Course detail
Design systems of printed circuit boards
FEKT-BNSPAcad. year: 2012/2013
Systems for designing of electrotechnical schemes in relationship with creating of printed circuit boards (ORCAD, PADS). Drawing and editing commands, commands of screen operation. Work with libraries of electronic components. Electronic checking of the scheme. Interconnection to systems for creating printed circuit boards (PCB), PCB design, interconnection to simulating systems (PSPICE, EVB and others). Creating output files for production of PCB. Production of designed printed circuit after its simulation.
Language of instruction
Number of ECTS credits
Mode of study
Guarantor
Learning outcomes of the course unit
Prerequisites
Co-requisites
Planned learning activities and teaching methods
Assesment methods and criteria linked to learning outcomes
60b. final examination
Course curriculum
2. Working with the schema editor, netlist creation, integration with PSpice program
3. Design of boards in Orcad program, editing commands
4. Advanced settings OrCAD Layout, links to autorouter SPECCTRA
5. Pads Logic editor of schemes, environment, principles of drawing the diagram
6. Editor schemes Pads Logic editing possibilities, creating netlist
7. Pads Layout, Introduction, the environment, the process of board design, fabrication outline plates, stretching netlist
8. Pads Layout, layout of components, drawing connections, board design without a netlist, the design
9. Import and export of changes from pads logic, outputs, dictionary for pcb
10. PADS Router, environment, links between router and DPS design, bases the use of router
11. PADS Router, examples of manual routing, routing types of wheels, set the routing options Autorouter
12. Technological outputs, creation of filling the drawing, soldering masks, masks for application of adhesive paste. Gerber 274X format data, display options Gerber data
13. Linking with other programs, PADS CAM BluePrint, CAM350, questions and answers
Work placements
Aims
Specification of controlled education, way of implementation and compensation for absences
Recommended optional programme components
Prerequisites and corequisites
Basic literature
manuály k programům (EN)
Recommended reading
Classification of course in study plans
Type of course unit
Lecture
Teacher / Lecturer
Syllabus
PCB Eagle editor - commands for creating printed circuit boards, technological output
Work with libraries - editing, use
ORCAD - introduction to the problems, design environment, work with the editor of schemes, interconnection with the built in simulating program Pspice, creating netlist.
Bases of simulation in Pspice
Design of boards in Orcad program, editing commands, printing, technological outputs.
Pads Power Logic editor of schemes, environment, principles of drawing schemes, editing possibilities, creating netlist.
Generating outputs - printing the scheme, specification card and other reports, eco-annotation of changes, other commands, dictionary for logic
Pads Power PCB introduction to problems, environment, process at designing the board, making the outline of the board, pulling the netlist
Layout of parts, drawing connections, board design without the netlist, checking the design.
Import and export of changes from pads-logic, outputs, dictionary for pcb
Blaze router, environment, connection between router and DPS design, bases of using router.
Standards for DPS design, technological environment, requirements for DPS production.
Exercise in computer lab
Teacher / Lecturer
Syllabus
PCB Eagle editor of schemes
Work with libraries
Orcad editor of schemes, interconnection with the simulating program Pspice
Bases of simulation in Pspice
Design of boards in Orcad program
Pads Power Logic editor of schemes
Generating outputs, eco-annotation of changes.
Design of boards in Pads Power PCB
Layout of parts, board design without the netlist
Blaze router
Generating outputs from Pads Power PCB
Checking EMC by the Hyperlinx program