There is something strange about my Polyakov mixer based direct conversion receiver for 28.1246MHz WSPR at the moment.
On the bench, when connected to a 50 ohm signal generator or sitting on the bench without an antenna connected, the background noise is a quiet hiss. With an earpiece in a quiet room I can just hear a -125dBm signal, even without an RF preamp: it is a good, sensitive and simple design.
However, the moment I connect my outside halo antenna via a coax to the (unscreened) breadboard RX the 50Hz hum level is quite high, certainly some 40dB higher audio than the MDS signal. This is with the RX run from a small sealed lead acid battery. With a mains supply I might expect some hum, but what is going on? Why the high hum pickup?
My coax antenna feed passes through the loft and then outside passing plenty of mains cables, so I must be inducing some 50Hz pick-up on the coax outer which is coupling into the copper laminate breadboard ground plane. A tidy rebuild will be needed before I could put the RX into a screened box.
I do not recall having a similar problem with other DC designs I have tried (single balance diode pair, NE602, SBL1 etc.) when used in a similar lash-up breadboard.
Anyone any suggestions?
23 Aug 2012
22 Aug 2012
KX3 leadtimes shortening
The KX3 image on the Elecraft site |
The second 472kHz transverter (with MeSquares)
Partially built 472kHz transverter using MeSquare islands |
Labels:
472-479khz,
mesquares,
transverter
20 Aug 2012
MySquares and MyPads arrive
My order from www.qrpme.com arrived today by airmail from the USA. The PCB stick-down island pads look just the job and my plan is to build a second sample of my 472/500kHz transverter using these on a piece of copper laminate. There is no doubt that these pads will be a big improvement on my own rough-cut homebrew pads. I especially like the islands for SO8, DIL8 and DIL14 ICs as fixing these with Manhattan construction has always been a real pain.
19 Aug 2012
LF/MF Loop antennas on transmit
For the last few winters I've used a wire loop antenna on 136 and 500kHz transmit with moderately successful results. Well, considering the extremely low ERP it is better to say excellent results. My wire is not that thick: around 1mm PVC covered multistrand wire and the loop area around 80m square, with the lower part of the wire either very close to, or actually on, the ground. Using the TX loop calculator at http://www.66pacific.com/calculators/small_tx_loop_calc.aspx the efficiency is around -30dB at 500kHz, so that 5W from the PA would result in around 5mW ERP radiated. My calculations and measurements, with less than ideal loop geometry, suggest the ERP is some 3dB lower at around 2-3mW. At 137kHz the loop is considerably less efficient at around -50dB.
For a small plot with nearby trees I am not sure how well this compares with a small Marconi with a short vertical section (around 6m max) and a horizontal section of around 6m. Anyone know the answer?
For a small plot with nearby trees I am not sure how well this compares with a small Marconi with a short vertical section (around 6m max) and a horizontal section of around 6m. Anyone know the answer?
Labels:
137khz,
472-479khz,
500kHz,
antenna,
lf,
loop,
mf,
transmit loop
Another country on 472-479kHz
Lubos OK2BVG reports that he has been granted access to the new 630m MF band and is already working stations. Gradually more countries are gaining access although I doubt UK amateurs will be allowed access to the band before January 2013.
A few years ago I was extremely excited when Lubos managed to copy my 2mW ERP 500kHz WSPR beacon at over 1000km for the first time. Since then the beacon has reached Finland at almost 1800km.
It is good to hear that several German stations are now active in the new band with conventional CW QSOs being quite common.
A few years ago I was extremely excited when Lubos managed to copy my 2mW ERP 500kHz WSPR beacon at over 1000km for the first time. Since then the beacon has reached Finland at almost 1800km.
It is good to hear that several German stations are now active in the new band with conventional CW QSOs being quite common.
Labels:
472-479khz,
630m,
OK2BVG
RX performance comparisons (and the KX3)
http://www.sherweng.com/table.html
Sherwood carry out comprehensive tests on various amateur products. See the full list in the link above to get an idea how good the Elecraft KX3 is. Sometimes ultimate performance is unimportant but it does indicate which products are the very good ones when it matters .
