hello, I gave the circuit as an example. The question is more general.
How one could take DC out of an RF AC signal of about 1W power and how many volts and mA one could expect?
Any type of RF detector is essentially a rectifier. The only problem is with diodes and high RF power and the RF frequency.
New DC/DC converters operate as switchers, and the frequency is growing from kHz to MHz range. Their rectifiers use fast Schottky diodes and in my opinion you can effectively rectify one watt or more at over ~10 MHz. With a growing frequency, however, the high-current Schottky diodes have too large capacitance, and the efficiency drops. For >100 MHz, detector diodes can barely handle ~10 mW with a reasonable efficiency.
It depends on the frequency and load current but basically works the same as in any half wave rectifier. In normal mains AC supplies we would typically use electrolytic capacitors of 1,000uF or more but the value needed drops as the rate of charging peaks get closer together. For frequencies higher than say 1MHz it would be better to use a combination of an elecrolytic and a ceramic capacitor in parallel. The electrolytic to hold the main charge and the ceramic to minimize the impedance.
May I ask why you are doing this? Is it an RF power meter or are you trying to recover power from a transmitted signal?
Brian.
A simple way to achieve the same effect would be a variable resistor between Ux and ground.
You noticed the 1 nF bypass capacitor? So how to get AC at the bias point?How does it work with no rectification? AC will appear to the diode bias point instead of dc ?
Yes.... it won't work!
In truth, it will work if you have DC positive on the Tx signal but not more than 0.6V and your frequency is less than about 100KHz.
You have not mentioned the frequency you intend to use but 10uF as the input capacitor, especially a polarized type probably isn't what you want. If your frequency is > 1MHz or so, I would go for 1nF ceramic instead. If you are using above say 100MHz, I would drop it to 100pF and also look at using Shottky barrier diodes instead of 1N4148s.
Incidentally it's self powered but not self adjusting!
Brian.
I wouldn't bother with the RC filter but I would increase the capacitor across the potentiometer to say 100nF so it removes any residual modulation from the TX signal. The impedance at the potentiometer is so high that a simple capacitor should be sufficient to filter it.
The circuit is similar to one I used many years ago to multiply x10 to produce a signal on 10.315GHz as part of an amateur TV link. Be careful to select the correct harmonic and only one at a time when you use the output because it will wreak havok on the radio spectrum if you let it reach an antenna!
Brian.
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