MC912D60ACPVE8 Datasheet, PDF(433/460 Page) Freescale Semiconductor, Inc – MC68HC912D60A MC68HC912D60C MC68HC912D60P Technical Data

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MC912D60ACPVE8 Datasheet, PDF (433/460 Pages) Freescale Semiconductor, Inc – MC68HC912D60A MC68HC912D60C MC68HC912D60P Technical Data

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Appendix: CGM Practical Aspects

Printed Circuit Board Guidelines

21.4 Printed Circuit Board Guidelines

Printed Circuit Boards (PCBs) are the board of choice for volume

applications. If designed correctly, a very low noise system can be built

on a PCB with consequently good EMI/EMC performances. If designed

incorrectly, PCBs can be extremely noisy and sensitive modules, and

the CGM could be disrupted. Some common sense rules can be used to

prevent such problems.

â¢ Use a âstarâ style power routing plan as opposed to a âdaisy chainâ.

Route power and ground from a central location to each chip

individually, and use the widest trace practical (the more the chip

draws current, the wider the trace). NEVER place the MCU at the

end of a long string of serially connected chips.

â¢ When using PCB layout software, first direct the routing of the

power supply lines as well as the CGM wires (crystal oscillator and

PLL). Layout constraints must be then reported on the other

signals and not on these âhotâ nodes. Optimizing the âhotâ nodes at

the end of the routing process usually gives bad results.

â¢ Avoid notches in power traces. These notches not only add

resistance (and are not usually accounted for in simulations), but

they can also add unnecessary transmission line effects.

â¢ Avoid ground and power loops. This has been one of the most

violated guidelines of PCB layout. Loops are excellent noise

transmitters and can be easily avoided. When using multiple layer

PCBs, the power and ground plane concept works well but only

when strictly adhered to (do not compromise the ground plane by

cutting a hole in it and running signals on the ground plane layer).

Keep the spacing around via holes to a minimum (but not so small

as to add capacitive effects).

â¢ Be aware of the three dimensional capacitive effects of multi-

layered PCBs.

â¢ Bypass (decouple) the power supplies of all chips as close to the

chip as possible. Use one decoupling capacitor per power supply

pair (VDD/VSS, VDDX/VSSX...). Two capacitors with a ratio of

about 100 sometimes offer better performances over a broader

MC68HC912D60A â Rev. 3.1

Freescale Semiconductor

Appendix: CGM Practical Aspects

Technical Data

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