Return-Path: Received: from post.thorcom.com (post.thorcom.com [195.171.43.25]) by klubnl.pl (8.14.4/8.14.4/Debian-8+deb8u2) with ESMTP id wBCDHL6j021505 for ; Wed, 12 Dec 2018 14:17:22 +0100 Received: from majordom by post.thorcom.com with local (Exim 4.14) id 1gX4JX-0001wz-DD for rs_out_1@blacksheep.org; Wed, 12 Dec 2018 13:12:35 +0000 Received: from [195.171.43.32] (helo=relay1.thorcom.net) by post.thorcom.com with esmtp (Exim 4.14) id 1gX4JU-0001wq-W7 for rsgb_lf_group@blacksheep.org; Wed, 12 Dec 2018 13:12:32 +0000 Received: from mout02.posteo.de ([185.67.36.66]) by relay1.thorcom.net with esmtps (TLSv1.2:ECDHE-RSA-AES256-GCM-SHA384:256) (Exim 4.91_59-0488984) (envelope-from ) id 1gX4JR-0003ZW-Si for rsgb_lf_group@blacksheep.org; Wed, 12 Dec 2018 13:12:31 +0000 Received: from submission (posteo.de [89.146.220.130]) by mout02.posteo.de (Postfix) with ESMTPS id 14DF42400E5 for ; Wed, 12 Dec 2018 14:12:29 +0100 (CET) X-DKIM-Result: Domain=posteo.de Result=Signature OK DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/simple; d=posteo.de; s=2017; t=1544620349; bh=8cX/mfJMqASqpl0SbY6bRPbzEJHRBS8jlAczH41xlzg=; h=Date:From:To:Subject:From; b=GkLfshKOX4EyHWFFmWnvgzw4G42eSdVk5NINCRG8JWMDzT44d0vehp4wcy/wk2UcJ hp/7rlWjEXx2+T2p7vAfiv4YPQh7t+sn+ZWi8y9rmFlABKP2hGCF0sG78NwKRfF9AJ uO9RuKdWCXBgBUt87Va27DoAsNY0yua5pw0J3d4eAivv9ZAvMK8VFZU9vU/uahTdSz zj9vSczNQ4/aivHrdCIDsQtRwKkG4ua13yyeyj+HKfEUZID9WnuDjwSGBFDillpmJj lgEmZFTp//sMkcmtCtgy31qdstyaXPLlf6uycq/OZ+IwLIgtUItWZIKeksNr/ZpbbU +1J153rsF4GIw== Received: from customer (localhost [127.0.0.1]) by submission (posteo.de) with ESMTPSA id 43FHKS45Nlz9rxR for ; Wed, 12 Dec 2018 14:12:28 +0100 (CET) Message-ID: <5C11093C.90403@posteo.de> Date: Wed, 12 Dec 2018 14:12:28 +0100 From: DK7FC 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: <941104406.2050754.1544486244944.ref@mail.yahoo.com> <941104406.2050754.1544486244944@mail.yahoo.com> <5C0F8037.3040401@posteo.de> <76c179b2-3d1d-b227-6c45-b2cde0f986a0@n1bug.com> In-Reply-To: <76c179b2-3d1d-b227-6c45-b2cde0f986a0@n1bug.com> X-Spam-Score: -2.3 (--) X-Spam-Report: Spam detection software, running on the system "relay1.thorcom.net", has NOT identified this incoming email as spam. The original message has been attached to this so you can view it or label similar future email. If you have any questions, see @@CONTACT_ADDRESS@@ for details. Content preview: Hi Paul, Am 12.12.2018 13:31, schrieb N1BUG: > They seem to mention some concerns about jitter and phase > noise which I didn't fully understand with regard to our purposes. > Me too. It never appeared to be r [...] Content analysis details: (-2.3 points, 5.0 required) pts rule name description ---- ---------------------- -------------------------------------------------- -2.3 RCVD_IN_DNSWL_MED RBL: Sender listed at http://www.dnswl.org/, medium trust [185.67.36.66 listed in list.dnswl.org] -0.0 SPF_PASS SPF: sender matches SPF record 0.0 HTML_MESSAGE BODY: HTML included in message 0.0 T_DKIM_INVALID DKIM-Signature header exists but is not valid X-Scan-Signature: 4381c9ef1b1e456f5eb33c1a214ba2eb Subject: Re: LF: LF and VLF EbNaut Content-Type: multipart/alternative; boundary="------------010807020609090203040403" X-Spam-Checker-Version: SpamAssassin 2.63 (2004-01-11) on post.thorcom.com X-Spam-Level: X-Spam-Status: No, hits=0.3 required=5.0 tests=HTML_MESSAGE, HTML_TAG_BALANCE_A,HTML_TAG_BALANCE_BODY autolearn=no version=2.63 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 This is a multi-part message in MIME format. --------------010807020609090203040403 Content-Type: text/plain; charset=UTF-8; format=flowed Content-Transfer-Encoding: 8bit Hi Paul, Am 12.12.2018 13:31, schrieb N1BUG: > They seem to mention some concerns about jitter and phase > noise which I didn't fully understand with regard to our purposes. > Me too. It never appeared to be relevant for me. It only seems to be a matter for the perfectionists. Also that discussion about short term stability and long term stability. I never cared about that and treated these NEO modules as the perfect signal source. If i can transmit on VLF with a signal based on such a module, i can integrate 1 day into 1 pixel, i.e. 11.574 uHz FFT bin width. If the results are fine, why should i spend a thought about stability anyway? Even stacking of several days is no problem. Once again that image: ...transmitted from my INV-L antenna, received on the tree, both systems using a NEO-6M as the reference and SpecLab to receive and transmit. 