Course Descriptions

Electronic Systems Engineering Technology Course Descriptions

Enter a course number to retrieve its description:   
(Enter Datatel Course Numbers with the dash. i.e. ENGL-100; use commas to separate multiple Course Numbers)

ESET-100 - INTRODUCTION TO ENGINEERING TECHNOLOGIES  2 credits
This course is designed as a developmental course for students planning to enter an engineering technology career. This course will investigate all of the Engineering Technology Division program offerings at STCC. Visits to department laboratories, visits by industry professionals, as well as participation by various Division faculty will provide the basis for a sound introduction to these programs. Activities are also designed to improve student time-management, test-taking strategies, and note-taking skills, as well as to enhance self-esteem and motivation. Women are encouraged to enroll in this course for career directions in the world of technology. PREREQUISITE: None.
ESET-107 - INTRODUCTION TO TECHNOLOGY SYSTEMS  2 credits
Graduates of the electronics-based technologies programs are called upon to deal with increasingly complex, rapidly evolving, and in many cases "intelligent" technology systems. This course will introduce the student to the concept of a system. Examples of modern electronics-based and computer-controlled technology systems will be presented. These examples will explore the evolution of systems from design to production to installation and their control, updating, and maintenance. An additional course goal will be the development of general observational, analytical, and creative problem-solving skills and the necessary tools for life-long learning. The role of computers in the design, simulation, and control of technology systems will be integrated into the course through example and class projects. PREREQUISITE: None
ESET-111 - INTRODUCTION TO CAET (COMPUTER-AIDED ENGINEERING TECHNOLOGY)  3 credits
This course provides the electronics student with an introduction to the PC/workstation environment. After a short introduction to personal computer (PC) hardware and operating systems concepts, the student gains experience with basic computer applications (i.e., word processing spreadsheets, and database management). Next, the student is introduced to electronic drafting (CAD) and documentation using modern software tools.
ESET-112 - ELECTRONICS FOR TECHNICIANS 1  3 credits
This course introduces the principles of electricity and electronics. The topics include current, voltage, resistance, series and parallel circuits, schematic diagram reading, open and short circuits, magnetism, capacitance, relays, solenoids, motors and generators, and DC and AC signals. Emphasis will be on the practical application of basic principles and concepts as applied to modern systems and the techniques used to diagnose them. Additional subject matter will include diodes, transistors as control devices, solid state relays, wired logic, and sensor amplifier fundamentals. In the lab portion of the course students will develop the skills to use standard electronic test equipment to aid in the diagnosis of simple and complex electrical and electronic systems. Some circuit simulation will be used in the lab but the primary emphasis is on the use of test equipment on actual circuitry. Student will also develop proper soldering skills through various lab exercises. Two lecture and three lab hours. PREREQUISITE:ALGB-081 or higher.
ESET-131 - CIRCUIT THEORY 1  3 credits
This course is an introduction to the fundamental concepts of electronics. Coverage includes concepts of electricity, series and parallel circuits, network theorems and laws, and metering principles. The purpose of this course is to present the concepts and ideas which will be needed in more advanced course work about specific electronic systems. Emphasis is placed on the analysis of direct current networks, specifically, the calculation of such circuit parameters as current, voltage and power for various network configurations. In addition, an introduction to AC circuits will be included. PREREQUISITE: MATH-132
ESET-140 - ELECTRICAL CIRCUITS  4 credits
This course will train students in the application of Ohm’s law, Kirchoff’s laws, Thevenin’s and Norton’s theorem, and superposition in the analysis of DC and AC passive circuits, including R-L-C circuits, impedances, phase angles, resonance, and transformers. PREREQUISITE: MATH-132.
