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Electronics Department:
Computer Based Training

The computer based training (CBT) portion of the courses utilized the latest in hardware and software.  We have 16 stations of LabVolt© equipment.  Each student has access to their own system in which to work on.  The software guides the student through the different topics, providing them with individual attention.  The software also guides the student through a series of experiments that supplement the theoretical portion.  This method of education is very "hands-on".  The constant interaction between the student and the software / hardware re-enforces the material being covered. 

LabVolt© course work covers a broad spectrum of topics.  The course work is completely self-contained, giving the student the ability to work at their own pace.  The student has the entire semester to complete the LabVolt© series, however they can finish this portion early if they put in extra time or have previous electronics experience and are able to move through it rapidly.

LabVolt© Course Work

DC/AC I DC / AC II Electronic Devices I Electronic Devices II Electronic Comm.

Trainer Familiarization   

Trainer Familiarization 

 Introduction to Semiconductors Junction FETs Trainer Familiarization 
Safety Safety Diodes & Half-Wave Rectification JFET Amplifier

JFET Current Source

 Safety
Electrical Quantities Series/Parallel Circuits Full-Wave Rectification & Filtering Unijunction Transistor

Intro to Analog Communication
Ohm’s Law

Delta & Wye

 Diode Wave Shaping & Zener Regulation Thyristors & Power Control Circuits

Silicon Controlled Rectifier (SCRs)

 AM Transmission
Series Resistance Thevenin Circuits Introduction to Transistor Amplifiers SCRs DC Control AM Reception

 Parallel Resistance

Inductance

 Common Base Amplifier SCR AC Control SSB Transmission
Series / Parallel Resistance Inductive Reactance Common Emitter Amplifier Triac Devices SSB Reception
Power in DC Circuits Capacitance Common Collector Amplifier

RC Coupling

The Operational Amplifier

Angle Modulation & Demodulation
DC Network Theorems

Capacitance Reactance

 Transistor Spec. Sheet The Inverting Amplifier

The Non-inverting Amplifier

 Phase-Locked Loop

Thevenin Circuits

 Transformers Bias Stabilization The Voltage Follower Intro to Digital Comm.
DC Power Sources RLC Circuits Transistor Load Lines & Gain The Inverting Summer

The Non-inverting Summer

 Pulse-Amplitude Modulation
Inductance

Series Resonance

   Low Pass Filter PAM Time-Division Multiplexing
Capacitance Parallel Resonance High Pass Filter Pulse-Time Modulation (PTM)
AC Waveform Generation Power in AC Circuits Band Pass Filter Pulse-Code Modulation (PCM)
AC Measurements Low Pass Filters   Delta Modulation (DM)
Transformers

High Pass Filters

 Line Coding

Inductive Reactance

 Band-pass Filters Frequency-Shift Keying
Capacitive Reactance  Band-stop Filters Phase Shift Keying

RLC Circuits

   Amplitude Shift Keying
  Effects of Noise
 

 

Digital Electronics Optoelectronics
Trainer Familiarization  Trainer Familiarization 
Safety Safety
Fundamental Logic Experiments Intro to Fiber Optic Comm.
Ex-OR/NOR Gates Fiber Optic Cable
Tri-State Output Optical Fiber
Flip-Flops Fiber Optic Transmitter
JK Flip-Flops Fiber Optic Receiver
TTL - CMOS Fiber Optic Systems
Open Collector Output

Analog Communications
Data Bus Control Digital Communications

 

Last Revised:   08/15/2008
Webmaster: Patrick Hoppe