Manufacturing Math II • MFG*105 • 3 creditsA further study of arithmetic and trigonometric operations applied to manufacturing circumstances. The following geometric entities are studied in detail: the circle, regular and irregular polygons, the right triangle and oblique triangles. The application of angular arithmetic including the study of: angle decimal conversion, the Pythagorean theorem, Sin, Cos, and Tan functions, and the Law of Sines and Law of Cosines. Prerequisite: Assessment. (Elective Type: G) (Ability Assessed: 7)

Blueprint Reading II • MFG*125 • 3 creditsSecond course in Blueprint Reading. A further study of simple and complex drawings for machining or assembly purposes. Topics include the application and meaning of geometric characteristics and controls the metric system, weldment, forging and casting drawings and procedures, communication with freehand sketches, blueprint terms and abbreviations. Prerequisite: C- or better in Blueprint Reading I (MFG*124) or equivalent assessment test. (Elective Type: G)

Intro. to Geometric Dimensioning & Tolerancing • MFG*160 • 3 credits ($)

Geometric Dimensioning and Tolerancing (GD&T) is a language used on mechanical engineering drawings composed of symbols used to communicate accurately and efficiently geometry requirements for associated features on components and assemblies. GD&T is, and has been, successfully used for many years in the automotive, aerospace, electronic and the commercial design and manufacturing industries. In today’s modern and technically advanced design, engineering and manufacturing world, effective and accurate communication is required to ensure successful end products. Topics include the following: introduction to symbols and terms, limits to size, data reference frame, form tolerance, geometric system functionality,

Tunxis Advanced ManufacturingMACHINE TECHNOLOGY PROGRAM

Spring 2020 FULL-TIME DAYTIME Coursesorientation tolerances, position tolerances, profile tolerances, coaxial tolerances, tolerance analysis, and applications. Prerequisite: C- or better in Blueprint Reading I (MFG*124). (Elective Type: G)

Interm. Machine Technology • MFG*165 • 3 credits ($)Intermediate Machine Technology provides the student an in-depth exposure to the lathe and milling manual operations. Students will perform lathe operations consisting of center alignment, facing, center-drilling, chuck turning, turning between centers, boring, reaming, tapping, grooving, tapers, knurling, and threading. Vertical and Horizontal Milling Operations will include an introduction to the Offset Boring Head, Side Milling Cutters, and Face Milling Cutters. Prerequisite: Introduction to Machine Technology (MFG*150). (Elective Type: G)

Required Component: Machine Lab II • MFT7770 • 8 hours/week

Manufacturing Machinery: CNC II • MFG*256 • 3 credits ($)

Manufacturing Machinery: CNC II is the second course in CNC programming. A further study of CNC programming for the Lathe and Vertical Machining Center. Topics include setup and tooling, programming simple parts, canned drilling cycles, circular interpolation, special milling cycles, cutter compensation, looping and macros, and special features. Prerequiste: C- or better in CNC I (MFG*168). (Elective Type: G)

Required Component: CNC Projects II • MFT7771 • 3 hours/week

Principles of Quality Control • QUA*114 • 3 creditsFirst course in statistical quality control. Topics covered include determination of process capabilities, estimation of process standard deviation from sample data, use of control charts, calculation of probability of simple events. Student will develop SPC and TQM Manufacturing Plans. Prerequisite: Manufacturing Math II (MFG*105). (Elective Type: G) (Ability Assessed: 7)

T u n x i s C o m m u n i t y C o l l e g e • 2 7 1 S c o t t S w a m p R o a d , F a r m i n g t o n , C T • t u n x i s . e d u

For More Information On Our Advanced Manufacturing and Apprenticeship Programs Please Contact: Mathew Spinelli at 860.773.1631,

Chris LaPorte at 860.773.1362 or Admissions Office at 860.773.1490.

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Additional Required Components: Metrology with CMM • MFT6328 • 2 hours/week Career Exploration • PRFD8166 • 1 hour/week

NOTES: two days of travel to Asnuntuck Community College required. “Required Components” are credit-free and incur an additional cost.($) = Materials fee of $120 will be assessed for this course.

