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Saturday, February 25, 2017
G0ETP's Amazingly Beautiful SDR Rig
This is almost too much for an HDR guy to take. Really impressive.
Check out his QRZ.com page:
https://qrz.com/db/G0ETP/?mlab=
Friday, February 24, 2017
More DSB, from Belgium and Spain
Frank ON6UU writes:
Hello Soldermelters,
Maybe some interesting news for you as there are some new kits at hand from EA3GCY (http://www.ea3gcy.com)
I’ve made the MFT-40 DSB without any problem, all parts were provided with the kit, only things to buy were a microphone connector, a speaker and an antenna plug. The box was taken from my attic and was a VGA-selector in his previous life.
Kit came together in a few evenings, I followed the very well written manual, all was well pointed out, which resulted in a working kit. After aligning the kit I could start making qso’s. The microphone was made from a piece of tube, a simple switch and a electret microphone, it doesn’t look pretty but the microphone works.
Rx-Tx 7.066 – 7.133 (With DDS the complete 7MHz band)
Pwr : some 3W peak.
Double Side Band
Made some You-tube films about it.
Easy to make, no SMD, easy alignment without necessity of expensive material. Fine for someone who never made a transceiver, hence the name...My First Transceiver, MFT. As soon as the weather permits I will take the TRX out in the field and activate a SOTA with it.
Now working on the MFT-20 DSB. I’m hoping for an 80mtr version to come available too. :-)
All info is on Javier’s site. (http://www.ea3gcy.com)
72, 73
Keep the solder melting !!
ON6UU
Thursday, February 23, 2017
Walter KA4KXX's "Al Fresco" Oz DSB rig with VFO Mod
A while back we ran a post about the MDT 40 DSB rig out of Australia. Walter KA4KXX liked the design so much that he built his own version and, with it, made his first homebrew phone contacts. I always say that DSB is a great way to break into the world of microphones. Walter is obviously on the right path -- not only did he come up with a nice Al Fresco DSB rig, but he modified the VFO to get additional coverage and to incorporate a frequency counter. FB Walter!
Walter KA4KXX writes:
Since I earned my Ham Radio license in about 1979, I have always operated only on CW since I like to build all my own equipment, but recently at the SolderSmoke website I discovered the MDT 40 Meter DSB Transceiver, and decided this was the design I had always been looking for to finally build and operate on phone.
After I made my first phone contact after only 5 minutes of trying, just a few weeks ago, I was so excited I sent an email thanking designer Leon of ozqrp.com.
Then I modified the VFO further to cover the entire 40 meter USA General Class License phone band, which is 7.175 – 7.300, in two overlapping steps. I also added a 5K fine frequency adjustment, used a more friendly 1SV149 Varactor diode which I purchased on EBay at very low cost, and also added a high impedance buffer (found at the website listed below) to the VFO to drive a frequency counter.
http://www.arising.com.au/people/Holland/Ralph/buffer/highimpedanceprobe.htm
I was able to implement these modifications very easily since I always make my own un-crowded state-by-stage Manhattan style circuit boards and build first on a breadboard.
So far I am very pleased with the results.
Walter KA4KXX
Tuesday, February 21, 2017
HB2HB: Contact on 40 meters with W0PWE
I got on 40SSB this evening and called CQ with my BITX DIGI-Tia. Hooray! Jerry W0PWE answered me with HIS 40 Meter DIGI-TIA. His is still Al Fresco style. Very nice. We add this to the homebrew to homebrew scorecard. Thanks Jerry!
Jerry's rig:
Labels:
40 meters,
BITX DIGI-TIA,
HB2HB
Monday, February 20, 2017
VU2XE's BITX40 (with a cool CAD box)
A year or so ago Pete and I encouraged Kiran VU2XE to try the BITX. He followed through, on our suggestion and went a step further, using CAD to design a box for the BITX. I will try to post a link to Kiran's CAD files on the BITXHACKS blog.
