X4043-45 Datasheet, PDF(11/24 Page) Intersil Corporation – 2.7V to 5.5V power supply operation

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X4043-45 Datasheet, PDF (11/24 Pages) Intersil Corporation – 2.7V to 5.5V power supply operation

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X4043, X4045

Figure 8. Acknowledge Response From Receiver

SCL from

Master

Data Output

from Transmitter

Data Output

from Receiver

Start

X4043/45 ADDRESSING

Slave Address Byte

Following a start condition, the master must output a

slave address byte. This byte consists of several parts:

â a device type identifier that is â1010â to access the

array and â1011â to access the control register.

â two bits of â0â.

â one bit that becomes the MSB of the address.

â one bit of the slave command byte is a R/W bit. The

R/W bit of the slave address byte defines the opera-

tion to be performed. When the R/W bit is a one,

then a read operation is selected. A zero selects a

write operation. Refer to Figure 8.

â After loading the entire slave address byte from the

SDA bus, the device compares the input slave byte

data to the proper slave byte. Upon a correct compare,

the device outputs an acknowledge on the SDA line.

Word Address

The word address is either supplied by the master or

obtained from an internal counter. The internal counter

is undefined on a power-up condition.

Slave Address Byte

Figure 9. X4043/45 Addressing

Slave Byte

Array

Control Reg. 1

0 A8 R/W

Word Address

A7 A6 A5 A4 A3 A2 A1 A0

Acknowledge

Operational Notes

The device powers-up in the following state:

â The device is in the low power standby state.

â The WEL bit is set to â0â. In this state it is not possi-

ble to write to the device.

â SDA pin is the input mode.

â RESET signal is active for tPURST.

SERIAL WRITE OPERATIONS

Byte Write

For a write operation, the device requires the slave

address byte and a word address byte. This gives the

master access to any one of the words in the array.

After receipt of the word address byte, the device

responds with an acknowledge, and awaits the next

eight bits of data. After receiving the 8 bits of the data

byte, the device again responds with an acknowledge.

The master then terminates the transfer by generating a

stop condition, at which time the device begins the inter-

nal write cycle to the nonvolatile memory. During this

internal write cycle, the device inputs are disabled, so the

device will not respond to any requests from the master.

The SDA output is at high impedance. See Figure 10.

A write to a protected block of memory will suppress

the acknowledge bit.

FN8118.3

December 9, 2015

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