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Ligne 1 : − == Forewords ==+ − The RFM69 module and Packet Radio can do a lot to secure message transmission and message content (with the encryption key). − − As for wired network (aka TCP/IP) the packet radio enclose your data into datagram before sending it over the air. This helps the hardware to detect error and possibly recover when collisions occurs. − − Obviously, more we are talking on a same frequency, more we will have collision, less the communication will be efficient. − − The best solution would be to use a frequency plan where each team receives its own frequency range like showed in the following table. − − == Suggested Frequency Plan == − − − |- − | align="center" | '''Team''' − | align="center" | '''Freq (MHz)''' − | align="center" | '''Team name''' − |- style="font-size: 90%" − | align="left" | Team #1 − | align="left" | 433.1 − | align="left" | . . − |- style="font-size: 90%" − | align="left" | Team #2 − | align="left" | 433.2 − | align="left" | − |- style="font-size: 90%" − | align="left" | Team #3 − | align="left" | 433.3 − | align="left" | − |- style="font-size: 90%" − | align="left" | Team #4 − | align="left" | 433.4 − | align="left" | − |- style="font-size: 90%" − | align="left" | Team #5 − | align="left" | 433.5 − | align="left" | − |- style="font-size: 90%" − | align="left" | Team #6 − | align="left" | 433.6 − | align="left" | − |- style="font-size: 90%" − | align="left" | Team #7 − | align="left" | 433.7 − | align="left" | − |- style="font-size: 90%" − | align="left" | Team #8 − | align="left" | 433.8 − | align="left" | − |- style="font-size: 90%" − | align="left" | Team #9 − | align="left" | 433.9 − | align="left" | − |- style="font-size: 90%" − | align="left" | ... − | align="left" | 434.0 − | align="left" | ... − |} − − == Frequency plan explained == − Why do we space the frequencies of 0.1 MHz (so 100 KHz)? Spacing more (>100 KHz) will be best, spacing less (<100 KHz) is not recommended. − − The following capture coming from USA shows the spectrum view (and waterfall view) of a RFM69 emiting on the 868.0 MHz frequency. Just remember that it works the same for CanSat around the 433 Mhz. − − − − [[Fichier:ENG-CANSAT-FREQUENCY-PLAN-10.png|640px]]<small><br />Source: [https://forum.mysensors.org/topic/11501/rfm69-range-issues this thread in the mysensors.org forum]</small> − − This second capture does focus on the interesting part of the picture (spectrum around 868 Mhz and corresponding waterfall). − − [[Fichier:ENG-CANSAT-FREQUENCY-PLAN-11.png]]<small><br />Source: [https://forum.mysensors.org/topic/11501/rfm69-range-issues this thread in the mysensors.org forum]</small> − − As you can see, the transmission does take place on the right and left side around the central 868.0 MHz axis. A bit like a mirroring image. This is called "Double Side Band" (DSB) communication in the radio area with the carrier wavelength set to 868.0 Mhz. − − {{ambox|text=The carrier wavelength doesn't ship any data/information (no peak in that position) since the "Double Side Bands" are enough to rebuild the transmited information.}} − − By comparing the spectrum and waterfall (on the right part), we can see the communication take places between 868.0 MHz and 868.030 MHz. This is the same on the opposite side of the picture. − − So RFM69 Packet radio transmission takes place between: − * Carrier WaveLength + 30 KHz − * Carrier WaveLength - 30 KHz − So a total of 60 KHz around the carrier Wave length. − − {{ambox|text=the waterfall section does show some activities over 30 KHz which is flooded inside the noise (no real peak visible on the spectrum).}}
ENG-CANSAT-FREQUENCY-PLAN (voir la source)
Version du 20 février 2022 à 00:34
, 20 février 2022 à 00:34Contenu remplacé par « {{ENG-CANSAT-NAV}} {{COMMON-CANSAT-FREQUENCY-PLAN}} {{ENG-CANSAT-TRAILER}} »
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{{ambox|text=Note: the 868.0 Mhz is a FREE ISM band in USA. In Europe, that frequency range is reserved for LoRa transmission!}}
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