FM24C256B-G Cypress Semiconductor, FM24C256B-G Datasheet - Page 3

FM24C256B-G

Manufacturer Part Number

FM24C256B-G

Description

F-RAM 256Kb Serial I2C 5V FRAM

Manufacturer

Cypress Semiconductor

Datasheet

1.FM24C256B-GTR.pdf (12 pages)

Specifications of FM24C256B-G

Rohs

yes

Operating Supply Voltage

5 V

Operating Temperature Range

- 40 C to + 85 C

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Overview

The FM24C256 is a serial FRAM memory. The

memory array is logically organized as 32,768 x 8 bit

memory array and is accessed using an industry

standard two-wire interface. Functional operation of

the FRAM is similar to serial EEPROMs. The major

difference between the FM24C256 and a serial

EEPROM relates to its superior write performance.

Memory Architecture

When accessing the FM24C256, the user addresses

32,768 locations each with 8 data bits. These data bits

are shifted serially. The 32,768 addresses are

accessed using the two-wire protocol, which includes

a slave address (to distinguish from other non-

memory devices), and an extended 16-bit address.

Only the lower 15 bits are used by the decoder for

accessing the memory. The upper address bit should

be set to 0 for compatibility with higher density

devices in the future.

The memory is read or written at the speed of the

two-wire bus. Unlike an EEPROM, it is not

necessary to poll the device for a ready condition

since writes occur at bus speed. By the time a new

bus transaction can be shifted into the part, a write

operation is complete. This is explained in more

detail in the interface section below.

Users can expect several obvious system benefits

from the FM24C256 due to its fast write cycle and

high endurance as compared with EEPROM.

However there are less obvious benefits as well. For

example in a high noise environment, the fast-write

operation is less susceptible to corruption than an

EEPROM since the write cycle is completed quickly.

By contrast, an EEPROM requiring milliseconds to

write is vulnerable to noise during much of the cycle.

Note that the FM24C256 contains no power

management circuits other than a simple internal

power-on reset. It is the user’s responsibility to

ensure that V

tolerances to prevent incorrect operation.

Rev. 3.3

Jan. 2011

is maintained within data sheet

Two-wire Interface

The FM24C256 employs a bi-directional two-wire

bus protocol using few pins and little board space.

Figure 2 illustrates a typical system configuration

using the FM24C256 in a microcontroller-based

system. The industry standard two-wire bus is

familiar to many users but is described in this section.

By convention, any device that is sending data onto

the bus is the transmitter while the target device for

this data is the receiver. The device that is controlling

the bus is the master. The master is responsible for

generating the clock signal for all operations. Any

device on the bus that is being controlled is a slave.

The FM24C256 is always a slave device.

The bus protocol is controlled by transition states in

the SDA and SCL signals. There are four conditions

including Start, Stop, Data bit, and Acknowledge.

Figure 3 illustrates the signal conditions that specify

the four states. Detailed timing diagrams are shown

in the Electrical Specifications section.

Microcontroller

Figure 2. Typical System Configuration

SDA

A0 A1 A2

FM24C256

SCL

SDA

A0 A1 A2

FM24C256

min

max

= 1.8 Kohm

FM24C256

= t

SCL

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bus

FM24C256B-G Cypress Semiconductor, FM24C256B-G Datasheet - Page 3

FM24C256B-G

Specifications of FM24C256B-G

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