Select any diode from LTSpice Library. (The type of diode should either be RECTIFIER or SILICON) Create a Half-Wave Rectifier circuit. Use a resistor of 1000 Ohms. Input Voltage should be 85VAC - 50Hz, if the last number of your student number is ODD. Input Voltage should be 95VAC - 65Hz, if the last number of your student number is EVEN. Plot both the Input voltage and output voltage. Determine the Voltage drop across the diode by subtracting the output voltage to the input voltage peaks. Create a Bridge-Type Full Wave Rectifier Circuit. Repeat the steps done on the Half-Wave Rectifier circuit.
Select any diode from LTSpice Library. (The type of diode should either be RECTIFIER or SILICON) Create a Half-Wave Rectifier circuit. Use a resistor of 1000 Ohms. Input Voltage should be 85VAC - 50Hz, if the last number of your student number is ODD. Input Voltage should be 95VAC - 65Hz, if the last number of your student number is EVEN. Plot both the Input voltage and output voltage. Determine the Voltage drop across the diode by subtracting the output voltage to the input voltage peaks. Create a Bridge-Type Full Wave Rectifier Circuit. Repeat the steps done on the Half-Wave Rectifier circuit.
Chapter59: Motor Startup And Troubleshooting Basics
Section: Chapter Questions
Problem 12SQ: How is a solid-state diode tested? Explain.
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Question
- Select any diode from LTSpice Library. (The type of diode should either be RECTIFIER or SILICON)
- Create a Half-Wave Rectifier circuit.
- Use a resistor of 1000 Ohms.
- Input Voltage should be 85VAC - 50Hz, if the last number of your student number is ODD.
- Input Voltage should be 95VAC - 65Hz, if the last number of your student number is EVEN.
- Plot both the Input voltage and output voltage.
- Determine the Voltage drop across the diode by subtracting the output voltage to the input voltage peaks.
- Create a Bridge-Type Full Wave Rectifier Circuit.
- Repeat the steps done on the Half-Wave Rectifier circuit.
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