Solidworks • MFG*110 • 3 credits ($)SolidWorks design focuses on parametric modeling while introducing the student to the paperless computer based design process utilizing the modem parametric 3-D design software SolidWorks. The course reviews the following topics: design process, design engineering, assembly modeling, mechanism analysis, rapid prototyping, team design, geometric dimensioning and tolerancing, and the analysis of tolerance stackups. Students will participate in individual & team design projects. (Elective Type: G)

CRN# 1600 • Mondays • 6-9PM • Room 321/313

Metrology • MFG*120 • 3 credits ($)Metrology is applied in such areas as: manufacturing, aerospace, telecommunications, electrical power, transportation, medicine, pharmaceuticals, food production, packaging, construction, atmospheric research and environmental protection. The course provides the student with an introduction to the usage of inspection tools and automated inspection equipment and provides a comprehensive set of hands- on exercises to determine the dimensional characteristics of a variety of manufactured parts. The emphasis of this metrology course is metrology in manufacturing. The student will utilize the following tools: vernier caliper, micrometer, precision is metrology in manufacturing. The student will utilize the following tools: vernier caliper, micrometer, precision height stand, dial bore gage, snap gage, V block, dial test indicator, Sine bar, gage block set, Angle block and CMM & CMM programming. Prerequisite: C- or better in Manufacturing Math II (MFG*105). (Elective Type: G)

CRN# 1604 • Tuesdays • 6-9PM • Room 321

Blueprint Reading I • MFG*124 • 2 creditsAn initial course in Blueprint Reading. The study of orthographic projection. Topics include, lines and their uses, auxiliary views, sectional views, basic and special dimensioning, dimensioning practices for holes, chamfers, angle, tapers, keyways diameters, radii, and geometric tolerancing. (Elective Type: G)

CRN# 1601 • Thursdays • 7:10-9:10PM • Room 321

Blueprint Reading II • MFG*125 • 3 creditsSecond course in Blueprint Reading. A further study of simple and complex drawings for machining or assembly purposes. Topics include the application and meaning of geometric characteristics and controls the metric system, weldment, forging and casting drawings and procedures, communication with freehand sketches, blueprint terms and abbreviations. Prerequisite: C- or better in Blueprint Reading I (MFG*124) or equivalent assessment test. (Elective Type: G)

CRN# 1597 • Tuesdays • 6-9PM

Intro. to Machine Technology • MFG*150 • 4 credits ($)Introduces the student to the fundamentals of Metal Machining Technology. The student is introduced to the basic metal machining equipment including Lathe, Miller, Drill Press, Saw, and Grinding Wheels. Students will perform basic lathe operations, which will consist of facing, center-drilling, chuck turning, turning between centers, boring, grooving, tapers, knurling, and single point threading. Students will identify the major parts of the vertical & horizontal mill, align a vise, use an indicator, edge finder, and boring head, determine speeds and feeds, perform simple indexing, mill flat, square surfaces and slots, drill, bore, and tap holes. (Elective Type: G)

CRN# 1598 • Mon/Wed@ACC • 6-8PM

Required Component: Machine I Lab • MFT6483 • 4 hours/week

CRN# 1615 • Mon/Wed@ACC • 8-10PM

Interm. Machine Technology • MFG*165 • 3 credits ($)Intermediate Machine Technology provides the student an in-depth exposure to the lathe and milling manual operations. Students will perform lathe operations consisting of center alignment, facing, center-drilling, chuck turning, turning between centers, boring, reaming, tapping, grooving, tapers, knurling, and threading. Vertical and Horizontal Milling Operations will include an introduction to the Offset Boring Head, Side Milling Cutters, and Face Milling Cutters. Prerequisite: Introduction to Machine Technology (MFG*150). (Elective Type: G)

