WG82574L S LBA9 Intel, WG82574L S LBA9 Datasheet - Page 435

WG82574L S LBA9

Manufacturer Part Number

WG82574L S LBA9

Description

CONTROLLER, ENET, INTEL 82574L, 64PQFN

Manufacturer

Intel

Datasheet

1.WG82574IT_S_LBAC.pdf (490 pages)

Specifications of WG82574L S LBA9

Ethernet Type

IEEE 802.3, IEEE 802.3u, IEEE 802.3ab

Supply Voltage Range

3V To 3.6V

Operating Temperature Range

0Â°C To +85Â°C

Digital Ic Case Style

QFN

No. Of Pins

Package / Case

QFN

Interface Type

I2C, JTAG, PCI, SPI

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Design Considerations—82574 GbE Controller

13.1.4

13.2

13.2.1

13.2.2

13.2.2.1

13.2.2.2

PCIe Routing

Contact your Intel representative for information regarding the PCIe signal routing.

Clock Source

All designs require a 25 MHz clock source. The 82574L uses the 25 MHz source to

generate clocks up to 125 MHz and 1.25 GHz for the PHY circuits. For optimum results

with lowest cost, connect a 25 MHz parallel resonant crystal and appropriate load

capacitors at the XTAL1 and XTAL2 leads. The frequency tolerance of the timing device

should be 30 ppm or better. Refer to the Intel® Ethernet Controllers Timing Device

Selection Guide for more information on choosing crystals.

For further information regarding the clock for the 82574, refer to the sections about

frequency control, crystals, and oscillators that follow.

Frequency Control Device Design Considerations

This section provides information regarding frequency control devices, including

crystals and oscillators, for use with all Intel Ethernet controllers. Several suitable

frequency control devices are available; none of which present any unusual challenges

in selection. The concepts documented herein are applicable to other data

communication circuits, including Platform LAN Connect devices (PHYs).

The Intel Ethernet controllers contain amplifiers, which when used with the specific

external components, form the basis for feedback oscillators. These oscillator circuits,

which are both economical and reliable, are described in more detail in

The Intel Ethernet controllers also have bus clock input functionality, however a

discussion of this feature is beyond the scope of this document, and will not be

addressed.

The chosen frequency control device vendor should be consulted early in the design

cycle. Crystal and oscillator manufacturers familiar with networking equipment clock

requirements may provide assistance in selecting an optimum, low-cost solution.

Frequency Control Component Types

Several types of third-party frequency reference components are currently marketed. A

discussion of each follows, listed in preferred order.

Quartz Crystal

Quartz crystals are generally considered to be the mainstay of frequency control

components due to their low cost and ease of implementation. They are available from

numerous vendors in many package types and with various specification options.

Fixed Crystal Oscillator

A packaged fixed crystal oscillator comprises an inverter, a quartz crystal, and passive

components conveniently packaged together. The device renders a strong, consistent

square wave output. Oscillators used with microprocessors are supplied in many

configurations and tolerances.

Crystal oscillators should be restricted to use in special situations, such as shared

clocking among devices or multiple controllers. As clock routing can be difficult to

accomplish, it is preferable to provide a separate crystal for each device.

section

13.3.1.

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WG82574L S LBA9 Intel, WG82574L S LBA9 Datasheet - Page 435

WG82574L S LBA9

Specifications of WG82574L S LBA9

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