ESET-141 - ELECTRIC CIRCUITS  4 credits
This course serves as an introduction to the theory of DC and AC electrical circuits. Students learn the fundamental concepts of voltage, current, resistance, and power and energy and the relationship between them. Methods of circuit analysis using Ohm's Law, Kirchoff's Laws and network theorems are studied. Concepts of AC, capacitance and inductance are presented. Impedance, R-L-C circuits, impedance networks and transformers are introduced. Circuit simulation software is used to demonstrate many of the concepts introduced in the course. PREREQUISITE or CONCURRENT: MATH-132
ESET-145 - ELECTRIC CIRCUITS LAB  1 credit
This course is designed to give the student practical experience with electronic components, measuring instruments, test equipment, and modern circuit simulation software with virtual instrumentation. The emphasis in the lab work is on the verification of theory studied in Electrical Circuits. The student gains experience in constructing, simulating, and testing electrical circuits. PREREQUISITE or CONCURRENT: ESET-141
ESET-150 - TEST AND MEASUREMENT  1 credit
This course will introduce the student to the use of traditional test and measurement equipment, PC centric virtual test equipment, and modern simulation software. Through discussion and demonstration, the student will learn the uses and limitations of various modes of system testing and evaluation. Aspects of modern data acquisition and instrument control will be introduced and demonstrated. One hour lecture.
ESET-151 - TECHNICAL DOCUMENTATION USING WORD  1 credit
This course is an introduction to using a word processor to build and maintain technical documents that conform to corporate style requirements. The course begins with a very quick coverage of the core features of Microsoft Word. We then cover the departmental documentation standard for word processor documents, font basics, the creation and application of styles, tables of data, table of contents, auto numbering, and document versioning. Importing and exporting graphics, technical drawings, schematics, and spreadsheets into the documents will be covered. Printing to hardcopy and PDF’s are required. OpenOffice and the Open Document standard will also be presented in this course. PREREQUISITE: DWRT-099 Basic MS Windows experience. No previous experience with word processors, spreadsheets and/or CAD programs is expected.
ESET-152 - TECHNICAL DOCUMENTATION USING VISIO  1 credit
This course is an introduction to using Visio to build and maintain technical drawings that conform to corporate style requirements. The course begins with a very quick coverage of the core features of Microsoft Visio. We then cover the departmental documentation standard for drawings, font basics, the creation and application of styles, tables of data, technical calculations, annotations, common symbols, and document versioning. Importing data from external sources, exporting to common graphical formats will be covered. Printing to hardcopy and PDF's are required. OpenOffice and the Open Document standard will also be presented in this course. PREREQUISITE: DWRT-099. Basic MS Windows experience. No previous experience with word processors, spreadsheets and/or CAD programs is assumed.
ESET-153 - TECHNICAL DOCUMENTATION USING EXCEL  1 credit
This course will show students how MS Excel can be used for technical applications. The basic concept of a spreadsheet will be explained and then students will build their own spreadsheets to help solve real world technical problems. Students will learn and understand how to save, load, import and export files as *.xls, *.csv, tab delimited and other popular file formats. Other specific topics of discussion will include formula entry of trigonometric, polynomial, logarithmic, exponential and other scientific equations. Statistical data analysis will also be presented and used throughout the course. Students will then investigate various ways to represent data with linear and non-linear axes. PRE-REQUISITES: DWRT-099, ALGB-087. Basic experience with MS Windows.
ESET-165 - INTRODUCTION TO PROJECT MANAGEMENT  3 credits
This course will introduce the student to key aspects of project management as related to electronics based technologies. The course will begin with a discussion of the environment in which most projects are initiated and completed, that is, a typical company. Discussions will include such topics as Concurrent Engineering, Quality Issues, being a “team player”, and various approval agencies & standards (NEC, UL, ISO 9000, etc.). Project scheduling will be discussed and students will be required to create schedules using both Gantt and PERT/CPM charts. Microsoft Project will be introduced and students will learn to use this software to schedule simple tasks. The lab portion of the course will give students some practical technical skills to help support the concepts presented in lecture. Students will learn soldering fundamentals, be introduced to technical documentation, reading schematics and assembly documentation, assemble and test various kits, perform cable termination and be introduced to testing techniques using DVM’s and dedicated test equipment. PRE-REQUISITES: None.
