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 principles to prototype and test a voltmeter.
Backgrou
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 (Multisim).
Background In engineering, computer software is
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 voltage source is present, by the process of superpositio
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 multimeter
Laboratory Assignment
MILWAUKEE SCHOOL OF ENGINEE
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.
IX =
IY = 3.64 mA VX =
VY =
V
PART A. Calculations Us
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 should deflect exactly to the
right edge of the scale.
1
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 resistor , color code: red - red - brown)
= 219.5 Ohms
Ry (