Contact: ieee-hope@lists.berkeley.edu
HOPE teaches students effective PCB design and empowers them to create custom electronics for classes, personal projects, student teams, and more. Students will learn effective system, schematic, and layout design for PCBs through hands-on applications, and experience basic PCB assembly and bringup. Students will be exposed to some advanced PCB design topics such as DFT, DFM, signal and power integrity, grounding, thermals, and isolation.
HOPE DeCal is renewed for Spring 2022
Students who are interested in signing up for this DeCal next semester should come back to check this webpage and our DeCal's listing on the DeCal website for updates on how to enroll around the start of the next semester.
OH Mon. 1-2pm in the Office Hours Zoom
For students that need that extra support time, Office Hours on Mondays 1-2pm will be held in the separate, recurring Zoom meeting (link above).
bCourses available for registered students.
We will keep track of grade-related things in bCourses, and all lecture recordings will be posted there. Other course content will be found here on the website.
Week | Topic | Reference | Lab | Lab Checkoff Due @ Start of Lab | Project Checkpoint |
---|---|---|---|---|---|
1 9/09 |
Intro to PCB and Schematics Intro to the class, PCBs, KiCad, and using KiCad's schematic editor. |
Install KiCad Light Sensor Schematic |
|||
2 9/16 |
KiCad Layout Basics Schematics to physical layout. Footprints, basic placement, and routing. |
Light Sensor Schematic Light Sensor Layout |
Light Sensor Schematic | ||
3 9/23 |
Understanding Components Real components to their symbol and footprint. |
USB Charger Pt.1 | Light Sensor Layout | ||
4 9/30 |
PCB Design Abstraction Design abstraction and its use in PCB design. Concept of stakeholders. Advanced KiCad schematics. |
USB Charger Pt. 2 | USB Charger Pt. 1 |
Finalize groups (2-3 people recommended) |
|
5 10/7 |
PCB Manufacturing The PCB manufacturing process, and how it affects layout. Outputs for manufacturing. |
Microbug: Parts and Schematic | USB Charger Pt. 2 | Proposals due | |
6 10/14 |
PCB Assembly PCB assembly processes, by hand and automated. How assembly methods affect layout and component/design choices. |
Microbug Friday 10/15 6-8 PM Hands-on lab: USB charger assembly (slides) --or-- Virtual take-home lab: IoT Door Lock Part 1 |
Check-in: Proposal review | ||
7 10/21 |
Advanced Layout Layout is a lot more than just connecting the dots. General layout process and overview of concerns. |
Microbug | Microbug Schematic | ||
8 10/28 |
Microcontroller Basics Introduction to microcontrollers, common features, and basic tips on adding them to PCBs |
Microbug Layout |
Due: Schematic and layout draft
Project Logistics |
||
9 11/04 |
Ordering, Testing, and Bringup The last bits of what you need to get a working PCB. |
Friday 11/05 6-8 PM Hands-on lab option: Microbug Assembly Lab, Part 1 --or-- |
Design reviews during class on 11/04
Project Logistics |
||
10 11/11 |
Veterans Day (No Live Class) No live class/lab this week, we may assign videos/materials to review for the week. |
Due: PCB files must be submitted by 11/12
Project Logistics |
|||
11 11/18 |
Advanced Passives Learn a bit more about the reality of passives, and what happens in more advanced designs. |
Slides |
Friday 11/19 6-8 PM Hands-on lab option: Microbug Assembly Lab, Part 2 --or-- |
||
11/25 |
Thanksgiving (No Class) Enjoy your break! (Or work on your projects) |
||||
12 12/02 |
Miscellaneous Topics Interesting PCB-related things |
||||
13 12/09 |
Project Presentations |