ESET-211 - INTRODUCTION TO ELECTRONICS  3 credits
This course presents material about the theory and operation of discrete solid state devices such as diodes and transistors. Topics covered include: diodes, power supplies, GJT and FET transistors, biasing techniques and concepts of amplification. Amplifier characteristics such as frequency response, efficiency, and class of operation are also studied. The last portion of the course introduces the operational amplifier. The lab portion of the course gives the student experience with the construction, simulation, testing and troubleshooting of analog electronics systems. PREREQUISITE: ESET-141, ESET-145, ESET-111 or CMPA-103
ESET-212 - ELECTRONICS FOR TECHNICIANS 2  3 credits
This course introduces the principles of embedded controllers, smart sensors and process control systems. Such components are the heart of modern day electronic and electro-mechanical systems and can be found extensively in fields such as automotive, HVAC, medical instrumentation equipment, remote monitoring (such as weather station and utility infrastructure), consumer/commercial/industrial electronics, high tech manufacturing processes, and anywhere sensors and data acquisition are required. Students will study complete systems including sensors, PIC controllers, motors, relays, actuators, indicators and display devices. Students will also develop an understanding of bus systems, control system feedback, electro-mechanical systems and simple programming concepts. Programming will be kept to a minimum as the emphasis will be on how the different components of the system connect and communicate. In the lab portion of the course students will build, test and trouble-shoot various PIC based sensor and actuator systems. Special emphasis will be place on systems that are directory applicable to consumer, industrial and commercial systems. Two lecture and three lab hours. PREREQUISITE: ESET-112
ESET-226 - COMPUTER APPLICATIONS  3 credits
This course will introduce the student to the use of the PC for test and measurement. Through the use of a visual programming language (HPVEE) the student will learn how to control modern test and measurement instrumentation, perform data acquisition and analysis, and graphically display data. Students will implement lab projects which will simulate automatic test equipment (ATE) used in the manufacturing environment, virtual instrumentation, and the remote monitoring and control of a system over a computer network. PREREQUISITES: ESET-141, ESET-145, ESET-111 or CMPA-103
ESET-231 - CIRCUIT THEORY 2  3 credits
This course will continue the presentation of the material presented in Circuit Theory 1. After a short review of Circuit Theory 1 material topics such as capacitive and inductive resistance, transients, time constants, power, power factor, and filtering will be covered. The fundamentals of diode and transistor operation will be covered. How these devices are biased and used as circuit and network elements will be studied.
ESET-236 - CIRCUIT THEORY LAB 2  1 credit
This course is a continuation of Circuit Theory 1 Lab. The student receives continued exposure to electronic components, test equipment, circuitry and PSPICE. Laboratory work is concerned with the verification of theory studied on passive networks and active solid-state devices.
ESET-240 - AUTOMOTIVE ELECTRONICS 1  4 credits
This course introduces the principles of electricity and electronics. The topics include current, voltage, resistance, series and parallel circuits, magnetism, capacitance, and DC and AC current. Topics in semiconductor diodes and transistors are also introduced. Course will not be offered after Summer 2008.
ESET-250 - INTRODUCTION TO ELECTRONICS  4 credits
This course will train students in the physical principles underlying current carriers in semiconductor materials; static and dynamic characteristics of diodes and transistors; biasing methods and concepts of amplification; analysis of basic BJT and FET circuits; frequency response of one- and two-stage amplifiers; troubleshooting; analysis by computer simulation. PREREQUISITES: ESET-140, PROG-120.
ESET-255 - ELECTRONIC COMMUNICATIONS  4 credits
This course is designed to train students in the analysis and application of advanced electronic circuits. Topics include differential amplifiers, stage gain in decibels, input and output impedances, linear IC operational amplifiers, frequency response and Bode plots, active filters, D/A and A/D circuits, oscillators and high frequency amplifiers, troubleshooting of test circuits, and analysis by computer simulation. PREREQUISITES: ESET-140, ESET-250.
ESET-260 - DIGITAL SYSTEMS  3 credits
This course is an introduction to digital logic and circuits. Topics include number systems, logic gates, Boolean algebra and binary codes, combinational logic circuits, flip-flops and timing circuits, counters and registers, memory devices, and programmable logic. Additionally, the characteristics of logic families such as TTL, CMOS, and ECL will be studied. PREREQUISITE: ESET-141 or permission of Instructor.
