Return-Path: Received: from mtain-db10.r1000.mx.aol.com (mtain-db10.r1000.mx.aol.com [172.29.64.94]) by air-dc01.mail.aol.com (v129.4) with ESMTP id MAILINDC013-864d4bf5dde8d1; Thu, 20 May 2010 21:12:08 -0400 Received: from post.thorcom.com (post.thorcom.com [193.82.116.20]) by mtain-db10.r1000.mx.aol.com (Internet Inbound) with ESMTP id 512C6380000C6; Thu, 20 May 2010 21:12:07 -0400 (EDT) Received: from majordom by post.thorcom.com with local (Exim 4.14) id 1OFGl6-0008Am-5z for rs_out_1@blacksheep.org; Fri, 21 May 2010 02:10:40 +0100 Received: from [193.82.116.32] (helo=relay1.thorcom.net) by post.thorcom.com with esmtp (Exim 4.14) id 1OFGl5-0008Ad-Mm for rsgb_lf_group@blacksheep.org; Fri, 21 May 2010 02:10:39 +0100 Received: from smtp820.mail.ukl.yahoo.com ([217.12.12.249]) by relay1.thorcom.net with smtp (Exim 4.63) (envelope-from ) id 1OFGl2-000298-Tf for rsgb_lf_group@blacksheep.org; Fri, 21 May 2010 02:10:39 +0100 Received: (qmail 28916 invoked from network); 21 May 2010 01:10:31 -0000 DomainKey-Signature: a=rsa-sha1; q=dns; c=nofws; s=s1024; d=btopenworld.com; h=DKIM-Signature:Received:X-Yahoo-SMTP:X-YMail-OSG:X-Yahoo-Newman-Property:Message-ID:From:To:References:In-Reply-To:Subject:Date:MIME-Version:Content-Type:Content-Transfer-Encoding:X-Priority:X-MSMail-Priority:X-Mailer:X-MimeOLE; b=2aPvHXUSk+vo8Y4zZok9WZqo0SSBOOH+qwMkHl0V4NIcKBnvZY99MzuxAkiFSDCY7bqYSXMkg/cqRL9Ryl5P18/1K0Kt9pTLwkK/P4tt4O787kW/IdZfStntE1+mbGYWeVafbPPOcteD915qpK/lX76MSFdGhWW9ulpBT3AhWds= ; DKIM-Signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=btopenworld.com; s=s1024; t=1274404231; bh=mhOtsOSN1w3ZSGHez+IkmsdHb74ka9e00eHSrqbdXyA=; h=Received:X-Yahoo-SMTP:X-YMail-OSG:X-Yahoo-Newman-Property:Message-ID:From:To:References:In-Reply-To:Subject:Date:MIME-Version:Content-Type:Content-Transfer-Encoding:X-Priority:X-MSMail-Priority:X-Mailer:X-MimeOLE; b=bIY1oDacBF4EsMj591kDLTmnnxZn6rDtGK2TVt6fkMkMwI+ptTAbUxXZVu9png5rBdvqaTbo1yVqkIwYktT6gKKDqml5nsXEswfV80i6mQK6kIewWRPkT7WstAmDDAnBAA2t0UdrykAmOyRp2HiW/pik/Dl4iIdbibpaqJeBKXs= Received: from JimPC (james.moritz@86.180.205.31 with login) by smtp820.mail.ukl.yahoo.com with SMTP; 21 May 2010 01:10:30 +0000 GMT X-Yahoo-SMTP: Cxhli3eswBD1ozmtAojhjrja86kWx0Qm9tycD5QR1DKWrOLgjJcXkw-- X-YMail-OSG: .ocDbQwVM1kHzjwZpHDN9nIKmZsUyJFAIACXCt.0LygPOPZAvtzXHiMkDpChvmBTOcbqO7MkiDBApXKpwvYM7zoC5XFfDvUAZrFLQpGBTw0MRrxVUA.HsdQJb5CAmfXB2tOY8jWIRqyTqeoTUPqaT5gFun43okXl34oxPJ7_tUqn8CeV1Q_YGCjae04ySkMCr0wqbjktQJEswq8sLwohtdd3tBw79rr.ZlokJaS_nNLURBjJUcM1XNDsMSW6a0eBWZRGOOmg7_Hrc7gWxkizsFJ8ZgJd5jk95XwxKB4pQ2o- X-Yahoo-Newman-Property: ymail-3 Message-ID: <1C7BCD9DEB29472F9BB467C4EE390840@JimPC> From: "James Moritz" To: References: <008f01caf784$779a11d0$0301a8c0@your91hoehfy9g> <4BF4FBF4.2020208@iup.uni-heidelberg.de> <4BF53399.4010403@iup.uni-heidelberg.de> In-Reply-To: <4BF53399.4010403@iup.uni-heidelberg.de> Date: Fri, 21 May 2010 02:10:29 +0100 MIME-Version: 1.0 X-Priority: 3 X-MSMail-Priority: Normal X-Mailer: Microsoft Windows Mail 6.0.6002.18197 X-MimeOLE: Produced By Microsoft MimeOLE V6.0.6002.18197 DomainKey-Status: good (testing) X-Spam-Score: 0.0 (/) X-Spam-Report: autolearn=disabled,UNPARSEABLE_RELAY=0.001 Subject: LF: Re: Clipping or blanking/9kHz intermods Content-Type: text/plain; format=flowed; charset="iso-8859-1"; reply-type=response X-Spam-Checker-Version: SpamAssassin 2.63 (2004-01-11) on post.thorcom.com X-Spam-Level: X-Spam-Status: No, hits=0.1 required=5.0 tests=MISSING_OUTLOOK_NAME 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 x-aol-global-disposition: G X-AOL-SCOLL-AUTHENTICATION: mail_rly_antispam_dkim-m211.1 ; domain : btopenworld.com DKIM : fail x-aol-sid: 3039ac1d405e4bf5dde76c4c X-AOL-IP: 193.82.116.20 Content-Transfer-Encoding: quoted-printable Dear Stefan, LF Group, ----- Original Message -----=20 From: "Stefan Sch=E4fer" ...> In Spectrum Lab there are different methods for noise reduction (e.g.= of lightnings). Those were discussed here in the last weeks. While Jim/M0BMU preferes the clipper (using 0 dB above AVG if i remember correctly), Markus/DF6NM prefers the noise blanker. ...> I don't really have a particular preference; both seem to give a simil= ar=20 improvement in apparent SNR, and both will introduce some intermodulat= ion,=20 since they are inherently non-linear techniques. Your spectrograms see= m to=20 confirm there is not a great difference... BTW, the Spectrum Lab clipp= er,=20 where the clipping threshold tracks the average signal level, does see= m to=20 give better results than simple fixed-threshold clipping, especially= when=20 other signals or narrow-band noise are present. ...