![planeplotter udp client setup for input planeplotter udp client setup for input](https://0.academia-photos.com/attachment_thumbnails/33848567/mini_magick20190328-23291-1831rwc.png)
If the pre-amp is really good, you will actually have a better signal on each RX as if you connect the antenna directly to it!!! Because the total noise figure of a system is being defined on its front end, which most DVB-T dongles or traditional scanner receivers are around 3-4 dB if you are lucky, while you can build or buy an inexpensive preamp with well below 1dB noise figure up into the ADS-B frequency band. But just for omnidirectional reception one antenna with a ultra low noise preamp and a cheapy 75Ohm TV cable splitter does perfectly well. I guess I can't have it all.Īnyway you don't need plenty of antennas to listen to different frequencies unless they are frequency wise very far apart or you need antennas in different directions for specific areas. Then again I'd be happy to have all the decoded ACARS data also within Plane Plotter. I guess I have to learn how local audio resources are being managed by the OS.
![planeplotter udp client setup for input planeplotter udp client setup for input](https://miro.medium.com/max/1104/1*6_Z-Y161C_CDBpei1bmRgA.jpeg)
I wonder if there is a workaround for that.
#PLANEPLOTTER UDP CLIENT SETUP FOR INPUT SOFTWARE#
using any live streaming software with its input coming from sound card within a user session, it gets instantly disconnected from the card once switching the session to RDP access. Now I am thinking of trying the free and old ACARSD ( ) via my server, which has a few sound cards hooked up, but I am not sure if I can run the app as a service using a local port that may be assigned to a local console session in my Windows Server 2008 R2 with Hyper-V.Į.g. I am having the same problem, would like to decode 3 ACARS audio channels from 3 receivers, via a ultra low noise preamp and a splitter on one bicone antenna (double discone), but Plane Plotter can only handle one audio channel.