ESET-261 - EMBEDDED CONTROLLERS  3 credits
This course will begin with a brief introduction to number systems and simple Boolean logic operations and devices. The course will then introduce and concentrate on the use of PICs peripheral interface controllers) in modem day systems. A PlC is a self-contained computer system on an integrated circuit chip, consisting of input & output ports, RAM & ROM, and a CPU core that is usually RISC based. Students will first learn how the PlC’s can replace simple combination logic circuits and then build upon this knowledge to have them perform more complex tasks. The student will program the PlC using a high-level language (BASIC), communicate between the PlC & the PC via serial ports (RS-232 & USB) and evaluate, debug and modify their programs. Students will use the PlC’s to implement combinational and sequential logic designs, simple data acquisition operations, investigate output types and simple open and closed-loop feedback control systems. PRE-REQUISITES: ALGB-087 Algebra 1, COREQUISITE: ESET-266 Embedded Systems Lab
ESET-265 - DIGITAL SYSTEMS LAB  1 credit
This lab course is designed to emphasize the topics presented in the Digital Systems course. Experiments include combinational logic circuits, encoders and decoders, latches and flip-flops, binary counter circuits, shift registers, and memory circuits. Students enrolled in this course will learn the essential skills required for troubleshooting digital electronic circuits. PREREQUISITES: ESET-145 or permission of instructor, and ESET-141 concurrently.
ESET-266 - EMBEDDED SYSTEMS LAB  1 credit
This three hour lab based course supplements the material in ESET-261 Embedded Systems. Students will be required to purchase their own micro-controller kit to perform the indicated exercises. Students will first build, design & test simple combinational and sequential logic circuits. Then the PlC will be introduced and students will see the numerous advantages of using programmable devices to implement simple and complex logic designs. Students will use the PlC’s to perform simple data acquisition operations, investigate various programming strategies, observe various types of output and build, construct and observe simple open and closed-loop feedback control systems. PRE-REQUISITES: ALGB-087 Algebra 1, COREQUISITE: ESET-261 Embedded Systems Lab
ESET-271 - INSTRUMENTATION AND MEASUREMENT  4 credits
ESET-271 Instrumentation and Measurement 4 Credits This course will present the student with the theory and practical skills necessary to understand the principles of electronic instrumentation and measurement. The course will begin with an overview of measurement principles, significant figures, units of measure, metric prefixes, typical electronic measuring instruments and their proper use. The comparison between theoretical expectations and practical measurements will be emphasized and students will develop the tools to understand potential sources of error. Course material will include a discussion on the operation of thermistors, light sensors, opto-electronic devices, hall effect devices, strain gauges, accelerometers, contact and non-contact measurement, humidity sensors, sonic & ultra sonic devices, DAC’s and ADC’s and sampling theory. A three hour lab will be required as part of this course. In the lab proper and safe lab and measurement techniques will be presented. Students will be required to understand how the instrumentation can affect the measuring process, and where possible, account for that error. PREREQUISITES: ESET-141, ESET-145 or permission of instructor. COREQUISITE: ESET-271L.
ESET-325 - DIGITAL SYSTEMS FOR TELECOMMUNICATIONS I  4 credits
This course will prepare students in digital electronics with topics related to number systems and codes, logic functions, and Boolean algebra. IC building blocks are used in applications ranging from logic gates to flip-flops, counters, registers, and arithmetic circuits. Algebraic reduction and mapping are used to minimize Boolean expressions and combinational logic circuits. Computer simulation of digital circuits will be used to verify actual hardware setups. PREREQUISITES: ESET-140, PROG-120.
ESET-335 - DIGITAL SYSTEMS FOR TELECOMMUNICATIONS II  4 credits
This course is designed to train students in the organization, architecture, and hardware aspects of digital computer systems. Topics include an introduction to microprocessors, types and characteristics of different chips, motherboards, bus structures, memory, I/O interface devices, disk drives, video displays, and printers. Serial and parallel buses are discussed. Applications include the interfacing of peripherals, data communications between computers, and a team project. PREREQUISITE: ESET-325.
