EE105 Fall 2007Lecture 9, Slide 1Prof. Liu, UC Berkeley Lecture 9 OUTLINE BJT Amplifiers (cont’d) – Common-base topology – CB core – CB stage with source.

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EE105 Fall 2007Lecture 9, Slide 1Prof. Liu, UC Berkeley Lecture 9 OUTLINE BJT Amplifiers (cont’d) – Common-base topology – CB core – CB stage with source resistance – Impact of base resistance Reading: Chapter ANNOUNCEMENTS Friday discussion section (103) has been moved back to 5 Evans. HW#5 is now posted. List of frequently misunderstood/forgotten points has been updated.

EE105 Fall 2007Lecture 9, Slide 2Prof. Liu, UC Berkeley Common Base (CB) Amplifier The base terminal is biased at a fixed voltage; the input signal is applied to the emitter, and the output signal sensed at the collector.

EE105 Fall 2007Lecture 9, Slide 3Prof. Liu, UC Berkeley Small-Signal Analysis of CB Core The voltage gain of a CB stage is g m R C, which is identical to that of a CE stage in magnitude and opposite in phase.

EE105 Fall 2007Lecture 9, Slide 4Prof. Liu, UC Berkeley Tradeoff between Gain and Headroom To ensure that the BJT operates in active mode, the voltage drop across R C cannot exceed V CC -V BE.

EE105 Fall 2007Lecture 9, Slide 5Prof. Liu, UC Berkeley Simple CB Stage Example V CC = 1.8V I C = 0.2mA I S = 5x A  = 100

EE105 Fall 2007Lecture 9, Slide 6Prof. Liu, UC Berkeley Input Impedance of a CB Stage The input impedance of a CB stage is much smaller than that of a CE stage.

EE105 Fall 2007Lecture 9, Slide 7Prof. Liu, UC Berkeley CB Stage with Source Resistance With the inclusion of a source resistance, the input signal is attenuated before it reaches the emitter of the amplifier; therefore, the voltage gain is lowered. – This effect is similar to CE stage emitter degeneration.

EE105 Fall 2007Lecture 9, Slide 8Prof. Liu, UC Berkeley Practical Example of a CB Stage An antenna usually has low output impedance; therefore, a correspondingly low input impedance is required for the following stage.

EE105 Fall 2007Lecture 9, Slide 9Prof. Liu, UC Berkeley Output Impedance of a CB Stage The output impedance of a CB stage is equal to R C in parallel with the impedance looking into the collector.

EE105 Fall 2007Lecture 9, Slide 10Prof. Liu, UC Berkeley Output Impedance: CE vs. CB Stages The output impedances of emitter-degenerated CE and CB stages are the same. This is because the circuits for small-signal analysis are the same when the input port is grounded.

EE105 Fall 2007Lecture 9, Slide 11Prof. Liu, UC Berkeley A v of CB Stage with Base Resistance (V A = ∞) With base resistance, the voltage gain degrades.

EE105 Fall 2007Lecture 9, Slide 12Prof. Liu, UC Berkeley Voltage Gain: CE vs. CB Stages The magnitude of the voltage gain of a CB stage with source and base resistances is the same as that of a CE stage with base resistance and emitter degeneration.

EE105 Fall 2007Lecture 9, Slide 13Prof. Liu, UC Berkeley R in of CB Stage with Base Resistance (V A = ∞) The input impedance of a CB stage with base resistance is equal to 1/g m plus R B divided by (  +1). This is in contrast to a degenerated CE stage, in which the resistance in series with the emitter is multiplied by (  +1) when seen from the base.

EE105 Fall 2007Lecture 9, Slide 14Prof. Liu, UC Berkeley Input Impedance Seen at Emitter vs. Base Common Base StageCommon Emitter Stage

EE105 Fall 2007Lecture 9, Slide 15Prof. Liu, UC Berkeley Input Impedance Example To find R X, we have to first find R eq, treat it as the base resistance of Q 2 and divide it by (  +1).