IDT82V3280DQ IDT, Integrated Device Technology Inc, IDT82V3280DQ Datasheet - Page 46

IDT82V3280DQ

Manufacturer Part Number

IDT82V3280DQ

Description

Manufacturer

IDT, Integrated Device Technology Inc

Datasheet

1.IDT82V3280DQ.pdf (167 pages)

Specifications of IDT82V3280DQ

Function

Wan PLL

Operating Temperature (max)

85C

Operating Temperature (min)

-40C

Package Type

TQFP EP

Pin Count

100

Mounting

Surface Mount

Lead Free Status / RoHS Status

Not Compliant

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3.17

required to minimize supply noise modulation of the output clocks. The

common sources of power supply noise are switch power supplies and

the high switching noise from the outputs to the internal PLL. The

82V3280 provides separate VDDA power pins for the internal analog

PLL, VDD_DIFF for the differential output driver circuit and VDDD pins

for the core logic as well as I/O driver circuits.

ing regulator, the power supply output should be filtering with sufficient

bulk capacity to minimize ripple and 0.1 uF (0402 case size, ceramic)

caps to filter out the switching transients.

and VDDD are handled individually. VDDD, VDD_AMI, VDD_DIFF and

VDDA should be individually connected to the power supply plane

through vias, and bypass capacitors should be used for each pin.

Figure 14 illustrated how bypass capacitor and ferrite bead should be

connected to power pins.

Functional Description

IDT82V3280

3.3V

To achieve optimum jitter performance, power supply filtering is

To minimize switching power supply noise generated by the switch-

For the 82V3280, the decoupling for VDDA, VDD_DIFF, VDD_AMI

SLF7028T-100M1R1

POWER SUPPLY FILTERING TECHNIQUES

10 µF

3.3V

SLF7028T-100M1R1

0.1 µF

10 µF

0.1 µF

Figure 14. IDT82V3280 Power Decoupling Scheme

0.1 µF

impedance. This can be achieved by using one 10 uF (1210 case size,

ceramic) and at least four 0.1 uF (0402 case size, ceramic) capacitors in

parallel. The 0.1 uF (0402 case size, ceramic) capacitors must be

placed right next to the VDDA and VDD_DIFF pins as close as possible.

Note that the 10 uF capacitor must be of 1210 case size, and it must be

ceramic for lowest ESR (Effective Series Resistance) possible. The 0.1

uF should be of case size 0402, this offers the lowest ESL (Effective

Series Inductance) to achieve low impedance towards the high speed

range.

ceramic) and one 10 uF (1210 case size, ceramic) capacitors are rec-

ommended. The 0.1 uF capacitors should be placed as close to the

VDDD pins as possible.

0.1 µF

The analog power supply VDDA and VDD_DIFF should have low

For VDDD and VDD_AMI, at least ten 0.1 uF (0402 case size,

Please refer to evaluation board schematic for details.

VDD_DIFF

VDD_AMI

VDDA

VDDD

IDT82V3280

6, 19, 91

12, 13, 16, 50, 61, 85, 86

33, 39

11, 14, 15, 62, 84, 87

1, 5, 20, 92

32, 38

GND_DIFF

GND_AMI

DGND

AGND

March 02, 2009

WAN PLL

IDT82V3280DQ IDT, Integrated Device Technology Inc, IDT82V3280DQ Datasheet - Page 46

IDT82V3280DQ

Specifications of IDT82V3280DQ

Available stocks

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