TX only WSPR beacon

UPDATE 11.9.12: see later post for improved version

WISPY is a full 2-way WSPR transceiver but there may be occasions when just a simple WSPR TX is needed. This is the (current) schematic of the WSPR TX beacon for 10m, but the very same schematic with a different crystal and values should work on any HF band. On lower bands the doubler could be removed and a simple on-frequency crystal substituted.  The doubler approach was the cheapest way for 10m WSPR.

The schematic needs rationalising and some further simplification, so treat this (as always) as a design starting point.

Solar predictions

The NASA solar physics website has some recent updates to the solar cycle peak predictions:

"The current prediction for Sunspot Cycle 24 gives a smoothed sunspot number maximum of about 76 in the Fall of 2013. The smoothed sunspot number (for 2012/02) is already nearly 67 due to the strong peak in late 2011 so the official maximum will be at least this high. We are currently well over three years into Cycle 24. The current predicted and observed size makes this the smallest sunspot cycle since Cycle 14 which had a maximum of 64.2 in February of 1906."

Looks like they are expecting a double peak cycle with a slightly larger peak about a year from now. We'll see. The peak is likely to be very low compared with mega-peaks seen in the last half century.

WISPY-10 schematic (draft A)

OK, I promised to show the schematic of WISPY-10 (there may be versions for lower bands later) today so here it is. I have breadboarded and tested the TX and the RX parts on-air and both work well. In the transceiver I have used the oscillator with an additional buffer (x2) stage on TX and this has still to be tested but I don't expect any issues at all. Also shown is the TX-RX change-over using the back-to-back diodes in the middle of a series tuned circuit on the RX input. On TX the diodes conduct and the capacitor forms part of the output low pass filter.

Updated schematic (an error spotted by G3TFX)

At the moment I am not planning any further work as I want to crack on with the 472kHz work but I expect to return to this in a few weeks' time.

Click on the schematic for a larger, more readable, version. Please let me know if you spot any obvious errors (e.g. where I have put grossly wrong values of components in) so I can update the schematic.

Please feel free to use this as a starting point for your own version. All in, I doubt the components would cost more than £5 (7 euros or 8 dollars) even if all the parts were obtained new.

The 2N3866 runs quite hot in class A and I want to change this biasing in the final version. I may also susbstitute the 2N3866 for a couple of paralleled 2N3904s to save further cost.

The same circuit will work well on PSK31 (pull the crystal to the right frequency of course) but both with WSPR and PSK31 do not over drive the PA. This is a DSB transmitter and there will be splatter either side of the carrier for tens of kHz if driven too hard. Adjust the drive so the output from the PA is a clean, DSB signal free from obvious audio distortion.

WISPY now transmitting!

Breadboard of WISPY TX - 50mW pep WSPR (100mW DSB)

Very pleased with my little 3 transistor DSB 28MHz WSPR transmitter. Since turning it on at 11.34am I've received around 30 reports from stations in Europe despite the power being just 50mW pep ...and as I write my first spot from Africa: -14dB S/N (a good report) from EA8FF in the Canary Islands!

Schematic to follow tomorrow. OK, I know - there is no low pass filter on the breadboard. As the circuit is linear throughout and there is filtering on both stages the output is pretty clean, but I will add a 3-section LPF on the final transceiver version.

This is a very simple, all discrete parts, design using 2 x 2N3904s, 1 x 2N3866 (may be overkill) and a couple of 1N4148 diodes in the mixer.  Again, I use a cheap 14.060MHz crystal, pulled a bit and  doubled, as the LO.

FLEX-6700R hype?

Just read this on a UK supplier's website:

The FLEX-6700R™ Signature Series receiver is based on a new hardware architecture and SmartSDR™ software platform.  This hardware uses Digital Down Conversion (DDC) to convert from RF to digital.  The FLEX-6700R uses two Spectral Capture Units™ (SCU) for the RF to digital conversion and an ultra high performance on-board signal processing and control system to perform demodulation, filtering, and audio stream management.  The result is incredible receiver dynamic range and received signal clarity.

The FLEX-6700R model receiver utilizes two SCUs for reception from 0.33 to 77 MHz plus 135 to 165 MHz and the ability to create up to 8 full featured independent SLICE RECEIVERS.  Optimized preselector filters can be selected for the ham bands for greater out of band rejection.

