Texas Administrative Code
Title 19 - EDUCATION
Part 2 - TEXAS EDUCATION AGENCY
Chapter 127 - TEXAS ESSENTIAL KNOWLEDGE AND SKILLS FOR CAREER DEVELOPMENT AND CAREER AND TECHNICAL EDUCATION
Subchapter O - SCIENCE, TECHNOLOGY, ENGINEERING, AND MATHEMATICS
Section 127.747 - Solid State Electronics (One Credit), Adopted 2015
Universal Citation: 19 TX Admin Code ยง 127.747
Current through Reg. 49, No. 38; September 20, 2024
(a) General requirements. This course is recommended for students in Grades 11 and 12. Prerequisite: AC/DC Electronics. Students shall be awarded one credit for successful completion of this course.
(b) Introduction.
(1) Career and technical education
instruction provides content aligned with challenging academic standards and
relevant technical knowledge and skills for students to further their education
and succeed in current or emerging professions.
(2) The Science, Technology, Engineering, and
Mathematics (STEM) Career Cluster focuses on planning, managing, and providing
scientific research and professional and technical services, including
laboratory and testing services, and research and development
services.
(3) In Solid State
Electronics, students will demonstrate knowledge and applications of advanced
circuits, electrical measurement, and electrical implementation used in the
electronics and computer industries. Students will transfer advanced academic
skills to apply engineering principles and technical skills to troubleshoot,
repair, and modify electronic components, equipment, and power electronic
systems in a project-based environment. Additionally, students will explore
career opportunities, employer expectations, and educational needs in the
electronics industry.
(4) Students
are encouraged to participate in extended learning experiences such as career
and technical student organizations and other leadership or extracurricular
organizations.
(5) Statements that
contain the word "including" reference content that must be mastered, while
those containing the phrase "such as" are intended as possible illustrative
examples.
(c) Knowledge and skills.
(1) The student demonstrates
professional standards/employability skills as required by business and
industry. The student is expected to:
(A)
demonstrate knowledge of how to dress appropriately, speak politely, and
conduct oneself in a manner appropriate for the profession;
(B) show the ability to cooperate,
contribute, and collaborate as a member of a group in an effort to achieve a
positive collective outcome;
(C)
present written and oral communication in a clear, concise, and effective
manner, including explaining and justifying actions;
(D) demonstrate time-management skills in
prioritizing tasks, following schedules, and performing goal-relevant
activities in a way that produces efficient results; and
(E) demonstrate punctuality, dependability,
reliability, and responsibility in performing assigned tasks as
directed.
(2) The
student demonstrates the skills necessary for success in a technical career.
The student is expected to:
(A) identify
training, education, employment, and career opportunities, including
differences between an electronic technician, electronic technologist, and
electrical engineer;
(B) identify
employment and career opportunities;
(C) identify industry
certifications;
(D) discuss ethical
issues related to electronics and incorporate proper ethics in submitted
projects;
(E) identify and
demonstrate respect for diversity in the workplace;
(F) identify appropriate actions and
consequences relating to discrimination, harassment, and inequality;
(G) explore electronics career and
preparation programs;
(H) explore
career preparation learning experiences, including, but not limited to, job
shadowing, mentoring, and apprenticeship training; and
(I) discuss Accreditation Board for
Engineering and Technology (ABET) accreditation and
implications.
(3) The
student participates in team projects in various roles. The student is expected
to:
(A) explain the importance of teamwork in
the field of electronics;
(B) apply
principles of effective teamwork and problem solving, including collaboration
and conflict resolution; and
(C)
demonstrate proper attitudes as a team leader and team member.
(4) The student develops skills
for managing a project. The student is expected to:
(A) implement project management
methodologies, including initiating, planning, executing, monitoring and
controlling, and closing a project;
(B) develop a project schedule and complete
work according to established criteria;
(C) participate in the organization and
operation of a real or simulated engineering project; and
(D) develop a plan for production of an
individual product.
(5)
The student demonstrates principles of project documentation and work flow. The
student is expected to:
(A) complete work
orders and related documentation;
(B) identify factors affecting cost and
strategies to minimize costs;
(C)
prepare a project budget;
(D)
prepare a production schedule;
(E)
identify intellectual property and other legal restrictions; and
(F) read and interpret technical drawings,
manuals, and bulletins.
(6) The student practices safe and proper
work habits. The student is expected to:
(A)
master relevant safety tests;
(B)
comply with safety guidelines as described in various manuals, instructions,
and regulations;
(C) identify
governmental and organizational regulations for health and safety in the
workplace related to electronics;
(D) identify and classify hazardous materials
and wastes according to Occupational Safety and Health Administration (OSHA)
regulations and industry standards;
(E) dispose of hazardous materials and wastes
appropriately;
(F) perform
maintenance on selected tools, equipment, and machines;
(G) handle and store tools and materials
correctly; and
(H) describe the
results of negligent or improper maintenance of material, tools, and
equipment.
(7) The
student implements the concepts and skills that form advanced knowledge of
electronics using project-based rubrics. The student is expected to:
(A) apply Ohm's law, Kirchhoff's laws, and
power laws to advanced circuit theory;
(B) demonstrate advanced knowledge of the
theory of direct current, alternating current, digital circuits, and
semi-conductor circuits through Thevenin and Norton's theorems;
(C) apply knowledge of voltage regulation
devices;
(D) apply knowledge of the
design and use of diodes, transistors, and analog components with integrated
circuits;
(E) implement knowledge
of solid-state components and devices such as a power supply design;
(F) demonstrate knowledge of the similarities
and differences in optoelectronic devices;
(G) implement knowledge of transmission
theory;
(H) implement knowledge of
microprocessor applications;
(I)
apply electronic theory to generators, electric motors, power supplies,
electronic amplifiers, electronic oscillators, communication circuits, and
systems; and
(J) complete advanced
electrical-electronic troubleshooting assignments to industry
standards.
(8) The
student learns the function and application of the tools, equipment, and
materials used in electronics through specific project-based assessments. The
student is expected to:
(A) use tools and
laboratory equipment in a safe manner to construct and repair
circuits;
(B) use precision
measuring instruments to analyze circuits and prototypes;
(C) describe and perform measurement
techniques with analog, digital, or storage oscilloscopes;
(D) use multiple software applications to
simulate circuit behavior and present concepts; and
(E) identify and describe the functions of
computer hardware devices.
(9) The student designs products using
appropriate design processes and techniques. The student is expected to:
(A) interpret advanced industry standard
schematics;
(B) identify areas
where quality, reliability, and safety can be designed into a
product;
(C) improve a product
design to meet a specified need;
(D) produce advanced schematics to industry
standards;
(E) discuss the process
of obtaining a patent;
(F) use a
variety of technologies to design components such as computer simulation
software; and
(G) explore
innovative technologies that may affect electronics.
(10) The student builds a simulated or
physical prototype using the appropriate tools, materials, and techniques. The
student is expected to:
(A) identify and
describe the steps needed to produce a prototype;
(B) identify and use appropriate tools,
equipment, machines, and materials to produce the prototype; and
(C) present the prototype using a variety of
media to a panel.
Disclaimer: These regulations may not be the most recent version. Texas may have more current or accurate information. We make no warranties or guarantees about the accuracy, completeness, or adequacy of the information contained on this site or the information linked to on the state site. Please check official sources.
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