CRN# 1599 • Mon/Wed • 6-7:30PM

Required Component: Machine II Lab • MFT7770 • 3 hours/week

CRN# 1616 • Mon/Wed@ACC • 7:30-9PM

Benchwork • MFG*166 • 1 credit ($)Benchwork is a basic course in the fundamentals, principles, practices, and tools used in semi-precision and precision layout and in the various tools, methods and procedures for common machine shop benchwork. Topics will include, measurement systems, layout principles, hand tools and power tools. (Elective Type: G)

CRN# 1602 • Thursdays • 5-6PM • Room 309CRN# 1603 • Thursdays • 6:05-7:05PM • Room 309

T u n x i s C o m m u n i t y C o l l e g e • 2 7 1 S c o t t S w a m p R o a d , F a r m i n g t o n , C T • t u n x i s . e d u

Tunxis Advanced ManufacturingMACHINE TECHNOLOGY PROGRAM

Spring 2020 PART-TIME EVENING Courses

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For More Information On Our Advanced Manufacturing and Apprenticeship Programs Please Contact: Mathew Spinelli at 860.773.1631,

Chris LaPorte at 860.773.1362 or Admissions Office at 860.773.1490.

($) = Materials fee of $120 will be assessed for this course.

Additional Required Component: Manufacturing Math I • MFT5020 • 2 hours/week

CRN# 1625 • Thursdays • 6-8PM

Electronics Circuits & Devices • MFG*142 • 3 credits ($)Electronics Circuits and Devices provides an introduction to electronic materials, components, circuits, devices and their applications. The course will provide an overview of semiconductors, diodes, transistors (bi-polar, field-effect and unijunction), applications of SCR and Triac to circuits, and application of components to rectifiers, amplifiers, and relays. Prerequisites: C- or better in Math for Electricity & Electronics (MFG*133), Circuit Theory I (MFG*137), Digital Fundamentals (MFG*138), Circuit Theory II (MFG*139), and Robotics (MFG*140). (Elective Type: G)

Required Component: Electronics Circuits & Devices Lab • MFT7772 • 2 hours/week

Industrial Motor Controls • MFG*143 • 3 credits ($)The process of motor control is integral to the flow of the product from raw material to finished product. Industrial Motor Controls will familiarize you with the following: principles of solid-state control devices and their components (such as: semiconductors, PN junction, Zenor diodes, and the transistors); AC and DC motor controls; motor drives; control circuits; motor starters and pilot devices. Prerequisite: C- or better in Math for Electricity & Electronics (MFG*133), Circuit Theory I (MFG*137), Digital Fundamentals (MFG*138), Circuit Theory II (MFG*139), and Robotics (MFG*140) or consent of the instructor. (Elective Type: G)

Required Component: Industrial Motor Controls Lab • MFT7774 • 2 hours/week

Programmable Logic Controllers • MFG*146 • 3 credits ($)Programmable Logic Controllers provides you with an overview of the PLC, its hardware, numbering systems and codes, logic fundamentals, programming timers and counters, program control and data manipulation instructions, math instructions, sequencer and shift register instructions, and PLC installation, editing and troubleshooting. Prerequisite: C- or better in Math for Electricity & Electronics(MFG*133), Circuit Theory I (MFG*137), Digital Fundamentals (MFG*138), Circuit Theory II (MFG*139), and Robotics (MFG*140) or consent of the instructor. (Elective Type: G)

Required Component: Programmable Logic Controllers Lab • MFT7766 • 2 hours/week

Microprocessors & Microcontrollers • MFG*147 • 3 credits ($)

Microprocessors & Microcontrollers is designed to give the student an overview of the microprocessor and microcontroller by reviewing the fundamentals of 8085A architecture, software, and interface applications; and by reviewing the architecture, software, and interface applications of the 8051 microcontroller. Prerequisite: C- or better in Math for Electricity & Electronics (MFG*133), Circuit Theory I (MFG*137), Digital Fundamentals (MFG*138), Circuit Theory II (MFG*139), and Robotics (MFG*140) or consent of the instructor. (Elective Type: G)

Required Component: Microprocessors & Microcontrollers Lab • MFT7775 • 2 hours/week

Intro. to Automated Manufacturing • MFG*170 • 3 credits ($)

