RPIXP2850BB Intel, RPIXP2850BB Datasheet - Page 31

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

Current page: 31 of 154
Download datasheet (4Mb)

2.5.1

2.5.2

Hardware Design Guide

di/dt Droop Analysis Results

An exhaustive droop analysis was performed using an Intel system validation platform. The goal of

analysis was to correlate the measured power-on di/dt with the theoretical design values. A detailed

model of the system board, power delivery circuit and package were developed and simulated

using the theoretical di/dt transient events to predict the voltage droop measured at the pins of the

device. Several correlation analysis were performed to ensure the integrity of the models. Once the

models were validated the simulation results were compared with measured results from the

system validation platform. The final step of the analysis was to perform a sensitivity analysis by

varying the di/dt stimulus to match the simulated results to the measured results.

The outcome of the analysis is the transient curve shown

the findings of the correlation study:

Recommendations From Droop Analysis

There are two major recommendations from the correlation study:

•

The First Droop magnitude is 34 mV (tr1 = 6 cycles, tr2 = 9 cycles, and tr3 = 1 cycle), which

occurs at 8 ns after transient is applied.

The Second Droop magnitude is 78.4 mV, which occurs at 0.67 µs after transient.

The Third Droop magnitude is 67.6 mV, which occurs between 10.1 – 13.1 µs after transient.

The first, second, and third droops are not affected by the duration of tr3.

Increase the system board cavity (under the processor) capacitors to address the second droop

amplitude. To reduce the magnitude of the second droop in the 0.67us timeframe, sufficient

decoupling capacitors should be placed under the processor; refer to

Increase bulk capacitors to address the third droop amplitude. As shown in

will decrease after the PLL locks and the MicroEngines are taken out of reset, therefore

sufficient bulk capacitance is required to ride through the ~1uS high current transient event.

— The magnitude and time of the first droop depends on the combination of tr1 and tr2

— The second droop depends on when the Microengines come out of reset, specifically how

— Assuming Voltage Regulator Bandwidth = 10 KHz.

— Cbulk is only 50% of its total capacitance.

— I_final = 10.703 A (10% more than 9.73 A measured value).

— The number of clock cycles for tr3 does not impact the third droop.

— The amount of final current load and Cbulk will impact the amplitude of the third droop.

transient events.

much time this occurs after PLL locks and power starts decreasing.

Figure

Power Ratings and Requirements

6. The following items summarize

IXP28XX Network Processor

Figure

Figure 6

the current

RPIXP2850BB Intel, RPIXP2850BB Datasheet - Page 31

RPIXP2850BB

Specifications of RPIXP2850BB

Related parts for RPIXP2850BB