MILWAUKEE SCHOOL OF ENGINEERING
EE-2050
EE-2050 LABORATORY
EXPERIMENT 3 Week 3
METER DESIGN
Learning Outcomes Analyze DC circuits using equivalent resistance and other analysis
methods. Use electrical
MILWAUKEE SCHOOL OF ENGINEERING
EE-2050
EE-2050 LABORATORY
Week 6
Computer Circuit Simulation MULTISIM for DC Analysis
Learning outcomes To analyze DC electric circuits using a simulation program (Mul
MILWAUKEE SCHOOL OF ENGINEERING
EE 2050
EE 2050 LABORATORY
EXPERIMENT 5 Week 7
SUPERPOSITION
Learning outcomes: Calculate and verify experimentally circuit voltages and currents,
when more than one vo
MILWAUKEE SCHOOL OF ENGINEERING
Katie Donahoe EE-2050
EE-2050 LABORATORY
Week 5
PreLab
Measure V with Agilent Multimeter
Measure V & I with measure probe
Measure V with multimeter
Measure I with multi
EE 2050 LABORATORY
Week 6
SUPERPOSITION
Pre-Lab (do this before lab):
Without Superposition, calculate the voltages and currents in each branch of the circuit of
Figure 1 using the node-voltage method
EE-2050 LABORATORY
EXPERIMENT 3 Week 3
Meter resistance = 88.6 ohms.
Now, set up the circuit in Fig. 4. Connect the
meter leads so that the meter pointer deflects
toward the right.
The meter pointer s
EE 2050 LABORATORY: EXPERIMENT 2 Week 2
Procedure:
A. Voltage/Current relationship in a Series Circuit.
1. (a) Measure the resistance (using an Ohmmeter) of each of the two resistors:
Rx (220 Ohm resi