MPC8313E-RDBC Freescale Semiconductor, MPC8313E-RDBC Datasheet - Page 47

MPC8313E-RDBC

Manufacturer Part Number

MPC8313E-RDBC

Description

BOARD CPU 8313E VER 2.2

Manufacturer

Freescale Semiconductor

Series

PowerQUICC II™ PROr

Type

MPUr

Datasheets

1.MPC8313CZQAFFB.pdf (100 pages)

2.MPC8313E-RDBB.pdf (52 pages)

3.MPC8313E-RDBB.pdf (2 pages)

Specifications of MPC8313E-RDBC

Contents

Board

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With/related Products

MPC8313E

Current page: 47 of 52
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user to achieve a successful re-installation of the BSP on the MPC8313E RDB. This ISO image contains

the following documents as well:

For more information on the MPC8313E RDB, visit the Freescale website listed on the back cover of this

document. To run demonstrations or to acquire details of Freescale third-party applications for this

MPC8313E RDB, contact your local Freescale sales office.

Here are some commonly asked questions and their respective answers.

8.1

There are five revisions of the RDB, which are REVA, REVA1, REVA2, REVA3, REVA4, REVB and

REVC.

Freescale Semiconductor

Revision

•

REVA1

REVA2

REVA3

REVA

MPC8313ERDBUG.pdf

MPC8313E-RDB_schematic.pdf

SEC2SWUG.pdf

driver software interface to boost the throughput performance of security applications such as

IPSec.

LtibFaq.pdf

use LTIB to build the ISO image.

Frequently Asked Questions (FAQs)

Table 24

What are the differences among RDB revisions?

There are two major issues on the REVA board:

Fixes both major issues on the REVA board. The boot-from-NAND on the REVA1 RDB has been verified.

However, on the current BSP preloaded on REVA1 RDB, NAND flash memory is empty, so it is also not

bootable. Booting from NAND flash memory will be supported in a future release of the BSP.

Software for REVA and REVA1 differs only in the OR1[BCTLD] register setting for NAND flash memory. That

is, REVA OR1[BCTLD] is 1; while REVA1 OR1[BCTLD] is 0.

(J25) and resistor loading for ATX power.

Software can be shared without modification between REVA1 and REVA2.

Fixes the PMC register issue mentioned in

Because of a processor erratum, a 166 MHz CSB frequency should be used. For this reason, some REVA3

and all later boards have 33 MHz instead of 66 MHz as the clock input (check your board U15 oscillator

marking). The CORE/CSB/DDR frequency setting is 333/166/333 MHz. However, there are two drawbacks:

A minor update from REVA1 for mass production. It updates the silkscreen and adds a 12-V fan connector

• On-chip PHY USB signals (DP, DM) are swapped. To use the USB, use a USB cable that swaps the signals

• NAND flash memory cannot be used as a boot device.

• PCI bus can run at up to only 33 MHz

• PCI/mini-PCI card can run at 66 MHz (has its M66EN pulled up) and should be used. Even the PCI bus on

(the cable is attached in the REVA package).

the RDB runs at only 33 MHz. Otherwise, the PCI frequency is further divided and it becomes 16.6 MHz.

accessed?”

lists and describes these revisions.

. Frequently asked questions for LTIB, which is a useful document describing how to

. User's guide for the driver software of the security engine. This document details the

PowerQUICC™ MPC8313E Reference Design Board (RDB), Rev. 4

. This user's guide document in PDF format.

Table 24. MPC8313E-RBD Revisions

. The platform schematic in PDF format.

Section 8.5, “Power management control (PMC) registers cannot

Description

Frequently Asked Questions (FAQs)

MPC8313E-RDBC Freescale Semiconductor, MPC8313E-RDBC Datasheet - Page 47

MPC8313E-RDBC

Specifications of MPC8313E-RDBC

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