Sherwood carry out comprehensive tests on various amateur products. See the full list in the link above to get an idea how good the Elecraft KX3 is. Sometimes ultimate performance is unimportant but it does indicate which products are the very good ones when it matters .
15 Aug 2012
Simple 28MHz Polyakov Mixer WSPR RX
As the first part of my WSPR transceiver project for 28MHz, I breadboarded a Polyakov harmonic mixer based, crystal controlled, direct conversion receiver this afternoon. It was a great success!
The circuit shows the idea implemented. A low cost GQRP club 14.060MHz crystal is pulled to 14.0623MHz in the oscillator/buffer stage. This is then injected into the back to back diode "Polyakov" harmonic mixer which switches at 2x injection frequency i.e. 28.1246MHz, the WSPR USB dial frequency. The 28MHz input from the antenna is filtered and directly applied (no RF amp) to the diode harmonic mixer with the audio output amplified and filtered in the 2 stages of audio gain. The output then goes to the PC sound card. I may improve the audio filtering and add a 600ohm line transformer between the audio output and the PC mic or line input.
Minimum discernable signal (MDS) is around -124dBm, possibly a shade better. AM rejection was tested by injecting a 100% AM modulated carrier at 28MHz. An input of -53dBm was needed before the AM signal was detected, so 70dB AM rejection, which I think is very good.
More bench work to do, then I'll try looking for 10m WSPR signals on-air with the RX, but for about an hour of work, a very fine result. Once the RX is air-test proven, the TX part will be added to make a complete WSPR transceiver.
28MHz Polyakov mixer based WSPR RX |
Minimum discernable signal (MDS) is around -124dBm, possibly a shade better. AM rejection was tested by injecting a 100% AM modulated carrier at 28MHz. An input of -53dBm was needed before the AM signal was detected, so 70dB AM rejection, which I think is very good.
More bench work to do, then I'll try looking for 10m WSPR signals on-air with the RX, but for about an hour of work, a very fine result. Once the RX is air-test proven, the TX part will be added to make a complete WSPR transceiver.
14 Aug 2012
Autumn project list
My wife often calls me a "fireside fusilier" as I am always gunner (going to) do this or gunner do that.
Well here is my current projects ideas list, some of which I hope to address in the coming weeks and months. How many will be replaced with other ideas first?
Well here is my current projects ideas list, some of which I hope to address in the coming weeks and months. How many will be replaced with other ideas first?
- Finish the 472kHz transverter and write this up.
- Simple 28MHz QRP WSPR transceiver to use with a netbook.
- Stand alone 137kHz receiver (for use with PC).
- Semi-permanent E-field probe antenna and on-line 137kHz/472kHz grabbers
- More non line-of-sight light beam experiments (get better distances).
- Semi-permanent 481THz QRSS beacon for NLOS light beam tests.
- Alternative HF antennas - maybe re-erect my Par Electronics 40/20/10 end-fed.
- Further earth-mode (ground conduction) experiments - tests at around 30 and 73kHz as well as more tests at VLF aiming to improve best though ground DX (currently 6km with 5W).
- Experiment with horizontal loop antenna on TX at VLF (maximising coupling into ground).
- Build some better LF/MF test gear such as resistive SWR bridge, 50W dummy load and a noise bridge.
PC based LF/MF receivers
There are some very neat ideas for simple LF receivers around that make use of programs like Spectran or Argo effectively as the second IF and detector stages.
DK7FC recently posted his schematic for his 137kHz receiver which used a 4MHz crystal divided down to 125kHz using a 4060 IC with the IF at 12kHz (corresponding to 137kHz) being fed straight into the PC software. With programs like Argo the scale can be offset so that the correct frequency is displayed. Of course, there needs to be some front end filtering to remove the image, in this case at 113kHz. Using this approach one can make a very simple "stand alone" LF receiver for 137kHz weak signal reception. Such an approach is ideal for grabbers which are permanently connected to a PC anyway, uploading the received signals to the internet.
