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Thank you very much…..Have a nice wekend.This is an oscillator using Q1 and Q2 as the feedback circuit. It is a type of multivibrator.
The frequency is determined by the tank circuit consisting of L1 and capacitors to earth at each end. CV is variable to trim the frequency to the desired output frequency.
The frequency can be roughly calculated from the equation F=1/(2*pi*srt(L*C)). Take C=38pF. The actual frequency will also depend on stray capacitances and inductances.
O sory, can you just tell me where discharegeThis is an oscillator using Q1 and Q2 as the feedback circuit. It is a type of multivibrator.
The frequency is determined by the tank circuit consisting of L1 and capacitors to earth at each end. CV is variable to trim the frequency to the desired output frequency.
The frequency can be roughly calculated from the equation F=1/(2*pi*srt(L*C)). Take C=38pF. The actual frequency will also depend on stray capacitances and inductances.
O Duke i have some question, i search on the internet, to find how the circuits works, but i did not find something like this………..is possible to describe how work the circuit pleaseThis is an oscillator using Q1 and Q2 as the feedback circuit. It is a type of multivibrator.
The frequency is determined by the tank circuit consisting of L1 and capacitors to earth at each end. CV is variable to trim the frequency to the desired output frequency.
The frequency can be roughly calculated from the equation F=1/(2*pi*srt(L*C)). Take C=38pF. The actual frequency will also depend on stray capacitances and inductances.
I take from that book, but he dont explain, only that gate drain is configuret Q1 and Q2 Q3 source follower, Q2 is coupled via 22p and back to stage Q1, 18Ω resistor is to stop parastic oscillacition, more not, i still dont understand, for that i ask help, just little bit how it works.The description is on the page where you took the diagram from.
Duke i will like just to know how charge and discharge L1 and C just that i want to know thnxTo make an oscillator, the loop gain must be more than one. Normally, as here, the gain is much more than one but it is reduced when the amplitude reaches a limit. This high gain can generate high frequency parasitic oscillations which are not wanted. The 18Ω resistor will damp the high frequency circuit to give a loop gain of less than one. Resistors or lossy ferrite beads are used in critical positions which will depend on the devices used and the actual layout.
This question makes absolutely no sense in this contect. The circuit is an oscullator and C1 L1 will be "charged" and "discharged" alternatingly with a frequency of approx. 9 MHz.i will like just to know how charge and discharge L1 and C
Thats is right LC charge and discharge i know, but i never see something like this circuit, but like Duke say, after is feedback Q1 thrugh Q2, because i never use fet transistor, for that its new for me. and Q3 get signal from Q2 right? of not…..and Q3 is output?This question makes absolutely no sense in this contect. The circuit is an oscullator and C1 L1 will be "charged" and "discharged" alternatingly with a frequency of approx. 9 MHz.
Ah for that i ask , do i know of not., THANK YOU DUKEIn #6 you explain just how ir works. I do not see how to explain it further.
Q3 is fed AC through the 120pF capacitor. Q3 is a source follower where the transistor will give the same AC voltage out but be capable of higher currents, sufficient to drive 50Ω.