RPIXP2850BB Intel, RPIXP2850BB Datasheet - Page 25

RPIXP2850BB

Manufacturer Part Number

RPIXP2850BB

Description

Manufacturer

Intel

Datasheet

1.RPIXP2850BB.pdf (154 pages)

Specifications of RPIXP2850BB

Operating Supply Voltage (typ)

1.3/1.5/2.5/3.3V

Operating Supply Voltage (max)

1.575/2.7/3.465V

Operating Supply Voltage (min)

1.235/2.3/3.135V

Mounting

Surface Mount

Operating Temperature (max)

70C

Operating Temperature (min)

Operating Temperature Classification

Commercial

Lead Free Status / Rohs Status

Not Compliant

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2.2.3

2.2.3.1

2.2.3.2

Hardware Design Guide

Power Supply Regulation

Power-Up Power Supply Regulation

During power-up, after NRESET is de-asserted, the device will experience an increase in current

consumption after the PLL locks and the system clocks begin to operate at full speed. During this

time, a droop on the core power supply may occur due to this increase in current consumption. It is

acceptable that the core power supply droop a maximum of 100 mV to a minimum of 1.2 V during

this time. It is expected that the device is Idle during this time and that no instructions are executing

until the power is within the 5% regulation specification. The behavior is undefined if instructions

are executed while the power is not within the 5% regulation specification.

Power Supply Decoupling

To maintain supply regulation during power-up and during normal operation sufficient de-

coupling, mid-frequency and bulk capacitors should be used to account for transient power steps.

The number and size of decoupling capacitors required for a particular implementation depends on

the board stack-up and power-delivery circuitry, so a single solution will not work for all

implementations. Note that the worst case transient occurs when the device comes out of reset as

explained in

mechanism that maximizes the number of decoupling capacitors that can be accommodated under

the device while minimizing the number of vias. This reduces the amount of holes in the power and

ground planes. The decoupling layout from the IXDP2800 Advanced Development System is

shown in

The IXDP2800 development platform uses 63 0.22 uF 0402 AVX* capacitors for the core supply

decoupling. A 1uF 0402 capacitor is now available from AVX* which can be substituted for the

0.22 uF capacitor. This will provide better regulation stability during the power-on transient event.

Refer to

Section 2.5

Figure

Section

for details of the power-on transient event.

2.2.3.1. The IXDP2800 decoupling design implements a via-sharing

Power Ratings and Requirements

IXP28XX Network Processor

RPIXP2850BB Intel, RPIXP2850BB Datasheet - Page 25

RPIXP2850BB

Specifications of RPIXP2850BB

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