Maricopa Community Colleges  ELT113AB   19986-20086 
Official Course Description: MCCCD Approval: 07/22/08
ELT113AB 19986-20086 LEC
LAB 		2 Credit(s)
0 Credit(s) 		1.50 Period(s)
1.50 Period(s)
Basic Electronics II
Alternating current electrical circuits. Theory and practical lab experience, using the appropriate test equipment and computer solutions. Ohm's Law, Kirchhoff's Laws, and various network theorems applied to the study and analysis of series, parallel, and series-parallel circuit configurations. Includes complex algebra, impedance, frequency response, and resonance.
Prerequisites: ELT113AA.
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MCCCD Official Course Competencies:
 
ELT113AB   19986-20086 Basic Electronics II
1. Determine the frequency and period of a periodic function. (I)
2. Determine the peak, peak to peak, and RMS value of a sine wave. (I)
3. Determine phase angles. (I, II, III, V)
4. Define inductance. (II)
5. Calculate inductive reactance. (II)
6. Define capacitance. (III)
7. Calculate capacitive reactance. (III)
8. Use complex algebra, phasors, Ohm's Law and Kirchhoff's Voltage and Current Laws to solve for impedance, current, voltage, and power in ac series circuits. (IV)
9. Use the Superposition Theorem, Thevenin's Theorem, and other circuit analysis tools to solve for impedance, current, voltage, and power in ac parallel and series-parallel circuits. (IV)
10. Construct series, parallel, and series-parallel ac circuits. (IV)
11. Measure the circuit parameters of resistance, current, voltage, and power in series, parallel, and series- parallel circuits using an oscilloscope. (V)
12. Describe frequency response. (V)
13. Describe low, high, and bandpass filters operation. (VI)
14. Describe resonant circuits. (VI)
15. Describe transient analysis of RC circuits. (VII)
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MCCCD Official Course Outline:
 
ELT113AB   19986-20086 Basic Electronics II
    I. Alternating current and voltages
        A. The sine wave
        B. Frequency and period
        C. Amplitude
        D. Peak
        E. Peak to peak
        F. Rms
        G. Phase angle
      II. Inductance
          A. Self inductance
          B. Series and parallel configurations
          C. Reactance
          D. Q of a coil
          E. Phase angle
        III. Capacitance
            A. Storing charge
            B. Series and parallel configurations
            C. Reactance
            D. Phase angle
          IV. Alternating circuits
              A. Complex algebra
                1. The j operator
                2. Rectangular form
                3. Polar form
              B. Series
              C. Parallel
              D. Series-parallel
              E. Circuit analysis theorems
                1. Applications of Kirchhoff's Laws
                2. Superposition Theorem
                3. Thevenin's Theorem
              F. Power in ac circuits
            V. Measurement techniques
                A. Oscilloscope basics
                B. Voltage
                C. Time
                D. Frequency response
              VI. Filters
                  A. Low pass
                  B. High pass
                  C. Bandpass
                  D. Resonance
                  E. Q
                  F. Bandwidth
                VII. Transient analysis
                    A. RC circuits
                    B. Charging time
                    C. Discharging time
                    D. Time constant
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