DK7FC's simple 137kHz receiver |
13 Aug 2012
Baofeng UV-3R very inexpensive VHF/UHF handheld
You may or may not have seen the adverts on eBay for the Baofeng UV-3R handheld transceiver. These are available in several colour versions (including the yellow version shown here) for prices between £25-40 including shipping. For example Solidradio of Hong Kong have these available for just £29.90. Reports suggest these are not bad rigs at all.
What I've just noticed is that, the same supplier shows there is a 3 year UK SquareTrade (no matter what) warranty available for £8.49. So, for less than £40 you can buy a dual band VHF/UHF handheld with a decent warranty for 3 full years. I've heard of some deals, but this takes some beating.
What I've just noticed is that, the same supplier shows there is a 3 year UK SquareTrade (no matter what) warranty available for £8.49. So, for less than £40 you can buy a dual band VHF/UHF handheld with a decent warranty for 3 full years. I've heard of some deals, but this takes some beating.
Labels:
Baofeng UV-3R,
handheld
12 Aug 2012
QRP 10m WSPR
As I cannot access my "lab" currently (kitchen refit materials are everywhere!) I am restricted to operating from my shack, so this morning I've been trying out 28MHz WSPR with 500mW out to the halo in anticipation of my QRP WSPR transceiver design coming soon. This will be DSB, so I will need 1W RF out to get the equivalent of 500mW on the WSPR frequencies.
Not unexpectedly, there are loads of reports on the screen when I last looked from all over Europe. The best report so far today is +8dB S/N which suggests just 500uW would have been sufficient to be spotted. I know that others have achieved similar, indeed very much better, success when the band is open. What is also intriguing are that I have been spotted within the UK at over 300km, presumably by Es or backscatter, although maybe by tropo?
I have still to finish off the 472/500kHz transverter and write this up before starting on the 10m WSPR rig, but should have the latter done quite soon. It will be fun to have a stand-alone 10m WSPR transceiver running with a little netbook.
500mW 10m WSPR reports today |
I have still to finish off the 472/500kHz transverter and write this up before starting on the 10m WSPR rig, but should have the latter done quite soon. It will be fun to have a stand-alone 10m WSPR transceiver running with a little netbook.
Labels:
10m,
28mhz,
dsb,
transceiver,
wspr
10 Aug 2012
Lack of recent posts
My apologies for lack of recent content, but we've been away from the home QTH whilst our kitchen is being refitted. The local builder, a good and reliable person, advised us to go away and avoid the chaos, so we have been exploring Kent and East Sussex from our son's home near Canterbury. No ham gear with me, just the iPod Touch 4g.
Update Aug11th: we have now returned home (PW awaiting me) to find the kitchen almost finished - 2 more days work - and looking good. Problem is access to my "lab" is impossible because of boxes and builders tools. With luck all should be clear by Wednesday when ham radio building can resume.
Update Aug11th: we have now returned home (PW awaiting me) to find the kitchen almost finished - 2 more days work - and looking good. Problem is access to my "lab" is impossible because of boxes and builders tools. With luck all should be clear by Wednesday when ham radio building can resume.
CW from Mars
The latest NASA rover "Curiosity" apparently imprints JPL in CW on the Martian surface as a result of its tyre pattern. See http://www.tyrepress.com/News/OFFBEAT/25967.html . If I recall correctly my callsign is on a microchip on "Curiosity" (see post last autumn).
2 Aug 2012
MePADS and MeSQUARES
MeSQUARES |
MePADs |
31 Jul 2012
Finally RIP Heathkit
It was a long time finally dying after the last Heathkit amateur radio product was made by this once fine company, but I read today on the Southgate Amateur Radio News page that what was left of the company has now filed for bankruptcy. Latterly it had been involved in educational systems but funding was drying up.
