Remote Powering - RF Amplifiers
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- Опубліковано 12 вер 2024
- Extreme Broadband Engineering design and manufacture the highest quality components for broadband premise installations. This training tutorial highlights the features and installation methods for Remote Powering RF Amplifiers Please visit our website at: www.extreme-broadband.com 2010 Extreme Broadband Engineering, LLC. All rights reserved. Infinity Premise System and True Flex are trademarks of Extreme Broadband Engineering, LLC. The unique Infinity Premise System and modules are patent protected under U.S. patent numbers 6,969,278; 7,029,293; D532,385; D546291; and D537;793. Infinity Premise Enclosures are patent pending.
We have been doing this for years with pre-amplifiers on outside antennas. Well done!
Great explanation and information. Thank you!
Thank you for the video.
Thank you.
Great info!!
The only tthing I would add would be tho be sure to use the grounding lug to bond to common ground.
Does powering via remote cause interference?
Great question. There is no need to worry about interference. The IPA series has filtering built in to isolate the potential for ingress.
@@AmphenolBroadband do you know where the filtering happens? Is it at the splitter where the DC adapter would connect? Do you know how it filters interference?
why would I use the power inserter when remote powering in the second scenario you showed...the power supply connects to the outlet sending 12vdc to amp via the direct power port not the power passing port of a splitter...the only reason for using the power passing splitter would be to send rf thru the same cable as dc voltage...if not sending rf and voltage no inserter needed and no power passing splitter needed therefor no EMI issues
Very good information
javier montes टफसषषष षष। षषशशषशशषषषषषषषषषश ल ललललफफठठ
Does this work with RFOG as well.
Very good
Is a Terminator just a cap, or does it short across that particular hub?
How is your Peterbilt It contains a 75 ohm resistor. It's purpose is to prevent signal reflections. When the signal reaches the end of the line and has no where to go, it bounces back and is out of phase with the initial signal, causing interference.