I read a law for canada and it states:
Industry Canada permits transmitters that have an output lower than 100 µV/m at 30 meters (approximately 1 microwatt output).
Now what fools me are these transmitter designs and why I can't produce much output with them when transmitting at 300Mhz.
This circuit was featured under "An Improved Design" half-way down the page at this URL: http://www.talkingelectronics.com/projects/Spy%20Circuits/SpyCircuits-1.html
I looked at it for ideas after building mine. I used the same concept but I changed some component values in an effort to increase transmitting distance.
But talkingelectronics.com claims I should use 330+ohms for the emitter resistor, but I think there's some math with the parts I circled in red in my circuit. I read on another section of this site that to find out the power a transistor was using, do this:
1. find voltage at base via voltage divider attached to base.
2. subtract voltage drop at base-emitter junction (700mV).
3. divide the result by emitter resistor.
The problem is I don't have a real voltage divider as far as DC is concerned, but AC wise, when I used an online calculator, the 470pF capacitor ended up having a 1 ohm resistance at 300Mhz and the base resistor is some sort of multiple of the emitter resistor?. or did I get this part wrong?
So my question is, to maximize the transmitting power possible without increasing the chances of blowing up any part, what values of the circled parts should I use?
For now I'm transmitting audio from the computer but later I'll make it a data transmitter.
I wanted to add that 5VDC is regulated and cannot be changed as this circuit is attached to another unrelated circuit.