Kiran writes:
Hi Bill and Pete,
Kiran writes:
Hi Bill and Pete,
It is almost year since you seeded idea about the BITX. I am still a listener of your podcast.
After finishing my RF amplifier project late last year, I was thinking of few projects and BITX was on the top of the list. I ordered and received a very beautiful BITX40 kit with Arduino, I got it recently. I also designed a simple case for it using CAD software. It can be used by anyone -- just go to your local laser/CNC shop to get it cut in Aluminum. I just thought of sharing the excitement with you. This rig and it sounds awesomely good :)
Attached are some snaps and design files (I am no expert in CAD etc. it is my first attempt to learn and build)
Happy projects and 73s
Kiran VU2XE
Labels:
BITX40Module,
India
Saturday, February 18, 2017
Peter Parker VK3YE on Vintage Gear (in his new book!)
Homebrew Hero Peter Parker has a new book on the market. I was really taken by his description of the joys of restoring older gear. Peter really nails it. Here is an excerpt:
Such sensuality is absent from modern plastic-fronted, wobbly-knobbed transceivers. Old rig cabinets felt they had something in them. A kick would hurt you more than them. And etched panel markings confirmed they were built to last.
Unlike today’s dainty push buttons with stunted travel and disembodied beep, toggle switches showed you where they stood. Weight, life and play made adjusting controls for nulls and peaks (as often required) both a pleasure and occasional frustration. Even if only as mechanical backlash on a bad tuning dial, it was as if the equipment was telling you something, like a ridden horse does through its reins. Not like newer gear’s lack of tactility which is like a ‘dead fish’ handshake, all take and no give.
There are psychic as well as physical joys. The thrill of bringing neglected or dead equipment to life drives many. It’s an underestimated skill. You start with nothing and almost anything done represents progress when building from scratch. Whereas with a repair it is very easy to render something that’s 80% good completely useless with a careless drop or slip.
More about ‘Getting back into Amateur Radio’ is at
http://home.alphalink.com.au/~ parkerp/gettingback.htm
& the video at https://www.youtube.com/watch? v=g4ktP5K4x-I
Vintage Equipment
The collection, restoration and use of historical
equipment is another movement in amateur radio. The musty smell of
warming dust, the heavy clunk of rotary switches and the velvet smoothness of
precision tuning drives are joys of every use. Such sensuality is absent from modern plastic-fronted, wobbly-knobbed transceivers. Old rig cabinets felt they had something in them. A kick would hurt you more than them. And etched panel markings confirmed they were built to last.
Unlike today’s dainty push buttons with stunted travel and disembodied beep, toggle switches showed you where they stood. Weight, life and play made adjusting controls for nulls and peaks (as often required) both a pleasure and occasional frustration. Even if only as mechanical backlash on a bad tuning dial, it was as if the equipment was telling you something, like a ridden horse does through its reins. Not like newer gear’s lack of tactility which is like a ‘dead fish’ handshake, all take and no give.
There are psychic as well as physical joys. The thrill of bringing neglected or dead equipment to life drives many. It’s an underestimated skill. You start with nothing and almost anything done represents progress when building from scratch. Whereas with a repair it is very easy to render something that’s 80% good completely useless with a careless drop or slip.
More about ‘Getting back into Amateur Radio’ is at
http://home.alphalink.com.au/~
& the video at https://www.youtube.com/watch?
Labels:
Australia,
books,
Old radio,
Parker--Peter
Friday, February 17, 2017
Back from the Raspberry Pi SDR Brink
Earlier this week I shocked Pete Juliano by telling him that I was taking a break from my normal analog, discrete component, no-chips mode of construction so that I could put together a Raspberry Pi-based SDR receiver. Even from 3000 miles away, his astonishment was clearly perceptible. He seemed briefly disoriented by it. I'm sure some of you may have a similar reaction.
