ELEC101P Introduction to Electrical Engineering
Course Overview
DC Circuit Analysis: Handout1
Dr Ed Romans
London Centre for Nanotechnology & EE
(Main office in LCN, not often in EE office)
ELEC101P Course Overview
Circuit Analysis: DC circuits: Dr Ed Romans (First 1.5 weeks)
AC circuits: Dr Chin-Pang Liu (module leader)
Operational Amplifiers (Op-amps): Dr Chin-Pang Liu
Digital Circuits: Dr Robert Killey
Microcontrollers and Embedded Programming I: Dr Ryan Grammenos
---------------------Reading Week with Revision Class---------------------
Microcontrollers and Embedded Programming II: Dr Ryan Grammenos
Signals and Systems: Prof John Mitchell
Energy Resources and Power: Prof Paul Brennan
---------------------Revision Classes and End of Term ---------------------
Monday 9th January: Final Exam (first day of term)
, Course Management and Assessment
Notes will be provided by the respective lecturer of each section of the course.
A problem booklet is provided on Moodle to give example questions to tackle at
each stage of the course. You need to complete the questions we ask for each
week and take them to your 1st year tutorial. A schedule will be posted on Moodle.
You can discuss questions with your tutor, who will be able to help with any
difficulties.
We will also have revision classes in the reading week and towards the end of
term.
Assessment comprises Term 1 laboratory work (25%) and a final exam (75%). The
final exam will take place on the first day of Term 2.
We will give out details of the exam and example questions later in the term.
The students who do well in this module are likely to be those who put in the effort
to understand the notes and attempt all the questions as we go along: plenty of
self motivation and working in your own time are therefore essential.
Circuit Analysis: DC Circuits
In the first three 2hr lectures of this term we will cover:
• Resistors in Parallel and Series
• Maximum Power Transfer
• Kirchhoff’s 1st and 2nd Law
• Node and Mesh Analysis
• Linearity and Superposition
• Thévenin and Norton Theorems
Tutorials Problems:
For tutorial 2nd week of term (UCL timetable week 7) Qu B1-3
For tutorial 3rd week of term (UCL timetable week 8) Qu B4-6
Course Overview
DC Circuit Analysis: Handout1
Dr Ed Romans
London Centre for Nanotechnology & EE
(Main office in LCN, not often in EE office)
ELEC101P Course Overview
Circuit Analysis: DC circuits: Dr Ed Romans (First 1.5 weeks)
AC circuits: Dr Chin-Pang Liu (module leader)
Operational Amplifiers (Op-amps): Dr Chin-Pang Liu
Digital Circuits: Dr Robert Killey
Microcontrollers and Embedded Programming I: Dr Ryan Grammenos
---------------------Reading Week with Revision Class---------------------
Microcontrollers and Embedded Programming II: Dr Ryan Grammenos
Signals and Systems: Prof John Mitchell
Energy Resources and Power: Prof Paul Brennan
---------------------Revision Classes and End of Term ---------------------
Monday 9th January: Final Exam (first day of term)
, Course Management and Assessment
Notes will be provided by the respective lecturer of each section of the course.
A problem booklet is provided on Moodle to give example questions to tackle at
each stage of the course. You need to complete the questions we ask for each
week and take them to your 1st year tutorial. A schedule will be posted on Moodle.
You can discuss questions with your tutor, who will be able to help with any
difficulties.
We will also have revision classes in the reading week and towards the end of
term.
Assessment comprises Term 1 laboratory work (25%) and a final exam (75%). The
final exam will take place on the first day of Term 2.
We will give out details of the exam and example questions later in the term.
The students who do well in this module are likely to be those who put in the effort
to understand the notes and attempt all the questions as we go along: plenty of
self motivation and working in your own time are therefore essential.
Circuit Analysis: DC Circuits
In the first three 2hr lectures of this term we will cover:
• Resistors in Parallel and Series
• Maximum Power Transfer
• Kirchhoff’s 1st and 2nd Law
• Node and Mesh Analysis
• Linearity and Superposition
• Thévenin and Norton Theorems
Tutorials Problems:
For tutorial 2nd week of term (UCL timetable week 7) Qu B1-3
For tutorial 3rd week of term (UCL timetable week 8) Qu B4-6
