This page provides useful information and resources to system designers in order to design carrier boards hosting DAVE system-on-modules (SOM).

These guidelines are provided with the goal to help designers to design compliant systems with DAVE modules and they cover schematics and PCB aspects. They apply to several products that are listed on the top right corner of this page (see "Applies to" boxes).

In this section basics hardware guidelines valid for all DAVE SOMs are analyzed.

SchematicsEdit

• Check mirroring and pinout for every connector on the board
• Check for TX and RX lines
• Add series resistors as interface needs (see interface details)
• TBD

PCBEdit

PCB TecnologyEdit

Use a PCB technology as advised in the following table

• If vias smaller than minimum advised size are used, take care to maintain an adeguate number of via when you change layer on each power signal.
  
• PCB heights less than minimum advised can produce PCB heating and mechanical issues
• Use Solid Connection for on plane vias

PCB Basics GuidelinsEdit

• Avoid stubs
• Isolate clock and HI-SPEED signal (differential lines i.e.) for at least two times trace width or gap for differential lines
• Avoid voids on planes

This section provides guidelines for the most used interfaces on DAVE's SOMs module. Please refer to SOM's detailed pages for specific additional information.

Ethernet 10/100Edit

Case #1: PHY is integrated on SOMEdit

This section refers to the case of PHY integrated on SOM such as Lizard and Maya.

SchematicsEdit

• If LAN connector with integrated magnetic is used:
  • predispose some protection diodes on ethernet lines
  • Connect connector shield to an adeguate GND or shield Plane

PCBEdit

• Common differential impedance value is 100ohm
• If LAN connector with integrated magnetic is used:
  • do not route traces under the connettor, neither on opposite side
  • place filter diode near connector
  • place others signals far from connector.
  • Connect connector shield to an adeguate GND or shield Plane or Copper through numerous vias if necessary
• If on board magnetic are used
  • adeguately isolate system GND from magnetic connector side
  • Connect connector shield to an adeguate GND or shield Plane or Copper through numerous vias if necessary
• try to match as best as possible each differential pair (intrapair matching)
• no TX and RX matching required

Case #2: PHY is not integrated on SOM and a RGMII PHY is usedEdit

This section refers to the case of PHY is not integrated on SOM and a RGMII Gigabit Ethernet PHY is used.

SchematicsEdit

• Add series resistors (RPACK resistors recommended) to RGMII lines
• Properly decouple PHY Power Supplies rails
• Properly decouple every supply pin of Ethernet PHY
• Properly separate analog Supply Rails

PCBEdit

• Ground and VCC planes must be as large as possible
• Avoid plane split and voids
• Place bypass capacitor near every PHY supply pin
• Connect every capacitor's pin to the plane with at least 2 vias and the shortest trace pattern
• Place PHY device not too near to connector (250 mils reccomended distance)
• Keep MDIO clock signal isolated from other signals

Case #3: PHY is not integrated on SOM and a RMII PHY is usedEdit

This section refers to the case of PHY is not integrated on SOM and an RMII 10/100 Ethernet PHY is used.

SchematicsEdit

• If possible, place series resistor to RMII interface signals
• Properly decouple PHY Power Supplies rails
• Properly separate analog Supply Rails
• Properly decouple every supply pin of Ethernet PHY
• Use a standard RMII PHY that supports correct clock mode (see SOM specification for further details)

PCBEdit

• Since RMII signals are not critical such as RGMII, is not necessary a strong matching between lines.
• Avoid signal traces too long
• Avoid stubs

• Ground and VCC planes must be as large as possible
• Avoid plane split and voids
• Place bypass capacitor near every PHY supply pin
• Connect every capacitor's pin to the plane with at least 2 vias and the shortest trace pattern
• Place PHY device not too near to connector (250 mils reccomended distance)
• Keep MDIO clock signal isolated from other signals