Hi Princess,
I explained that if the collector/emitter current is higher at 2mA then the pre-emphasis capacitor value would be high requiring an electrolytic type of capacitor which has a poor tolerance of 50%. If the current is lower at only 20uA then the output impedance of the preamp would be too high and will have its level reduced when the lower impedance of the oscillator input loads it down. Therefore 200uA collector/emitter current was selected.
Hello sir.
Yes, I remembered that you taught me this. I understand this.
Pre-emphasis: America invented and began FM radio broadcasting a long time ago before other countries. In those days there were few high frequencies reproduced in music and speech. They wanted hiss from the radio system reduced a lot so they selected a lot of pre-emphasis, 75 micro-seconds.
Years later the rest of the world began trying FM but found that audio had improved and had much more high frequencies that caused the transmitters to produce distortion so they reduced the pre-emphasis to 50 micro-seconds. America already had many radios made with 75 micro-seconds de-emphasis so they did not change it and now high tech transmitter equalization makes it sound fine.
That is why my circuit has two values for C4.
Thank you for the history. I was not known to this. I was thinking why did you choose for values for C4.
C4 * R5 is the timeconstant of the preemphasis network (50us for europe, 75us for america), so that is easy.
I have calculated the value for Europe. Thank you again.
C1 and C3 are audio coupling caps and form high pass filters with their load impedances, each having a 3dB point of 1 / (2 * pi * R * C), with both load impedances being of the order of at least a few K ohms, 330n is more then large enough, giving into 10K ohm (Lower then any of the loads really are) a 3dB point of 50Hz.
Did not get it. Sorry teacher :-(
C2 we discused further up the thread.
where did we discussed it sir? :???:
I worry that a third year EE cannot figure this on their own.
These all work only can be seen by an experienced eye. when I will become an expert then I will tell others and other will ask me how do you know that we should use this value here blah blah.. then I will tell them it is my experience but I will try to teach them just like a child step by step.
Teachers and professors do not teach anything anymore. Instead they let the students copy the work of others or find somebody in a forum to teach them.
I agree. And during exam time they just ask MCQs while in my view they must give designing questions in the exam and teach design techniques in the class. But they don't.
Thank you both of you.
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I see. We discussed C2 but that was used with 100MHz of frequency. Is it corner frequency? If so then why did you say to use 50Hz?
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I assume all capacitors C1, C2 and C3 are calculated on the same frequency. Isn't it teacher?
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I calculated value of coupling capacitor below,
C = 1/(2 * pi * f * Xc)
C = 1/(2 * 3.142 * 50 * 10K)
C = 318.309nF
or
C = 330nF
Is it correct sir?
But still not getting why 3dB point lies at 50Hz of frequency. And why choose 10K or impedance. Why not above or below the 10K?
Thank you again