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Important points for routing

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Manikandan_S

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Hi Guys

Can aby one please help me that, what are all the importance things needs to be taken care while doing routing for high speed design boards.

Thanks
Manikandan
 

Hi,
Try these.
dmk
This is short and simple tutorial, but it is helpul, in my opinion.

The attached file is is bigger and more detailed.
dmk
 

Hi Manikandan,

Here are some of the guidelines that should be followed in High speed PCB routing

Give a lot of consideration to component placement and orientation.
• Avoid overlapping clock harmonics. Make a harmonic table for each clock.
• Clock signal loop area must be kept as small as possible. Get paranoid about clocks!
• Use multilayer boards with power & ground planes whenever possible.
• All high frequency signal traces must be on layers adjacent to a plane.
• Keep signal layers as close to the adjacent plane layer as possible (< 10 mils).
• Above 25 MHz PCB's should have two (or more) ground planes.
• When power & ground planes are on adjacent layers, the power plane should be recessed from the
edge of the ground plane by a distance equal to 20 times the spacing between the planes.
• Bury clock signals between power & ground planes whenever possible.
• Avoid slots in the ground plane. Also applies to the power plane.
• If a segmented power plane is necessary, signal traces must not be routed over the slots.
• Filter (series terminate) the output of clock drivers to slow down their rise/fall times and to reduce
ringing (typically 33 to 70 ohms).
• Place the clocks & high-speed circuitry as far away from the I/O area as possible.
• Use a minimum of two equal value decoupling capacitors on DIP packages, four on square packages.
On high frequency/high power/noisy IC's many more capacitors may be necessary.
• Consider using embedded capacitance PCB structures for decoupling on h-f boards (>50 MHz)
• Use impedance-controlled PCB layout techniques (with proper terminations) where necessary
• On impedance-controlled PCBs, do not transition the signal from one layer to another unless both
layers are referenced to the same plane.
• On non impedance-controlled PCBs, when a clock transitions from one layer to another & the layers
are referenced to different planes add a transfer via or capacitor between the planes.
• All traces whose length (in inches) is equal to or greater than the signal rise/fall time (in
nanoseconds) must have provision for a series-terminating resistor (typically 33 ohms).
• Simulate all nets whose length (in inches) is equal to or greater than the signal rise/fall time (in ns)
• Connect logic ground to the chassis (with a very low Z connection) in the I/O area. This is crucial!
• Provide for an additional ground to chassis connection at the clock/oscillator location.
• Additional ground to chassis connections may also be required.
• Daughter boards (with h-f, noisy devices and/or external cables) must be properly grounded to the
motherboard and/or chassis (do not rely on the ground pins in the connector to provide this ground).
• Provide C-M filters on all I/O lines. Group all I/O lines together in a designated I/O area of the PCB.
• Shunt capacitors used in I/O filters must have a very low impedance connection to chassis.
• Use a power entry filter on the dc power line (both C-M & D-M)
• Most products in plastic enclosures need to be provided with an additional metal reference plane.
• Consider the use of board level component shields where applicable.
• Ground all heat sinks.

Regards,
sandhya
 
Hi dmk & Sandhya

Thanks for your ideas.

Manikandan
 

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