ADAU1381BCPZ Analog Devices Inc, ADAU1381BCPZ Datasheet - Page 33

ADAU1381BCPZ

Manufacturer Part Number

ADAU1381BCPZ

Description

IC AUDIO CODEC STEREO LN 32LFCSP

Manufacturer

Analog Devices Inc

Type

Stereo Audior

Datasheet

1.ADAU1381BCBZ-RL.pdf (84 pages)

Specifications of ADAU1381BCPZ

Data Interface

Serial, SPI™

Resolution (bits)

24 b

Number Of Adcs / Dacs

2 / 2

Sigma Delta

S/n Ratio, Adcs / Dacs (db) Typ

97 / 100

Dynamic Range, Adcs / Dacs (db) Typ

96.5 / 100

Voltage - Supply, Analog

1.8 V ~ 3.65 V

Voltage - Supply, Digital

1.63 V ~ 3.65 V

Operating Temperature

-25°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

32-VFQFN, CSP Exposed Pad

Audio Codec Type

Stereo

No. Of Adcs

No. Of Dacs

No. Of Input Channels

No. Of Output Channels

Adc / Dac Resolution

24bit

Adcs / Dacs Signal To Noise Ratio

100dB

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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CONTROL PORTS

The ADAU1381 can operate in one of two control modes: I

control or SPI control.

The ADAU1381 has both a 4-wire SPI control port and a 2-wire

part defaults to I

by pulling the CLATCH pin low three times.

The control port is capable of full read/write operation for all

addressable registers. Most sound engine processing parameters

are controlled by writing new values to the sound engine parameter

input/output mode control, and analog signal paths, can be

programmed by writing to the appropriate registers.

All addresses can be accessed in either a single-address mode or

a burst mode. The first byte (Byte 0) of a control port write contains

the 7-bit chip address plus the R/ W bit. The next two bytes (Byte 1

and Byte 2) together form the subaddress of the register location

within the ADAU1381. All subsequent bytes (starting with Byte 3)

contain the data, such as control port data, register data, or sound

engine parameter data. The number of bytes per word depends

on the type of data that is being written. The exact formats for

specific types of writes and reads are shown in

Figure 43

The ADAU1381 has several mechanisms for updating sound

engine parameters in real time without causing pops or clicks.

The control port pins are multifunctional, depending on the

mode in which the part is operating. Table 20 details these

multiple functions.

Table 20. Control Port Pin Functions

SCL/CCLK

SDA/COUT

ADDR1/CLATCH

ADDR0/CDATA

The ADAU1381 supports a 2-wire serial (I

microprocessor bus driving multiple peripherals. Two pins,

serial data (SDA) and serial clock (SCL), carry information

between the ADAU1381 and the system I

In I

it cannot initiate a data transfer. Each slave device is recognized by

a unique address. The address byte format is shown in Table 21.

The address resides in the first seven bits of the I

LSB of this byte sets either a read or write operation. Logic 1

corresponds to a read operation, and Logic 0 corresponds to a

write operation. The full byte addresses, including the pin settings

and R/ W bit, are shown in

C bus control port. Each can be used to set the registers. The

C PORT

C mode, the ADAU1381 is always a slave on the bus, meaning

C mode but can be put into SPI control mode

SCL—input

SDA—open-collector output

C Address Bit 1—input

C Address Bit 0—input

C Mode

Table 22

C master controller.

C-compatible)

Figure 40

C write. The

SPI Mode

CCLK—input

COUT—output

CLATCH—input

CDATA—input

Rev. B | Page 33 of 84

Burst mode addressing, where the subaddresses are automati-

cally incremented at word boundaries, can be used for writing

large amounts of data to contiguous memory locations. This

increment happens automatically after a single-word write unless a

stop condition is encountered. The registers in the ADAU1381

range in width from one to six bytes; therefore, the auto-increment

feature knows the mapping between subaddresses and the word

length of the destination register. A data transfer is always

terminated by a stop condition.

Both SDA and SCL should have 2.0 kΩ pull-up resistors on the

lines connected to them. The voltage on these signal lines should

not be more than AVDD1.

Table 21. I

Bit 0

Table 22. I

ADDR1

Addressing

Initially, each device on the I

monitoring the SDA and SCL lines for a start condition and

the proper address. The I

establishing a start condition, defined by a high-to-low transition

on SDA while SCL remains high. This indicates that an address or

an address and data stream follow. All devices on the bus respond

to the start condition and shift the next eight bits (the 7-bit

address plus the R/ W bit), MSB first. The device that recognizes

the transmitted address responds by pulling the data line low

during the ninth clock pulse. This ninth bit is known as an

acknowledge bit. All other devices withdraw from the bus at

this point and return to the idle condition.

The R/ W bit determines the direction of the data. A Logic 0 on the

LSB of the first byte means the master writes information to the

peripheral, whereas a Logic 1 means the master reads information

from the peripheral after writing the subaddress and repeating

the start address. A data transfer takes place until a stop condition

is encountered. A stop condition occurs when SDA transitions

from low to high while SCL is held high.

timing of an I

Bit 1

ADDR0

C Address Byte Format

C Addresses

C write, and

Bit 2

R/W

Bit 3

C master initiates a data transfer by

Figure 39

C bus is in an idle state and

Bit 4

Slave Address

0x70

0x71

0x72

0x73

0x74

0x75

0x76

0x77

shows an I

Bit 5

ADDR1

Figure 38

ADAU1381

C read.

Bit 6

ADDR0

shows the

Bit 7

R/W

ADAU1381BCPZ Analog Devices Inc, ADAU1381BCPZ Datasheet - Page 33

ADAU1381BCPZ

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