Why use a gaussian excitation function? Do i understand correctly that the excitation waveform is a repeated bell curve? Please forgive me I am a noob.
what is the EM radiation's acceptable range for your? At what distance from filter, have you measured the EM radiation? In your video, filter seems to radiate +9dBm power which is very high. Which topology is suggested to minimize EM radiation?
This is some high-level RF design. I love the EMI scanner.
Thank you!
I recommend you remove the soldermask as it introduces shifts due parasitics. Thank you for the video. cool info
Why use a gaussian excitation function? Do i understand correctly that the excitation waveform is a repeated bell curve?
Please forgive me I am a noob.
Tres heureux de decouvrir votre channel, extremement interessant
Excellent!
Thank you!
what is the EM radiation's acceptable range for your? At what distance from filter, have you measured the EM radiation? In your video, filter seems to radiate +9dBm power which is very high. Which topology is suggested to minimize EM radiation?
Thank you for this video 👌
Awesome explanation, thank you.
Thanks !
Hi, Is there a way to use your script to generate filters for 2m & 70 cm band?
At those frequencies, the filter would be too big to be practical. You should use discrete components instead.
1050 Mhz c'est pour l’écoute radio-astronomie ? , bravo beau travail . l'avez vous testé avec un NanoVNA ?
Exact! Non, je ne possède pas de NanoVNA, uniquement testé avec mon SNA maison, présenté ici : github.com/CGrassin/rf_network_analyzer
Salut !