Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Transistors-II
Document related concepts
Surge protector wikipedia , lookup
Josephson voltage standard wikipedia , lookup
Integrating ADC wikipedia , lookup
Nanofluidic circuitry wikipedia , lookup
Power electronics wikipedia , lookup
Resistive opto-isolator wikipedia , lookup
Valve RF amplifier wikipedia , lookup
Power MOSFET wikipedia , lookup
Two-port network wikipedia , lookup
Current source wikipedia , lookup
Switched-mode power supply wikipedia , lookup
Schmitt trigger wikipedia , lookup
History of the transistor wikipedia , lookup
Transistor–transistor logic wikipedia , lookup
Wilson current mirror wikipedia , lookup
Operational amplifier wikipedia , lookup
Opto-isolator wikipedia , lookup
Transcript
TRANSISTOR BY: Sai Kiran Reddy Dwarampudi Recall p-n junction W + P N N P W - + - Vappl < 0 Vappl > 0 Forward bias, + on P, - on N (Shrink W, Vbi) Reverse bias, + on N, - on P (Expand W, Vbi) Allow holes to jump over barrier into N region as minority carriers Remove holes and electrons away from depletion region I I V V Transistor • Trans—relation b/w input and output • Istor—is taken from the RESISTOR • Output resistance by input resistance Origin of the names • the Emitter 'emits' the electrons which pass through the device • the Collector 'collects' them again once they've passed through the Base • ...and the Base?... Currents Conventional View types • • • • Bc 107---driver stage 2n2222--switching Bc547 Bc548 CONFIGURATIONS • • • COMMON BASE COMMON COLLECTOR COMMON EMITTER Common Base NPN Common Collector NPN How does IC vary with VCE for various IB? Note that both dc sources are variable Set VBB to establish a certain IB Common Emitter NPN Common Emitter Characteristics • We can therefore draw an input characteristic (plotting base current IB against base-emitter voltage VBE) and • an output characteristic (plotting collector current Ic against collector-emitter voltage VCE) IDEAL CE INPUT (Base) Characteristics IDEAL CE OUTPUT (Collector) Characteristics ACTUAL CE OUTPUT Characteristics IB = Various Regions (Modes) of Operation of BJT Active: • Most important mode of operation • Central to amplifier operation • The region where current curves are practically flat Saturation: • Barrier potential of the junctions cancel each other out causing a virtual short (behaves as on state Switch) Cutoff: • Current reduced to zero • Ideal transistor behaves like an open switch * Note: There is also a mode of operation called inverse active mode, but it is rarely used. DC and DC = Common-emitter current gain = Common-base current gain = IC = IC IB IE The relationships between the two parameters are: = = +1 1- Note: and are sometimes referred to as dc and dc because the relationships being dealt with in the BJT are DC. The DC Operating Point For a transistor circuit to amplify it must be properly biased with dc voltages. The dc operating point between saturation and cutoff is called the Q-point. The goal is to set the Q-point such that that it does not go into saturation or cutoff when an a ac signal is applied. NEED FOR STABLIZING Q-POINT • Ambience temperature • Human Error • Cut-in voltage [ -2.5mv/c] STABILITY FACTOR: Measure of stability of operating point biasing • • • • Fixed bias Collector to base bias Fixed bias with emitter resistor Self bias or voltage divider bias Fixed Bias Collector to base bias Emitter Bias Self bias Transistors as Switches
