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The original message has been attached to this so you can view it or label similar future email. If you have any questions, see the administrator of that system for details. Content preview: Hello everybody, it's ever interesting to read that somebody else has some troubles as experienced from myself ;-) Me too am grateful to Andy for the support I received while struggling with odd experiences.. Let me join the discussion and share a possible solution: I see that LPF is a PI version, similar to what I used in the past. It was nice in RL, armonic suppression and losses when tested with low power instruments, than I was increasing the wire diameter of coils because it was a... warming thing! The current was indeed very high in the FETs (2+2 FETs in push pull) and the RIP area was growing... After I tried the T LPF (see attachment) no more problems, no more warming boxes.. You could re-arrange your LPF components for a quick trial and save some caps ;-) In my version I had to make some change because the cores were not available and used T200-A2 cores calculating the turns to get 59 and 109 uH coils. [...] Content analysis details: (3.5 points, 5.0 required) pts rule name description ---- ---------------------- -------------------------------------------------- -0.0 T_RP_MATCHES_RCVD Envelope sender domain matches handover relay domain 0.0 FREEMAIL_FROM Sender email is commonly abused enduser mail provider (marcocadeddu[at]tin.it) 1.0 FREEMAIL_REPLYTO Reply-To/From or Reply-To/body contain different freemails 2.5 SPOOFED_FREEM_REPTO Forged freemail sender with freemail reply-to X-Scan-Signature: 0bac830672365eda92e91f63ed58b412 Subject: R: Re: LF: TXing 2200m WSPR Content-Type: multipart/mixed; boundary="----=_Part_1235_10813119.1514194546783" X-Spam-Checker-Version: SpamAssassin 2.63 (2004-01-11) on post.thorcom.com X-Spam-Level: X-Spam-Status: No, hits=0.0 required=5.0 tests=none 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 ------=_Part_1235_10813119.1514194546783 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 7bit Hello everybody, it's ever interesting to read that somebody else has some troubles as experienced from myself ;-) Me too am grateful to Andy for the support I received while struggling with odd experiences.. Let me join the discussion and share a possible solution: I see that LPF is a PI version, similar to what I used in the past. It was nice in RL, armonic suppression and losses when tested with low power instruments, than I was increasing the wire diameter of coils because it was a... warming thing! The current was indeed very high in the FETs (2+2 FETs in push pull) and the RIP area was growing... After I tried the T LPF (see attachment) no more problems, no more warming boxes.. You could re-arrange your LPF components for a quick trial and save some caps ;-) In my version I had to make some change because the cores were not available and used T200-A2 cores calculating the turns to get 59 and 109 uH coils. Maybe it's worth to try ;-) CU on 137kHz Marco, IK1HSS ----Messaggio originale---- Da: andy.g4jnt@gmail.com Data: 25-dic-2017 0.16 A: Cc: Ogg: Re: LF: TXing 2200m WSPR Yes Try anything and try to work out what is happening. But first of all, he needs to know what power being deliverfed into a 50 ohmsload is seemingly higher than it 'can' be. The Vdd^2/2/Rl cannot be violated. If it appears to be so, then Rl or Vdd or the measurement has to be wrong. I once had to go though a similar try-everything-and-believe-nothing-until-tested process to work out why my 700Watt 137kHz Tx appeared to be more than 100% efficient! It turned out my Bird 30dB 1kW attenuator only had 29.4dB attenuation at DC. And for a 1GHz jobbie, 137kHz is DC. On 24 December 2017 at 23:03, Chris Wilson wrote: > > > Hello Andy, > > Is there any point in Paul putting his dummy load on the end of his > 75 odd meters of feeder co-ax outside? And then on the secondary of > his matching transformer when tapped one to one? In case the co-ax is > iffy or the impedance matching transfomer's doing something odd? > > > Sunday, December 24, 2017, 10:42:16 PM, you wrote: > > > Well ... Using exactly the values in the filter circuit diagram, > > 50R transforms through the filter to 48.5 - j2.86 (Ret Loss = 30dB, > > VSWR = 1.07) [Using GM3SEK's original Netcalc prog.] > > > > So that's pretty conclusive the ideal filter values will not be > > upsetting things at the fundamental frequency. > > According to Google, the T106-2 has a stated Al value of 13.5nH > > /turn^2 so 72 turns does indeed give 70uH. So IF your core is > correct, the filter should be OK. > > > > It's a bit difficult from now on, at a distance, to try to work out what > is happening. > > Anyone else, any suggestions ? > > > > BTW ... > > > > Peak to peak of a { symetrical }square wave needs to be multiplied > > by 4/pi to get the peak-to-peak of the fundamental component. So > > the amploitude you see will be lower by about 1.3 times for teh same > fundamental power component. > > > > Andy G4JNT > > > > > > -- > Best regards, > Chris mailto:dead.fets@gmail.com > > > ------=_Part_1235_10813119.1514194546783 Content-Type: BINARY/OCTET-STREAM; name=LPF.pdf Content-Transfer-Encoding: base64 Content-Disposition: attachment; filename=LPF.pdf; size=15381 JVBERi0xLjIgDQol4uPP0w0KIA0KNiAwIG9iag0KPDwNCi9MZW5ndGggNyAwIFINCi9GaWx0ZXIg L0ZsYXRlRGVjb2RlIA0KPj4NCnN0cmVhbQ0KSIlsV8mNLDuuteD5kBYENA8WNNDLLhP+7qNy3e63 xPEw7kUBiToUZ1IUIz2zfP77+Sd//n1//v/zT/rcv//86/NPT+lpn5za+f1+/pm9GPxVWPczLmLe iIz1RymrPMtVEcLjkZ/ix4TkeDU4ZqS2zvEYC44ZwTHz98Rh8DEhPr5iJwO91OPOnmKD0NpPIRd7 GU9rn52fXRjvJ4VzwiQtRlHi67g+xXJS65MOqT+LstJre+owJQLNhkswiST6M9aL5QTePA6Bara3 cnl3kkK1dv2DY8YQBwh8DQaLbT59uMWen+4q+qnl0iABqwPM7YlkZVH/urKmn2HgGPXRGC/HqfDJ Skj13Bd44hjvdo1dsyubjV/umBuDH7fgpWv0+oqIdgj13XzyEC1fw0GLsLiWfZvQ7J6DjH7s8kcT nczezrMm2uNpHsje1GICx7lmt8O0GIpdP7NbO7Ayh2zLbgFjC0jUYYAjj2PavBu5YZ5HLpREg4m6 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