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LF: 136khz WSPR and Loran notching

To: <[email protected]>
Subject: LF: 136khz WSPR and Loran notching
From: "Markus Vester" <[email protected]>
Date: Thu, 15 Jan 2009 23:33:31 +0100
In-reply-to: <002e01c9770b$35b63910$8d01a8c0@JAYDELL>
References: <F4E8A04C3CBA4C67AE9C3318F2F40C4F@JimPC> <[email protected]> <0F3DBBAC61C545AE85525CD884B642EC@Black> <20090114231729.6b8aea4f@lurcher> <2AD1A31DF27448F495C0CE7FF33CE9DE@Black> <C4F6E432D5814955A1FDD42B0279F472@AGB> <1E6D0A88C4DE49E5A2AF05911187E7A3@Black> <424931F60B3D4F41AB7DCB9E9FCAB3C5@big7368b9a7d3d> <E68E6C5A539A4838ADAC20BE903CBC68@JimPC> <002e01c9770b$35b63910$8d01a8c0@JAYDELL>
Reply-to: [email protected]
Sender: [email protected]

Hi Jay and all,

thanks for this information. Your strongest lines are apparently from Nantucket which is dual rated on GRIs 5930 and 9960. I have slightly adjusted my WSPR transmit center frequency to 137567.8 Hz, which would just barely squeeze the signal between 565.261 and 570.281.

It may be helpful to try notch filters on the Loran lines. As I have only weak Loran lines on 137 kHz, I have experimentally set the RX somewhere near 100 kHz and tried to apply SpecLab's new multiple autonotch feature from the FFT filter dialog box. Even though this was originally intended to dynamically remove 50 Hz hum harmonics for VLF listening, it proved quite effective on Loran lines when the FFT size was set high (> 64K) and agressive threshold parameters were chosen. It did require some fiddling, but resulted in a very audible rejection of the strong Loran clatter. Alternatively, the older SpecLab "IIR2" DSP-filter is also very effective to place narrow notches on a few discrete frequencies. The main point is that the nulls will hardly affect the desired signal as long as the notch width is much narrower than the modulation symbol rate (1.47 Hz). A noise blanker in front of the notch filters will prevent ringing after a strong impulsive excitation.

The straightforward way toapply this to WSPR would be to have one PC running SpecLab, and use an oldfashioned audio cable to feed the DAC audio output to a second PC running the WSPR decoder.

Best wishes
Markus, DF6NM


----- Original Message ----- From: <[email protected]>
To: <[email protected]>
Sent: Thursday, January 15, 2009 1:17 PM
Subject: LF: Re: Re: 136khz WSPR


Marcus

Info on 137.570 kHz.

137565.036 9610 - South Central U.S.
137565.261 9960 - Northeast U.S.
137565.337 7270 - Newfoundland East Coast
137565.392 9940 - Western U.S.
137566.890 5980 - Russian American
137567.568 9990 - North Pacific
137568.922 7980 - Southeast U.S.
137569.095 7960 - Gulf of Alaska
137569.361 8290 - North Central U.S.
137569.677 8970 - Great Lakes
137570.239 9610 - South Central U.S.
137570.281 9960 - Northeast U.S.
137570.423 9940 - Western U.S.
137570.952 5990 - Canadian West Coast
137571.669 5930 - Canadian East Coast
137572.215 7270 - Newfoundland East Coast
137572.573 9990 - North Pacific
137575.188 7980 - Southeast U.S.
137575.251 5980 - Russian American
137575.251 8970 - Great Lakes
137575.301 9960 - Northeast U.S.
137575.377 7960 - Gulf of Alaska
137575.392 8290 - North Central U.S.
137575.442 9610 - South Central U.S.
137575.453 9940 - Western U.S.

Jay W1VD  WD2XNS  WE2XGR/2




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