Chapter 4 problems: Difference between revisions

Latest revision as of 11:36, 5 March 2010

We want to establish a DC operating point for the BJT. Writing a loop equation gives us -V_BB-V_in(t)+i_BR_B+v_BE=0. To form a load line, we will let v_in(t)=0 & i_B=0. Thus v_BE=V_BB+v_in(t) and i_B(t)=(V_BB+v_in(t))/R_B

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 *We want to establish a DC operating point for the BJT. Writing a loop equation gives us -V<sub>BB</sub>-V<sub>in</sub>(t)+i<sub>B</sub>R<sub>B</sub>+v<sub>BE</sub>=0. To form a load line, we will let v<sub>in</sub>(t)=0 & i<sub>B</sub>=0. Thus v<sub>BE</sub>=V<sub>BB</sub>+v<sub>in</sub>(t) and i<sub>B</sub>(t)=(V<sub>BB</sub>+v<sub>in</sub>(t))/R<sub>B</sub>
 :*<math>V_{in}=-0.2, 0, 0.2</math> for the minimum, Q-point and maximum values.
+:{| class="wikitable" border="1" align="center"
+|+
+! <math>v_{in}</math> V!! <math>V_{BE} </math> V!! <math>i_B</math> uA
+|-
+| -.2|| .45 || 2
+|-
+| 0|| .58 || 5
+|-
+| .2 || .62 || 10
+|}
+*Writing a loop equation for the output: <math>-V_{CC}+R_CI_C+V_{CE}=0</math>.
+:{|  class="wikitable" border="1" align="center"
+|+
+! <math>v_{in}</math> V!! <math>V_{CE}</math> V !! <math>i_C</math> mA
+|-
+| -.2|| 19 || .8
+|-
+| 0|| 16|| 2
+|-
+| .2 || 12 || 4
+|}
+*<math>A_v \cong (19-12)/.4=12.5</math>
 ===4.34===