Lecture Week
1
•
•
•
•
•
•
•
•
•
•
Course Description
TAs
Course Schedule
Teams
Team Exercise
Course Website
Grade Scale - Syllabus
Ordering Supplies
Software
What’s next
General Information
Name: Dr. Robert C. Roberts
Office Location: Engineering A310
Email: rcroberts@utep.edu
Office Hours: W 3:00 pm to 5:00 pm or by appointment
When in doubt, send me an email! I am here to help.
Welcome!
What is an Electrical/Computer Engineer?
• Electrical and
Computer Engineers
are creative and
innovative problem
solvers.
They design devices and
systems to improve our quality of life.
ECE Vision and Mission
• Vision
• The Department of Electrical & Computer Engineering will provide programs of the
highest quality to produce world class engineers who can address challenges of the
millennium.
• Mission
• The Department of Electrical & Computer Engineering will:
• Dedicate itself to providing its students with the skills, knowledge and attitudes that will
allow its graduates to succeed as engineers and leaders.
• Maintain a vital, state-of-the art research enterprise, which provides its students and
faculty with opportunities to create, interpret, apply and disseminate knowledge.
• Prepare its graduates for life-long learning to meet intellectual, ethical and career
challenges.
• Recognize and act upon the special mandate to make high quality engineering education
available to the residents of El Paso and the surrounding region.
ECE Faculty (2023)
5 Professors (4 M, 1F)
• Flores, Nava, Rumpf, Velez-Reyes*,
Zubia
5 Associate Professors (5M)
• Cabrera, Mandal, McGarry,
Moya, von Borries
5 Assistant Professor (3M, 2F)
• Errapotu, Roberts, Sang, Lee, Wang
2 Professor of Practice (2M)
•
Gonzalez*, Romero
1 Associate Prof of Practice (1M)
•
Gutierrez
1 Assistant Prof of Practice (1M)
•
Gutierrez
* Administrative appointments (reduced or no teaching)
ECE Degree Programs
• B.S. Electrical Engineering (128 credits)
•
Areas:
o Energy, Fields and Devices
o Communications, Control and Signal Processing
o Biomedical Engineering
o General EE
• Minors in Computer Engineering and Robotics/Autonomous Systems
• New: B.S. Computer Engineering
• Fast-track Joint BS/MS & BS/MBA (4+1 years)
• Graduate Certificate Program in Electric Power and Energy Systems (12 crs)
• M.S. Computer Engineering (30 - 36 credits)
• M.S. Electrical Engineering (30 – 36 credits)
• Ph.D. Electrical and Computer Engineering (72/42 credits beyond BS/Master )
ECEAAlumni
Employments
sample of the companies where our recent graduates are employed.
Electrical and Computer Engineers are Everywhere!
EE1305/1105 is your first step towards graduating as an
electrical or computer engineer!
The ECE department looks forward to you taking your
final steps at UTEP at Graduation!
“ The Institute of Electrical and Electronics
Engineers is a professional association for
electronic engineering and electrical engineering
… it was formed in 1963. “ Wikipedia
https://en.wikipedia.org/wiki/Institute_of_Electrical_and_Electronics_Engineers
IEEE-HKN (Zeta Delta Chapter)
• What is HKN?
• The honor society of IEEE
• Founded in 1904
• 260+ Chapters Worldwide
• Why join IEEE-HKN?
•
•
•
•
Networking within UTEP ECE Dept.
Community Service within El Paso
Academic assistance
Scholarship & Leadership
opportunities!!!
 Selection Process
 Sophomore (min 45 credit hours & passed Circuits 1) –
GPA requirement is 3.5
 Junior (min 60 credit hours & passed Electronics 1) – GPA
requirement is 3.4
 Senior (min 90 credit hours & enrolled in Senior Projects
1) - GPA requirement is 3.3
 Graduate (min 3 credit hours) GPA requirement is 3.3
Course Website
http://www.ece.utep.edu/courses/web1305/EE1305/
If you Google “EE1305 UTEP” it is usually the first result
These slides, lab materials, resources, schedule, etc. is on the website.
Bookmark it and check it often. The website is your friend.
Course Description: Learning Outcomes
STUDENTS WILL …
• Become familiar with the Analog
Discovery/ADALM2000 device (oscilloscope and
waveform functions).
• Use MATLAB to model experimental data.
• Analyze Simple Circuits using KVL, KCL and voltage
divider methods.
• Build circuits using passive and active components.
Build and analyze signals through circuits with low
pass, high pass and band pass filters.