ESET-341 - CIRCUIT THEORY  4 credits
This course and lab will investigate the traditional electronic circuit theories necessary to understand the operation of modem electronic components, circuits and systems. Information will be presented with an emphasis on signal processing application. Topics will include: KYL,, KCL, Superposition, Thevenin & Norton equivalents, real & imaginary numbers, impedance, magnitude and phase response of circuits, filter types & applications, pulse analysis, transient analysis, steady-state analysis, Fourier Analysis, dB measurement and semiconductor fundamentals. Students will use software to simulate circuits and help solve/verify equations. In the lab students will make use of modem test equipment controlled by LabView software to perform data acquisition and then use MS Excel to tabulate, analyze and graph the data. Students will be required to perform the experiments, maintain a lab notebook and submit formal lab reports. PREREQUISITE: ESET-141, ESET-145, ESET-153, ESET-271, MATH-232 COREQUISITE: ESET-341L
ESET-344 - COMMUNICATIONS SYSTEMS  4 credits
This course consists of a study of modem electronic telecom/communications systems used for the transmission of analog information and data. First, the student is introduced to the basic components of a telecommunications system through a block diagram model. Fundamental concepts of signals, noise, bandwidth, and channel are introduced. Sub-systems which are peculiar to electronic telecommunications systems are covered with emphasis given to the concepts of filter theory, system frequency response, dBs, and signal bandwidth. Specific electronic modulation schemes are now discussed. Emphasis is given to the most important legacy pass-band systems; analog, amplitude and frequency modulation, and the most important present day base-band systems; analog pulse and digital modulation. The theory of operation behind each system, the practical implementation, and the relative merits of each are examined and analyzed completely. The course concludes with a discussion of modem multiplexing and access techniques and, an introduction to EM propagation, wireline transmission line concepts, fiber-optic communications systems, present day telecomm networks, and basic antenna theory. The lab portion of the course will provide hands-on experience with many of the topics discussed in lecture. PRE-REQUISITES: Senior standing in ESET or instructor permission. CO-REQUISITE: ESET-344L, ESET-34l.
ESET-345 - AUTOMOTIVE ELECTRONICS 2  3 credits
This course is a continuation of the electronic topics introduced in ESET-240. Beginning with a review of semiconductor principles and devices, the course thoroughly investigates digital electronics and microprocessor theory and applications, particularly as related to the modern automobile. PREREQUISITE: ESET-240. Course will not be offered after Summer 2008.
ESET-353 - HOME AND SMALL BUSINESS NETWORKING  3 credits
This course covers topics commonly encountered in home and small business Internet Protocol (IP) networks. The aspects of Home Technology Integration (HTI) covering technologies such as home security, audio and video, home computers, HVAC (heating, ventilation, and air conditioning), and home control often use IP networking. Small businesses require networks of computers and often have remote locations. This course will provide the students with the skills necessary to work with common network configurations of personal computers, printers, small routers, and specialized devices. Students interested in enterprise class networking should consider the Cisco Networking courses (CSCO-170, CSCO-270, and CSCO-370). Course topics covered include an introduction to physical wiring, network switches, IP networking and determining the settings for existing networks. Hands-on experience with the installation & configuration of common network clients for Windows, Mac OS X, and Linux will be covered. Common network settings, testing the network connections, and test procedures for these operating systems will be covered. Using and configuring home and small business routers, wireless access points, basic wireless security, network printing and shared drives. CSET-210 is recommended as a foundation. Please contact the Electronic Systems Group esg@stcc.edu for possible waiver of this prerequisite. Prerequisites: CSET-210 or permission of instructor.
ESET-355 - DEVICES, CIRCUITS, AND SYSTEMS  4 credits
This course deals with the practical applications of linear electronic devices and circuits as applied to the operation and control of specialized systems. Topics will include switching and high voltage power supplies, high voltage design and safety considerations, differential and instrumentation amplifiers, active filters, A/D and D/A converters, V/F and F/V converters, and other data acquisition circuits. Classroom lectures will be supplemented with lab experiments. Four hours lecture. PREREQUISITE: senior standing in ESET or LEOT, and TCOM-330; COREQUISITE: ESET-355L
ESET-360 - MOBILE/WIRELESS NETWORKS  4 credits
This course introduces the student to mobile and wireless networks. Introductory topics include the fundamentals of wireless communications systems, RF/wireless circuits and sub-systems, and wireless digital modulation techniques. Starting with an overview of the present wireless infrastructure and services provided by it, course emphasis shifts to cellular radio. Cellular system fundamentals will be discussed, channel utilization schemes introduced, and individual systems of the different generations covered in detail. Coverage will include: AMPS, D-AMPS, GSM, IS-136 TDMA, IS-95 CDMA, Cellular Digital Packet System, and an introduction to 3G systems. Also covered in this course will be issues of security, network management, personal communications systems, wireless LANs (IEEE802.112), and fixed wireless broadband systems. The lab portion of the course will allow the student to gain experience with wireless technology. Three hours lecture. PREREQUISITE: TCOM-210; COREQUISITE: ESET-360L
ESET-365 - PROJECT RESEARCH AND DEVELOPMENT  2 credits
The purpose of this course is two-fold. First, students will investigate key aspects of project development: research, developing design specs, project scheduling, preliminary design/simulation, component selection, construction considerations, prototype development, design verification & testing and design improvement and performance monitoring. Students will investigate these ideas by way of a project example. The second goal for this course is to allow students to complete the first several stages of their capstone senior project design. Students will use the concepts presented in the beginning of the course to select, spec and order the components needed for their senior project in ESET-465. Only students expecting to graduate in the following Spring should take this course. PREREQUISITES: ESET-141, ESET-145 or permission of instructor. COREQUISITE: ESET-341
ESET-370 - DATA ACQUISITION/CONTROL  4 credits
This course deals with the practical design and use of modern data acquisition and test measurement systems. Topics will include measurement techniques, sensors, transducers, interface circuitry, ADCs and DACs, PC and microcontroller-based systems. Students will also learn to manipulate collected data using spreadsheet and database software. Classroom lectures will be supplemented with lab experiments. Four hours lecture. PREREQUISITES: ESET-145, CSET-210, ESET-260, ESET-265, TCOM-330; COREQUISITE: ESET-370L.
