WG82574L S LBA8 Intel, WG82574L S LBA8 Datasheet - Page 437

WG82574L S LBA8

Manufacturer Part Number

WG82574L S LBA8

Description

Manufacturer

Intel

Datasheet

1.WG82574L_S_LBA8.pdf (472 pages)

Specifications of WG82574L S LBA8

Operating Supply Voltage (typ)

3.3V

Operating Temp Range

0C to 85C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

Lead Free Status / RoHS Status

Compliant

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Design Considerations—82574 GbE Controller

13.5.5.12

13.5.5.13

13.5.6

13.5.6.1

13.5.7

Traces for Decoupling Capacitors

Traces between decoupling and I/O filter capacitors should be as short and wide as

practical. Long and thin traces are more inductive and would reduce the intended effect

of decoupling capacitors. Also for similar reasons, traces to I/O signals and signal

terminations should be as short as possible. Vias to the decoupling capacitors should be

sufficiently large in diameter to decrease series inductance.

Light Emitting Diodes for Designs Based on the 82574

The 82574 provides three programmable high-current push-pull (active high) outputs

to directly drive LEDs for link activity and speed indication. Each LAN device provides

an independent set of LED outputs; these pins and their function are bound to a specific

LAN device. Each of the four LED outputs can be individually configured to select the

particular event, state, or activity, which is indicated on that output. In addition, each

LED can be individually configured for output polarity, as well as for blinking versus

non-blinking (steady-state) indication.

Since the LEDs are likely to be integral to a magnetics module, take care to route the

LED traces away from potential sources of EMI noise. In some cases, it may be

desirable to attach filter capacitors.

The LED ports are fully programmable through the NVM interface.

Physical Layer Conformance Testing

Physical layer conformance testing (also known as IEEE testing) is a fundamental

capability for all companies with Ethernet LAN products. PHY testing is the final

determination that a layout has been performed successfully. If your company does not

have the resources and equipment to perform these tests, consider contracting the

tests to an outside facility.

Conformance Tests for 10/100/1000 Mb/s Designs

Crucial tests are as follows, listed in priority order:

Troubleshooting Common Physical Layout Issues

The following is a list of common physical layer design and layout mistakes in LAN On

Motherboard Designs.

1. Lack of symmetry between the two traces within a differential pair. Asymmetry can

• Avoid routing high-speed LAN traces near other high-frequency signals associated

• Bit Error Rate (BER). Good indicator of real world network performance. Perform bit

• Output Amplitude, Rise and Fall Time (10/100 Mb/s), Symmetry and Droop

• Return Loss. Indicator of proper impedance matching, measured through the RJ-45

• Jitter Test (10/100 Mb/s) or Unfiltered Jitter Test (1000 Mb/s). Indicator of clock

with a video controller, cache controller, processor, or other similar devices.

error rate testing with long and short cables and many link partners. The test limit

is 10

(1000Mbps). For the 82575 controller, use the appropriate PHY test waveform.

connector back toward the magnetics module.

recovery ability (master and slave for Gigabit controller).

create common-mode noise and distort the waveforms. For each component and/or

via that one trace encounters, the other trace should encounter the same

component or a via at the same distance from the Ethernet silicon.

-11

errors.

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WG82574L S LBA8 Intel, WG82574L S LBA8 Datasheet - Page 437

WG82574L S LBA8

Specifications of WG82574L S LBA8

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