You can make a nice RF "signal-tap" by modifying a 16.5 ohm resistive splitter. Substute a 450ohm resistor for the connection going to the oscilloscope (50-ohm input), and 0-ohm resistors (shorts) on the other two legs of the splitter. I use this for 10:1 TDR measurements.
![Lp. Сердце Вселенной #60 РОЖДЕНИЕ ЛОЛОЛОШКИ [Финал] • Майнкрафт](http://i.ytimg.com/vi/YoR0pAV9FVQ/mqdefault.jpg)
Check out the whole talk here (playlist) -
ua-cam.com/play/PLzHyxysSubUmxGOMVpiKLxouweh2AAlG1.html
I really enjoyed this series. It's always nice hearing from the actual engineers.
Nice that you have mentioned about The Signal Path and EEVblog.
EEVblog has been a great benefit to me and I truly appreciate manufactures of high quality test equipment such as Keysight supporting them.
Can you do more of these types of vids?
Awesome video! And the presenter comes over very sympathetically, it's really nice to listen to him :)
thanks to ElectroBoom and Great Scott I got to know you guys, thanks for your great tools and fot this amazing channel
Thanks for the videos they really help me expand my knowledge base.
You can make a nice RF "signal-tap" by modifying a 16.5 ohm resistive splitter. Substute a 450ohm resistor for the connection going to the oscilloscope (50-ohm input), and 0-ohm resistors (shorts) on the other two legs of the splitter. I use this for 10:1 TDR measurements.
Clever!
Great video !
i can't see the inductance from ground leads, man! what's wrong with you?