Circuit Analysis: Theory and Practice 2e : Laboratory ManualThe mathematical foundation and the practical application of circuit theory in this highly readable book will prove invaluable to students enrolled in electronics engineeringtechnology curriculum and professionals alike. This one-of-a-kind text provides comprehensive coverage of circuit analysis topics, including fundamentals of DC and AC circuits, methods of analysis, capacitance, inductance, magnetism, simple transients, and computer methods. Hundreds of step by step examples lead the user through the critical thinking processes required to solve problems. Two popular computer simulation packages, OrCAD PSpice Version 9 and Electronics Workbench are integrated throughout the book to support "what-if" situations. With the Online Companion, users can access a web site that contains RealAudio sound-clips that present more in-depth discussions of the most difficult topics covered in each chapter. |
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ac circuit adjust ammeter amplitude Assemble the circuit Calculate capacitance circuit of Figure Compare the measured completing this lab COMPONENTS Resistors compute Connect cuit cutoff frequency DATE CLASS LAB Electronics Workbench Enter the results EQUIPMENT REQUIRED EQUIPMENT USED Instrument Graph high-pass filter impedance inductance inductor input internal resistance kHz 8 kHz Kirchhoff's current law load resistance loading effect low-pass filter Manufacturer/Model Measure and record measure the voltage measure voltage measured currents measured value meter NAME DATE CLASS OBJECTIVES After completing Ohm's law ohmmeter oscilloscope Signal parallel percent variation phase angle phase shift phasor potentiometer power factor power supply probe PSpice R₁ R₂ reactance recorded in Table results in Table sensing resistor sinusoidal switch terminals TEXT REFERENCE Section Thévenin equivalent V₁ V₂ voltage and current voltage gain voltage source voltage VR voltmeter volts VOLTS/DIV wattmeter waveform zener diode ΚΩ