anywhere computing and communicating a reality, will also be covered. Brief exposure to installing and troubleshooting digital subscriber lines (DSL, X) will also be explored. (Prerequisite: ELEC1500 Networking I) (4 credits: 3 lecture/1 lab) BBDT1220 Concepts in Signal Systems The student will gain a practical knowledge of how the next generation network infrastructures, broadband applications and broadband access alternatives function. Functionality of protocol analyzers and sniffing tools will be gained through lab exercises. (Prerequisite: ELEC1500 Networking I) (4 credits: 3 lecture/1 lab) BBDT1240 Fiber to the Home Networks Passive optical networks have allowed a quantum leap in the bandwidth delivered to business and residential customers. Practical concepts for installing and maintaining the appliances used to provide gigabit speeds will be covered. In the lab the ONT and IS installation and configuration will be covered. (Prerequisite: ELEC1255 Fiber Optics for Installers) (4 credits: 3 lecture/1 lab) BBDT2200 Voice Communications Technology Legacy TDM PBXs are being replaced with IP feature rich enterprise business systems. In this course the protocols and configuration of VoIP systems will be covered. Topics covered will include SIP, QoS, and H.323, call manager and gateway settings. (Prerequisite: BBDT1200 Digital Transmission Fundamentals) (4 credits: 3 lecture/1 lab) BBDT2240 Home Device Configuration With triple play services being a so important to the industry, the configuration and maintance of the devices in the residential market is very important. What might have been a TV in the past has become a communication center to interface to multiple services like IPTV, DVR, home NSA, gaming systems, and home automation systems. In this course the student will learn how to configure and maintain some of these systems. (Prerequisite: BBDT1240 Fiber to the Home Networks) (4 credits: 3 lecture/1 lab) BBDT2700 Network Troubleshooting This course provides the hands-on skills for troubleshooting digital access systems. (Prerequisite: BBDT1200 Digital Transmission Fundamentals) (3 credits: 1 lecture/2 lab) BIKE1010 Oxy-Fuel Welding, GMAW, Plasma and Flame Cutting, and Brazing for Bikes This course will introduce the safety rules for the welding lab. This course will cover the issues with dealing with ultraviolet rays, burns, fumes, and electrical hazards. This course will also introduce the print symbols and terminology used in fabricating and welding basic joints that are commonly seen on blueprints. The student will be introduced to the four basic welding processes: gas (oxyacetylene), arc (shielded metal arc welding), MIG (gas metal arc), and TIG (gas tungsten arc) welding. The student will learn proper set up and operating procedures through classroom demonstrations. Special emphasis is placed on safety principles. Theory and operations of shielded metal arc welding equipment will also be covered. Emphasis is on safety, machine settings, and filler metals. Students will also develop a proficiency in theory and operation of shielded metal arc and gas metal arc welding in flat welding position, and horizontal welding position. Students will be introduced to Oxy/Fuel and Plasma metal cutting. Students will also be introduced to metal joining using brazing. (Prerequisite: none) (3 credits: 2 lecture/1 lab) BIKE1020 Machining for Bikes This course introduces machining operations as they relate to the bicycle manufacturing industry. Topics include machine shop safety, measuring tools, lathes, drilling machines, saws, milling machines, bench grinders, and layout instruments. Upon completion, students should be able to safely perform the basic operations of measuring, layout, drilling, sawing, turning, and milling. Students will be exposed to the machining of materials typical of the bicycle industry including metals and composites. (Prerequisite: none) (3 credits: 2 lecture/1 lab) BIKE1030 CAD CAM This course will familiarize the student with the relationship between computer aided drafting and computer aided machining. Students will learn the principles of CNC machining. Students will learn to transfer CAD data to the machining programs (CAM) and to machine tools using the CAM package. Positive design aesthetics will also be explored and compared to traditional utilitarian design methods. (Prerequisite: none) (3 credits: 2 lecture/1 lab) BIKE1040 History and Theory of Bike Design This course will explore the evolution and developmental history of the bicycles from first invention concepts to modern day designs including electric assist bikes (E-bikes). Case studies will be conducted looking at commercially unique and engineering milestone bike designs in recent history (such as the rise of mountain biking, bike suspension, commuter bikes, gravel bikes, fat bikes, 26 plus, and e-bikes). Emphasis will be given to both practical facets of bicycle design, as well as artistic facets distinguishing similar bikes from one another. Lab work will include basic assembly, setup, adjustment and repair of modern bike building. (Prerequisite: none) (3 credits: 3 lecture/0 lab) BIKE1050 AL-FE-SS-TI Welding for Bikes The primary focus is on joining advanced bicycle materials utilizing the Gas Tungsten Arc Welding (GTAW) process including materials like CrMo steels, high strength aluminum alloys, stainless steel and titanium. The course will enhance your knowledge of current thinking in arc welding safety, processes, instruction, concepts, equipment & consumables, and improve your welding skills as they pertain to bicycle fabrication. )Prerequisite: BIKE1010) (3 credits: 2 lecture/1 lab) BIKE1060 CNC for Bikes This course introduces the concepts and capabilities of computer numerical control machine tools. Topics include setup, operation, and basic applications. Upon completion, students should be able to explain operator safety, machine protection, data input, program preparation, and program storage. Machine fixturing specific to bicycle fabrication will be covered. (Prerequisite: BIKE1020) (3 credits: 2 lecture/1 lab) BIKE1070 Solidworks This course covers the fundamentals of parametric drawing and design. The student will use Solidworks to create 3D parametric models as well as use these models to create engineering drawings and documentation. (Prerequisite: none) (3 credits: 2 lecture/1 lab) BIKE2010 3D Prototyping Learn how prototype parts and assemblies can be generated using CAD design data. Understand available processes to rapidly create functional objects, visual models, and working assemblies. Learn to apply a variety of rapid prototyping methods including: 3D Printing, Desktop Machining, Wood Router, Vacuum Forming, Course Descriptions 111
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