ADAU1701JSTZ Analog Devices Inc, ADAU1701JSTZ Datasheet - Page 24
ADAU1701JSTZ
Manufacturer Part Number
ADAU1701JSTZ
Description
IC AUDIO PROC 2ADC/4DAC 48-LQFP
Manufacturer
Analog Devices Inc
Series
SigmaDSP®r
Type
Audio Processorr
Specifications of ADAU1701JSTZ
Design Resources
Analog Audio Input, Class-D Output with ADAU1701, SSM2306, and ADP3336 (CN0162)
Applications
Automotive, Monitors, MP3
Mounting Type
Surface Mount
Package / Case
48-LQFP
Audio Control Type
Digital
Control Interface
I2C, Serial
Supply Voltage Range
1.8V, 3.3V
Operating Temperature Range
0°C To +70°C
Audio Ic Case Style
LQFP
No. Of Pins
48
Svhc
No SVHC
Control / Process Application
MP3 Player Speaker Docks, Automotive Head Units, Studio Monitors
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
EVAL-ADAU1701MINIZ - BOARD EVAL SIGMADSP AUD ADAU1701EVAL-ADAU1701EBZ - BOARD EVAL FOR ADAU1701
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
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ADAU1701
I
The ADAU1701 supports a 2-wire serial (I
microprocessor bus driving multiple peripherals. Two pins,
serial data (SDA) and serial clock (SCL), carry information
between the ADAU1701 and the system I
In I
meaning it cannot initiate a data transfer. Each slave device is
recognized by a unique address. The address byte format is
shown in Table 16. The ADAU1701 slave addresses are set with
the ADDR0 and ADDR1 pins. The address resides in the first
seven bits of the I
or write operation. Logic Level 1 corresponds to a read operation,
and Logic Level 0 corresponds to a write operation. Bit 5 and
Bit 6 of the address are set by tying the ADDRx pins of the
ADAU1701 to Logic Level 0 or Logic Level 1. The full byte
addresses, including the pin settings and read/ write (R/ W ) bit,
are shown in
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 and RAMs in the
ADAU1701 range in width from one to five bytes, so the auto-
increment feature knows the mapping between subaddresses and
the word length of the destination register (or memory location).
A data transfer is always terminated by a stop condition.
Both SDA and SCL should have 2.2 kΩ pull-up resistors on the
lines connected to them. The voltage on these signal lines should
not be more than IOVDD (3.3 V).
Table 16. ADAU1701 I
Bit 0
0
Table 17. ADAU1701 I
ADDR1
0
0
0
0
1
1
1
1
2
C PORT
2
C mode, the ADAU1701 is always a slave on the bus,
Bit 1
1
ADDR0
0
0
1
1
0
0
1
1
Table 17
Bit 2
1
2
C write. The LSB of this byte sets either a read
R/ W
0
1
0
1
0
1
0
1
.
Bit 3
0
2
2
C Address Byte Format
C Addresses
Bit 4
1
Bit 5
ADDR1
2
C master controller.
2
C-compatible)
Slave Address
0x68
0x69
0x6A
0x6B
0x6C
0x6D
0x6E
0x6F
Bit 6
ADDR0
Bit 7
R/W
Rev. A | Page 24 of 56
Addressing
Initially, each device on the I
the SDA and SCL lines for a start condition and the proper address.
The I
condition, defined by a high-to-low transition on SDA while
SCL remains high. This indicates that an address/data stream
follows. 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 condi-
tion occurs when SDA transitions from low to high while SCL
is held high.
Figure 21
Stop and start conditions can be detected at any stage during the
data transfer. If these conditions are asserted out of sequence with
normal read and write operations, the ADAU1701 immediately
jumps to the idle condition. During a given SCL high period,
the user should only issue one start condition, one stop condition,
or a single stop condition followed by a single start condition. If
an invalid subaddress is issued by the user, the ADAU1701 does
not issue an acknowledge and returns to the idle condition. If
the user exceeds the highest subaddress while in auto-increment
mode, one of two actions is taken. In read mode, the ADAU1701
outputs the highest subaddress register contents until the master
device issues a no acknowledge, indicating the end of a read. A
no-acknowledge condition is where the SDA line is not pulled
low on the ninth clock pulse on SCL. On the other hand, if the
highest subaddress location is reached while in write mode, the
data for the invalid byte is not loaded into any subaddress register,
a no acknowledge is issued by the ADAU1701, and the part returns
to the idle condition.
2
C master initiates a data transfer by establishing a start
shows an I
Figure 20
2
C read.
shows the timing of an I
2
C bus is in an idle state monitoring
2
C write, and
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