M24LR64-RMN6/2 STMicroelectronics, M24LR64-RMN6/2 Datasheet - Page 26

M24LR64-RMN6/2

Manufacturer Part Number

M24LR64-RMN6/2

Description

EEPROM, 64K, DUAL INTERFACE, 8SOIC

Manufacturer

STMicroelectronics

Datasheet

1.M24LR64-RDW62.pdf (128 pages)

Specifications of M24LR64-RMN6/2

Memory Size

64Kbit

Clock Frequency

400kHz

Access Time

900ns

Supply Voltage Range

1.8V To 5V

Memory Case Style

SOIC

No. Of Pins

Operating Temperature Range

-40Â°C To +85Â°C

Svhc

No SVHC

Memory Configuration

8192 X 8, 2048 X 32

Interface Type

I2C, Serial, 2-Wire

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 26 of 128
Download datasheet (2Mb)

System memory area

4.3

4.4

26/128

I2C_Write_Lock bit area

In the I

This feature is controlled by the I2C_Write_Lock bits stored in the 8 bytes of the

I2C_Write_Lock bit area starting from the location 2048 (see

it is possible to write-protect all the 64 sectors of the M24LR64-R memory.

Each bit controls the I

possible to unprotect a sector in the I

the corresponding sector is unprotected. When the bit is set to 1, the corresponding sector

is write-protected.

In I

depends on the correct presentation of the I

To access the I2C_Write_Lock bit area, the device select code used for any I

must have the E2 Chip Enable address at 1.

On delivery, the default value of the 8 bytes of the I2C_Write_Lock bit area is reset to 00h.

Table 13.

System parameters

The M24LR64-R provides the system area required by the ISO 15693 RF protocol, as

shown in

The first 32-bit block starting from I

is used to activate/deactivate the write protection of the protected sector in I

power-on, all user memory sectors protected by the I2C_Write_Lock bits can be read but

cannot be modified. To remove the write protection, it is necessary to use the I

Password described in

all the presented bits correspond to the stored ones — it is also possible to modify the I

password using the I

The next three 32-bit blocks store the three RF passwords. These passwords are neither

read- nor write- accessible in the I

The next 2 bytes are used to store the AFI, at I

location 2323. These 2 values are used during the RF Inventory sequence. They are read-

only in the I

The next 8 bytes, starting from location 2324, store the 64-bit UID programmed by ST on the

production line. Bytes at I

used by the RF Get_System_Info command. The UID, Mem_Size and IC Ref values are

read-only data.

E2 = 1

C mode, read access to the I2C_Write_Lock bit area is always allowed. Write access

C byte address

C mode only, it is possible to protect individual sectors against Write operations.

Table

C mode.

I2C_Write_Lock bit

14.

2048

2052

C Write Password command described in

C write access to a specific sector as shown in

Figure

C locations 2332 to 2335 store the IC Ref and the Mem_Size data

sectors 31-24

sectors 63-56

Bits [31:24]

Doc ID 15170 Rev 11

8. When the password is correctly presented — that is, when

C mode.

C address 2304 stores the I

C mode. When an I2C_Write_Lock bit is reset to 0,

sectors 23-16

sectors 55-48

Bits [23:16]

C password.

C location 2322, and the DSFID, at I

sectors 47-40

sectors 15-8

Table

Bits [15:8]

C password. This password

Figure

13). Using these 64 bits,

Table

13. It is always

sectors 39-32

C mode. At

C command

sectors 7-0

Bits [7:0]

C Present

M24LR64-R

M24LR64-RMN6/2 STMicroelectronics, M24LR64-RMN6/2 Datasheet - Page 26

M24LR64-RMN6/2

Specifications of M24LR64-RMN6/2

Related parts for M24LR64-RMN6/2