I'd been lured in by that video of the Raspberry Pi RTL-SDR receiver with the very cool touch screen display. It has a waterfall! And a touch screen! How could I resist?
I went to Amazon, but there I discovered that that attractive display is not exactly cheap. And maybe I'd need a new Raspberry Pi. At this point, in search of economy and convenience, I began rummaging through my digital junk box. There I found a Rasp Pi Model B. And an old computer monitor. This will be easy, I thought. Just get some SDR code into that Pi, hook up the RTL-SDR dongle and Bob's my uncle, right?
Not so fast. I quickly began to run into daunting digital obstacles. Sure, the Raspberry Pi fired right up and filled the computer display with lines of code. But it was all Linux. Yuck. Sorry Linux fans, but for some of us mere mortals, Linux is a weird opaque world in which every little thing is somehow a lot harder.
I also began to suspect that my 2013 Model B might be sort of a Model T in the Rasp Pi world. It might not be up to the computing task.
And finally, as I poked around the internet, I began to conclude that the Raspberry Pi software for SDR is not quite done yet. All the sites seemed to have the word "experimental" in there. And lots of "I'm pulling my hair out" comments Maybe I'm wrong, but maybe we just need to give this more time.
Let me ask the distinguished group some questions:
Is my Model B really useless for SDR purposes, even if I don't need all the bells and whistles?
Is there an SDR program that can be easily placed in a Raspberry Pi by someone who has NOT mastered the mysteries of Linux?
For now, I have cleared the raspberries from the bench and am back to working on HDR stuff.
I'd been lured in by that video of the Raspberry Pi RTL-SDR receiver with the very cool touch screen display. It has a waterfall! And a touch screen! How could I resist?
I went to Amazon, but there I discovered that that attractive display is not exactly cheap. And maybe I'd need a new Raspberry Pi. At this point, in search of economy and convenience, I began rummaging through my digital junk box. There I found a Rasp Pi Model B. And an old computer monitor. This will be easy, I thought. Just get some SDR code into that Pi, hook up the RTL-SDR dongle and Bob's my uncle, right?
Not so fast. I quickly began to run into daunting digital obstacles. Sure, the Raspberry Pi fired right up and filled the computer display with lines of code. But it was all Linux. Yuck. Sorry Linux fans, but for some of us mere mortals, Linux is a weird opaque world in which every little thing is somehow a lot harder.
I also began to suspect that my 2013 Model B might be sort of a Model T in the Rasp Pi world. It might not be up to the computing task.
And finally, as I poked around the internet, I began to conclude that the Raspberry Pi software for SDR is not quite done yet. All the sites seemed to have the word "experimental" in there. And lots of "I'm pulling my hair out" comments Maybe I'm wrong, but maybe we just need to give this more time.
Let me ask the distinguished group some questions:
Is my Model B really useless for SDR purposes, even if I don't need all the bells and whistles?
Is there an SDR program that can be easily placed in a Raspberry Pi by someone who has NOT mastered the mysteries of Linux?
For now, I have cleared the raspberries from the bench and am back to working on HDR stuff.
Labels:
Linux,
Raspberry Pi,
SDR
New Posts to BITX HACKS
Don't miss the new posts on the BITX HACKS blog. There are some great ideas from Don ND6T and some wonderful tribal knowledge from Pete N6QW.
http://bitxhacks.blogspot.com/
http://bitxhacks.blogspot.com/
Labels:
BITX40Module
Sunday, February 12, 2017
Ken G4IIB's BITX Journey
The work of Ken G4IIB has been on this blog before -- he helped many of us make use of the amazing RTL-SDR Dongle SDR receivers. He has recently turned his attention to the BITX40 Module and offers some great ideas for testing and for modification. Ken's description of the smoothness of his audio adds a very evocative term to the SolderSmoke Enhanced SSB lexicon.
Hi Bill, Pete
Many thanks for your respective responses to my plea for help in setting up SI5351 derived BFO to my BITX40 board. You were both on the money.
