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[129.206.22.206]) by mx.google.com with ESMTPSA id h5sm13027714wjn.20.2015.04.13.13.48.02 for (version=TLSv1 cipher=ECDHE-RSA-RC4-SHA bits=128/128); Mon, 13 Apr 2015 13:48:03 -0700 (PDT) From: DK7FC <73dk7fc@googlemail.com> X-Google-Original-From: DK7FC <73dk7fc@gmail.com> Message-ID: <552C2B82.9050909@gmail.com> Date: Mon, 13 Apr 2015 22:48:02 +0200 User-Agent: Mozilla/5.0 (Windows; U; Windows NT 6.1; de; rv:1.9.1.8) Gecko/20100227 Thunderbird/3.0.3 MIME-Version: 1.0 To: rsgb_lf_group@blacksheep.org References: <4B47B680CCBD46B69C3FB841C5A3081F@AGB> <53FE3567.8020208@gmail.com> <009701cfc23e$b4bdc410$1e394c30$@simnet.is> <53FE51E1.3060303@gmail.com> <53FF23E8.10907@gmail.com> <5400127E.3000808@abelian.org> <540049C6.9050006@gmail.com> <143F048B24A040058ED88A15AE211979@MichaelSappPC>, <5402465F.1050101@gmail.com> , <5410AC37.6050506@gmail.com> , <873BC5A1589F4B79B2142360B52A648F@White>, , <5414A1CD.6060608@gmail.com> <5425EDF3.9090806@gmail.com> <543D24EB.6060405@gmail.com> <55296791.9070109@gmail.com> In-Reply-To: <55296791.9070109@gmail.com> X-Scan-Signature: 91e1efbff209cbddb14bc9e018c2cfe8 Subject: Re: LF: OT, Remote site, garden progress Content-Type: multipart/alternative; boundary="------------080301060403080805060302" X-SA-Exim-Scanned: Yes Sender: owner-rsgb_lf_group@blacksheep.org Precedence: bulk Reply-To: rsgb_lf_group@blacksheep.org X-Listname: rsgb_lf_group X-SA-Exim-Rcpt-To: rs_out_1@blacksheep.org X-SA-Exim-Scanned: No; SAEximRunCond expanded to false X-Scanned-By: MIMEDefang 2.56 on 10.1.3.10 Status: O X-Status: X-Keywords: X-UID: 2951 This is a multi-part message in MIME format. --------------080301060403080805060302 Content-Type: text/plain; charset=UTF-8; format=flowed Content-Transfer-Encoding: 7bit Hi MF, Now, first time i'm streaming MF radio signals from the garden to the home location! http://www.iup.uni-heidelberg.de/schaefer_vlf/DK7FC_remote_Grabber.html Somehow the signal is a bit low, to close to the soundcard noise. Somewhere i'm loosing 15 dB signal level. But that will be solved soon. Still not running perfectly but it another step to the remote RX system :-) 73, Stefan Am 11.04.2015 20:27, schrieb DK7FC: > Hi all, > > Today it is the first day that my remote receiver is running while > hanging 15m AGL into a tree in my garden outside the city. It is > streaming audio from a MF/630m receiver via WLAN over 2.4 km distance > to my home location!! :-) > Since 16:30 UTC, the link is running :-) > > It is a large step in this project but not the last. So far, no > antenna is connected to the RX, i still have to lay the cable up into > the tree :-) I am checking the stability/availability of the GHz link > and the watchdog scripts, hopefully keeping the link to the remote end. > There is a website (not up to date) giving more explanations: > http://www.iup.uni-heidelberg.de/schaefer_vlf/DK7FC_remote_Grabber_info.html > If all runs well i will be back tomorrow to connect the antenna to > *stream first MF signals from the garden* :-) > > It is not only a *RF remote link project*. Additionally it became a > *project for solar energy systems*, i am monitoring the solar battery > system voltage to do some energy management. I'm now getting good > impressions and a better understanding what energy input can be > expected from a cloudy day (10%, 50%, 100% cloudy) relative to a sunny > day, or the difference between February and April! A circuit protects > batteries from deep-discharges by swicthing the power supply of the > Raspberry Pi OFF but before that, it gives a HIGH level on a GPIO pin > of the Raspi. A script is running