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Author Topic: Construction of Shortwave beacon  (Read 3761 times)

Offline Solderon

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Construction of Shortwave beacon
« on: July 20, 2021, 0745 UTC »
I started a project a couple of days ago, that i would like to share and get some input on. This is a shortwave beacon, that is going to be placed in a forrest and transmitt its callsign and some information about its voltage and temperature on the HF-band, probably somewhere on the 7000-7200kHz.



I have a small crystal oscillator, and a arduino UNO to control it and put it all in a 3d-printed enclosure designed for this project. I also threw in a fan, if temperature would be a problem. I live in Scandinavia, but we do have high temperatures in the summer. The power source will be a small solar panel.

All the parts for the transmitter hasnt arrived yet, but i will keep posting when i make progress.

Offline Solderon

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Re: Construction of Shortwave beacon
« Reply #1 on: July 20, 2021, 1018 UTC »
To avoid people thinking the transmitter is something else if the find it, i added an explanatory text on the lid "ham radio experiment, radiobeacon 40m". Also found a nice fan grid that fit on the 40mm fan.


Offline ChrisSmolinski

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Re: Construction of Shortwave beacon
« Reply #2 on: July 20, 2021, 1418 UTC »
Looks great! Please let us know when it is on the air, and the frequency.
Chris Smolinski
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Offline syfr

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Re: Construction of Shortwave beacon
« Reply #3 on: July 20, 2021, 1443 UTC »
I wish my projects turned out looking that good!

I'd cover up the vents though... you'll not need any more cooling than what exists in that box and critters/water/dirt WILL enter.

Nice job!
Kiwsdr x 2. TenTec Paragon/NRD535

Offline redhat

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Re: Construction of Shortwave beacon
« Reply #4 on: July 20, 2021, 1712 UTC »
If cooling is a concern, construct the enclosure out of a diecast aluminum box.  That will be more than adequate for this power level.

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Offline ~SIGINT~

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Re: Construction of Shortwave beacon
« Reply #5 on: July 20, 2021, 1744 UTC »
Second that on the critters, they will find a home in the enclosure. I was going to mention that earlier. A piece of mosquito screen should do the trick.

As an example, this is a picture of the tuned guy at the CHHA 1610 kHz transmitter site. It is an aluminum enclosure but yet, nature has a way of letting itself in from the 4 little vents (black round pieces) at the bottom corners of the enclosure.

For those who are curious, that is 4 Amperes of RF on the meter being absorbed by the tuned guy.

Otherwise, nice construction. I have been thinking about building a beacon so these give me some ideas.


Offline Solderon

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Re: Construction of Shortwave beacon
« Reply #6 on: July 21, 2021, 1557 UTC »
Today some more of the components arrived, and i got the oscillator running with a BD139 transistor. The oscillator is taken from the "ten minute transmitter", or an improved version of it i found online.

I hooked up the oscillator to a 50ohm dummy load, and checked it with my oscilloscope, and it looked horrible!(left picture). I added a LP-filter and it cleaned up a bit at least. The output is about 500mW after the LP-filter, but its not very frequency stable. The transmitter begins at 7028,3kHz but drops 500Hz after transmitting 5-10 seconds. Perhaps i should add a power amp transistor to unload the oscillator to make it more stable.

The case has been redesigned without the air holes, and some other smaller adjustments. It takes 8 hours to print, but will be ready in the morning.





This is the design i am using, a version of the "ten minute transmitter". https://hackaday.com/2021/03/11/getting-on-the-air-with-a-10-minute-ish-ham-transmitter/

Edit: I changed the coupling capacitor to the LP-filter, from a 220pF to 940pF, that resolved the chirping and the frequency drift completely, and also made the wave form alot better looking. The RF output got a bit lower as well, and ended up at 300mW. Before and after LP-filter on oscilloscope below.

« Last Edit: July 21, 2021, 1646 UTC by Solderon »

Offline Solderon

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Re: Construction of Shortwave beacon
« Reply #7 on: July 22, 2021, 1514 UTC »
Today i cleaned up the oscillator and put an IRF510 PA on the circuit. I also made some tests with supply voltage and power output and got a rubber string that fit nicely into the groove against the lid to keep water out.

The PA added some chirp, and made the output look a bit more "jagged" than before. I have looked at some other PA designs that might give a better signal but i will half to wait for more parts.

I think that 1000mW of output power would be a good level, test of supplyvoltage/RF-out and current draw

12v = 2100mW 540mA
10v = 1800mW 420mA
8v = 1000mW 310mA
6v = 560mW  213mA





Edit: The transmitter runs very cool at 1W output, and only draws 12mA when sleeping(not transmitting). There is how ever a problem with the PA in that it chirps a bit, i have a couple of other designs i could test on the next version. When running at higher output, the transmitter changes frequency sometimes, between the beeps, so that they are heard as two different tones in a SSB receiver. 
« Last Edit: July 22, 2021, 1742 UTC by Solderon »

Offline Solderon

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Re: Construction of Shortwave beacon
« Reply #8 on: July 23, 2021, 0944 UTC »
Last night i run into some problems with the arduino nano circuits, my computer no longer discovers them as a serial port for some reason. I spent some time trying different tricks with the FTDI drivers, but came to the conclusion that i just as well should order a couple of arduino micro, "orgiginal" arduino and a lot newer than the ones i have.

