This preview shows pages 1–3. Sign up to view the full content.
This preview has intentionally blurred sections. Sign up to view the full version.
View Full Document
Unformatted text preview: Problem 1 : DC IV Characteristics (10 pts) Draw the DC IV characteristics for figures 12. (5 pts each) (DC in this case means nothing else than that a particular voltage or current has been applied for a long time such that all transients have died out until we measure the resulting current or voltage respectively) Make sure you label your graph such that the characteristics are completely defined (the shape of curve alone is not good enough) 5 [] 3 [A] I + V Figure 1. 5 [V] I + V 0.1 [H] 22 [uF] Figure 2. I V I V 3A (A) (V) 5 V (A) (V) Problem 2: Thevenin and Norton Circuits (20 pts) 6 [] 2 [] 4 [V] 8 [] 10 [A] 5 [A] Figure 3. a) Determine R th of the circuit shown in Figure 3 (show your work) (6pts) Step 1: Zero out all independent sources Step 2: Reduce resistor network using series/parallel resistor combinations R th = 4[ ] Series: R eq = R 1 + R 2 : R eq = 6 +2 = 8 Parallel: = 1 2 1 + 2 : = 8 8 8 +8 = 4 b) Determine V...
View
Full
Document
This note was uploaded on 10/24/2009 for the course EE 40 taught by Professor Changhasnain during the Fall '07 term at University of California, Berkeley.
 Fall '07
 ChangHasnain
 Volt

Click to edit the document details