• Use Bode Plots to characterize filters and predict
signal response.
• Build circuits using sensor inputs to create a
measureable output.
• Use complex impedance to model and analyze Op-Amp
circuits.
Course Description: Learning Outcomes  ECE
Curriculum
Intro to ECE Concepts
Courses
Soldering Through Hole and Surface Components
Senior Projects (EE4220/EE4230)
Familiar with Oscilloscope & Waveform Functions
Circuits II (EE2351/EE2151), Electronics I (EE3338/EE3138),
Electronics II (EE3340)
Using MATLAB to modeling data
Most courses
Understanding, Using and Analyzing Op-Amps
Circuits I (EE2350), Circuits II (EE2351/EE2151), Electronics I
(EE3338/EE3138), Electronics II (EE3340)
Using Ohm’s Law, KVL/KCL, Voltage Divider Methods to Analyze and
Simplify Circuits; Conservation of Power
Circuits I (EE2350), Circuits II (EE2351/EE2151), Electronics I
(EE3338/EE3138), Electronics II (EE3340)
Understanding Filters (Low, High and Bandpass) – Time Response
Circuits II (EE2351/EE2151), Cont Time Signals/Systems
(EE2353), Electronics I (EE3338/EE3138), Electronics II (EE3340)
Cut-off frequency, Using Bode Plots to Model Filters
Circuits II (EE2351/EE2151), Cont Time Signals/Systems
(EE2353), Electronics I (EE3338/EE3138), Electronics II (EE3340)
Building and Analyzing Sensor Circuits
Electronics I (EE3338/EE3138), Electronics II (EE3340), EE4358
(Med Diag & Therap Instrum), Senior Projects (EE4220/EE4230)
Using Complex Impedance to Model Active Op-Amp Circuits
Course Description: Behavior Outcomes
STUDENTS WILL …
• Gain self-confidence and self-efficacy to respond in
a positive manner to future challenges.
• Pick up learning habits that will help them become
self-motivated learners.
• Learn the benefits of maintaining high standards in
their engineering work and all types of communication
styles.
• Become aware that working on student teams can
result in support structures that deepen individual
learning.
• Become mentors to others as they build up their
engineering expertise.
Teaching Assistants (TAs)
Sheikh Dobir Hossain – Graduate Student
shossain6@miners.utep.edu
Bhushan Lohani – Graduate Student
blohani@miners.utep.edu
EE1305/1105 - Weekly Schedule
MONDAY
TUESDAY
THURSDAY
FRIDAY
LAB
E301E
7:30 am –
10:20 am
10:30 am –
1:20 pm
WED
LAB
E301E
LAB
E301E
LAB
E301E
1:30 pm –
2:50 pm
3:00 pm –
4:20 pm
Next week – Lab Session: Tutorial 1
Lecture
UGLC342
Lecture
UGLC342
Course Website
http://www.ece.utep.edu/courses/web1305/EE1305/
• Modules
• Resources (Syllabus/Schedule, Course Materials/Supplies, Lab Report
Resources, KVL/KCL Tutorials, Equation Sheets, Soldering Tips)
• Lectures (power points for all lectures)
• Homework Assignments
• Contacts
Grade Scale – Please read Syllabus
Lecture
• Final Exam –
• Quizzes –
• Workshop Problem Sets (Team) –
• Homework (Individual) –
Lab
• First 8 Modules –
• Final Lab Module –
20%
25%
30%
25%
80% (10% each)
20% (larger lab report)
Other Supplies
• Computer or Engineering Paper
• Calculator
• Ruler
• Laptop/PC (especially for labs)
SUPPLIES: ADALM2000 – Need by Feb 6th
• Analog Devices ADALM2000  ugh, they just raised their prices
• www.digikey.com – ($236.25)
• www.mouser.com – ($236.25)
Source: https://www.eee.hku.hk/power_electronics_lab
If you have a Digilent Analog Discovery 2, you
can use that!
Search for: ADALM2000
SUPPLIES: ADALP2000 – Need by Feb 6th
• Analog Devices ADALP2000 – ($107)  ugh, they just raised their prices
• www.mouser.com – Currently in stock
• www.digikey.com – Currently in stock
Search for: ADALP2000
Homework/Assignment # 1
(Syllabus-Acknowledgement Form)
• Please read the syllabus carefully.
• Then, please fill out the last page of the syllabus and turn it
in at the front of the room. Either today at the end of class,
or during the next class.
Homework/ Assignment #2
Wait until Thursday. I want to look into
these prices quickly.
Questions?
See you in the next class!