Two 18650 batterys fit nicely into the box, with the DC-DC stepup regulator. They should be able to give 9v from 5v-8,4v that the two batterys provide. The transmitter draws 300mA when keying, if the duty cycle for CW is 50% and sending the ID, voltage and temperature takes 15 seconds it requires 2250mAseconds. The battery fully loaded contains 2200mAh/7920000 seconds so if transmitting once every 5 minutes that would last something like 10 days with some efficiency losses.

I will try do design a simple charge controller using a relay that just shuts of the power from the solar panel to the battery if the voltage is over 4,2v per cell. If i use a NC relay there is no risk that the arduino dies due to low voltage, and cant close the charging curcit.

Something like the following peudocode should do it

Code: [Select]
IF Voltage >= 4.2v/cell THEN open charging relay
IF Voltage >= 3v/cell THEN TX(ID, Temp, Voltage)
DELAY(300s)



« Last Edit: July 23, 2021, 1028 UTC by Solderon »

Offline Solderon

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Re: Construction of Shortwave beacon
« Reply #9 on: July 23, 2021, 1822 UTC »
Its beacoming a bit cramped in the box, i added a 8v regulator on the underside of the TX-board, it is fed with a DC-DC voltage regulator that supplies it with 10v, from 5-8,5 volts that the 18650 batteries supplies. The DC-DC regulator isnt regulating very good, so i probably need the L7808 regulator, but it would be nice to not have too much heat production in the box.

The TX will transmitt ID, Voltage, if charging is on, temperature, and numer of tx, all in 15wpm CW. Voltage and temperature will probably be done with a pulse, 0-3s = 0-10v.



Offline Solderon

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Re: Construction of Shortwave beacon
« Reply #10 on: July 24, 2021, 1218 UTC »
I run into some problems with the power supply, the new Arduino Micro(and probably the voltage DC-DC regulator) draws 75mA during standby, enough to damage the Lipo batterys during the night. The 18650 batterys looked like a sleek solution to use instead of led-acid or NiMh, but they complicate things a bit, especially since they also are prone to damage due to over loading/discharging. I will half to re-think the power sollution.

I got the transmitter up and running, transmitting at 7028,2kHz every 5 minutes, "SMX 1W BEACON V" followed by a tone that is as long in seconds as the supply voltage, per cell. 4.2 seconds = 4.2volts. The TX will be online a few days to test it out.

Offline Solderon

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Re: Construction of Shortwave beacon
« Reply #11 on: July 25, 2021, 0736 UTC »
The beacon has been running over night, and have had no issues, it handles the temperature well. I redesigned the enclosure to fit better with an external power source, it will be printed during the day.

I also experimented some with the EEPROM(persistant memory) on the arduino, so that i can have it save the number of transmissions and not loose the data even if the voltage becomes too low during the night.



Edit: The beacon is now off line, i am migrating it to the new enclosure  :)
« Last Edit: July 25, 2021, 1913 UTC by Solderon »

Offline Solderon

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Re: Construction of Shortwave beacon
« Reply #12 on: July 26, 2021, 1308 UTC »
The beacon is now upp and running again, i rebuilt the power part to use an external source(12v battery and solar panel). The beacon transmitts "SMX 1W BEACON 12V 20C". The voltage and temperature(inside enclosure) is meassured in steps of 1v and 5 degrees c. I will place the TX in the garden for a few days to see how it behaves in the wild.


Offline ~SIGINT~

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Re: Construction of Shortwave beacon
« Reply #13 on: July 26, 2021, 1354 UTC »
Keeping the power supply simple was a wise decision, the DC-DC converter and associated charging circuit being too complex. As for the EEPROM, I would conciser using FLASH memory instead, I.E. similar to a USB stick. Those small FLASH cards used in cell phones would fit in the enclosure really nice. EEPROMs take far more current to erase and write to and access times are slow. Nice project, it is coming along well.

Offline Teotwaki

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Re: Construction of Shortwave beacon
« Reply #14 on: August 07, 2021, 1407 UTC »
Great project!! Thanks for posting so many great photos!

I use the DC-DC downconverters a lot and have a dozen out in the field. They work well, are efficient and are very stable. Three terminal linear regulators can be very inefficient. My projects have all used 12v battery systems and include a circuit to shut the electronics off if the lead acid battery approaches 12.1 volts. Helps with cloudy weather.

You can save some current by disabling the "power on" LEDs on the converters and the Arduino Nano. Just unsolder the chip resistor in series with the LED.

 Nano's can also be put to sleep in order to save a little more current but they still have the serial interface chip and other unnecessary things running that suck up current.

Power system: The way to approach it is to run the transmitter for 24 hours and log the total current to obtain your Amp Hour rate. From that you can select your battery, solar panel and solar panel controller to run the project without power failure.

I've been playing with the IRF510 MOSFET and they can be made to work well. Adding a little gate bias voltage can help to make them run more linear and provide a less distorted output sine wave.

The lowpass filter toroids look great but ceramic disc capacitors are generally not very good for tuned circuits; temperature sensitivity, large tolerance swings, etc. I built a similar 7 MHz LPF and hand selected silver dipped mica capacitors, resulting in a very nice filter response.

I will go back and read all of the posts from the beginning....
Jim
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