Great tutorial very well explained indeed. So you also apply the C min factor to the impedance as well as the voltage. If you apply the C min to the impedance surely your back to the start than if you never applied it if that makes sense. I dont understand that bit I thought the whole point of applying the Cmin to the voltage was to err on the side of extra safety to allow for lower voltages eg as low as 216 and as high as 250. I must def be missing something maybe I will watch it again. Thanks Dave
We often make fractions out of R1, R2 etc. to calculate other values. Take a look at the video on this link. Thanks for watching. th-cam.com/video/9DLgM8wM5xo/w-d-xo.html
You're right, this was extremely helpful! Thank you for taking your time to explain it so clearly!
Glad it was helpful and thank you for watching. Dave.
Great tutorial on these really important distinctions.
Glad it was helpful and lots more to come. Dave.
Great video. Helped a lot.
Glad to hear it and thanks for the support.
No one does it like you Dave, great video,.
Thank you, great compliments and truly appreciated, Dave.
Thanks Dave I appreciate you time
You are great teacher
You are very welcome, thanks for watching and supporting the channel.
Great video. Recently did my 2391. We predominantly worked out of GN3. Also contains all measured Zs values. Thought it was worth a mention.
Absolutely is Jack. I should have mentioned GN3. Thanks for keeping me on my toes. Thanks for the support. Dave.
Great vedio well done and explained
Glad you liked it, thanks for watching. Dave.
Fantastic video as always 👍
Thank you, your support is always appreciated, Dave.
spot on 👍
Glad you think so, thanks for the feedback Brian.
Great summary of older videos about maximum Zs calculation. Thanks! ✌️ I use raw value x 0.76. It's
simplier for me.
That works, but I need to show new starters all the calculations. Thanks for the input and the support. Dave.
You are incredible, you are amazing
Nice of you to say so. Thank you for watching. Dave.
Great tutorial very well explained indeed. So you also apply the C min factor to the impedance as well as the voltage. If you apply the C min to the impedance surely your back to the start than if you never applied it if that makes sense. I dont understand that bit I thought the whole point of applying the Cmin to the voltage was to err on the side of extra safety to allow for lower voltages eg as low as 216 and as high as 250. I must def be missing something maybe I will watch it again. Thanks Dave
The Cmin is applied to the voltage but because the voltage is reduced this also affects the impedance (ohms law), hope this helps. Dave.
Best tip ever is the 44 rule.
44/ in. X .8.
Really usefull when actually onsite
It works. Thanks for watching. Dave.
Absolutely!
Yes indeed. Thanks for watching, appreciated.
Is there a formula R2 = R2/R1+R2 + (R1R2 that's the measurement taken) the first R1 R2 are conductor sizes.
We often make fractions out of R1, R2 etc. to calculate other values. Take a look at the video on this link. Thanks for watching.
th-cam.com/video/9DLgM8wM5xo/w-d-xo.html
❤👍👍👍👍👍👍
Thanks for watching.