Founded in 1926, Heathkit was famous for its kits in the 1950s, 60s and 70s. They were the Elecraft of their day with sound designs and clear step-by-step building instructions. My first introduction into electronics and radio was with a kit for Christmas 1961. I never looked back thanks to that wonderful product.
I hope VE6CN wont mind me linking to his picture showing his fine line-up of Heathkit products. For a lot more pictures of Heathkit amateur radio products see http://www.ultrawebb.com/OHP/gallery.htm .
VE6CN's fine line-up of Heathkit products |
I hope VE6CN wont mind me linking to his picture showing his fine line-up of Heathkit products. For a lot more pictures of Heathkit amateur radio products see http://www.ultrawebb.com/OHP/gallery.htm .
Sub-harmonic mixer based 10m WSPR transceiver
One neat idea is to use a 14.060MHz crystal (cheap from GQRP) pulled up to 14.0623MHz (it is possible) and use this to drive a Polyakov sub-harmonic mixer, which needs half frequency drive, in a simple direct conversion receiver feeding a PC sound card via an isolating transformer. The same oscillator, doubled would be fed into a single balanced DSB modulator and a small QRP PA stage. The resulting WSPR signal would appear as a DSB signal , not SSB, so half the power would be wasted but who cares with milliwatts?
The resulting full WSPR transceiver would be extremely small and simple, need no VFO or VXO and could be left running almost continuously when the PC is switched on. This would be ideal with a small netbook PC.
The idea is not new: see for example http://www.qsl.net/d/dl1gsj/html/qrssrx30.html .
Sounds like this is my next project......
Elecraft KX3 user satisfaction poll
A few weeks ago I ran a poll on the Elecraft KX3 Yahoo group asking owners how satisfied they were with the KX3 QRP radio released earlier this year. I don't own one of these radios, but do covet one. Poll results can be interpreted in a number of ways, but I think this is a fair summary:
So, will I buy one? Not sure. What is certain is that if I ordered one today I'd be unlikely to see one in my hands much before Christmas such is the backlog and demand.
- 65% of respondents found the KX3 exceeded or far exceeded their expectations.
- 24% of respondents found it met their expectations
- 9% were to some extent disappointed with the product
So, will I buy one? Not sure. What is certain is that if I ordered one today I'd be unlikely to see one in my hands much before Christmas such is the backlog and demand.
27 Jul 2012
Updated MF transverter schematic
The current Rev D version of the 10W MF (472/500kHz) transverter is shown below. There are a few changes around the PA and output filter.
Revised 10W transverter schematic (27.7.12) |
The Lesser Chirpy 10m CW transceiver
SPRAT 151 had my article on Chirpy, an ultra-simple, very basic crystal controlled CW transceiver for 28MHz. This does work and has even managed a few decent QSOs but, boy, does it chirp! So, today I followed up on an idea I had to reduce the chirp by FSKing the oscillator when on TX. The schematic is attached.
The basic idea is to switch to TX by closing S1 (increases the oscillator output to around 150mW) then key a capacitor in series with the crystal. As the oscillator is on at full power with the key off or on (FSK shift) the chirp goes. There are a couple of disadvantages (a) the rig is no longer full break-in, and (b) when the key is up there is the "opposite" morse about 1kHz up the band, which is wasteful of power and may confuse. Still, this is a "for fun" rig and, with virtually no chirp, a much better radio. As before, a small low pass filter on the output is advisable unless your ATU provides this.
I also adjusted the turns on the main collector inductor finding that a tap 3t from the cold end worked better. You will almost certainly have to experiment with the values of capacitance around the crystal and key to get the right amount of TX-RX offset.
UPDATE 29.7.12: corrected the circuit diagram (crystal going to wrong place!)