4.1 uHz FFT bin width. The peak is EXACT on the frequency and i find it quite sharp, considering that the tree is moving a bit in the wind and there are temperature changes and day/night differences... So, why to spend more thoughts about accuracy?????? > Can we have some more discussion around using the NEO-7M / NEO-M8N > devices in such applications please? Is there nothing to worry about? > Maybe IW4DXW can comment. Also some photos would be interesting. In a few weeks i can contribute to this as well. And i'll try to build a transmitter in combination with a Raspi and vlfrx-tools. 73, Stefan > I had some ideas in mind if the unit is suitable: > > LO for a 136 kHz> audio down-converter (Rx) > LO for a audio> 136 kHz up-converter (Tx) > Replacement for xtal LO in my LF SDR receiver (400 kHz) > Replacement for xtal LO in my MF SDR receiver (1.8 MHz) > Maybe a few others... > > 73, > Paul > > > > > On 12/11/18 4:15 AM, DK7FC wrote: > >> ...indeed. And this GPS derived oscillator can be a NEO-7M, which costs >> about 10 EUR, or 10 $ as i can see at amazon.com. >> >> 73, Stefan >> >> Am 11.12.2018 00:57, schrieb Markus Vester: >> >>> Yes for LF I would also recommend the method with signal generator, >>> relay and ebnaut-tx software, it's really not difficult to get >>> started. Instead of the relay, a double balanced diode mixer also >>> works well, with the DC-coupled IF port driven directly from RS232. If >>> you happen to have a linear PA you could optionally insert a >>> simple C-R lowpass for shaped keying. The realtime clock of the >>> sending PC should be steered by NTP, or alternatively using NMEA from >>> an external GPS. >>> >>> I think that frequency accuracy needs to be much better than 5e-8. To >>> keep the phase drift within 30° over half an hour, the frequency >>> should ideally be known to better than 46 uHz, or about 3e-10 (0.3 >>> ppb). Most simple OCXOs cannot hold up to that. When the signal is >>> strong, one can sometimes still obtain a decode by aligning the slope >>> of the symbol phase graph. But this won't work for weak signals, and >>> poking around blindly for a frequency offset that may or may not >>> produce a decode can be a cumbersome and frustrating affair. The best >>> choice is a GPS derived oscillator, or a well calibrated Rubidium source. >>> >>> When will we see you? >>> >>> Best 73, >>> Markus (DF6NM) >>> >>> -----Ursprüngliche Mitteilung----- >>> Von: Rob Renoud >>> An: rsgb_lf_group >>> Verschickt: Mo, 10. Dez 2018 23:33 >>> Betreff: Re: LF: LF and VLF EbNaut >>> >>> Paul, Chris and EbNaut LF, >>> >>> Stefan makes a good argument for trying what you have for TX. The >>> HP-3325A specs show a frequency accuracy of +- 5 EE-8 and stability >>> (option 001) of +- 5 EE-6. The HP-3325A should work ok on 2200m with >>> a message duration of 28 minutes or less. >>> >>> The 180 phase reversal is easily implemented using a DPDT relay with a >>> 1:1 transformer connected between the 3325 generator and the amp >>> input. Drive the relay with the RS-232 RTS or CTS signal from the >>> computer running ebnaut-tx.exe found on >>> http://abelian.org/ebnaut/ such that the relay shifts the phasing of >>> the input to the transformer. >>> >>> Time and frequency are important on the decoding end. Try to get them >>> as accurate as possible on the TX end. >>> >>> For 2200m a good starting