Content Strand: Applied Academics CT-ET1-1 analysis of electronic A. Fractions and decimals B. Powers of 10 and engineering notation C. Formula based problem solutions D. Powers and roots E. Linear equations F. Trigonometry of the right triangle G. Cartesian coordinates CT-ET1-2 Apply scientific concepts to the description and analysis of electronic devices: A. Structure of matter B. Atomic structure C. Behavior of charged particles D. Magnetism and magnetic effects E. Conductors, semiconductors, and insulators CT-ET1-3 Develop skills necessary to read, CT-ET1-4 Develop skills necessary to use CT-ET1-5 CT-ET2-1 analysis of electronics A. Formula based problems B. Linear equations C. Linear and non-linear graphs D. Numerical data sheets CT-ET2-2 Demonstrate ability to use the scientific method to diagnose electronic systems. CT-ET2-3 Demonstrate ability to read, CT-ET2-4 Demonstrate ability to use CT-ET2-5 CT-ET3-1 analysis of electronics A. Formula based problem solutions B. Linear equations C. Linear and non-linear graphs D. Interpret data sheets CT-ET3-2 digital-based number systems: A. Binary B. Octal C. Hexadecimal D. Binary coded decimal CT-ET3-3 Demonstrate ability to read, CT-ET3-4 Demonstrate ability to use CT-ET3-5
Content Strand: Personal Development CT-ET1-6 CT-ET1-7 CT-ET1-8 CT-ET1-9 CT-ET1-10 CT-ET1-11 Practice the techniques of effective individualized instruction: A. Note taking B. Problem solving C. Lab performance D. Computer assisted instruction E. Time management CT-ET1-12 Create a portfolio of personal work that can be used for job acquisition. CT-ET2-6 CT-ET2-7 CT-ET2-8 CT-ET2-9 CT-ET2-10 CT-ET2-11 industry standards, codes, and regulations. CT-ET2-12 Expand portfolio to include work samples from the second year program. CT-ET3-6 CT-ET3-7 CT-ET3-8 CT-ET3-9 CT-ET3-10 CT-ET3-11 Analyze current legal and ethical issues associated with the field of electronics. CT-ET3-12 Expand portfolio to include work samples from the third year program.
CT-ET1-13 Demonstrate the proper care and safe use of electronics equipment: A. Variable voltage power supplies B. Multimeters C. Signal generators D. Oscilloscopes E. Soldering materials F. Trainers and experiment boards CT-ET1-14 direct current (DC) theory: A. Atomic structure of matter B. Ohm=s Law concepts C. Kirchoff=s Law concepts D. Power and energy CT-ET1-15 Recognize the components, design, functions, and uses of DC A. Schematics and symbols B. Series configurations C. Parallel configurations D. Power sources E. Fixed resistors F. Potentiometers G. Rheostats H. Switches I. Voltage dividers J. Amp meters K. Volt meters L. Ohm meters CT-ET1-16 analyze complex DC CT-ET2-13 the functions and uses of bipolar junction transistor (BJT) amplifier A. Principles of amplification B. Coupling C. Common base D. Common emitter E. Common collector F. Darlington pair CT-ET2-14 analyze BJT amplifier CT-ET2-15 BJT power amplifier A. Principles of amplification B. Operating characteristics C. Coupling D. Single-ended F. Phase splitter F. Push-pull G. Complementary ET-ET2-16 analyze BJT power amplifier CT-ET2-17 BJT amplifier feedback A. Gain B. Bandwidth C. Input/output impedance D. Series E. Shunt F. Shunt-series multistage G. Differential amplifiers CT-ET3-13 operational amplifiers: A. Wave shaping B. Filtering C. Voltage to current conversion CT-ET3-14 analyze operational amplifiers. CT-ET3-15 digital logic fundamentals: A. Codes B. Numbering systems C. Logic Functions D. Logic gates E. Flip-flops F. Schmitt trigger G. Tri-state devices CT-ET3-16 analyze digital logic devices and gates: A. TTL B. CMOS C. AND / NAND D. OR / NOR E. NOT F. XOR / XNOR G. Flip-flops H. Latches I. Schmitt trigger
CT-ET1-17 alternating current (AC) theory: A. Magnetism B. Electromagnetism C. Sine Wave D. Nonsinusoidal waveforms E. Capacitance F. Inductance G. Transformers H. RC, RL, and RLC circuits CT-ET1-18 Examine the operational characteristics and applications of AC A. Ohm=s Law quantities B. Real and apparent power C. Phase relationships D. Frequency response E. Time constants F. Waveform parameters G. Transformer ratios CT-ET1-19 Use instruments to test AC A. Signal generator B. Ohm-Amp-Volt meters C. Oscilloscope CT-ET1-20 analyze complex AC CT-ET2-18 analyze BJT amplifier feedback CT-ET2-19 power supply regulation A. Shunt B. Series C. Current D. Feedback E. Three-terminal ICs F. DC to DC converter CT-ET2-20 analyze power supply regulation CT-ET2-21 field effect, optical, and thermistor devices and A. JFETs B. MOSFETs C. UJTs D. Thermistors E. Photo resistors F. Fiber optics G. Biasing H. Dynamic curves I. Voltage gain J. Current Sourcing K. Amplification L. Wave shaping CT-ET3-17 digital devices: A. Counters B. Shift registers C. Adders D. Decoders E. Encoders F. A/D & D/A converters G. Multiplexers & demultiplexers H. Drivers I. 7-segment displays J. Parity generators CT-ET3-18 analyze digital devices and CT-ET3-19 32-bit microprocessors: A. MPU architecture B. Bus operations C. Memory D. PPI devices E. Addressing modes F. Instruction formats G. Input/output H. Interfacing
CT-ET1-21 semiconductor devices and their uses: A. Semiconductor physics B. Conduction characteristics C. Rectification D. Amplification E. Switching F. Voltage regulation G. Wave shaping CT-ET1-22 Recognize the functions, characteristics, and uses of diode based A. Power supplies B. Limiters C. Clampers D. Voltage doublers E. Zener diode regulators CT-ET1-23 Recognize the functions, characteristics, and uses of bipolar junction transistors (BJTs): A. PNP and NPN B. Biasing C. Load lines D. BJT amplifiers CT-ET1-24 analyze diode and BJT based CT-ET2-22 thyristor and power control A. SCRs B. UJTs C. Triacs D. Triggering E. Phase control F. Conduction characteristics CT-ET2-23 analyze thyristor and power control CT-ET2-24 the functions and uses of operational amplifier devices and A. Operating characteristics B. Inverting C. Noninverting D. Voltage follower E. Summing F. Difference G. Comparators CT-ET2-25 analyze operational amplifier A. Inverting B. Noninverting C. Voltage follower D. Summing E. Difference F. Comparators CT-ET3-20 analyze circuits that incorporate the use of microprocessors. CT-ET3-21 transducers: A. Temperature B. Capacitor sensors C. Strain gauges D. Ultrasonic transmit & receive E. Infrared transmit and receive CT-ET3-22 analyze circuits that incorporate the use of transducers.