Electronic Devices and Circuit Theory

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Presentation transcript:

Electronic Devices and Circuit Theory Boylestad DC Biasing - BJTs Chapter 4

Ch.4 Summary Biasing Biasing: Applying DC voltages to a transistor in order to turn it on so that it can amplify AC signals.

Operating Point Ch.4 Summary The DC input establishes an operating or quiescent point called the Q-point.

The Three Operating Regions Ch.4 Summary The Three Operating Regions Active or Linear Region Operation Base–Emitter junction is forward biased Base–Collector junction is reverse biased Cutoff Region Operation Base–Emitter junction is reverse biased Saturation Region Operation Base–Collector junction is forward biased

DC Biasing Circuits Ch.4 Summary Fixed-bias circuit Emitter-stabilized bias circuit Collector-emitter loop Voltage divider bias circuit DC bias with voltage feedback

Ch.4 Summary Fixed Bias

The Base-Emitter Loop Ch.4 Summary From Kirchhoff’s voltage law: +VCC – IBRB – VBE = 0 Solving for base current:

Collector-Emitter Loop Ch.4 Summary Collector-Emitter Loop Collector current: From Kirchhoff’s voltage law:

Ch.4 Summary Saturation When the transistor is operating in saturation, current through the transistor is at its maximum possible value.

Load Line Analysis Ch.4 Summary ICsat VCEcutoff The load line end points are: ICsat IC = VCC / RC VCE = 0 V VCEcutoff VCE = VCC IC = 0 mA The Q-point is the operating point where the value of RB sets the value of IB that controls the values of VCE and IC .

The Effect of VCC on the Q-Point Ch.4 Summary The Effect of VCC on the Q-Point

The Effect of RC on the Q-Point Ch.4 Summary The Effect of RC on the Q-Point

The Effect of IB on the Q-Point Ch.4 Summary The Effect of IB on the Q-Point

Emitter-Stabilized Bias Circuit Ch.4 Summary Emitter-Stabilized Bias Circuit Adding a resistor (RE) to the emitter circuit stabilizes the bias circuit.

Base-Emitter Loop Ch.4 Summary From Kirchhoff’s voltage law: Since IE = ( + 1)IB: Solving for IB:

Collector-Emitter Loop Ch.4 Summary Collector-Emitter Loop From Kirchhoff’s voltage law: Since IE  IC: Also:

Improved Biased Stability Ch.4 Summary Improved Biased Stability Stability refers to a condition in which the currents and voltages remain fairly constant over a wide range of temperatures and transistor Beta () values. Adding RE to the emitter improves the stability of a transistor.

Saturation Level Ch.4 Summary VCEcutoff: ICsat: The endpoints can be determined from the load line. VCEcutoff: ICsat:

Voltage Divider Bias Ch.4 Summary This is a very stable bias circuit. The currents and voltages are nearly independent of any variations in .

Approximate Analysis Ch.4 Summary Where IB << I1 and I1  I2 : Where RE > 10R2: From Kirchhoff’s voltage law:

Voltage Divider Bias Analysis Ch.4 Summary Voltage Divider Bias Analysis Transistor Saturation Level Load Line Analysis Cutoff: Saturation:

DC Bias With Voltage Feedback Ch.4 Summary DC Bias With Voltage Feedback Another way to improve the stability of a bias circuit is to add a feedback path from collector to base. In this bias circuit the Q-point is only slightly dependent on the transistor beta, .

Base-Emitter Loop Ch.4 Summary From Kirchhoff’s voltage law: Where IB << IC: Knowing IC = IB and IE  IC, the loop equation becomes: Solving for IB:

Collector-Emitter Loop Ch.4 Summary Collector-Emitter Loop Applying Kirchoff’s voltage law: IE + VCE + I’CRC – VCC = 0 Since IC  IC and IC = IB: IC(RC + RE) + VCE – VCC =0 Solving for VCE: VCE = VCC – IC(RC + RE)

Base-Emitter Bias Analysis Ch.4 Summary Base-Emitter Bias Analysis Transistor Saturation Level Load Line Analysis Cutoff Saturation

Transistor Switching Networks Ch.4 Summary Transistor Switching Networks Transistors with only the DC source applied can be used as electronic switches.

Switching Circuit Calculations Ch.4 Summary Switching Circuit Calculations Saturation current: To ensure saturation: Emitter-collector resistance at saturation and cutoff:

Ch.4 Summary Switching Time Transistor switching times:

Troubleshooting Hints Ch.4 Summary Troubleshooting Hints Approximate voltages Test for opens and shorts with an ohmmeter. Test the solder joints. Test the transistor with a transistor tester or a curve tracer. Note that the load or the next stage affects the transistor operation. VBE  .7 V for silicon transistors VCE  25% to 75% of VCC

PNP Transistors Ch.4 Summary The analysis for pnp transistor biasing circuits is the same as that for npn transistor circuits. The only difference is that the currents are flowing in the opposite direction.