82562EZ_08 Datasheet, PDF(18/66 Page) Intel Corporation

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82562EZ_08 Datasheet, PDF (18/66 Pages) Intel Corporation – Dual Footprint

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82562EZ(EX)/82547GI(EI) Dual Footprint Design Guide

Standard capacitor loads used by crystal manufacturers include 16 pF, 18 pF and 20 pF. Any of

these values will generally operate with the controller. However, a difference of several picofarads

between the calibrated load and the actual load will pull the oscillator slightly off frequency.

Note: C1 and C2 may vary by as much as 5% (approximately 1 pF) from their nominal values.

3.1.1.7 Shunt Capacitance

The shunt capacitance parameter is relatively unimportant compared to load capacitance. Shunt

capacitance represents the effect of the crystalâs mechanical holder and contacts. The shunt

capacitance should equal a maximum of 6 pF (7 pF is also acceptable).

3.1.1.8 Equivalent Series Resistance

Equivalent Series Resistance (ESR) is the real component of the crystalâs impedance at the

calibration frequency, which the inverting amplifierâs loop gain must overcome. ESR varies

inversely with frequency for a given crystal family. The lower the ESR, the faster the crystal starts

up. Use crystals with an ESR value of 50 â¦ or better.

Note: Check the specific controller documentation carefully; some devices may have tighter ESR

requirements. For example, Intel recommends that 82547GI(EI) devices use crystals with an ESR

value of 10 â¦ or less.

3.1.1.9 Drive Level

Drive level refers to power dissipation in use. The allowable drive level for a Surface Mounted

Technology (SMT) crystal is less than its through-hole counterpart, because surface mount crystals

are typically made from narrow, rectangular AT strips, rather than circular AT quartz blanks.

Some crystal data sheets list crystals with a maximum drive level of 1 mW. However, IntelÂ®

Ethernet controllers drive crystals to a level less than the suggested 0.5 mW value. This parameter

does not have much value for on-chip oscillator use.

3.1.1.10 Aging

Aging is a permanent change in frequency (and resistance) occurring over time. This parameter is

most important in its first year because new crystals age faster than old crystals. Use crystals with a

maximum of Â±5 ppm per year aging.

3.1.2

Reference Crystal

The normal tolerances of the discrete crystal components can contribute to small frequency offsets

with respect to the target center frequency. To minimize the risk of tolerance-caused frequency

offsets causing a small percentage of production line units to be outside of the acceptable frequency

range, it is important to account for those shifts while empirically determining the proper values for

the discrete loading capacitors, C1 and C2.

Even with a perfect support circuit, most crystals will oscillate slightly higher or slightly lower than

the exact center of the target frequency. Therefore, frequency measurements (which determine the

correct value for C1 and C2) should be performed with an ideal reference crystal. When the

capacitive load is exactly equal to the crystalâs load rating, an ideal reference crystal will be

perfectly centered at the desired target frequency.

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