message format is: >>> >>> Code: 8K19A >>> Symbol Period: 3 >>> CRC: 16 >>> Characters: 5 >>> Duration: 25:36.00 >>> Repeat on the hour and half-hour >>> >>> Announce your beacon and give it a try. Lot’s of LF EbNaut listeners >>> to let you know if it’s working out... >>> >>> Comments and other suggestions are welcome. >>> >>> 73, >>> Rob - K3RWR >>> >>> >>> >>> >>> >>> >>> >>> On Dec 10, 2018, at 15:58,>> > >> > wrote: >>> >>> >>>> BPSK transitions cause key clicks with non linear transmitters / >>>> amplifiers. As a practical matter ... with the high Q transmitting >>>> antennas in use ... and that it's unlikely you'll have next door >>>> neighbor interested in LF reception ... it hasn't been a much of a >>>> problem. >>>> >>>> Jay W1VD >>>> >>>> >>>> >>>> >>>> ----- Original Message ----- From: "DK7FC">>> > >>>> To:> >>>> Sent: Monday, December 10, 2018 11:08 AM >>>> Subject: Re: LF: LF and VLF EbNaut >>>> >>>> >>>> >>>>> Hi Paul, >>>>> >>>>> Am 09.12.2018 20:02, schrieb N1BUG: >>>>> >>>>>> The first thing people want >>>>>> to know is what equipment is required for LF EbNaut and how much is >>>>>> this going to cost? But answers are hard to come by. I could never >>>>>> get an answer as to whether my HP 3325B with high stability option >>>>>> was good enough. >>>>>> >>>>> The problem is also on the other side. I don't know what a HP3325B >>>>> is, or, at least, i don't know the technical details since i don't >>>>> own one. So i can give no advice how to use it for EbNaut transmitting >>>>> Also there are different methods and each radio amateur is convinced >>>>> about his own design. >>>>> Some methods may be easier to realise but less precise and less >>>>> flexible. So based on the skills and needs and parts available one >>>>> will decide for a certain design. >>>>> Thus it is not so easy to write up 'the' way to go, there are many >>>>> ways. For example, there could be a 'how to EbNaut' including Linux >>>>> components like ebkey, which will be useless for someone who insists >>>>> to avoid using Linux... >>>>> So if you're asking the group, then you will get different advice, >>>>> from different designs. And this will be confusing! So concentrate >>>>> on the basics and then choose your own design. >>>>> I suggest to start in steps, don't plan to build the perfect system >>>>> until the season is over. >>>>> >>>>> Basically all you need is an absolutely stable signal generator and >>>>> a tool for inverting the phase and managing the timing. This can be >>>>> done with Windows and Linux. >>>>> I think you are one of those who avoid using Linux. So then, you >>>>> need SpecLab to generate the PSK. >>>>> But step 1 is the stable signal. >>>>> One method is to use an up-converter and SpecLab to generate EbNaut. >>>>> SpecLab can generate a tone on e.g. 12500 Hz which is then mixed >>>>> with 125 kHz, so there is an output at 137.5 kHz. This is how i do >>>>> it here. >>>>> I can tell you about other methods but this may lead to confusion >>>>> already. >>>>> Maybe there is one step before step 1, call it step 0: You need to >>>>> decide, "YES i will now start to transmit EbNaut and i will buy to >>>>> necessary components, learn what is necessary to understand, knowing >>>>> it means effort!" >>>>> >>>>> What kind of signal generator do you use now? >>>>> >>>>> >>>>>> When I asked about amplifiers for EbNaut I was told >>>>>> linear is a must >>>>>> >>>>> Do you remember who said that? >>>>> >>>>>> but now I find people are doing it with nonlinear >>>>>> amplifiers >>>>>> >>>>> Yes, a linear amplifier is not needed. It is BPSK, the output power >>>>> is always at 100%, which is good :-) >>>>> >>>>> 73, Stefan >>>>> > --------------010807020609090203040403 Content-Type: multipart/related; boundary="------------080808040302050202060300" --------------080808040302050202060300 Content-Type: text/html; charset=UTF-8 Content-Transfer-Encoding: 8bit Hi Paul,

