Difference between revisions of "EMI"

Per hackaday: https://hackaday.com/2024/03/30/how-much-bandwidth-does-cw-really-occupy/ and https://www.youtube.com/watch?v=KEgrTwjWLf0

Per hackaday: https://hackaday.com/2024/03/30/how-much-bandwidth-does-cw-really-occupy/ and https://www.youtube.com/watch?v=KEgrTwjWLf0

Ideally a spectrum analyzer will look at both the spectrum and the waveform (oscilloscope), the latter being used for rise/fall time. Also worth noting is the old adage about square waves being made up of sine waves. http://web.archive.org/web/20230711194015/https://www.thepulsar.be/article/generating-sine-wave-from-square-waves/ Of course, rise and fall time is often the highest frequency in your circuit. CW is a type of OOK (on off keying), which he refers to as an extreme example of AM modulation (interesting) often catalogued with FSK (frequency shift keying) where different frequencies take the 1 and 0. OOK is the simplest transceiver and used with the cheap 433 or 900MHz transceivers on ebay which I have played around with but ended up just purchasing some low power labs tx (which ended up not working properly...)

Ideally a spectrum analyzer will look at both the spectrum and the waveform (oscilloscope), the latter being used for rise/fall time. Also worth noting is the old adage about square waves being made up of sine waves. http://web.archive.org/web/20230711194015/https://www.thepulsar.be/article/generating-sine-wave-from-square-waves/ Of course, rise and fall time is often the highest frequency in your circuit. CW is a type of OOK (on off keying), which he refers to as an extreme example of AM modulation (interesting) often catalogued with FSK (frequency shift keying) where different frequencies take the 1 and 0. OOK is the simplest transceiver and used with the cheap 433 or 900MHz transceivers on ebay which I have played around with but ended up just purchasing some low power labs tx (which ended up not working properly...)

[[Category:online notes]]

[[Category:online notes]]