WG82574L S LBA9 Intel, WG82574L S LBA9 Datasheet - Page 440

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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13.3.1.11.2 Circuit Board

13.3.1.11.3 Temperature Changes

13.3.2

Note:

440

When choosing a crystal, customers must keep in mind that to comply with IEEE

specifications for 10/100 and 10/100/1000Base-T Ethernet LAN, the transmitter

reference frequency must be precise within 50 ppm. Intel® recommends customers to

use a transmitter reference frequency that is accurate to within 30 ppm to account for

variations in crystal accuracy due to crystal manufacturing tolerance.

Since the dielectric layers of the circuit board are allowed some reasonable variation in

thickness, the stray capacitance from the printed board (to the crystal circuit) will also

vary. If the thickness tolerance for the outer layers of dielectric are controlled within

±17 percent of nominal, then the circuit board should not cause more than ±2 pF

variation to the stray capacitance at the crystal. When tuning crystal frequency, it is

recommended that at least three circuit boards are tested for frequency. These boards

should be from different production lots of bare circuit boards.

Alternatively, a larger sample population of circuit boards can be used. A larger

population will increase the probability of obtaining the full range of possible variations

in dielectric thickness and the full range of variation in stray capacitance.

Next, the exact same crystal and discrete load capacitors (C1 and C2) must be soldered

onto each board, and the LAN reference frequency should be measured on each circuit

board.

The circuit board, which has a LAN reference frequency closest to the center of the

frequency distribution, should be used while performing the frequency measurements

to select the appropriate value for C1 and C2.

Temperature changes can cause the crystal frequency to shift. Therefore, frequency

measurements should be done in the final system chassis across the system’s rated

operating temperature range.

Crystal Placement and Layout Recommendations

Crystal clock sources should not be placed near I/O ports or board edges. Radiation

from these devices can be coupled into the I/O ports and radiate beyond the system

chassis. Crystals should also be kept away from the Ethernet magnetics module to

prevent interference.

Failure to follow these guidelines could result in the 25 MHz clock failing to start.

When designing the layout for the crystal circuit, the following rules must be used:

• It may also be possible to ask the approved crystal vendors or manufacturers to

• Place load capacitors as close as possible (within design-for-manufacturability

• The two load capacitors, crystal component, the Ethernet controller device, and the

• Use 27 pF (5% tolerance) 0402 load capacitors.

frequency closest to the center of the distribution, should be the reference crystal

used during testing to determine the best values for C1 and C2.

provide a reference crystal with zero or nearly zero deviation from the specified

frequency when it has the specified cload capacitance.

rules) to the crystal solder pads. They should be no more than 90 mils away from

crystal pads.

crystal circuit traces must all be located on the same side of the circuit board

(maximum of one via-to-ground load capacitor on each XTAL trace).

82574 GbE Controller—Design Considerations

WG82574L S LBA9 Intel, WG82574L S LBA9 Datasheet - Page 440

WG82574L S LBA9

Specifications of WG82574L S LBA9

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