STPCI2HDYI STMicroelectronics, STPCI2HDYI Datasheet - Page 91

STPCI2HDYI

Manufacturer Part Number

STPCI2HDYI

Description

Manufacturer

STMicroelectronics

Datasheet

1.STPCI2HDYI.pdf (108 pages)

Specifications of STPCI2HDYI

Operating Temperature (min)

-40C

Operating Temperature (max)

115C

Processing Unit

Microprocessor

Operating Supply Voltage (min)

2.45/3V

Operating Supply Voltage (typ)

2.5/3.3V

Operating Supply Voltage (max)

2.7/3.6V

Package Type

BGA

Screening Level

Industrial

Pin Count

516

Mounting

Surface Mount

Rad Hardened

Lead Free Status / RoHS Status

Supplier Unconfirmed

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6.4.3. MEMORY INTERFACE

6.4.3.1. Introduction

In order to achieve SDRAM memory interfaces

which work at clock frequencies of 90 MHz and

above, careful consideration has to be given to the

timing of the interface with all the various electrical

and physical constraints taken into consideration.

The guidelines described below are related to

SDRAM components on DIMM modules. For

applications where the memories are directly

soldered to the motherboard, the PCB should be

laid out such that the trace lengths fit within the

constraints shown here. The traces could be

slightly shorter since the extra routing on the

6.4.3.3. Board Layout Issues

The physical layout of the motherboard PCB

assumed in this presentation is as shown in

6-22. Because all of the memory interface signal

balls are located in the same region of the STPC

device, it is possible to orientate the device to

reduce the trace lengths. The worst case routing

length to the DIMM1 is estimated to be 100 mm.

Solid power and ground planes are a must in order

to provide good return paths for the signals and to

Figure 6-21. Clock Scheme

CONTROLLER

SDRAM

PLL

MCLKO

MCLKI

MA[ ] + Control

MD[63:0]

Figure

DIMM PCB is no longer present but it is then up to

the user to verify the timings.

6.4.3.2. SDRAM Clocking Scheme

The SDRAM Clocking Scheme deserves a special

mention here. Basically the memory clock is

generated on-chip through a PLL and goes directly

to the MCLKO output pin of the STPC. The

nominal frequency is 90 MHz. Because of the high

load presented to the MCLK on the board by the

DIMMs it is recommended to rebuffer the MCLKO

signal on the board and balance the skew to the

clock ports of the different DIMMs and the MCLKI

input pin of STPC.

reduce EMI and noise. Also there should be ample

high frequency decoupling between the power and

ground planes to provide a low impedance path

between the planes for the return paths for signal

routings which change layers. If possible, the

traces should be routed adjacent to the same

power or ground plane for the length of the trace.

For the SDRAM interface, the most critical signal

is the clock. Any skew between the clocks at the

STPC® ATLAS

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STPCI2HDYI STMicroelectronics, STPCI2HDYI Datasheet - Page 91

STPCI2HDYI

Specifications of STPCI2HDYI

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