DIGITAL ELECTRONICS/COMPUTER INTEGRATED MANUFACTURING (DE/CIM) PLTW
DIGITAL ELECTRONICS™(DE) PLTW
WEIGHTED: 0.666
Grade: 11-12
Credits: 1.5
DUAL CREDIT: UCM ENGT 1011, 1050 (7 credits available to eligible students)
PREREQUISITE: GPA: 2.5 cumulative or higher; Attendance: 90% or higher; Math: Algebra I, B- or higher; Reading/Writing: 10th
grade level
Recommended: Average Math and Engineering grade: B- or higher. *Engineering involves applied mathematics; therefore,
students are strongly encouraged to take the most rigorous math course for which they qualify and concurrently with their
engineering course.
HIGHLY RECOMMENDED for PLTW Member Schools: Introduction to Engineering Design, Principles of Engineering
This fast-paced, college level course in applied logic gives students the opportunity to learn how computers/logic circuits think and control the world around us. Students will use applied math to understand the logic behind the circuits, as well as, computer simulation software to design and test digital circuitry prior to the actual construction of the circuits. Students will have the opportunity to learn everything from basic electronic circuit design, logic circuit design, all the way up to and including programming and interfacing with microcontrollers. Students can expect to use the engineering design process to think critically and independently solve open-ended problems. More information can be found at: https://sta.lsr7.org/academics/engineering/de
COMPUTER INTEGRATED MANUFACTURING™(CIM) PLTW
WEIGHTED: 0.666
Grades: 11-12
Credits: 1.5
Dual Credit: UCM ENGT 1012 (2 credits available to eligible students)
PREREQUISITES: GPA: 2.5 cumulative or higher; Attendance: 90% or higher; Algebra I with a B- or higher; Reading/Writing:
10th grade level.
Recommended: Average Math and Engineering grade: B- or higher. *Engineering involves applied mathematics; therefore,
students are strongly encouraged to take the most rigorous math course for which they qualify and concurrently with their
engineering course. *Engineering involves applied mathematics; therefore, students are strongly encouraged to take the most
rigorous math course for which they qualify and concurrently with their engineering course.
HIGHLY RECOMMENDED for PLTW Member Schools: Introduction to Engineering Design, Principles of Engineering
This exciting course provides students with the fundamentals of computerized manufacturing technology in a global perspective. Students will have individual and team projects in the following areas of manufacturing: Computer Modeling-using a three dimensional, solid modeling software package with mass property analysis and design interface tools. Additive & Subtractive Prototyping - converting computer generated geometry into a CNC program to create prototypes - converting computer generated geometry into a program to drive CNC machine tools. Robotics- robotic arm programming and how they are used for materials handling and assembly operations. Flexible Manufacturing Systems - working in teams to design manufacturing work cells and table top factory simulations. The students will interact with industry experts and should expect to be challenged with ideation and creation of projects while working within a set of constraints. There will also be client connected projects that will be done as part of our connections to business partners in the area. More information can be found at: https://sta.lsr7.org/academics/engineering/cim