Many thanks for your respective responses to my plea for help in setting up SI5351 derived BFO to my BITX40 board. You were both on the money.
Pete suggested that I had too much gain in my HB amplifier from the SI5351 output to the modulator and indeed that proved to be true. Once sorted I also noted that I was getting extra hiss on switching to one of the sidebands as you pointed out Bill this proved to be due to incorrect placement of that particular BFO frequency.
These BITX40 boards that Ash Farhan has developed and released to the world wide community of Radio Amateurs are worth every penny. Because they are so hackable (not just the circuitry but now the Raduino code also) it means that you can tailor it to your specific specification and in the process you are likely to learn new stuff and make new friends. I describe my BITX40 incarnation and experiences below:
Upon first firing up the BITX I was getting quite a lot of mains hum from my PSU's (I thought that at least one of these PSU's was a quality item) but obviously not up to the job. I constructed a simple one transistor capacitor multiplier (this converted a humble 1000uF cap into a 1F cap) and the noise magically disappeared. By coincidence I note that Bill discussed this technique in a recent pod cast. Another advantage of this technique was that I got a 2V drop across the transistor so by running this on 13.8V I get 12V out so I run the PA section on un-smoothed 13.8V (this gives me 12 watts of RF out) and run the receiver section on the smoothed 12V output from the multiplier, happy days.
My thoughts were to turn my BITX into a multi band (several bands rather than all bands) rig and I figured that using high side mixing (running the VFO at 19Mhz (12Mhz + 7 Mhz) rather than the existing low side mixing (12Mhz - 7Mhz=5Mhz VFO)) would be a better option. For example running it on 17M would mean using high side VFO anyway. I also wanted the ability to be able to switch sidebands especially on the lower frequencies so that I could use the rig for Digital modes in my case this was to be achieved by coding the Arduino to run a BFO on one of the SI5351's clk ports.
I bought my BITX prior to the release of the Raduino so I had already commenced (with the aid of a new found radio friend and RF mentor) coding an Arduino VFO/BFO using a UNO and SI5351. Like I said at the beginning once you let folk know that you are starting on a new and interesting project you start to engage the more practical members of the ham community and they just want to get involved and help. Yet another good reason to buy a BITX . We used code originally developed by Jason Mildrum NT7S and Przemek Sadowski SQ9NJE and tailored it to suit the BITX40 and our requirements. This include high side VFO with frequency step adjustment and a BFO with long push BFO changeover. This meant that my BITX front panel should stay very minimalistic 2 knobs.
Getting the VFO to work was simple as the DDS socket was used and to better accommodate the high side VFO I modified the board by tombstoning caps C91 & C92.
Getting the BFO to work proved to be more problematic I was troubled with hiss and other noise. Words of wisdom from Pete Juliano when asked if I was doing something wrong were: " No –it is just that we tend to think our projects are like Lego type building blocks where everything mates and snaps together. Sometimes more is required". True Pete and that gives us the opportunity to learn new stuff!
To cut a long story short I found that the best place to connect the BFO was on the modulation transformer T4 thus bypassing the BITX BFO stage altogether. I was also getting hash noise believed to be emanating from the Uno. At this stage my after market Raduino arrived from India. I fired this up and noticed that I was not getting any hash noise from it. This pointed us to a coding problem and the LCD refresh was altered on our code and the problem disappeared. Below a picture of the module showing the BFO connections to T4 and the large heat-sink with the IRF510 insulated from it. Also shown is the capacitor multiplier and a glimpse of the Raduino in the foreground. Not the most elegant box but this is likely to change pending further refinements. It's still work in progress and this box gives me plenty of room.
