I am suppose to design a colpitt's oscillator with an oscillating frequency of 1Mhz, but im not getting any output, please someone,help me..i need some explaination aswell..im using C1:0.01uF,C2:0.1uF,L:2.789uH..maybe it is my resistors?im not sure, im really new at this..im suppose to do this with an op amp, so i'd appreciate it if we just stick to that..any help would be great.
Where did you get the circuit and component values? You apparently know how to calculate an oscillation frequency, but do you understand how it's related to OP dara?
Seriously, do you expect that an OP with less than 1 MHz GBW is working in an 1 MHz oscillator? Other than the Falstad simulator, Multisim uses a LM741 model with bandwidth linitation.
Seriously, do you expect that an OP with less than 1 MHz GBW is working in an 1 MHz oscillator? Other than the Falstad simulator, Multisim uses a LM741 model with bandwidth linitation.
My National Semiconductor databook (1982 edition) gives 1.5 MHz as the bandwidth. I suppose a 1 MHz oscillator is near the limit of its capability. However in this circuit the op amp is only needed to boost the oscillations a little. Its output (pin 6) is an AC square wave, through a 100k resistor. I don't know how demanding an application this should be considered for a 741.
I should have pointed out that Falstad's uses ideal components.
The link below is my simulation as a runnable link.
My National Semiconductor databook (1982 edition) gives 1.5 MHz as the bandwidth. I suppose a 1 MHz oscillator is near the limit of its capability. However in this circuit the op amp is only needed to boost the oscillations a little. Its output (pin 6) is an AC square wave, through a 100k resistor. I don't know how demanding an application this should be considered for a 741.
I guess, you don't want to establish a new theory of oscillator operation, but the feedback amplifier must achieve a loop gain of > 1 to maintain oscillations. That's impossible in this circuit even with 1.5 MHz GBW.
I should have pointed out that Falstad's uses ideal components.
That's is in fact the only chance to see oscillations in this circuit. Besides real LM741 properties, also the required inductor Q makes it unlikely to see oscillations in a real circuit with the shown component values.
I guess, you don't want to establish a new theory of oscillator operation, but the feedback amplifier must achieve a loop gain of > 1 to maintain oscillations. That's impossible in this circuit even with 1.5 MHz GBW.
so basically why my circuit is not producing any outputs is because of my op amp? guys ive tried using Falstad for the first time and im not getting any outputs like you guys got, is there something i should include? what does "Its output (pin 6) is an AC square wave" mean? thanks a bunch for the info btw
so basically why my circuit is not producing any outputs is because of my op amp? guys ive tried using Falstad for the first time and im not getting any outputs like you guys got, is there something i should include? what does "Its output (pin 6) is an AC square wave" mean? thanks a bunch for the info btw
My clickable link should contain all the parameters which allow the oscillator to run, even at 1 MHz.
However the oscillations start out very weak. It takes several hundred cycles for the amplitude to build up to 1V. The speed may need to be set higher.
what does "Its output (pin 6) is an AC square wave" mean?
It applies to the normal 8-pin dual in-line package. This Colpitts version needs for a bipolar supply to be hooked up. This allows the output to go negative and positive. It has to provide true AC in order to give the LC tank loop a boost every cycle.
Going back to your schematic, it has a UA741MU op amp. It looks like it should be a garden variety 741. However its pins are connected differently. Check the pinouts. You may want to try a different model.