- Lab 9 Norton S Equivalent Circuit Lab Summary The Purpose Of This Experiment Is To Determine The Norton Equivalent Circ 1 (20.73 KiB) Viewed 45 times
- Lab 9 Norton S Equivalent Circuit Lab Summary The Purpose Of This Experiment Is To Determine The Norton Equivalent Circ 2 (26.08 KiB) Viewed 45 times
- Lab 9 Norton S Equivalent Circuit Lab Summary The Purpose Of This Experiment Is To Determine The Norton Equivalent Circ 3 (24.23 KiB) Viewed 45 times
- Lab 9 Norton S Equivalent Circuit Lab Summary The Purpose Of This Experiment Is To Determine The Norton Equivalent Circ 4 (21.82 KiB) Viewed 45 times
LAB 9: Norton's Equivalent Circuit Lab Summary The purpose of this experiment is to determine the Norton equivalent circuit of a given network experimentally and theoretically Equipment Power Supply (PS) - Keysight E36311A • Digital Multimeter (DMM) - Keysight 34450A • A Breadboard Resistors: 1ΚΩ (1), 2.7KΩ (1), 3.3 ΚΩ (1), 4.7ΚΩ (1), 6.8ΚΩ (1) Jumper wires . .
LAB procedure: 1. Measure and record the resistances of all 3 resistors in Circuit 1 below. Ri= R2= R3= 2. Build the circuit below on the breadboard. R1 A 1ΚΩ R3 W 4.7.12 R2 >2.7k12 I 10V - B Circuit 1
R2 33.3k R4 2.7kΩ А в 10V = I R3 $6.820 R5 4.7ΚΩ HI Circuit 2 6. Measure and record the Norton resistance and current for terminal A and B specified in Table 2. 7. Using the measured resistances and any analysis method to find the Norton resistances and currents in Table 1 and Table 2
Table 1 Measured Theoretical % Error Circuit 1 RN VN I Table 2 Measured Theoretical %Error Circuit 2 RN VN