SmartSDR is the “ecosystem” of the radio platform.  It organizes all the signal processing power in the radios into an advanced radio fabric.  SmartSDR understands the capabilities of each SCU and how to harness its power.  It also comprises of the “presentation layer” or GUI client that the user interacts with.  The FLEX-6700 utilizes an Ethernet connection for high-speed “driverless” access to the graphical user interface (GUI).

Now I know there are people around with too much money and there are some applications when a very good receiver may be of benefit, but would YOU spend £4799.94 on one? This is just the receiver remember! No thanks. I'll continue to build simple rigs for a few pounds and accept their limitations.

WISPY progress (TX side)

Despite promising to finish off the 472kHz transverter properly first, I decided to have a go at the TX side of the 10m DSB WSPR and PSK transceiver (WISPY). Starting with the PA and working back to the drivers I breadboarded a simple linear amp based on a couple of 2N3904s and a 2N3866. Power out is around 1.2W pep. I also added the osc/doubler and single balanced mixer later but have not optimised the overall strip. This phone image shows the breadboard I was working on - not a pretty sight. If time allows tomorrow I'll continue this and maybe get to hook it up to an antenna and a PC on TX.

Moonbounce with WSJT and MAP65

At a recent EME conference in Cambridge John Regnault, G4SWX demonstrated EME using WSJT by remotely operating his 1kW EME station (using the call GB2EME) located on the east coast of the UK. They worked well over 100 DX stations off the moon during the conference (which I did not attend). Joe Taylor W1JT who invented WSJT and MAP65 (and WSPR!) was there.

Although I'm an engineer who enjoys doing "a lot with a little", one has to be impressed by the dedication and sheer hard work some amateurs put into the hobby. Recently G4BAO demonstrated to me his 10/24GHz station which has software controlled rotators, mast top RF sections and GPS locked SDR receivers. He was able to make state of the art 10/24GHz narrow-band operation look easy, when in reality it was the culmination of a lot of very hard work over very many years. Of course, the effort goes on and on.  

Energy harvesting wireless bus bell push

The latest edition of Land Mobile Magazine (a magazine for professionals in the mobile radio business) has an interesting column showing how London Eco-Routemaster buses are being fitted with a novel sort of bell push (the kind you push to ask the bus driver to stop) which harvests energy from the action of pushing the bell to send a wireless signal through the bus to the driver. The bell push uses an energy harvesting chip from EnOcean a company that specialises in such devices.

The EnOcean evaluation kit (for professional developers) as shown on their website

This is the first time that I've seen a very practical use for energy harvesting. I assume that the device "harvests" kinetic energy (from the pushing action) and thermal energy (from the finger tips) but it must generate a few uWatts for this to work.  So, no batteries, no wires, wireless comms and good for 300k presses. There has to be a QRP application!

For more on this read the article on line at Land Mobile magazine. 

On with the projects.....

Back home now, so it is on with the autumn projects list.

Several people have been contacting me about the latest 472/500kHz 10W transverter. Someone in OK-land is designing a PCB and I hear a "dead bug" version has been successfully built in the USA - not sure whether an exact copy or "based on" - but it has already been used on MF WSPR with a report from over 2000km up the USA east coast. So, I will continue with refining this design first and then get on with the "WIPSY" 28MHz simple WSPR transceiver next.

The non line-of-sight optical beaconing tests will resume a little later when the evenings start to draw in. I want to set up a more powerful, semi-fixed 481THz optical beacon so that I can do a series of DX tests under various degrees of cloud cover. Tests last winter suggest much further will be possible than the 9km NLOS ranges achieved with clear air scatter when signals were audible by ear. By using much lower sub-carrier frequencies the optical detector sensitivity will be very much greater allowing even weaker signals to be detected on QRSS3 and QRSS30.

DXTV challenge?

Sorry for the absence of postings last week but we've been on holiday. No ham gear with me, but I did spot several nice HF and VHF yagis on my travels.

Several of my blog readers were DXTV enthusiasts (like me a long time ago), so I wonder who will be the first to identify where we were on holiday by this testcard copied at 4am this morning on the hotel TV? No prizes for giving me the country, but interested to know how many out there know the answer and whether or not this card has ever been copied in the UK on Band 1 TV. This was on 625 line UHF.