Love the strategy that you are using, it 's quite clever. Thx for the great explanation. You covered the design well. I also thought the breadboard using sticky copper foil also a great way to build this mixer. Again, thx for taking the time in sharing your clever mixer design.
Your explanation is not accurate. The output RF is not LOx2, is (LOx2) +/-IF. You will be able to see it by reducing the span and BW of spectrum analyzer due to small value of 1MHz.
Support the channel becoming a Patron
patreon.com/allelectronics
Love the strategy that you are using, it 's quite clever. Thx for the great explanation. You covered the design well. I also thought the breadboard using sticky copper foil also a great way to build this mixer.
Again, thx for taking the time in sharing your clever mixer design.
Thanks! I first saw this design in projects from S53MV.
Mindblowing circuit, fantastic explanation. Really quite clever.
Thank you!!
this is amazing! very good explainer!
Thank you!! Welcome to the channel
Need a lab tour !!
Nice one again, thanks! Regarding the stubs, the quarter wavelength long is clear, but does their width have much impact?
The width will change the impedance of the stub!! To get a deeper notch you use a larger width, so the impedance is lower than the 50ohm line
@@AllElectronicsChannel thanks for the quick response. Is this just the attenuation here or does this also impact the Q?
It changes the Q also! Larger stub will have wider notch
Thanks, sounds like this will take some experiments to really get a good idea on
Yep!! Go go go!!
what is the 1 Mhz used for? why are you using 1Mhz to modulate the 2Ghz?
Nice. What are the rf diodes you used in this?
I like BAT15-099
I love it thanks
I'm glad
Inspiring 😁
Your explanation is not accurate. The output RF is not LOx2, is (LOx2) +/-IF. You will be able to see it by reducing the span and BW of spectrum analyzer due to small value of 1MHz.
Probably a misspelling