The basic idea is to switch to TX by closing S1 (increases the oscillator output to around 150mW) then key a capacitor in series with the crystal. As the oscillator is on at full power with the key off or on (FSK shift) the chirp goes. There are a couple of disadvantages (a) the rig is no longer full break-in, and (b) when the key is up there is the "opposite" morse about 1kHz up the band, which is wasteful of power and may confuse. Still, this is a "for fun" rig and, with virtually no chirp, a much better radio. As before, a small low pass filter on the output is advisable unless your ATU provides this.
I also adjusted the turns on the main collector inductor finding that a tap 3t from the cold end worked better. You will almost certainly have to experiment with the values of capacitance around the crystal and key to get the right amount of TX-RX offset.
UPDATE 29.7.12: corrected the circuit diagram (crystal going to wrong place!)
472/500kHz video
26 Jul 2012
472/500kHz antenna improvements needed
For the last month whilst testing my 472/500kHz transverter I've been using a highly compromised antenna. Essentially it is a very short Marconi tuned against my central heating system ground. The first 6-7m is a coax cable running next to pipes in the loft horizontally. Eventually the coax runs outside and up 5-6m to my 6m/10m halos. The coax inner and outer are strapped together when used on 500kHz. In the last week we have had a new central heating boiler fitted, this time in the loft, so there are even more copper pipes and wires running close to the coax. Reports appear to be a few dB worse on 500kHz as a result.
The time has now come to design a "no compromise" 500kHz Marconi! Looking at the geometry of my garden I should be able to erect a 5-6m vertical away from the house with some 10m of horizontal top loading. I can add some inductance near the top of the vertical section and tune it all against a reasonably decent ground (4 x 1m long earth spikes, a couple of radials and the central heating copper). Not sure how soon I can work on this but I would hope the ERP increase could be up to 6dB. At least with WSPR (and OPERA) one can do a series of tests over several days with each antenna and compare results. It will be easy to measure antenna current which gives a good indication of ERP when the antenna effective height is calculable.
The time has now come to design a "no compromise" 500kHz Marconi! Looking at the geometry of my garden I should be able to erect a 5-6m vertical away from the house with some 10m of horizontal top loading. I can add some inductance near the top of the vertical section and tune it all against a reasonably decent ground (4 x 1m long earth spikes, a couple of radials and the central heating copper). Not sure how soon I can work on this but I would hope the ERP increase could be up to 6dB. At least with WSPR (and OPERA) one can do a series of tests over several days with each antenna and compare results. It will be easy to measure antenna current which gives a good indication of ERP when the antenna effective height is calculable.
Labels:
472-479khz,
500kHz,
antenna,
marconi
25 Jul 2012
New MF transverter ready for testing
472/500kHz transverter built more presentably |
UPDATE 26.7.12
Tested the transverter above on-air this evening and getting reports from several stations on WSPR.
WSPR reports so far this evening on 500kHz |
Labels:
472-479khz,
500kHz,
transverter
21 Jul 2012
Results with the new 500kHz transverter
WSPR reports received this evening (40mW ERP) |
Labels:
472-479khz,
500kHz,
opera,
opera op4,
transverter,
wspr
472/500kHz transceive transverter
Rev C Transverter (one correction: o/p LPF cap 6n8, not 100n) |
Armed with the sensitivity data in the last post I have now modified my MF transverter to add the receive parts, without a preamp. I used the same scheme adopted in my old transverter to automatically switch through the 500kHz (or 472kHz) signal on receive directly to the FT817. Only 4 additional parts were needed to make it into a TX/RX transverter. As proof that the RX part is working I have just copied PA0WMR with a huge signal on OPERA Op4 with the signal passing through the transverter.
How deaf is the FT817 at 136, 472 and 500kHz?
You may have read that the FT817 is deaf below 160m. This matters if you want to use the rig "as is" without preamps as a receiver for 136, 472 or 500kHz. So I decided to measure the performance using a signal generator. I measured the MDS on CW (the level at which I could just still hear a CW tone without additional filtering), the level for S1, S5 and S9 on the FT817's meter. I also checked whether having the IPO switched in or out made a difference
These were my results:
136kHz (best results with IPO on) DEAF!
