STPCC5HEBC STMicroelectronics, STPCC5HEBC Datasheet - Page 88

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

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

STPCC5HEBC

Manufacturer:

DAVICOM

Quantity:

1 001

Company:

BOSTOCK HK LIMITED

Part Number:

STPCC5HEBC

Manufacturer:

STMicroelectronics

Quantity:

10 000

Company:

BOSTOCK HK LIMITED

Part Number:

STPCC5HEBC

Manufacturer:

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

STPCC5HEBCE

Manufacturer:

Quantity:

200

Company:

BOSTOCK HK LIMITED

Part Number:

STPCC5HEBCE

Manufacturer:

Current page: 88 of 93
Download datasheet (2Mb)

DESIGN GUIDELINES

6.5. DEBUG METHODOLOGY

In order to bring a STPC-based board to life with

the best efficiency, it is recommended to follow the

check-list described in this section.

6.5.1. POWER SUPPLIES

In parallel with the assembly process, it is useful to

get a bare PCB to check the potential short-

circuits between the various power and ground

planes. This test is also recommended when the

first boards are back from assembly. This will

avoid bad surprises in case of a short-circuit due

to a bad soldering.

When the system is powered, all power supplies,

including the PLL power pins must be checked to

be sure the right level is present. See Table 4-2 for

the exact supported voltage range:

6.5.2. BOOT SEQUENCE

6.5.2.1. Reset input

The checking of the reset sequence is the next

step. The waveform of SYSRSTI# must complies

with the timings described in

signal must not have glitches and must stay low

until the 14.31818MHz output (OSC14M) is at the

right frequency and the strap options are

stabilized to a valid configuration.

In case this clock is not present, check the 14MHz

oscillator stage (see

6.5.2.2. Strap options

The STPC has been designed in a way to allow

configurations for test purpose that differs from the

functional configuration. In many cases, the

troubleshootings at this stage of the debug are the

resulting of bad strap options. This is why it is

mandatory to check they are properly setup and

sampled during the boot sequence.

The list of all the strap options is summarized at

the beginning of Section 3.

6.5.2.3. Clocks

Once OSC14M is checked and correct, the next

signals to measure are the Host clock (HCLK),

PCI clocks (PCI_CLKO, PCI_CLKI) and Memory

clock (MCLKO, MCLKI).

HCLK must run at the speed defined by the

corresponding strap options (see Table 3-1) and

88/93

VDD_CORE: 2.5V

VDD_xxxPLL: 2.5V

VDD: 3.3V

Figure

6-3).

Figure

Release 1.5 - January 29, 2002

4-3. This

must not be more than 100MHz. In x2 CPU clock

mode, this clock must be limited to 66MHz.

PCI_CLKI and PCI_CLKO must be connected as

described in

33MHz. Their speed depends on HCLK and on

the divider ratio defined by the

strap options as described in Section 3.

To ensure a correct behaviour of the device, the

PCI deskewing logic must be configured properly

by the MD[7:6] strap options according to Section

3. For timings constraints, refers to Section 4.

MCLKI and MCLKO must be connected as

described in

on the SDRAM implementation. The memory

clock must run at HCLK speed when in

synchronous mode and must not be higher than

100MHz in any case.

6.5.2.4. Reset output

If SYSRSTI# and all clocks are correct, then the

SYSRSTO# output signal should behave as

described in

6.5.3. ISA MODE

Prior to check the ISA bus control signals,

PCI_CLKI, ISA_CLK, ISA_CLK2X, and DEV_CLK

must be running properly. If it is not the case, it is

probably because one of the previous steps has

not been completed.

6.5.3.1. First code fetches

When booting on the ISA bus, the two key signals

to check at the very beginning are RMRTCCS#

and FRAME#.

The first one is a Chip Select for the boot flash

and is multiplexed with the IDE interface. It should

toggle together with ISAOE# and MEMRD# to

fetch the first 16 bytes of code. This corresponds

to the loading of the first line of the CPU cache.

In case RMRTCCS# does not toggle, it is then

necessary to check the PCI FRAME# signal.

Indeed the ISA controller is part of the South

Bridge and all ISA bus cycles are visible on the

PCI bus.

If there is no activity on the PCI bus, then one of

the previous steps has not been checked properly.

If there is activity then there must be something

conflicting on the ISA bus or on the PCI bus.

6.5.3.2. Boot Flash size

The ISA bus supports 8-bit and 16-bit memory

devices. In case of a 16-bit boot flash, the signal

MEMCS16#

Figure

Figure 6-19

Figure 6-3

must

4-3.

and not be higher than

Figure 6-5

activated

MD[4] and MD[17]

depending

during

STPCC5HEBC STMicroelectronics, STPCC5HEBC Datasheet - Page 88

STPCC5HEBC

Specifications of STPCC5HEBC

Available stocks

Related parts for STPCC5HEBC