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1
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- Updated 1/10/2008, CEPD, Inc.
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2
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- Files
- Mechanical DXF files are provided when available
- Netlist from the schematic capture tool
- Datasheets
- Mechanical requirements detailing
- Board outline
- mounting holes
- connector placement
- keep out zones
- component height restrictions
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3
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- Electrical Requirements, Indentify:
- High current signals
- Signals sensitive to crosstalk or coupling
- clocks
- Isolated signals and barriers
- Transmission line signals
- Microstrip , Strip line
- Controlled impedance signals and pairs
- High impedance signals
- Desired number of layers
- Minimum trace width
- Approximate component placement, circuit sectioning
- Grounding guidelines
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4
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- The layout process has two review milestones.
- The initial review occurs after the board outline, component footprints
and component placement is completed.
- The second and final review of the board occurs after routing and
design or rules checking, prior to fabrication of the circuit board.
- The final review includes checking of the gerbers files. Schematics and layout files will be
archived and the revision numbers incremented each time a board is
fabricated with changes.
- A checklist follows this slide to aid in the reviews
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5
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- Check component placement organization, component orientation and that
components are on a grid.
- Check Trace Lengths.
- Critical lines such as USB and PCI are required to be the same
electrical length
- Keep clock signals as sort as possible
- Check Trace Widths and copper thickness.
- Ensure high current traces are wide enough
- Generally, analog or high speed signal traces need to be wider than
digital traces.
- Check Trace separation.
- Ensure that coupling from adjacent traces will not occur onto sensitive
signals.
- Ensure spacing for voltage isolation requirements is met.
- Check that guard traces are used where needed. The guard traces can be power or
ground, ground is preferred.
- Verify that copper pours are around analog sections, if needed.
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6
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- Check that Power Planes and ground planes are logically organized.
Make sure that they are poured and not routed.
- Check that traces do not cut across power or ground planes
unnecessarily.
- Check that the grounding method is consistent, either-
- Single point star
- Grid
- Pour
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7
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- Check the placement of zero ohm resistors which connect ground planes.
- Check controlled impedance trace separation and separation from ground.
- Check that high impedance traces do not have a power or ground pour
above or below them.
- Make sure that mounting holes, board dimensions and heat sinking are
correct with respect to the mechanical design.
- Verify that components have the correct pin outs and footprints
- Special care is necessary with SOT-23 packages (transistors, diodes,
etc.).
- How pins are numbered can vary between manufacturers.
- Verify that components with tab connections are connected correctly.
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8
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- Verify that clock traces are short.
- Place series resistors close to the signal source.
- Place shunt resistors close to the signal termination.
- Verify that the outside of the board Keep-outs (and mounting hole
Keep-outs) are maintained.
- Verify that mounting holes are grounded to the appropriate ground type,
or are left floating (if the design calls for this).
- Verify that Bypass capacitors are placed close to the device power pins.
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9
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- Verify that the correct revision numbers are displayed on the board with
the silkscreen. Verify that any other items that are silkscreened
are correct.
- Make sure that a DRC/ERC is done on the board for connections vs. the
schematic netlist, clearances, etc.
and remove any errors that may be present.
- Verify the packages that were placed for the board match the footprints
in the datasheet and for the P/Ns in the BOM.
- Make sure any manual PCB changes are back annotated to the schematic.
- Check Fab notes, material call outs, board and copper thickness, and
plating.
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10
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- http://circuitcalculator.com/wordpress/2006/01/31/pcb-trace-width-calculator/
- http://www.ideaconsulting.com/dstrip.htm
- http://www.microwaves101.com/encyclopedia/calmstrip.cfm
- http://www.ieee.li/pdf/viewgraphs_pwb_design.pdf
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Notes
