<p> The Name of Your Course Procedure: Series-Parallel Circuit Construction & Testing with the Electrical Project Board</p><p>References: Your Textbook: Chapters 14 & 15 Names: ______</p><p>Tools Needed: DMM with test leads, inductive amps clamp</p><p>Directions : 1. Build the series - parallel circuit pictured below on the Electrical Project Board.</p><p>Instructor Check [ ] 2. Have the instructor approve the build.</p><p>3. Begin by making an un-powered resistance test of each load (bulb, resistor, diode, motor, LED). Record your results on the chart.</p><p>3. Power up the Electrical Project Board. Determine the OCV (open circuit voltage or source voltage). Record your results on the chart.</p><p>4. Determine the voltage available to each of the loads (consumers). Record the results.</p><p>5. Determine the voltage drops at each of the loads, the switch, and the ground wire. Record your results.</p><p>6. Open the circuit at the fuse. Insert the ammeter & measure amperage.</p><p>7. Use an inductive pick-up to verify the current flow at branch or leg.</p><p>8. Reconnect the fuse. Use an inductive amps clamp to verify the total circuit current flow at a wire leading from the fuse. Measure the current inductively at each branch. Record the current of each branch. Add them up to get the total circuit amperage</p><p>Instructor Check [ ] 9. Power down the Electrical Project Board. </p><p>Cold Resistance of Bulb1 _____ Voltage Available at Bulb1 _____ Voltage Drop of Bulb1 _____</p><p>Cold Resistance of Bulb2 _____ Voltage Available at Bulb2 _____ Voltage Drop of Bulb2 _____</p><p>Cold Resistance of Bulb3 _____ Voltage Available at Bulb3 _____ Voltage Drop of Bulb3 _____</p><p>Cold Resistance of Resistor1 _____ Voltage Available at Resistor1 _____ Voltage Drop of Resistor1 _____</p><p>Cold Resistance of LED1 _____ Voltage Available at LED1 _____ Voltage Drop of LED1 _____</p><p>Open Circuit Voltage _____ Voltage Drop of Ground Wire _____ Voltage Drop of Switch _____</p><p>Total Current at Fuse _____ Current Flow of Bulb Leg _____ Current Flow of LED Leg _____</p>