ISD5100 Datasheet, PDF(72/88 Page) Winbond – SINGLE-CHIP 1 TO 16 MINUTES DURATION VOICE RECORD/PLAYBACK DEVICES WITH DIGITAL STORAGE CAPABILITY

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ISD5100 Datasheet, PDF (72/88 Pages) Winbond – SINGLE-CHIP 1 TO 16 MINUTES DURATION VOICE RECORD/PLAYBACK DEVICES WITH DIGITAL STORAGE CAPABILITY

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ISD5100 â SERIES

10.5. I2C PROTOCOL

Since the I2C protocol allows multiple devices on the bus, each device must have an address. This

address is known as a âSlave Addressâ. A Slave Address consists of 7 bits, followed by a single bit

that indicates the direction of data flow. This single bit is 1 for a Write cycle, which indicates the data is

being sent from the current bus master to the device being addressed. This single bit is a 0 for a Read

cycle, which indicates that the data is being sent from the device being addressed to the current bus

master. For example, the valid Slave Addresses for the ISD5100 Series device, for both Write and

Read cycles, are shown in section 7.3.1 on page 13 of this datasheet.

Before any data is transmitted on the I2C interface, the current bus master must address the slave it

wishes to transfer data to or from. The Slave Address is always sent out as the 1st byte following the

Start Condition sequence. An example of a Master transmitting an address to a ISD5100 Series slave

is shown below. In this case, the Master is writing data to the slave and the R/W bit is â0â, i.e. a Write

cycle. All the bits transferred are from the Master to the Slave, except for the indicated Acknowledge

bits. The following example details the transfer explained in section 7.3.1-2-3 on pages 13-20 of this

datasheet.

Master Transmits to Slave Receiver (Write) Mode

acknowledgement

from slave

acknowledgement

from slave

acknowledgement

from slave

acknowledgement

from slave

S SLAVE ADDRESS W A

COMMAND BYTE

A High ADDR. BYTE

Low ADDR. BYTE

Start Bit

R/W

Stop Bit

A common procedure in the ISD5100 Series is the reading of the Status Bytes. The Read Status

condition in the ISD5100 Series is triggered when the Master addresses the chip with its proper Slave

Address, immediately followed by the R/W bit set to a â1â and without the Command Byte being sent.

This is an example of the Master sending to the Slave, immediately followed by the Slave sending

data back to the Master. The âNâ not-acknowledge cycle from the Master ends the transfer of data

from the Slave. The following example details the transfer explained in section 7.3.1 on page 13 of this

datasheet.

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