SES # | TOPICS | LECTURE DESCRIPTIONS |
---|---|---|
1 | (Re)Introduction to design (PDF) | Course introduction and overview. A revisit of the design process and where new prototyping techniques fall within it. |
2 | Review of E&M (PDF) | An expedited review of the main concepts of E&M relevant to prototyping electronics. Concepts of voltage, current, resistance, capacitance, and inductance and their major relations: V = IR, P = IV = I 2 R, I= CdV/dt, V = LdI/dt. |
3 | Discrete components (PDF) |
Review of the primary discrete components (assume prior introduction in Unified): resistors, capacitors, inductors, and diodes. Review of first and second order systems created with passive components. Emphasis on voltage dividers and low-pass filters. Review/introduction of amplifiers: emphasis on general equations to implement different types of circuits. |
4 | Discrete components: Transistors (PDF) | Review/introduce transistors and their primary different types: NPN/PNP, MOSFETs. Emphasis on the general operation, primarily on their behavior as it affects the digital world, rather than transient behavior. |
5 | Power components (PDF) |
Review general concepts of voltage and current supplies. Understand the general operation and how to utilize: linear regulator, inductor based regulators, integrated switching regulators. |
6 | Digital components (PDF) |
Review/introduction of the basic "gates" that comprise the digital world: and, or, nor, xor, multiplexers, registers, latches, and flip-flops (in general what the 74 series of digital components can do). Maintain all material on a "single-bit" level at this point. Introduce the concept of truth tables for these elements; teach the ability to create their own truth-tables. |
7 | Digital thinking |
Introduce students to thinking in the digital world: bit/nibble/byte/word concepts, octal/decimal/hexadecimal systems, bitwise vs. byte wise operations, word operations, data types representation. Concepts of stacks, queues, pointers, and memory operations. |
8 | Processors | General purpose processor architectures: processing unit, stack, program memory, data memory, peripherals, interfaces. |
9 | Interfacing digital and analog | Introduce concept of digital/analog conversion (both ways). Present large array of available hardware that can be interfaced to processors. |
10 | Schematics: Introduction |
Introduce the schematic capture program: creation of schematic with existing parts on a single page. Part placement, net naming, component numbering, bill of materials, netlist creation. |
11 | Schematics: Parts |
Introduction to parts libraries: creation/management of components. Component entry for schematic operations– pin creation, arrangement, naming. Intro to the ability to simulate a circuit (talk about it only, will not simulate). |
12 | Schematics: Advanced tools | Development of more complex schematics: multiple pages, ports, buses, multiple channels. |
13 | Schematics: Finishing design | Explanation of board level annotation, netlisting, and reports. |
14 | What is a PCB? |
Introduction to all the parts of a PCB. Surface mounts vs. through-hole components. Hole sizes, drills, and mounting holes: specifying for all layers. Annular rings, clearance, and thermal relieve. |
15 | PCB design: Basics | Creating the first PCB: board outline, grid setup, clearances setup, nets setup, the ratnest, part placement. |
16 | PCB design: Routing | Routing: manual routing – take care of noise, ground lines, power lines. Automatic routing: when to use it. |
17 | PCB design: Finishing | Error checking, plotting/printing, file output, manufacturing details. |
18 | Documentation | Guide students in the development of documentation which clearly describes the functionality of the avionics board, including correct use of timing diagrams, truth tables, ratings, and plots. |
19 | Assembly tips | Provide students with best methods to assemble (soldering techniques) a new PCB. |
20 | Testing and debugging PCB's |
Best methods to test and debug a prototype PCB: power check, critical net check, part matching, part sorting, assembly in stages. The first time you power up a new PCB: what to look for. |
21 | Complex embedded systems | Introduction of Complex Embedded Systems: high end processors, FPGA's, high-speed circuits, etc. |