on the Raspi which correctly shuts > it down if the input becomes HIGH for > 3 s. This happens at <= 11.2V. > But the best is that at 12.8V, the hysteresis of the circuit switches > the supply voltage ON again, which automatically starts the Raspi > again! So, in a longer period of cloudy days, the energy of the > batteries may be insufficient. But this should neither cause unwanted > crashes of the system nor deep-discharge the batteries, it just > affects the *availability of the system*, which can be improved then. > This circuit consumes < 50 uA. > The 12V supply voltage is measured by a LTC2400. Each 30 seconds a > measurement is done. 2 averages of a measurement is saved into a text > file (each minute) which is automatically syncronized by btsync > software over the WLAN link. So finally the text file is available on > a local PC here which runs LabView software which generates a > voltage-over-daytime plot, automatically generates a png image which > is saved to the webserver which is running this website: > http://www.iup.uni-heidelberg.de/schaefer_vlf/DK7FC_remote_Grabber.html > This is fascinating stuff for me. And i can now optimise my solar > system parameters. Do i need to install more solar peak-power or do i > need more batteries, or both? These questions can be answered fairly > easily now by studying the plots. > > The overall power consumption of the system is 3W. It is now running > on 2x 7 Ah 12V lead acid batteries. One of them is 7 years old ;-) I'm > hoping for a stable link and seeing the voltage rising again tomorrow > morning :-) > > Another funny feature is: I can remotely switch a bistable relay > (energy saving) which switches the input of the USB soundcard. One > input is the RX, the other one is a microphone which is installed into > a feed-through of the waterproof box. So i can decide to listen to MF > or to the birds singing in the morning, or to wild pigs at night, > destroying the lawn! SpecLab and it's triggered event function could > be used to detect and record sudden nightly audio events :-) It is > even possible to send a SMS if this happens so i can listen to the > web-radio steam on my smartphone out of the bed :-) Crazy world! > > Two up to date images > https://dl.dropboxusercontent.com/u/19882028/MF/20150411_181847.jpg > https://dl.dropboxusercontent.com/u/19882028/MF/20150411_184112.jpg > > To be continued... > > 73, Stefan > > > > Am 14.10.2014 15:28, schrieb DK7FC: >> Hi LF, >> >> I continued with my garden remote VLF/LF/MF RX site. >> It is amazing what the Raspberry PI can do! :-) I'm not an expert at >> all (!) but i managed, of course with help from the web, to start and >> run an Icecast2 server on the RPi. It is now laying on a table here, >> consuming about 2W while streaming into the web. >> In a first step i played music (web radio), an mp3 stream. Now i >> managed to change the output format to ogg and run a 300 MB wav file >> from the RPi. You can listen and display the stuff in SpecLab, see >> https://dl.dropboxusercontent.com/u/19882028/VLF/SL%20audio.png You >> can open this box in SL and type the url of the stream, which is >> http://129.206.29.99:8000/mpd >> >> Now it is just a file but later it should become the input of a >> soundcard or another ADC. Hope this works. >> >> Does this work on your side as well? >> >> 73, Stefan >> >> PS: On http://129.206.29.99:8000/ there is a site showing some >> description and usage of the stream. All very new to me and 24 hours >> ago i knew nothing about that... >> >> >> >> --------------080301060403080805060302 Content-Type: text/html; charset=UTF-8 Content-Transfer-Encoding: 7bit Hi MF,