MDS -103dBm
S1 -72dBm
S5 -68dBm
S9 -48dBm
472kHz (best results with IPO off) SLIGHTLY DEAF
MDS -120dBm
S1 -84dBm
S5 -81dBm
S9 -60dBm
500kHz (best results with IPO off) A BIT DEAF
MDS -124dBm
S1 -85dBm
S5 -82dBm
S9 -60dBm
What conclusions can be drawn? Well, the FT817 is definitely very deaf on 136kHz and needs a preamp to be usefully sensitive. On 472/500kHz, although the MDS is worse than at 1.8MHz, the sensitivity is arguably OK without a preamp. Yes, a small amount of high dynamic range gain with good filtering to stop overload from adjacent broadcast stations may give you a slightly better sensitivity, but the question is whether this matters when external noise may be the limitation. I have used to FT817 on 500kHz for several years and heard most of what was going, including transatlantic stations. At 472kHz it is slightly worse but still useable I think.
These were my results:
136kHz (best results with IPO on) DEAF!
MDS -103dBm
S1 -72dBm
S5 -68dBm
S9 -48dBm
472kHz (best results with IPO off) SLIGHTLY DEAF
MDS -120dBm
S1 -84dBm
S5 -81dBm
S9 -60dBm
500kHz (best results with IPO off) A BIT DEAF
MDS -124dBm
S1 -85dBm
S5 -82dBm
S9 -60dBm
What conclusions can be drawn? Well, the FT817 is definitely very deaf on 136kHz and needs a preamp to be usefully sensitive. On 472/500kHz, although the MDS is worse than at 1.8MHz, the sensitivity is arguably OK without a preamp. Yes, a small amount of high dynamic range gain with good filtering to stop overload from adjacent broadcast stations may give you a slightly better sensitivity, but the question is whether this matters when external noise may be the limitation. I have used to FT817 on 500kHz for several years and heard most of what was going, including transatlantic stations. At 472kHz it is slightly worse but still useable I think.
Labels:
ft817,
lf,
mf,
sensitivity
20 Jul 2012
GQRP Component Data Book
Tony Fishpool G4WIF, G4CCQ, G3OOU and others have created an on-line, downloadable, GQRP Data Book which has the pin-outs of a number of devices commonly used in QRP designs featured in SPRAT and elsewhere. It is just what I need to stop me having to look up parts on the internet every time. This is "a work in progress" as they say with updates and additions coming frequently.
Finally, why not join the GQRP Club? Its quarterly magazine SPRAT is still the best amateur magazine in the world and remarkable value at £6 UK, 12 euros or $18 US. Details at http://www.gqrp.com/join.htm . As well as very interesting constructional projects, the magazine has operating news, useful adverts from QRP suppliers as well as adverts for GQRP club sales which supplies members with useful QRP parts (semiconductors, crystals, DVDs of SPRAT back issues, etc) at very reasonable prices. The GQRP club represents the spirit and ethos of amateur radio at its best.
Finally, why not join the GQRP Club? Its quarterly magazine SPRAT is still the best amateur magazine in the world and remarkable value at £6 UK, 12 euros or $18 US. Details at http://www.gqrp.com/join.htm . As well as very interesting constructional projects, the magazine has operating news, useful adverts from QRP suppliers as well as adverts for GQRP club sales which supplies members with useful QRP parts (semiconductors, crystals, DVDs of SPRAT back issues, etc) at very reasonable prices. The GQRP club represents the spirit and ethos of amateur radio at its best.
472/500kHz TX transverter - first schematic
10W 472/500kHz TX Transverter (CW, WSPR, OPERA, QRSS) |
Next stage is to add the RX preamp and filter and sort out RX-TX switching. I also want to try to go for a higher PA output power which will require changes to the output network.