ESET-371 - SENSORS AND DATA ACQUISITION  4 credits
This course deals with the practical design and operational theory of sensor and instrument based modem data acquisition and test measurement systems. Topics will include basic sensor theory, advanced electronics instrumentation, signal conditioning and interfacing techniques using op-amp and IC subsystems, measurement techniques and standards, ADC’s and DAC’s, and the fundamentals of PC and PIC micro-controller based measurement systems. The students will use LabView software in the laboratory portion of the course. PREREQUISITES: ESET-141, ESET-145, CSET-210, ESET-261, ESET-266, ESET-271 or permission of instructor. COREQUISITE: ESET-371L.
ESET-443 - MICROPROCESSOR ARCHITECTURE & SYSTEMS  4 credits
This course presents the theory of operation, the various different architectures, and the methods of interfacing of present day microprocessors. The substitution of software for hardware in logic design, the concept of the embedded controller, and the architectural features of current microprocessors/microcomputers such as the Intel 80X86 and Motorola 680X0 series will be covered in detail. The laboratory portion of the course will allow the students to gain practical hands-on experience with the programming, interfacing, and application of the microprocessor/microcomputer to the controlling of real world systems. PREREQUISITE: Senior standing in ESET or permission of instructor.
ESET-460 - BROADBAND COMMUNICATIONS  4 credits
This course is an introduction to modern broadband communication systems. Topic coverage will include: hybrid fiber/coaxial (HFC) networks, wire line technologies such as xDSL, ISDN, ATM, and Frame Relay, fiber optic networks, and wireless communication systems. Additionally, modern digital modulation schemes, wavelength division multiplexing, and system testing and measurement will be discussed.
ESET-465 - SENIOR PROJECTS IN E.S.E.T.  3 credits
This capstone course is designed to combine the concepts, theories, and practices developed throughout the course of study in the ESET program and apply them to the development of a group project. Students will be required to keep a notebook and make weekly written project progress reports and monthly oral presentations of their work. A final written report and oral presentation will be required. The lecture will deal with topics relevant to project research and presentation. The five lab hours will provide students time to develop their project. PREREQUISITE: Student must be a candidate for graduation in May, or permission of the instructor. One hour lecture. PREREQUISITES: ESET-344, ESET-355, ESET-370. COREQUISITE: ESET-465L
ESET-471 - ESET-471 SENSOR SYSTEMS  4 credits
This course introduces the student to the technology sub-systems used to create complex networked sensor systems. First, sensor technology that includes embedded intelligence will be discussed with practical and operational aspects of these systems discussed. The student will then be presented an overview of the various lP-based networking technologies (i.e. LANs, MANs, WANS, etc) and the various different transmission media that are used to interconnect typical standard information technology systems. Next, proprietary networking schemes used by the different major industries (i.e. automotive, pfocess control, health, HVAC, etc) are introduced. Some of the topics covered will include CAN, Fieldbus, Profibus, and HART network technologies. Emerging Zigbee (IEEE 802.15.4) technology and other wireless mesh technologies will be introduced. The student will be tasked with the construct a practical working sensor system project during the laboratory portion of the course. PRE-REQUISITES: ESET-371 or permission of instructor. CO-REQUISITE: ESET-471L.