FM24CL16_05 RAMTRON [Ramtron International Corporation], FM24CL16_05 Datasheet - Page 6

FM24CL16_05

Manufacturer Part Number

FM24CL16_05

Description

16Kb FRAM Se rial 3V Memory

Manufacturer

RAMTRON [Ramtron International Corporation]

Datasheet

1.FM24CL16_05.pdf (13 pages)

Current page: 6 of 13
Download datasheet (108Kb)

Read Operation

There are two types of read operations. They are

current address read and selective address read. In a

current address read, the FM24CL16 uses the internal

address latch to supply the lower 8 address bits. In a

selective read, the user performs a procedure to set

these lower address bits to a specific value.

Current Address & Sequential Read

As mentioned above the FM24CL16 uses an internal

latch to supply the lower 8 address bits for a read

operation. A current address read uses the existing

value in the address latch as a starting place for the

read operation. This is the address immediately

following that of the last operation.

To perform a current address read, the bus master

supplies a slave address with the LSB set to 1. This

indicates that a read operation is requested. The 3

page select bits in the slave ID specify the block of

memory that is used for the read operation. On the

next clock, the FM24CL16 will begin shifting out

data from the current address. The current address is

the 3 bits from the slave ID combined with the 8 bits

that were in the internal address latch.

Beginning with the current address, the bus master

can read any number of bytes. Thus, a sequential read

is simply a current address read with multiple byte

transfers. After each byte, the internal address counter

will be incremented. Each time the bus master

acknowledges a byte this indicates that the

FM24CL16 should read out the next sequential byte.

Rev 3.3

Nov. 2005

By FM24CL16

By Master

Start

Slave Address

Figure 6. Multiple Byte Write

Figure 5. Single Byte Write

Address & Data

Word Address

Address & Data

Word Address

There are four ways to properly terminate a read

operation. Failing to properly terminate the read will

most likely create a bus contention as the FM24CL16

attempts to read out additional data onto the bus. The

four valid methods are as follows.

If the internal address reaches 7FFh it will wrap

around to 000h on the next read cycle. Figures 7 and

8 show the proper operation for current address reads.

Selective (Random) Read

A simple technique allows a user to select a random

address location as the starting point for a read

operation. It uses the first two bytes of a write

operation to set the internal address byte followed by

subsequent read operations.

To perform a selective read, the bus master sends out

the slave address with the LSB set to 0. This specifies

a write operation. According to the write protocol, the

bus master then sends the word address byte that is

loaded into the internal address latch. After the

FM24CL16 acknowledges the word address, the bus

master issues a start condition. This simultaneously

Acknowledge

The bus master issues a no-acknowledge in the

This is illustrated in the diagrams below. This is

the preferred method.

The bus master issues a no-acknowledge in the

The bus master issues a stop in the 9

cycle. Bus contention may result.

The bus master issues a start in the 9

cycle. Bus contention may result.

Data Byte

Acknowledge

clock cycle and a start in the 10

clock cycle and a stop in the 10

Data Byte

Stop

FM24CL16

clock cycle.

Page 6 of 13

Stop

clock

FM24CL16_05 RAMTRON [Ramtron International Corporation], FM24CL16_05 Datasheet - Page 6

FM24CL16_05

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