Now, first time i'm streaming MF radio signals from the garden to the home location!
http://www.iup.uni-heidelberg.de/schaefer_vlf/DK7FC_remote_Grabber.html

Somehow the signal is a bit low, to close to the soundcard noise. Somewhere i'm loosing 15 dB signal level. But that will be solved soon.
Still not running perfectly but it another step to the remote RX system :-)

73, Stefan

Am 11.04.2015 20:27, schrieb DK7FC:
Hi all,

Today it is the first day that my remote receiver is running while hanging 15m AGL into a tree in my garden outside the city. It is streaming audio from a MF/630m receiver via WLAN over 2.4 km distance to my home location!! :-)
Since 16:30 UTC, the link is running :-)

It is a large step in this project but not the last. So far, no antenna is connected to the RX, i still have to lay the cable up into the tree :-) I am checking the stability/availability of the GHz link and the watchdog scripts, hopefully keeping the link to the remote end.
There is a website (not up to date) giving more explanations: http://www.iup.uni-heidelberg.de/schaefer_vlf/DK7FC_remote_Grabber_info.html
If all runs well i will be back tomorrow to connect the antenna to stream first MF signals from the garden :-)

It is not only a RF remote link project. Additionally it became a project for solar energy systems, i am monitoring the solar battery system voltage to do some energy management. I'm now getting good impressions and a better understanding what energy input can be expected from a cloudy day (10%, 50%, 100% cloudy) relative to a sunny day, or the difference between February and April! A circuit protects batteries from deep-discharges by swicthing the power supply of the Raspberry Pi OFF but before that, it gives a HIGH level on a GPIO pin of the Raspi. A script is running on the Raspi which correctly shuts it down if the input becomes HIGH for > 3 s. This happens at <= 11.2V. But the best is that at 12.8V, the hysteresis of the circuit switches the supply voltage ON again, which automatically starts the Raspi again! So, in a longer period of cloudy days, the energy of the batteries may be insufficient. But this should neither cause unwanted crashes of the system nor deep-discharge the batteries, it just affects the availability of the system, which can be improved then. This circuit consumes < 50 uA.
The 12V supply voltage is measured by a LTC2400. Each 30 seconds a measurement is done. 2 averages of a measurement is saved into a text file (each minute) which is automatically syncronized by btsync software over the WLAN link. So finally the text file is available on a local PC here which runs LabView software which generates a voltage-over-daytime plot, automatically generates a png image which is saved to the webserver which is running this website: http://www.iup.uni-heidelberg.de/schaefer_vlf/DK7FC_remote_Grabber.html
This is fascinating stuff for me. And i can now optimise my solar system parameters. Do i need to install more solar peak-power or do i need more batteries, or both? These questions can be answered fairly easily now by studying the plots.

The overall power consumption of the system is 3W. It is now running on 2x 7 Ah 12V lead acid batteries. One of them is 7 years old ;-) I'm hoping for a stable link and seeing the voltage rising again tomorrow morning :-)

Another funny feature is: I can remotely switch a bistable relay (energy saving) which switches the input of the USB soundcard. One input is the RX, the other one is a microphone which is installed into a feed-through of the waterproof box. So i can decide to listen to MF or to the birds singing in the morning, or to wild pigs at night, destroying the lawn! SpecLab and it's triggered event function could be used to detect and record sudden nightly audio events :-) It is even possible to send a SMS if this happens so i can listen to the web-radio steam on my smartphone out of the bed :-) Crazy world!

Two up to date images
https://dl.dropboxusercontent.com/u/19882028/MF/20150411_181847.jpg
https://dl.dropboxusercontent.com/u/19882028/MF/20150411_184112.jpg

To be continued...

73, Stefan



Am 14.10.2014 15:28, schrieb DK7FC:
Hi LF,

I continued with my garden remote VLF/LF/MF RX site.
It is amazing what the Raspberry PI can do! :-) I'm not an expert at all (!) but i managed, of course with help from the web, to start and run an Icecast2 server on the RPi. It is now laying on a table here, consuming about 2W while streaming into the web.
In a first step i played music (web radio), an mp3 stream. Now i managed to change the output format to ogg and run a 300 MB wav file from the RPi. You can listen and display the stuff in SpecLab, see https://dl.dropboxusercontent.com/u/19882028/VLF/SL%20audio.png You can open this box in SL and type the url of the stream, which is http://129.206.29.99:8000/mpd

Now it is just a file but later it should become the input of a soundcard or another ADC. Hope this works.

Does this work on your side as well?

73, Stefan

PS: On http://129.206.29.99:8000/ there is a site showing some description and usage of the stream. All very new to me and 24 hours ago i knew nothing about that...




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