Labels:
472-479khz,
472khz,
500kHz,
g3xbm,
qrp,
transverter
15 Jul 2012
500kHz tranverter (Mk 2) breadboarding
This weekend I've made considerable progress with the new transverter for 472 and 500kHz and fully breadboarded a 10W TX transverter.
My objectives are to make the design simpler than the original 2010 design (no expensive SBL1 double balanced mixer!), produce more power and improve the RX performance. Also I want to reduce the need for special parts such as toroids.
The design evolving is, like all my designs, a mixture of my own ideas and the best from other people. When the design is ready I will put it here and on my main website. I've moved away from 28MHz IF (too high, too much start-up drift) and instead gone to 3.7MHz using a 3.2MHz crystal available from GQRP inexpensively. The TX mixer (none is needed on RX as it is uses the FT817 in split mode receiving directly on MF) is a simple bipolar stage followed by a low pass filter. For the PA I have largely copied GW3UEP's excellent designs for a 25 (and later 100W) amplifier. Initially I am using an IRF510 from 13.8V and getting around 10W RF out. The next stage is to look at the RX front end. I want a little gain ahead of the FT817 but with good large signal handling and decent filtering. The FT817 works OK at 500kHz but is a little deaf.
So, a satisfying few hours building.
My objectives are to make the design simpler than the original 2010 design (no expensive SBL1 double balanced mixer!), produce more power and improve the RX performance. Also I want to reduce the need for special parts such as toroids.
The design evolving is, like all my designs, a mixture of my own ideas and the best from other people. When the design is ready I will put it here and on my main website. I've moved away from 28MHz IF (too high, too much start-up drift) and instead gone to 3.7MHz using a 3.2MHz crystal available from GQRP inexpensively. The TX mixer (none is needed on RX as it is uses the FT817 in split mode receiving directly on MF) is a simple bipolar stage followed by a low pass filter. For the PA I have largely copied GW3UEP's excellent designs for a 25 (and later 100W) amplifier. Initially I am using an IRF510 from 13.8V and getting around 10W RF out. The next stage is to look at the RX front end. I want a little gain ahead of the FT817 but with good large signal handling and decent filtering. The FT817 works OK at 500kHz but is a little deaf.
So, a satisfying few hours building.
Labels:
472khz,
500kHz,
transverter
13 Jul 2012
QRP semiconductor pin-out sheet?
Is it just me or do you also have to search the web quite frequently to confirm the pin-outs of devices you've used time and time again? I need to do this for LM386, 2N3819, IRF510 and the 2N3904/6 almost every time I get them out of the drawers just to be sure. "Senior moments" I hear you say!
Does anyone know of a simple (all in one place) "crib sheet" that I could download giving the pin-outs of the common devices we frequently use in QRP projects?
Does anyone know of a simple (all in one place) "crib sheet" that I could download giving the pin-outs of the common devices we frequently use in QRP projects?
Labels:
pin-out,
semiconductors
500kHz WSPR
I left my 500kHz WSPR station running overnight last evening to see what reports I got. People are now generally using 500kHz USB dial for WSPR so that simultaneous monitoring on RX of both OPERA and WSPR is possible. Personally I can't tell much difference.
Anyway, my best reports were from F59706 (560km) and F5NWK (559km) when I was running around 15-20mW ERP from my current transverter and antenna.
500kHz WSPR reports earlier (20mW ERP) |
11 Jul 2012
My first ever website - 1996
9 Jul 2012
FT817 speech processor - English translation
Dave G3YMC kindly did an approximate translation of the German instructions for the Funk Amateur speech processor that I built at the weekend. This may be of use to others building this kit. Dave says this is not a precise translation and does not want to be held responsible if he has made any mistakes!
Incidentally on a local SSB contact with G3KKD this evening I switched from "processor out" to "processor in" and Ian said it nearly blew his head off, so it works, HI.
Incidentally on a local SSB contact with G3KKD this evening I switched from "processor out" to "processor in" and Ian said it nearly blew his head off, so it works, HI.