Am 12.12.2018 13:31, schrieb N1BUG: 
They seem to mention some concerns about jitter and phase
noise which I didn't fully understand with regard to our purposes.
Me too. It never appeared to be relevant for me. It only seems to be a matter for the perfectionists. Also that discussion about short term stability and long term stability. I never cared about that and treated these NEO modules as the perfect signal source.
If i can transmit on VLF with a signal based on such a module, i can integrate 1 day into 1 pixel, i.e. 11.574 uHz FFT bin width. If the results are fine, why should i spend a thought about stability anyway? Even stacking of several days is no problem.

Once again that image:


...transmitted from my INV-L antenna, received on the tree, both systems using a NEO-6M as the reference and SpecLab to receive and transmit. 4.1 uHz FFT bin width. The peak is EXACT on the frequency and i find it quite sharp, considering that the tree is moving a bit in the wind and there are temperature changes and day/night differences...
So, why to spend more thoughts about accuracy??????

Can we have some more discussion around using the NEO-7M / NEO-M8N
devices in such applications please? Is there nothing to worry about?
Maybe IW4DXW can comment. Also some photos would be interesting.
In a few weeks i can contribute to this as well. And i'll try to build a transmitter in combination with a Raspi and vlfrx-tools.

73, Stefan

I had some ideas in mind if the unit is suitable:

LO for a 136 kHz > audio down-converter (Rx)
LO for a audio > 136 kHz up-converter (Tx)
Replacement for xtal LO in my LF SDR receiver (400 kHz)
Replacement for xtal LO in my MF SDR receiver (1.8 MHz)
Maybe a few others...

73,
Paul




On 12/11/18 4:15 AM, DK7FC wrote:
  
...indeed. And this GPS derived oscillator can be a NEO-7M, which costs 
about 10 EUR, or 10 $ as i can see at amazon.com.

73, Stefan

Am 11.12.2018 00:57, schrieb Markus Vester:
    
Yes for LF I would also recommend the method with signal generator, 
relay and ebnaut-tx software, it's really not difficult to get 
started. Instead of the relay, a double balanced diode mixer also 
works well, with the DC-coupled IF port driven directly from RS232. If 
you happen to have a linear PA you could optionally insert a 
simple C-R lowpass for shaped keying. The realtime clock of the 
sending PC should be steered by NTP, or alternatively using NMEA from 
an external GPS.

I think that frequency accuracy needs to be much better than 5e-8. To 
keep the phase drift within 30° over half an hour, the frequency 
should ideally be known to better than 46 uHz, or about 3e-10 (0.3 
ppb). Most simple OCXOs cannot hold up to that. When the signal is 
strong, one can sometimes still obtain a decode by aligning the slope 
of the symbol phase graph. But this won't work for weak signals, and 
poking around blindly for a frequency offset that may or may not 
produce a decode can be a cumbersome and frustrating affair. The best 
choice is a GPS derived oscillator, or a well calibrated Rubidium source.

When will we see you?

