In the book Electronic Devices and Circuit Theory by Robert Boylestad, I can not understand few lines.
Q1) Here, to fully understand common base amplifiers why we required two sets of characteristics? what is the importance of the second characteristic?
Q2) Why output set consider Output current(Ic) to an output voltage(VCB) for various levels of input currents(IE)? What is the problem if I wanted to consider Output current(Ic) to an output voltage(VCB) for various levels of input voltage(VBE?
Hello there,
This is what happens when you get these side track books that try to explain things in a way that makes it hard to understand and what they show you is often just a single way to view that type of circuit so when you go to do another circuit you need a whole 'nother chapter just for that.
The best way to learn is to go to the root of the problem in the most fundamental way, while at the same time keeping the reference model simple.
This this end, a bipolar transistor can be modeled as a current controlled current source with a particular gain we call the Beta, and it's usually between 10 and 150, but could be a bit lower or a bit higher. In any case, you choose one Beta and go with that. Since typical values are 10, 50, and 100, you could start out with 50 and go from there. This way you get a really simple circuit that will actually show you many of the characteristics of any circuit used for amplification, and even for switching but that would be an overkill for this model.
With the CCCS (current controlled current source) you use one sense input as the base and the other connected to the emitter which is also one of the outputs of the CCCS. Other output terminal of the CCCS is the collector. For an NPN, the current arrow would point downward (to start with) so the more base current you provide the more current flows down through the collector into the emitter mixing with the base current and that makes up the emitter current.
This concept is extremely simple. You just have to know how a CCCS works, and if you dont, you can find out easily by asking here or looking on the web.
What i can promise you is you will not have a problem with bipolar transistors after you analyze a couple circuits with the CCCS in it. The basic operation will stand out and you can apply that directly to many amplifier circuits without modification.
One modification that is common though is to add a diode in series with the base to represent the base emitter diode. That in turn can be modeled as a voltage source, but dont worry about that until you've worked with the stand alone CCCS as the transistor.
If you need help with this i would be happy to help or you could ask more about this in this forum. It just so happens that i am currently working with another student on this very same topic and using this very model.
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