PPC8567EVTAUJJ Freescale Semiconductor, PPC8567EVTAUJJ Datasheet - Page 80

PPC8567EVTAUJJ

Manufacturer Part Number

PPC8567EVTAUJJ

Description

MCU PWRQUICC III 1023-FCPBGA

Manufacturer

Freescale Semiconductor

Datasheet

1.MPC8567EVTAQGG.pdf (139 pages)

Specifications of PPC8567EVTAUJJ

Processor Type

MPC85xx PowerQUICC III 32-Bit

Speed

1.333GHz

Voltage

1.1V

Mounting Type

Surface Mount

Package / Case

1023-BBGA, FCBGA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Features

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Serial RapidIO

To illustrate these definitions using real values, consider the case of a CML (Current Mode Logic)

transmitter that has a common mode voltage of 2.25 V and each of its outputs, TD and TD, has a swing

that goes between 2.5 V and 2.0 V. Using these values, the peak-to-peak voltage swing of the signals TD

and TD is 500 mV p-p. The differential output signal ranges between 500 mV and –500 mV. The peak

differential voltage is 500 mV. The peak-to-peak differential voltage is 1000 mV p-p.

15.4

With the use of high speed serial links, the interconnect media will cause degradation of the signal at the

receiver. Effects such as Inter-Symbol Interference (ISI) or data dependent jitter are produced. This loss

can be large enough to degrade the eye opening at the receiver beyond what is allowed in the specification.

To negate a portion of these effects, equalization can be used. The most common equalization techniques

that can be used are:

15.5

AC electrical specifications are given for transmitter and receiver. Long run and short run interfaces at

three baud rates (a total of six cases) are described.

The parameters for the AC electrical specifications are guided by the XAUI electrical interface specified

in Clause 47 of IEEE 802.3ae-2002.

XAUI has similar application goals to serial RapidIO, as described in Section 8.1. The goal of this standard

is that electrical designs for serial RapidIO can reuse electrical designs for XAUI, suitably modified for

applications at the baud intervals and reaches described herein.

15.6

LP-Serial transmitter electrical and timing specifications are stated in the text and tables of this section.

The differential return loss, S11, of the transmitter in each case shall be better than

The reference impedance for the differential return loss measurements is 100 Ohm resistive. Differential

return loss includes contributions from on-chip circuitry, chip packaging and any off-chip components

related to the driver. The output impedance requirement applies to all valid output levels.

It is recommended that the 20%-80% rise/fall time of the transmitter, as measured at the transmitter output,

in each case have a minimum value 60 ps.

It is recommended that the timing skew at the output of an LP-Serial transmitter between the two signals

that comprise a differential pair not exceed 25 ps at 1.25 GB, 20 ps at 2.50 GB and 15 ps at 3.125 GB.

•

A passive high pass filter network placed at the receiver. This is often referred to as passive

equalization.

The use of active circuits in the receiver. This is often referred to as adaptive equalization.

–10 dB for (Baud Frequency)/10 < Freq(f) < 625 MHz, and

–10 dB + 10log(f/625 MHz) dB for 625 MHz ≤ Freq(f) ≤ Baud Frequency

Explanatory Note on Transmitter and Receiver Specifications

Transmitter Specifications

Equalization

MPC8568E/MPC8567E PowerQUICC III Integrated Processor Hardware Specifications, Rev. 1

Freescale Semiconductor

PPC8567EVTAUJJ Freescale Semiconductor, PPC8567EVTAUJJ Datasheet - Page 80

PPC8567EVTAUJJ

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