Course Descriptions & Student Learning Outcomes

EIMT 52 - Solid State Control Lab

  • Prerequisite: "C" in ELEC 44 and in EIMT 46
  • Corequisite: ELEC 50

EIMT majors only. This is a lab course designed to give students a working knowledge and hands on experience with solid state control devices and systems. Students will learn how to install, maintain, troubleshoot, and repair a variety of solid state components and systems.

18 hrs. lab. per week

Student Learning Outcomes

Upon successful completion of EIMT 52, the student will be able to:

  • Exhibit basic electrical safety practices
  • Exhibit electrical safety equipment inspection procedures
  • Ise equipment Lock Out procedure
  • Inventory trainer
  • Identify symbols
  • Apply resistor color code
  • Use digital multimeter
  • Explain PN semiconductor construction
  • Test semiconductor diodes
  • Construct germanium diode characteristic curve
  • Construct silicon diode characteristic curve
  • Construct zener diode characteristic curve
  • Assemble half-wave rectifier
  • Operate oscilloscope
  • Assemble full-wave rectifier
  • Assemble full-wave bridge rectifier
  • Assemble rectifier ripple filter circuits
  • Calculate ripple factor
  • Assemble shunt voltage regulator
  • Calculate percentage of voltage regulation
  • Troubleshoot half-wave rectifier power supply with a voltmeter
  • Troubleshoot half-wave rectifier power supply with a oscilloscope
  • Troubleshoot full-wave rectifier power supply with a voltmeter
  • Troubleshoot full-wave rectifier power supply with a oscilloscope
  • Troubleshoot bridge rectifier power supply with a voltmeter
  • Troubleshoot bridge rectifier power supply with a oscilloscope
  • Identify transistor leads
  • Test transistors
  • Measure transistor current
  • Construct transistor power dissipation curve
  • Assemble transistor switch circuit
  • Assemble transistor timed switch circuit
  • Assemble light controlled transistor switch circuit
  • Assemble photocell transistor controlled relay circuit
  • Test SCR's
  • Assemble simple SCR alarm circuit
  • Assemble SCR annunciator circuit
  • Determine SCR gate firing current
  • Assemble SCR trigger circuit
  • Assemble UJT circuit
  • Assemble UJT relaxation oscillator
  • Assemble UJT trigger circuit
  • Program Baldor Series 10 inverter
  • Explain basic PLC operation
  • Start GE Fanuc Series 90-30 software
  • Configure a GE Series 90-30 PLC
  • Program GE Series 90-30 basic relay circuits
  • Program GE Series 90-30 timer circuits
  • Program GE Series 90-30 counter circuits
  • Program GE Series 90-30 master control relay
  • Program GE Series 90-30 jump function
  • Program GE Series 90-30 data moves and arithmetic functions
  • Program GE Series 90-30 relational functions
  • Program GE Series 90-30 bit sequencer function
  • Enter GE Series 90-30 variable declarations
  • Program GE Series 90-30 PLC single motor Start- Stop pushbutton control circuit
  • Program GE Series 90-30 PLC single motor timer-counter control circuit
  • Program GE Series 90-30 PLC two-motor interlocking control circuit
  • Program GE Series 90-30 PLC momentary input sequence control circuit
  • Program GE Series 90-30 Start-Stop sequence control circuit
  • Program GE Series 90-30 PLC annunciator alarm circuit
  • Program GE Series 90-30 PLC commercial washer control circuit
  • Program GE Series 90-30 PLC pulse generator cookie filling control circuit
  • Program GE Series 90-30 PLC three conveyor control circuit
  • Program GE Series 90-30 PLC Fishertechnik simulation model control circuit

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