Excellent presentation.👍🏻! In fact, my wife enjoyed it as well. The;She is now looking forward to the next video in the series... “Blenders and Juicers” 😆 😂🧂👍🏻
Actually.. I’d love the see a course on the use of a spectrum analyzer in “ham” , public safety and commercial radio. I would like to get more out of spectrum analyzer units other than just tuning the occasional duplexer,. (Same win oscilloscope use) Thanks again!
Great video; thanks for posting it. I thought mixer linearity was inversely proportional to diode resistance; hence the need for higher LO drive. So do these high IP3 mixers with their 23 dBm or higher LO requirements actually get you anything, is is it a diminishing return?
Undoubtedly the best explanation of RF/Microwave mixers!
Excellent presentation on what I and many other perceive as a very complex topic.
finally, someone talks about mixers in the correct info, well done!!!
This is incredibly valuable and educational. Thanks Marki!
Excellent presentation.👍🏻!
In fact, my wife enjoyed it as well.
The;She is now looking forward to the next video in the series...
“Blenders and Juicers”
😆 😂🧂👍🏻
Actually.. I’d love the see a course on the use of a spectrum analyzer in “ham” , public safety and commercial radio.
I would like to get more out of spectrum analyzer units other than just tuning the occasional duplexer,.
(Same win oscilloscope use)
Thanks again!
Thank you for this sharing
I love this.
Great video; thanks for posting it. I thought mixer linearity was inversely proportional to diode resistance; hence the need for higher LO drive. So do these high IP3 mixers with their 23 dBm or higher LO requirements actually get you anything, is is it a diminishing return?
kumamako