MPC8313E-RDB Freescale Semiconductor, MPC8313E-RDB Datasheet - Page 36

MPC8313E-RDB

Manufacturer Part Number

MPC8313E-RDB

Description

BOARD PROCESSOR

Manufacturer

Freescale Semiconductor

Series

PowerQUICC II™ PROr

Type

MCUr

Datasheets

1.MPC8313CZQAFFB.pdf (100 pages)

2.MPC8313E-RDBB.pdf (52 pages)

3.MPC8313E-RDBB.pdf (2 pages)

Specifications of MPC8313E-RDB

Contents

Reference Design Board, Software and Documentation

Termination Type

SMD

Supply Voltage Max

1.05V

Tool / Board Applications

Wired Connectivity-LIN, CAN, Ethernet, USB

Mcu Supported Families

POWERQUICC II PRO

Rohs Compliant

Yes

Filter Terminals

SMD

Silicon Manufacturer

Freescale

Silicon Core Number

MPC83xx

Kit Application Type

Communication & Networking

Application Sub Type

Ethernet

Core Architecture

Power Architecture

Silicon Family Name

PowerQUICC II PRO

For Use With/related Products

MPC8313E

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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High-Speed Serial Interfaces (HSSI)

Figure 21

This section describes the common portion of SerDes DC electrical specifications, which is the DC

requirement for SerDes reference clocks. The SerDes data lane’s transmitter and receiver reference circuits

are also shown.

9.1

The SerDes utilizes differential signaling to transfer data across the serial link. This section defines terms

used in the description and specification of differential signals.

Figure 22

description. The figure shows waveform for either a transmitter output (TXn and TXn) or a receiver input

(RXn and RXn). Each signal swings between A volts and B volts where A > B.

Using this waveform, the definitions are as follows. To simplify illustration, the following definitions

assume that the SerDes transmitter and receiver operate in a fully symmetrical differential signaling

environment.

1. Single-ended swing

2. Differential output voltage, V

3. Differential input voltage, V

High-Speed Serial Interfaces (HSSI)

The transmitter output signals and the receiver input signals TXn, TXn, RXn, and RXn each have

a peak-to-peak swing of A – B volts. This is also referred as each signal wire’s single-ended swing.

The differential output voltage (or swing) of the transmitter, V

the two complimentary output voltages: V

negative.

The differential input voltage (or swing) of the receiver, V

complimentary input voltages: V

Signal Terms Definition

shows the MII management AC timing diagram.

shows how the signals are defined. For illustration purpose, only one SerDes lane is used for

(Output)

(Input)

MDIO

MPC8313E PowerQUICC

MDC

Figure 21. MII Management Interface Timing Diagram

MDCH

MDDVKH

(or differential input swing):

MDC

RXn

(or differential output swing):

™

MDKHDX

II Pro Processor Hardware Specifications, Rev. 3

– V

RXn

TXn

. The V

– V

MDCF

TXn.

MDDXKH

The V

value can be either positive or negative.

MDCR

, is defined as the difference of the two

value can be either positive or

, is defined as the difference of

Freescale Semiconductor

MPC8313E-RDB Freescale Semiconductor, MPC8313E-RDB Datasheet - Page 36

MPC8313E-RDB

Specifications of MPC8313E-RDB

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