Labels:
ft817,
funk amateur,
g3ymc,
speech processing
8 Jul 2012
G3XBM Shack - 1977 style
My shack in 1977. I still use the same Morse key. |
More countries on 472kHz
477kHz WSPR DX last night |
FT817 speech processor built and working - brilliantly!
DYC-8x7 speech processor tucked under the FT817 |
VHF NFD is running - I'd forgotten this - so this is an ideal time to test the rig with the processor in circuit. Using just my 10m halo - feeder loss is such that it is a good match, if not an efficient antenna, on both 2m and 70cm! - I went on and gave a few points away on 2m and 70cms. Whereas before I would be struggling, contacts came easily. The little speech processor makes a LOT of difference and is an excellent product.
Conclusion: at 34 euros delivered to the UK this represents excellent value for such an effective product.
Labels:
ft817,
funk amateur,
speech processing
7 Jul 2012
FT817 speech compressor kit arrives
My Funkamateur BX-8x7 audio speech compressor kit (also known as the DYC-8x7) has now arrived. I was impressed by the speed of delivery and the packaging. The kit looks ideal and straightforward to build. One problem with this design was the RJ45 connector lead, but the latest version has 2 RJ45 sockets already fitted on the module and a ready made lead (with plugs on) to connect between the unit and the FT817. The MH-31 mic simply plugs into the other socket. The actual building should only take about 20-30 minutes.
My only difficulty is in the instructions which is a copy of the original Funk Amateur article in German. I am hoping someone can translate this for me, or give me a precis with setting up instructions.
My only difficulty is in the instructions which is a copy of the original Funk Amateur article in German. I am hoping someone can translate this for me, or give me a precis with setting up instructions.
Labels:
ft817,
funk amateur,
speech processing
Ceramic filters on 472-479kHz?
An eBay seller from Hong Kong has 100 off 472kHz DIP ceramic filters on sale for £5.31 delivered to the UK. See item number 400305093888.
Some filters similar to this have useful bandpass characteristics and acceptably low insertion loss (around 3dB), so may be seriously useful for 472-479kHz rigs and transverters. For example, as a roofing filter to protect a RX after a small gain stage, or as a filter to clean up the output of a transverter at low level before applying a signal to a driver and PA. I guess they must also be useful in a ceramic stabilised oscillator. Anyone used these in similar applications?
Some filters similar to this have useful bandpass characteristics and acceptably low insertion loss (around 3dB), so may be seriously useful for 472-479kHz rigs and transverters. For example, as a roofing filter to protect a RX after a small gain stage, or as a filter to clean up the output of a transverter at low level before applying a signal to a driver and PA. I guess they must also be useful in a ceramic stabilised oscillator. Anyone used these in similar applications?
Labels:
472khz,
ceramic filter,
ebay
6 Jul 2012
WSPR on the new 472-479kHz band
At 2058z DF0WD was copied at -27dB S/N for my first German WSPR signal on 477kHz at a distance of 556km. I have also heard a couple of other stations from elsewhere in W.Europe who appear to be testing at very low power before the band is officially released in their countries.
1 Jul 2012
500kHz WSPR and OPERA compared
Today I've been comparing OPERA OP4 and WSPR performance by running my QRP beacon in daylight in both modes for several hours each on 500kHz. Theoretically OP4 should outperform WSPR by a few dB, but I am getting roughly similar reports from stations 126 and 210 km away in both modes.
Personally I prefer WSPR because of the neater on-line reporting system and user interface, shorter TX period (2 mins rather than 4 mins) and the fact that more data is being transmitted (call, power, location). Unfortunately only a couple of UK stations have been looking for my 500kHz WSPR signals, so the test is a bit limited.
Personally I prefer WSPR because of the neater on-line reporting system and user interface, shorter TX period (2 mins rather than 4 mins) and the fact that more data is being transmitted (call, power, location). Unfortunately only a couple of UK stations have been looking for my 500kHz WSPR signals, so the test is a bit limited.
Subscribe to:
Posts (Atom)