STEVAL-IFW001V1 STMicroelectronics, STEVAL-IFW001V1 Datasheet - Page 16

STEVAL-IFW001V1

Manufacturer Part Number

STEVAL-IFW001V1

Description

BOARD EVAL BASED ON STR912FA

Manufacturer

STMicroelectronics

Datasheets

1.STEVAL-IFW001V1.pdf (102 pages)

2.STEVAL-IFW001V1.pdf (9 pages)

3.STEVAL-IFW001V1.pdf (7 pages)

Specifications of STEVAL-IFW001V1

Design Resources

STEVAL-IFW001V1 Gerber Files STEVAL-IFW001V1 Schematic STEVAL-IFW001V1 Bill of Material

Main Purpose

Interface, Ethernet

Embedded

Yes, MCU, 32-Bit

Utilized Ic / Part

E-STE101P, STR912FAW44

Primary Attributes

Dual Ethernet Transceivers for Full Duplex Communication

Secondary Attributes

Up to 32 MII Addresses, UART, I2C, SPI, with RJ45 Connectors

Silicon Manufacturer

ST Micro

Core Architecture

ARM

Core Sub-architecture

ARM9

Silicon Core Number

STR9

Silicon Family Name

STR91x

For Use With

497-8263 - BOARD EXTENSION STEVAL-IFW001V1

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

497-8262

Current page: 16 of 102
Download datasheet (3Mb)

Functional overview

3.7

3.7.1

3.7.2

16/102

Non-volatile memories

There are two independent 32-bit wide burst Flash memories enabling true read-while-write

operation. The Flash memories are single-voltage erase/program with 20 year minimum

data retention and 100K minimum erase cycles. The primary Flash memory is much larger

than the secondary Flash.

Both Flash memories are blank when devices are shipped from ST. The CPU can boot only

from Flash memory (configurable selection of which Flash bank).

Flash memories are programmed half-word (16 bits) at a time, but are erased by sector or

by full array.

Primary Flash memory

Using the STR91xFA device configuration software tool and 3rd party Integrated Developer

Environments, it is possible to specify that the primary Flash memory is the default memory

from which the CPU boots at reset, or otherwise specify that the secondary Flash memory is

the default boot memory. This choice of boot memory is non-volatile and stored in a location

that can be programmed and changed only by JTAG In-System Programming. See

Section 6: Memory

The primary Flash memory has equal length 64K byte sectors. See

sectors per device type.

Table 3.

Secondary Flash memory

The smaller of the two Flash memories can be used to implement a bootloader, capable of

storing code to perform robust In-Application Programming (IAP) of the primary Flash

memory. The CPU executes code from the secondary Flash, while updating code in the

primary Flash memory. New code for the primary Flash memory can be downloaded over

any of the interfaces on the STR91xFA (USB, Ethernet, CAN, UART, etc.)

Additionally, the secondary Flash memory may also be used to store small data sets by

emulating EEPROM through firmware, eliminating the need for external EEPROM

memories. This raises the data security level because passcodes and other sensitive

information can be securely locked inside the STR91xFA device.

The secondary Flash memory is sectored as shown in

Both the primary Flash memory and the secondary Flash memory can be programmed with

code and/or data using the JTAG In-System Programming (ISP) channel, totally

independent of the CPU. This is excellent for iterative code development and for

manufacturing.

Size of primary Flash

Size of each sector

Number of sectors

Sectoring of primary Flash memory

mapping, for more detail.

Doc ID 13495 Rev 6

256 Kbytes

64 Kbytes

512 Kbytes

Table 4

according to device type.

Table 3

1 Mbyte

64 Kbytes

for number of

STR91xFAxxx

2 Mbytes

STEVAL-IFW001V1 STMicroelectronics, STEVAL-IFW001V1 Datasheet - Page 16

STEVAL-IFW001V1

Specifications of STEVAL-IFW001V1

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