CP3BT26 Datasheet, PDF(31/278 Page) National Semiconductor (TI) – Reprogrammable Connectivity Processor with Bluetooth-R, USB, and CAN Interfaces

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

CP3BT26 Datasheet, PDF (31/278 Pages) National Semiconductor (TI) – Reprogrammable Connectivity Processor with Bluetooth-R, USB, and CAN Interfaces

◁

8.0 Flash Memory

The flash memory consists of the flash program memory

and the flash data memory. The flash program memory is

further divided into the Boot Area and the Code Area.

A special protection scheme is applied to the lower portion

of the flash program memory, called the Boot Area. The

Boot Area always starts at address 0 and ranges up to a

programmable end address. The maximum boot area ad-

dress which can be selected is 00 77FFh. The intended use

of this area is to hold In-System-Programming (ISP) rou-

tines or essential application routines. The Boot Area is al-

ways protected against CPU write access, to avoid

unintended modifications.

The Code Area is intended to hold the application code and

constant data. The Code Area begins with the next byte af-

ter the Boot Area. Table 10 summarizes the properties of

the regions of flash memory mapped into the CPU address

space.

Table 10 Flash Memory Areas

Area

Address Range

Read

Access

Write Access

Boot

Area

0âBOOTAREA - 1

Yes

No

Write access

only if section

Code

Area

BOOTAREAâ03 FFFFh

Yes

write enable

bit is set and

global write

protection is

disabled.

Data

Area

0D 0000hâ0D 1FFFh

Write access

only if section

write enable

Yes bit is set and

global write

protection is

disabled.

8.1 FLASH MEMORY PROTECTION

The memory protection mechanisms provide both global

and section-level protection. Section-level protection

against CPU writes is applied to individual 8K-byte sections

of the flash program memory and 512-byte sections of the

flash data memory. Section-level protection is controlled

through read/write registers mapped into the CPU address

space. Global write protection is applied at the device level,

to disable flash memory writes by the CPU. Global write pro-

tection is controlled by the encoding of bits stored in the

flash memory array.

default (after reset) all bits in the FM0WER, FM1WER, and

FSM0WER registers are cleared, which disables write ac-

cess by the CPU to all sections. Write access to a section is

enabled by setting the corresponding write enable bit. After

completing a programming or erase operation, software

should clear all write enable bits to protect the flash program

memory against any unintended writes.

8.1.2 Global Protection

The WRPROT field in the Protection Word controls global

write protection. The Protection Word is located in a special

flash memory outside of the CPU address space. If a major-

ity of the bits in the 3-bit WRPROT field are clear, write pro-

tection is enabled. Enabling this mode prevents the CPU

from writing to flash memory.

The RDPROT field in the Protection Word controls global

read protection. If a majority of the bits in the 3-bit RDPROT

field are clear, read protection is enabled. Enabling this

mode prevents reading by an external debugger through the

serial debug interface or by an external flash programmer.

CPU read access is not affected by the RDPROT bits.

8.2 FLASH MEMORY ORGANIZATION

Each of the flash memories are divided into main blocks and

information blocks. The main blocks hold the code or data

used by application software. The information blocks hold

factory parameters, protection settings, and other device-

specific data. The main blocks are mapped into the CPU ad-

dress space. The information blocks are accessed indirectly

through a register-based interface. Separate sets of regis-

ters are provided for accessing flash program memory (FM

registers) and flash data memory (FSM registers). The flash

program memory consists of two main blocks and two data

blocks, as shown in Table 11. The flash data memory con-

sists of one main block and one information block.

Table 11 Flash Memory Blocks

Name

Address Range

Function

Main Block 0

00 0000hâ01 FFFFh

(CPU address space)

Flash Program

Memory

Information

Block 0

000hâ07Fh

(address register)

Main Block 1

02 0000hâ03 FFFFh

(CPU address space)

Function Word,

Factory

Parameters

Flash Program

Memory

Information

Block 1

080hâ0FFh

(address register)

Protection Word,

User Data

Main Block 2

0D 0000hâ0D 1FFFh

(CPU address space)

Flash Data

Memory

8.1.1 Section-Level Protection

Each bit in the Flash Memory Write Enable (FM0WER and

FM1WER) registers enables or disables write access to a

corresponding section of flash program memory. Write ac-

cess to the flash data memory is controlled by the bits in the

Flash Slave Memory Write Enable (FSM0WER) register. By

Information

Block 2

000hâ07Fh

(address register)

User Data

31

www.national.com

▷