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Prototyping Avionics >> Content Detail



Syllabus



Syllabus

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Class Description and Learning Objectives


Bottom line: you'll learn to design, build, and debug printed-circuit-boards.

Longer story: In the past building prototypes of electronic components for new projects/products was limited to using protoboards and wirewrap. Manufacturing a printed-circuit-board was limited to final production, where mistakes in the implementation meant physically cutting traces on the board and adding wire jumpers - the final products would have these fixes on them! Today that is no longer the case, while you will still cut traces and use jumpers when debugging a board, manufacturing a new final version without the errors is a simple and relatively inexpensive task. For that matter, manufacturing a prototype printed circuit board which you know is likely to have errors but which will get the design substantially closer to the final product than a protoboard setup is not only possible, but desirable.

Inexpensive prototyping of PCB's allows you to go through multiple revisions, incrementally increasing the complexity (reducing the size, increasing the layer count, etc) without the worry of only being able to manufacture once. This process provides many benefits to both the worlds of research and industry, as the design of avionics can proceed faster and with lower costs. That is why the class will teach you how to design PCB's.

Before you actually build a PCB the class will introduce you to the major concepts of electrical engineering which you should be aware of when designing avionics. The class is not a substitute for something like Unified/6.002, 6.111, or 6.115 - but if you end up taking those classes after this one, you will have a reasonable idea of what those classes teach you in great detail. You should also be able to take an existing design and reverse-engineer enough of it to understand its general functions. To this purpose, we will review general EE concepts for about a month.

In summary, the primary objective of the course is help you experience the implementations stages of anavionics project: after initial conception and design of an avionics project (outside the scope of the class), to be able to create a final product for integration into a larger system. After the class you should be able to:

  • Identify the main components of an avionics prototype
  • Use schematic capture software to create detailed schematics
  • Use PCB layout programs to create avionics boards
  • Understand the test and debug processes for avionics

Schedule overview summarizes the major topics of the class and when they will be covered throughout the term.


WEEK #TOPICS
1-5Electronics review
6-7

Schematics

Documentation

8

Electronics review (cont.)

Schematics (cont.)

PCB's

Assembly and debug

Documentation (cont.)

9-11PCB's (cont.)
12-13Assembly and debug (cont.)
14

Assembly and debug (cont.)

Documentation (cont.)




Assignments, Projects, and Grading


The first half of the class will utilize problem sets based on the introductory material. The second half will be based on projects which demonstrate the ability to produce an avionics prototype board. The following are the deliverables for this class:



Problem Sets


  • Four problem sets during the first month of class to demonstrate the ability to identify essential electronic components
  • While students can work in groups to discuss the problem sets, each student is expected to turn in their own solutions


Project


  • Detailed schematic
  • Documentation on the operation of the circuit
  • PCB layout
  • Report documenting their experience and results during testing and debugging
  • Depending on class registration and the availability of software licenses, the projects will be worked either individually or in groups of at most three students, preferably two. When the work is performed in groups, the schematic, functional documentation, and layout will be shared deliverables, while the experiences and debugging report will be turned in individually.


Grading


Grading will be based on the following criteria:


ACTIVITIESPercenTAGES
Homework30%
Documentation: Functional10%
Schematic25%
Layout25%
Documentation: Test, debug, results10%

The class will have no exams.



Resources


The class has no required textbooks, rather it will emphasize importance of an avionics engineer to be able to locate and understand product data-sheets. The need for this is especially true today, when new products are available continuously.

For help during the first part of the class, when we review electronic theory and components, the following optional textbook may be useful:

Amazon logo Horowitz, P., and W. Hill. The Art of Electronics. 2nd ed. Cambridge, UK: Cambridge University Press, 1989. ISBN: 9780521370950.


 








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