MPC8308-RDB Freescale Semiconductor, MPC8308-RDB Datasheet - Page 83

MPC8308-RDB

Manufacturer Part Number

MPC8308-RDB

Description

BOARD REF DESIGN MPC8308

Manufacturer

Freescale Semiconductor

Series

PowerQUICC II™ PROr

Type

MPUr

Datasheets

1.MPC8308VMAGD.pdf (90 pages)

2.MPC8308VMAGD.pdf (2 pages)

3.MPC8308-RDB.pdf (36 pages)

4.MPC8308-RDB.pdf (2 pages)

Specifications of MPC8308-RDB

Contents

Board, Cables, Documentation, Power Supply, Software

Ethernet Connection Type

Serial to Ethernet

Data Rate

10 Mbps, 100 Mbps, 1000 Mbps

Memory Type

DDR2, SDRAM

Interface Type

HSSI

Operating Voltage

1.5 V

Operating Current

5 uA

Maximum Power Dissipation

1000 mW

Operating Temperature Range

- 55 C to + 125 C

Product

Modules

For Use With/related Products

MPC8308

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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23.1

The device includes two PLLs.

23.2

Each of the PLLs listed above is provided with power through independent power supply pins (AV

core PLL and AV

preferably these voltages are derived directly from V

following.

There are a number of ways to reliably provide power to the PLLs, but the recommended solution is to

provide independent filter circuits as illustrated in

providing independent filters to each PLL the opportunity to cause noise injection from one PLL to the

other is reduced.

This circuit is intended to filter noise in the PLLs’ resonant frequency range from a 500 kHz to 10 MHz

range. It should be built with surface mount capacitors with minimum effective series inductance (ESL).

Consistent with the recommendations of Dr. Howard Johnson in High Speed Digital Design: A Handbook

of Black Magic (Prentice Hall, 1993), multiple small capacitors of equal value are recommended over a

single large value capacitor.

Each circuit should be placed as close as possible to the specific AV

noise coupled from nearby circuits. It should be possible to route directly from the capacitors to the AV

pin, which is on the periphery of package, without the inductance of vias.

Figure 54

23.3

Due to large address and data buses, and high operating frequencies, the device can generate transient

power surges and high frequency noise in its power supply, especially while driving large capacitive loads.

This noise must be prevented from reaching other components in the MPC8308 system, and the MPC8308

itself requires a clean, tightly regulated source of power. Therefore, it is recommended that the system

designer place at least one decoupling capacitor at each V

Freescale Semiconductor

1. The platform PLL generates the platform clock from the externally supplied SYS_CLK_IN input.

2. The e300 core PLL generates the core clock as a slave to the platform clock. The frequency ratio

The frequency ratio between the platform and SYS_CLK_IN is selected using the platform PLL

ratio configuration bits as described in

between the e300 core clock and the platform clock is selected using the e300 PLL ratio

configuration bits as described in

System Clocking

PLL Power Supply Filtering

Decoupling Recommendations

shows the PLL power supply filter circuits.

DD2

MPC8308 PowerQUICC II Pro Processor Hardware Specification, Rev. 2

for the platform PLL). The AV

Figure 54. PLL Power Supply Filter Circuit

10 Ω

2.2 µF

Section 21.3, “Core PLL Configuration.”

Section 21.2, “System PLL Configuration.”

Figure

Low ESL Surface Mount Capacitors

level should always be equivalent to V

through a low pass filter scheme such as the

2.2 µF

54, one to each of the two AV

, NV

, GV

DD1

pin being supplied to minimize

and AV

and LV

DD2

System Design Information

pin of the device.

pins. By

DD1

, and

for

MPC8308-RDB Freescale Semiconductor, MPC8308-RDB Datasheet - Page 83

MPC8308-RDB

Specifications of MPC8308-RDB

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