STPCC5HEBC STMicroelectronics, STPCC5HEBC Datasheet - Page 79

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STPCC5HEBC

Manufacturer Part Number

STPCC5HEBC

Description

IC SYSTEM-ON-CHIP X86 388-PBGA

Manufacturer

STMicroelectronics

Series

-r

Datasheet

1.STPCC5HEBC.pdf (93 pages)

Specifications of STPCC5HEBC

Applications

Set-Top Boxes, TV

Core Processor

x86

Program Memory Type

External Program Memory

Controller Series

STPC® Consumer-II

Ram Size

External

Interface

EBI/EMI, I²C, IDE, ISA, Local Bus

Number Of I /o

-

Voltage - Supply

2.45 V ~ 3.6 V

Operating Temperature

0°C ~ 85°C

Mounting Type

*

Package / Case

*

Lead Free Status / RoHS Status

Not Compliant

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Current page: 79 of 93
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memory clock input (MCLKI) and any other

component

individually driven from a low skew clock driver

with matched routing lengths. In other words, all

The maximum skew between pins for this part is

250ps. The important factors for the clock buffer

are a consistent drive strength and low skew

between the outputs. The delay through the buffer

is not important so it does not have to be a zero

delay PLL type buffer. The trace lengths from the

clock driver to the DIMM CKn pins should be

matched exactly. Since the propagation speed

can vary between PCB layers, the clocks should

be routed in a consistent way. The routing to the

STPC memory input should be longer by 75 mm to

compensate for the extra clock routing on the

* No additional 75mm when SDRAM directly soldered on board

Low skew clock driver:

using

MCLKO

the

memory

Figure 6-19. DIMM placement

Figure 6-20. Clock Routing

Release 1.5 - January 29, 2002

clock

are

SDRAM I/F

DIMM2

DIMM1

116mm

STPC

35mm

clock line lengths that go from the buffer to the

memory chips (MCLKx) and from the buffer to the

STPC (MCLKI) must be identical.

This is shown in

DIMM. Also a 20 pF capacitor should be placed as

near as possible to the clock input of the STPC to

compensate for the DIMM’s higher clock load. The

impedance of the trace used for the clock routing

should be matched to the DIMM clock trace

impedance (60-75 ohms)

the clocks should be routed with spacing to

adjacent tracks of at least twice the clock trace

width. For designs which use SDRAMs directly

mounted on the motherboard PCB all the clock

trace lengths should be matched exactly.

L+75mm*

L

15mm

35mm

Figure

20pF

DIMM CKn input

DIMM CKn input

DIMM CKn input

10mm

DESIGN GUIDELINES

6-20.

.

To minimise crosstalk

STPC MCLKI

79/93

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