> I still have to reduce the IM in the first stage (2nd order low pass filter at the output of the first stage does not better the situation)= , either by reducing the wire length or adding a series resistor or...hm= , will see (any ideas?). ...> At my QTH, there are 4 MF broadcasters within 1km, giving combined pea= k FS=20 of 10s of volts per metre, so I get these problems a lot... I find it= is=20 important to keep an open mind about possible sources of this kind of= QRM. The first thing is - are you sure the intermodulation actually occurs= in=20 your active whip? Any length of wire acts as an antenna, and will ofte= n be=20 connected to some non-linear device (e.g. mains cable connected to rec= tifier=20 diodes), so there are an almost infinite number of places outside the= =20 antenna circuit that the 9kHz IM product could be generated. A prime candidate is the earth connection - if your antenna is high up= on a=20 building, the earth connection will be carrying considerable=20 broadcast-frequency current - I have found this often results in=20 intermodulation, perhaps due to some kind of electrolytic effects occu= ring=20 at the actual ground electrodes. This effect makes my TX antenna unusa= ble=20 for reception at many frequencies. Any mains power supply connected to= the=20 antenna preamp can cause a similar effect if the internal diodes,=20 regulators, etc. are not well decoupled at broadcast frequencies. Another place where intermods can occur is the PC, which will typicall= y have=20 long cables connected to it (mains, network, sound card etc...) again= acting=20 as antennas and carrying MF broadcast currents. Any intermod generated= in=20 something connected to the PC can be coupled into the sound card input= s by=20 the ground loops that tend to exist inside the machine. For example,= I found=20 using my 9kHz antenna/preamp at home with a laptop with AC adaptor gav= e a=20 similar 9kHz line to the one you see. I eventually found this was stil= l=20 there with the preamp output disconnected from the sound card, but wit= h the=20 earth connection present between the computer and the preamp. I assume= the=20 cables connected to the preamp were acting as an antenna, and flowing= to=20 ground through the PC and adaptor. The cure was to wind several turns= of the=20 AC adaptor lead through an EMC ferrite core to reduce the MF current= flowing=20 in it. For the DK7FC grabber, you could easily test if the 9kHz comes= from=20 the antenna or PC end of the system by un-plugging the optical fibre. Then there are usually many other cables, or large pieces of metal, ne= ar the=20 antenna, via which intermods can be occuring. The resulting 9kHz=20 voltages/currents will be picked up by your antenna. Moving the antenn= a is=20 the easiest way to check this, or also to solve the problem, usually. But then, if the FS is high, it may be that the active antenna is the= =20 problem after all. In your circuit, it is unlikely that IM is occuring= after=20 the input stage due to the presence of the bandpass filter. You could= try=20 adding a source degeneration resistor to reduce the gain and improve= the=20 linearity of the input stage (say 100R, but you would also probably ne= ed to=20 change the gate bias voltage to get a sensible bias current). I would= =20 suggest putting about 47R resistor in series with the gate, to reduce= the=20 likelihood of VHF oscillation occuring, which can cause strange proble= ms,=20 including intermodulation at low frequencies. Probing the drain with= an=20 oscilloscope would reveal what large signals are present. Also, the dr= ain=20 resistor in the second stage needs looking at - 1k is rather too high= a=20 value for a 12V supply and a FET with zero gate bias and Idss of 10 -= 25mA. BTW, problems with high broadcast station field strength were some of= the=20 reasons leading me to favour a loop antenna design, for 9kHz and other= =20 frequencies as well. It is much easier to include filtering directly= at the=20 antenna terminals, since the loop is much lower impedance. Also, groun= d=20 connections are less of an issue. Cheers, Jim Moritz 73 de M0BMU