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Catalog 2023-2024 [ARCHIVED CATALOG]
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ELT 142 Semiconductor Optoelectronic Devices Lecture Hours: 2 Lab Hours: 3 Credits: 3
Covers the fundamentals of basic diode rectifier, multiplier, and transistor voltage regulators and current limiting circuits. Introduces the operating principles of solid-state devices such as unijunction transistors, special purpose diodes, photovoltaic cells, thyristors, and optoelectronic devices. Promotes and supports sustainable and green technologies.
Prerequisite: ELT 141 with a grade of C or better; or consent of instructor. Student Learning Outcomes:
- Perform basic design calculations on diode rectifier circuits and discrete-component, simple series-pass power supply regulator circuits including current limiting.
- Analyze, build, and troubleshoot discrete rectifier power supplies including voltage multipliers, and discrete voltage regulator circuits, with and without current limiting.
- Analyze, build, troubleshoot, and perform basic calculations for circuit designs using solid state switching, triggering, and power control components such as UJTs, SCRs, TRIACs, and optoelectronic devices.
- Analyze, build, troubleshoot, and perform basic calculations for circuit designs using photovoltaic cells.
- Interpret technical data sheets of different devices to assemble, test, and evaluate the designed semiconductor device circuits, and produce technical lab reports.
Content Outline
- Basic Rectifier Circuits
- Rectifier diode specifications
- Peak inverse voltage
- Forward voltage drop
- Peak forward current
- Half-wave rectification
- Output voltage - peak and average
- Output load current
- Diode PIV requirements
- Ripple voltage and frequency
- Ripple factor
- Full-wave (FWCT) rectification
- Output voltage - peak and average
- Output load current
- Diode PIV requirements
- Ripple voltage and frequency
- Ripple factor
- Bridge rectifier circuits
- Bridge circuit operation
- Positive output bridge
- Negative output bridge
- Diode PIV requirements
- Plus-minus output bridge (FWCT bridge)
- Advantages of bridge circuits
- Applications of various rectifier circuits
- Rectifier Filter Circuits
- Capacitive input filters
- Capacitive filters (RC filters) for half- and full-wave rectifiers
- Diode requirements for capacitive input filter circuits
- Ripple factor in half- and full-wave RC filter circuits
- Peak and average load currents and surge current protection for diodes
- Peak and average load voltages for capacitive input filter circuits
- The pi (π) CRC filter circuit
- Peak load current, voltage, and ripple factor for the pi (π) CRC filter
- Advantages and disadvantages and applications of RC and pi (π) CRC filters
- Inductive input filters
- Inductive filters (LC filters) for half- and full-wave rectifiers
- Diode requirements for inductive input filter circuits
- Ripple factor in half- and full-wave LC filter circuits
- Peak and average load currents and surge current protection for diodes
- Peak and average load voltages for inductive input filter circuits
- The pi (π) CLC filter circuit
- Peak load current and voltage and ripple factor for the pi CLC filter
- Advantages and disadvantages and applications of LC and pi CLC filters
- Voltage Multiplier Circuits
- Peak detectors
- Peak-to-peak detectors
- Half-wave voltage doublers
- Half-wave voltage triplers and quadruplers
- Full-wave voltage doublers
- Zener Voltage Regulators
- Zener diode
- Theory of operation
- Specifications
- Zener shunt regulators
- Theory of operation
- Current limiting resistance
- Zener current and voltage operating ranges
- Zener series regulators
- Theory of operation
- Applications
- Transistor Voltage Regulators
- Series-pass voltage regulators
- Theory of operation
- The SPE-series pass element
- Input to output minimum required voltage differential
- The control element of the regulator
- Voltage reference section
- Voltage error detection section
- Fixed voltage regulator
- Variable voltage regulator
- Adding a darlington circuit for improved control
- Current limiting circuits
- Short circuit protection
- Foldback current limiting with short circuit protection
- Unijunction Circuits
- UJT transistors
- Basic Construction, Operation, and Circuit Symbol
- Interbase Resistance
- Intrinsic Standoff Ratio
- Peak and valley voltages and currents
- UJT application circuits
- Relaxation oscillator
- Sawtooth waveform generator
- Trigger source for a SCR lighting control system
- UJT circuit parameters for design
- Programmable unijunction transistors
- Basic construction, operation, and symbol
- Electrical characteristics and specifications
- Application circuits
- Thyristor Devices and Circuits
- The silicon controlled rectifier
- Basic construction, operation, and circuit symbol
- Electrical characteristics and specifications
- Applications
- The SCS-silicon controlled switch
- Basic construction, operation, and circuit symbol
- Electrical characteristics and specifications
- Applications
- The SUS-silicon Unilateral Switch
- Basic construction, operation, and circuit symbol
- Electrical characteristics and specifications
- Applications
- The SBS-silicon bilateral switch
- Basic construction, operation, and circuit symbol
- Electrical characteristics and specifications
- Applications
- The TRIAC
- Basic construction, operation, and circuit symbol
- Electrical characteristics and specifications
- Triggering and phase-control
- Determining conduction and firing angles
- Applications of TRIACs
- Optoelectronic Devices
- LED’s
- Photo transistors
- Photo diodes
- LASCR’s
- Optocouplers
- Photo cells
- Photovoltaic Cells
- Basic construction, operation, and circuit symbol
- Electrical characteristics and specifications
- Applications
- Special Purpose Diodes
- Varactor
- Schottky
- Tunnel
- PIN, step recovery, IMPATT, gunn
- Other Microwave/Communication Semiconductor Diodes
- Relation to Sustainable and Green Technologies
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