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CPEG 301: Junior Laboratory I

1.00 Credits

Virginia State University

Prototype bread-board electronic circuits using diodes, bipolar junction transistors, MOSFETS with DC biasing configurations and with superimposition of AC signals. Operational and differential amplifier and active filter circuits. Corequisite: CPEG 303 Introduction to Electronics

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CPEG 302: Junior Laboratory II sp

1.00 Credits

Virginia State University

System design using programmable logic devices and high-level design techniques. Application of state-of-the-art hardware devices as well as design and simulation tools. Corequisite: CPEG 309 Advanced Digital System Design

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CPEG 303: Introduction to Electronics

3.00 Credits

Virginia State University

Basic semiconductor physics, theory of p-n junctions; diodes, field effect transistors, and bipolar transistors; modeling of diode and transistor devices; analysis and design of diode switching and rectifier circuits; basic transistor switching circuits and single stage amplifiers; multistage transistor amplifier biasing; op amps, and output stages; electronic simulation using PSPICE. Prerequisite: ENGR 201 Circuit Analysis Corequisite: CPEG 301 Junior Laboratory I

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CPEG 305: OPERATING SYSTEMS Sp

3.00 Credits

Virginia State University

Functions and components of an operating system, including process synchronization, job scheduling, memory management, file systems protection, and deadlocks. Related system software, such as loaders, linkders, assemblers, and windowing systems. Prerequisite: CPEG 208 Microprocessors

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CPEG 306: Computer Architecture I sp

3.00 Credits

Virginia State University

Hardware and software structures found in modern digital computers. Instruction set architecture, hardwired design of the processor, microprogramming, I/Q and memory units, analysis of instruction usage, and hardware complexity. Prerequisite: CPEG 208 Microprocessors

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CPEG 307: Linear System Analysis

3.00 Credits

Virginia State University

Transient response of linear time-invariant, continuous-time and discrete-time dynamic systems by various methods including Laplace transform, and z-transform; properties of sampling; input-output characteristics; frequency response analysis. Prerequisites: ENGR 201 Circuit Analysis Corequisite: MATH 350 Differential Equations

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CPEG 308: Analog Communication

3.00 Credits

Virginia State University

Filter design, noise, signal-to-noise ratio, amplitude modulation, frequency modulation. Prerequisites: CPEG 303 Introduction to Electronics; PHYS 113 General Physics II

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CPEG 309: Advanced Digital System Design sp

3.00 Credits

Virginia State University

Design of digital systems using programmable logic devices and high-level design techniques. Emphasizes the application of state-of-the-art hardware devices as well as design and simulation tools. Prerequisite: CPEG 207 Introduction to Digital Systems Corequisite: CPEG 302 Junior Laboratory II

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CPEG 320: Integrated Circuit Device Design sp

3.00 Credits

Virginia State University

Introduction to VLSIC semiconductor device physics, operation, design and physical layout techniques for semiconductor devices. Prerequisites: CPEG 303 Introduction to Electronics (or Consent of Instructor)

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CPEG 400: SENIOR SEMINAR Sp

1.00 Credits

Virginia State University

Engineering design, literature searches, industry vs. graduate school career options, ethics, professionalism, and safety. The Fundamentals of Engineering (FE) Exam review for students seeking certification as an Engineer-in-Training (EIT) and subsequently as a professional Engineer (PE). A departmental assessment exam on fundamentals of engineering will be administered. Prerequisite: senior standing

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