Introduction to Automated Manufacturing introduces the role that PC computers; PLC’s (Programmable Logic Controller); microprocessors and controllers; sensors; local area networks (LANs); Flexible Manufacturing Cells (FMC); and automated manufacturing systems (AMS), including material handling, storage and retrieval, assembly, and inspection plays in the modern day manufacturing environment.. Topics include Flexible Manufacturing System (FMS); Major components of a FMS; FMS Configurations; Major components in a FMS Computer Control System (CCS); and Introduction to Local Area Networks. Prerequisite: C- or better in Math for Electricity & Electronics(MFG*133), Circuit Theory I (MFG*137), Digital Fundamentals (MFG*138), Circuit Theory II (MFG*139), and Robotics (MFG*140) or consent of the instructor. (Elective Type: G)

Required Component: Intro. to Automated Manufacturing Lab • MFT7773 • 2 hours/week

T u n x i s C o m m u n i t y C o l l e g e • 2 7 1 S c o t t S w a m p R o a d , F a r m i n g t o n , C T • t u n x i s . e d u

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Tunxis Advanced ManufacturingELECTRONICS TECHNOLOGY PROGRAM

Spring 2020 FULL-TIME DAYTIME Courses

For More Information On Our Advanced Manufacturing and Apprenticeship Programs Please Contact: Mathew Spinelli at 860.773.1631,

Chris LaPorte at 860.773.1362 or Admissions Office at 860.773.1490.

Additional Required Components: Introduction to CNC • MFT7769 • 2.5 hours/week Introduction to Welding • MFT7776 • 2 hours/week Career Exploration • PRFD8166 • .5 hours/week

($) = Materials fee of $120 will be assessed for this course.

Math for Electricity & Electronics • MFG*133 • 3 creditsIntended for the student who needs in-depth knowledge of the mathematics of electronics and electricity. It will review several areas that the student may be familiar with and move into advanced areas that are necessary for the understanding of electronics functions and analysis of complex circuits. The completion of this course will enable the student to move more quickly through future courses that require the use of complex math. (Elective Type: G)

CRN# 1596 • Thursdays • 6-9PM

Circuit Theory I • MFG*137 • 3 credits ($)An introduction to direct current (DC) circuits. Circuit Theory I will introduce the student to electrical/electronic components; the nature of electricity (voltage, current, and resistance); Ohm’s Law of measurement; the concept of energy and power; types of circuits (series, parallel, and series-parallel); Thevenin’s and Norton’s Theorems of circuit simplification, and magnetism and electro magnetism. (Elective Type: G)

CRN# 1594 • Tuesdays • 5:30-8:20PM • Room 313

Required Component: Circuit Theory I Lab • MFT6488 • 1 hour/week

CRN# 1617 • Tuesdays • 8:30-9:30PM • Room 313

T u n x i s C o m m u n i t y C o l l e g e • 2 7 1 S c o t t S w a m p R o a d , F a r m i n g t o n , C T • t u n x i s . e d u

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Tunxis Advanced ManufacturingELECTRONICS TECHNOLOGY PROGRAM

Spring 2020 PART-TIME EVENING CoursesRobotics • MFG*140 • 3 credits ($)

CRobotics provides the student with a brief history of the application of Robotics to the manufacturing process to date and a vision of future applications of Robotics. Robotics provides an overview of the Robotic hardware, software, and programming necessary to specific applications. Robotics reviews the following: electromechanical systems, fluid power systems, sensing systems, end-of-arm tooling, PLC’s, digital electronics, programming, and industrial applications. (Elective Type: G)

CRN# 1595 • Wednesdays • 5:30-8:20PM • Room 313

Required Component: Robotics Lab • MFT6492 • 1 hour/week

CRN# 1618 • Wednesdays • 8:30-9:30PM • Room 308

NOTE: “Required Components” are credit-free & incur an additional cost.($) = Materials fee of $120 will be assessed for this course.

For More Information On Our Advanced Manufacturing and Apprenticeship Programs Please Contact: Mathew Spinelli at 860.773.1631,

Chris LaPorte at 860.773.1362 or Admissions Office at 860.773.1490.