Remember about electrical safety associated with inductors coils antennas etc. See my post above.
I read some of your other posts about Opamps, you have obviously studied this and know a lot about Opamps. Back in the old days there was Analog Devices and Burr Brown. I suppose I was always (and still am) an Analog Devices supporter but I did go for Burr Brown sometimes (the INA110 inst amp for instance).
We had a discussion earlier on this thread about not using the inverting input for audio input stages. Something about the feedback path introducing noise. This was news to me, I always treat both inputs as identical apart from polarity. Would you know why this may or may not be so.
The AD8397ARDZ performance turns out really good (low noise no instability) but it does get through about the 18mA current per dual package.
The inverting opa introduces an additional series resistance that adds to unnecessary noise. And if you reduce this resistor input impedance drops to this value, which is unwanted in most cases
So you are saying no input resistor to the non inverting input and low value feedback resistors to the inverting input. Presumably the output feeding this will have it's own low value load resistor.
CC @Aridace
Agreed. You may add 100~330R series resistor to inputs to harden them against cellphone demodulation, and that's it.
If you to want to create a minimalist thing with attiny you need a regulator Arduino, or some other development MCU that has a USB interface, to flash the attiny. I would use a ESP, NodeMCU, or Adafruit Metro. ATtiny is too minimalist for me.
That little technology.com project was for the man's son wanting to learn morse code. A beeper is optional without the radio.
Note that the tiny thing does not have a beat frequency oscillator. Instead another timer modulates the carrier so that a tone is heard on the radio. It does not raise the noise floor like a bfo does.
WWVB was destroyed by lightning in the early days. Attached is a historical document to read on long winter nights and a snapshot of the "outhouse"
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4487279/
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I am read somewhere that spark-gap transmitters are banned, ... but I digress.
Here is another you might have seen before:- http://abelian.org/
It has chapters on VLF concerns and also the physics of Tesla resonators
It has chapters on VLF concerns and also the physics of Tesla resonators
SAQ Transmission History: http://www.weaksignals.com/
Click SAQ which is a list of events that started in 2008.
Each event page includes the recording and photos of the gear plus some antenna design work.
These pages look good. The signals are not weak.
Click SAQ which is a list of events that started in 2008.
Each event page includes the recording and photos of the gear plus some antenna design work.
These pages look good. The signals are not weak.
To validate the field sensitivity of my ferrite antenna I build a basic coil.
Attachments
There are 18 turns 1mm magnet wire wound around a 7cm wooden core.
I can not measure inductance, maybe it is somewhere around 50uH.
There is a 1kO series resistance.
Driven by the soundcard output set to 1Vrms the current flow is 1mArms.
I can not measure inductance, maybe it is somewhere around 50uH.
There is a 1kO series resistance.
Driven by the soundcard output set to 1Vrms the current flow is 1mArms.
@bucks bunny this is an impressive effort, the basic test coil looks very useful and well built, have you made any VLF spectra of actual received spectra yet?