanation and mitigation. To avoid this, some video senders now use a technology similar to [[WiFi]] and can co-exist with wireless networks and share available bandwidth. |
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Usually there are four FM transmit channels, A, B, C & D, with L & R audio on 6.0MHz and 6.5MHz FM subcarriers added to the composite video baseband. The reverse remote control channel is usually 433.92MHz, fixed, using whatever modulation is on the 34kHz to 45kHz IR remote "carrier". ASK/OOK schemes such as RC5 and RC6 work best over the RF link as the receiver uses a data slicer and AGC designed for ASK/OOK with [[Manchester encoding]]. |
Usually there are four FM transmit channels, A, B, C & D, with L & R audio on 6.0MHz and 6.5MHz FM subcarriers added to the composite video baseband. The reverse remote control channel is usually 433.92MHz, fixed, using whatever modulation is on the 34kHz to 45kHz IR remote "carrier". ASK/OOK schemes such as RC5 and RC6 work best over the RF link as the receiver uses a data slicer and AGC designed for ASK/OOK with [[Manchester encoding]]. |
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[[Digital data|Digital]] solutions combine the use of a [[System on Chip]] (used for picture and sound encoding/decoding) with a means or launching the signal such as Powerline LAN, [[WiFi]] or [[Ultra-wideband]] (also known as UWB, ultra-wide band and ultraband) . Whilst [[Ultra-wideband]] is generally used for low range applications of typically 10 meters, some manufacturers use proprietary versions of [[Wi-Fi]] technology enabling greater ranges to be achieved of typically 80 meters in-building and in excess 2 [[kilometres]] clear line-of-sight. Some [[Digital data|Digital]] models maintain an advantage of achieving [[High-definition television|HD]] or even [[ |
[[Digital data|Digital]] solutions are now the most popular and combine the use of a [[System on Chip]] (used for picture and sound encoding/decoding) with a means or launching the signal such as Powerline LAN, [[WiFi]] or [[Ultra-wideband]] (also known as UWB, ultra-wide band and ultraband) . Whilst [[Ultra-wideband]] is generally used for low range applications of typically 10 meters, some manufacturers use proprietary versions of [[Wi-Fi]] technology enabling greater ranges to be achieved of typically 80 meters in-building and in excess 2 [[kilometres]] clear line-of-sight. Some [[Digital data|Digital]] models maintain an advantage of achieving [[High-definition television|HD]] or even [[4K UHD]] and provide additional connectivity standards such as [[HDMI]] as well as analogue connectivity standards such as [[SCART]] (Europe) and [[composite video]]. |
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{{DEFAULTSORT:Video Sender}} |
{{DEFAULTSORT:Video Sender}} |
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Revision as of 15:29, 1 October 2014
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A video sender is a device for transmitting domestic video signals wirelessly from one room to another, as for example sending the output of a satellite TV decoder located in the lounge, to a television set in the bedroom.
Some video senders also incorporate a return path, to permit infrared remote controls to operate the equipment whose output is being sent.
The equipment requirement is usually either SCART (Europe), composite video or HDMI.
Video senders offer analogue or digital solutions and are used increasing to create connectivity around the home without the needs for cabling. Typical applications include the transmission of Television from a lounge to a bedroom or from a CCTV camera to a monitor or television. Analogue versions may be subject to RF interference from other household wireless appliances such as cordless telephones or wireless networks and are becoming increasingly unpopular. Where-as digital models utilise standards more familiar with Computer Networks such as Powerline or WiFi and are increasingly more popular as they handle HDMI connectivity.
Analogue solutions have the advantage of low manufacturing costs as the Video and Audio signals are simply modulated onto a carrier at 2.4 GHz or 5.8GHz. But they have the adverse effect of causing reduced bandwidth to WiFi networks and in some cases WiFi networks can cause picture interference on the video sender signal. More information can be found in the article on electromagnetic interference at 2.4 GHz. See [1] for explanation and mitigation. To avoid this, some video senders now use a technology similar to WiFi and can co-exist with wireless networks and share available bandwidth.
Usually there are four FM transmit channels, A, B, C & D, with L & R audio on 6.0MHz and 6.5MHz FM subcarriers added to the composite video baseband. The reverse remote control channel is usually 433.92MHz, fixed, using whatever modulation is on the 34kHz to 45kHz IR remote "carrier". ASK/OOK schemes such as RC5 and RC6 work best over the RF link as the receiver uses a data slicer and AGC designed for ASK/OOK with Manchester encoding.
Digital solutions are now the most popular and combine the use of a System on Chip (used for picture and sound encoding/decoding) with a means or launching the signal such as Powerline LAN, WiFi or Ultra-wideband (also known as UWB, ultra-wide band and ultraband) . Whilst Ultra-wideband is generally used for low range applications of typically 10 meters, some manufacturers use proprietary versions of Wi-Fi technology enabling greater ranges to be achieved of typically 80 meters in-building and in excess 2 kilometres clear line-of-sight. Some Digital models maintain an advantage of achieving HD or even 4K UHD and provide additional connectivity standards such as HDMI as well as analogue connectivity standards such as SCART (Europe) and composite video.
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