Best 73,
Markus (DF6NM)

-----Ursprüngliche Mitteilung-----
Von: Rob Renoud <k3rwr@md.metrocast.net>
An: rsgb_lf_group <rsgb_lf_group@blacksheep.org>
Verschickt: Mo, 10. Dez 2018 23:33
Betreff: Re: LF: LF and VLF EbNaut

Paul, Chris and EbNaut LF,

Stefan makes a good argument for trying what you have for TX.   The 
HP-3325A specs show a frequency accuracy of +- 5 EE-8 and stability 
(option 001) of +- 5 EE-6.  The HP-3325A should work ok on 2200m with 
a message duration of 28 minutes or less.

The 180 phase reversal is easily implemented using a DPDT relay with a 
1:1 transformer connected between the 3325 generator and the amp 
input.  Drive the relay with the RS-232 RTS or CTS signal from the 
computer running ebnaut-tx.exe found on 
http://abelian.org/ebnaut/ such that the relay shifts the phasing of 
the input to the transformer.

Time and frequency are important on the decoding end.  Try to get them 
as accurate as possible on the TX end.

For 2200m a good starting message format is:

Code:  8K19A
Symbol Period:  3
CRC: 16
Characters: 5
Duration:  25:36.00
Repeat on the hour and half-hour

Announce your beacon and give it a try.  Lot’s of LF EbNaut listeners 
to let you know if it’s working out...

Comments and other suggestions are welcome.

73,
Rob - K3RWR







On Dec 10, 2018, at 15:58, <jrusgrove@comcast.net 
<mailto:jrusgrove@comcast.net>> <jrusgrove@comcast.net 
<mailto:jrusgrove@comcast.net>> wrote:

      
BPSK transitions cause key clicks with non linear transmitters / 
amplifiers. As a practical matter ... with the high Q transmitting 
antennas in use ... and that it's unlikely you'll have next door 
neighbor interested in LF reception ... it hasn't been a much of a 
problem.

Jay W1VD




----- Original Message ----- From: "DK7FC" <selberdenken@posteo.de 
<mailto:selberdenken@posteo.de>>
To: <rsgb_lf_group@blacksheep.org <mailto:rsgb_lf_group@blacksheep.org>>
Sent: Monday, December 10, 2018 11:08 AM
Subject: Re: LF: LF and VLF EbNaut


        
Hi Paul,

Am 09.12.2018 20:02, schrieb N1BUG:
          
The first thing people want
to know is what equipment is required for LF EbNaut and how much is
this going to cost? But answers are hard to come by. I could never
get an answer as to whether my HP 3325B with high stability option
was good enough.
            
The problem is also on the other side. I don't know what a HP3325B 
is, or, at least, i don't know the technical details since i don't 
own one. So i can give no advice how to use it for EbNaut transmitting
Also there are different methods and each radio amateur is convinced 
about his own design.
Some methods may be easier to realise but less precise and less 
flexible. So based on the skills and needs and parts available one 
will decide for a certain design.
Thus it is not so easy to write up 'the' way to go, there are many 
ways. For example, there could be a 'how to EbNaut' including Linux 
components like ebkey, which will be useless for someone who insists 
to avoid using Linux...
So if you're asking the group, then you will get different advice, 
from different designs. And this will be confusing! So concentrate 
on the basics and then choose your own design.
I suggest to start in steps, don't plan to build the perfect system 
until the season is over.

Basically all you need is an absolutely stable signal generator and 
a tool for inverting the phase and managing the timing. This can be 
done with Windows and Linux.
I think you are one of those who avoid using Linux. So then, you 
need SpecLab to generate the PSK.
But step 1 is the stable signal.
One method is to use an up-converter and SpecLab to generate EbNaut. 
SpecLab can generate a tone on e.g. 12500 Hz which is then mixed 
with 125 kHz, so there is an output at 137.5 kHz. This is how i do 
it here.
I can tell you about other methods but this may lead to confusion 
already.
Maybe there is one step before step 1, call it step 0: You need to 
decide, "YES i will now start to transmit EbNaut and i will buy to 
necessary components, learn what is necessary to understand, knowing 
it means effort!"

What kind of signal generator do you use now?

          
When I asked about amplifiers for EbNaut I was told
linear is a must
            
Do you remember who said that?
          
but now I find people are doing it with nonlinear
amplifiers
            
Yes, a linear amplifier is not needed. It is BPSK, the output power 
is always at 100%, which is good :-)

73, Stefan
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