The Raduino module itself is just too good and neat not to use. As I did not have the where for all to fully understand and amend Ash's code I decided to use the Raduino but to load it with the code that we have developed for he Uno and Addafruit SI5351 board. This would give me near conventional tuning via a rotary encoder, adjustable step sizes via quick push of the encoder switch and USB/ LSB switching via long push of the encoder switch by virtue of the SI5351 generating the BFO frequency. I have retained a copy of Ash's Raduino code just in case I wish to revert to it. I put a new header on the Raduino P3 connector so that I could connect a rotary encoder and use the 2nd clock output and then changed our code to run on a Nano. I had to add a correction factor in the code to cater for calibration differences in the SI5351's (in my case 1.21Khz).
As previously indicated I had a little trouble arriving at the correct BFO frequencies I found that 119940 and 119970 gave me LSB and USB respectively for my high side VFO (19Mhz) if you use low side VFO (5Mhz) then these would be reversed. We further refined these frequencies by injecting white noise into the mic amp and looked at each transmitted sideband on my RTL-SDR dongle via HDSDR (a useful piece of test equipment). By adjusting the carrier trimmer to show the carrier in the extended HDSDR spectrum display we could see how much to move the BFO frequency to best occupy the crystal filter pass band, see image below. This frequency adjustment being achieved by a coding change. The frequencies I consolidated on to cater for my particular crystal filter are 119941 LSB and 119969 USB. We then nulled the carrier back out. My audio is now as smooth as a maiden's inner thigh, trust me the image will follow!
So now I can get on and build an AGC and
think about some sort of S meter. As for putting the BITX on other bands,
whilst I now have a VFO capable of going anywhere, I would need to address band
pass and low pass filter and switching arrangements. I may still experiment
with this but, as pointed out by Ash in a recent pod-cast, the BITX single
superhet design is not best suited to multi band operation but can be quite
easily changed to operate on another single band. He also indicated that he was
developing a dual superhet with consideration for multi band operation. Once
released this might be a better option for multi-band use.
In the mean time folk should just get a BITX40, hack it to bits and share with us their customised versions.
In the mean time folk should just get a BITX40, hack it to bits and share with us their customised versions.
Ken G4IIB
Labels:
BITX40Module,
Farhan,
Juliano -- Pete,
Si5351,
test gear,
UK
Saturday, February 11, 2017
VK4FFAB's FB Intro to LTSPICE
Rob VK4FFAB wrote a really nice series on how to get started with the LTSPICE circuit simulator. I'm sure these articles will also have a lot to offer for those of us who've been using LTSPICE for a while now. Thanks Rob!
Rob's articles can be found here:
http://vk4ffab.info/lt-spice-for-radio-amateurs/
Friday, February 10, 2017
Falling for the SDR Waterfall...
This is going against everything I believe in, but I admit it -- I want one of these.
Labels:
Raspberry Pi,
SDR
Thursday, February 9, 2017
VK2EMU's Biscuit-Tin Direct Conversion Receiver
Bill and Pete:
First Sound
The enclosure came first, then the radio. The Homebrew challenge - build something in a Christmas Biscuit tin - only one rule, no mains power.
Step one - eat the contents.
VK2WI is an Australian version of W1AW and transmits weekly new bulletins on a number of bands from 160m to 23cm. On 80m the frequency is 3595kHz, so let's build a DC receiver for that.
I used a 7190kHz crystal, divided by 2 with a 74HC74 to get 3595kHz. The rest of the radio is pretty standard - double tuned front end, NE612 mixer, followed by a TL071 and a LM386. The reduction drive on the tuning cap gives a band spread of about +/- 300Hz.
The boards are all 2 inch x 2 inch and made on a PCB mill that I was given a few years ago.
There should be enough room in the bottom of the tin a pack of 8 C cells to make the radio truly portable. Next step is to fit an audio low pass filter.
It is a pleasure to sit on the rear porch and listen to the Sunday night broadcast on a home brewed radio, while eating the contents of another identical tin - I wonder what I will do with that one?
73 Peter VK2EMU
Labels:
Australia,
direct conversion
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