Texas Instruments TAS2505 Evaluation Module TAS2505EVM TAS2505EVM Datenbogen
Produktcode
TAS2505EVM
SLAS778A – FEBRUARY 2013 – REVISED FEBRUARY 2013
5.6.7.2.1 I
2
C Control Mode
The TAS2505 supports the I
2
C control protocol, and will respond to the I
2
C address of 0011 000. I
2
C is a
two-wire, open-drain interface supporting multiple devices and masters on a single bus. Devices on the
I
I
2
C bus only drive the bus lines LOW by connecting them to ground; they never drive the bus lines HIGH.
Instead, the bus wires are pulled HIGH by pullup resistors, so the bus wires are HIGH when no device is
driving them LOW. This way, two devices cannot conflict; if two devices drive the bus simultaneously,
there is no driver contention.
driving them LOW. This way, two devices cannot conflict; if two devices drive the bus simultaneously,
there is no driver contention.
5.6.7.2.2 SPI Digital Interface
In the SPI control mode,the TAS2505 uses the pins SCL/SSZ=SSZ, SCLK=SCLK, MISO=MISO,
SDA/MOSI=MOSI as a standard SPI port with clock polarity setting of 0 (typical microprocessor SPI
control bit CPOL = 0). The SPI port allows full-duplex, synchronous, serial communication between a host
processor (the master) and peripheral devices (slaves). The SPI master (in this case, the host processor)
generates the synchronizing clock (driven onto SCLK) and initiates transmissions. The SPI slave devices
(such as the TAS2505) depend on a master to start and synchronize transmissions. A transmission begins
when initiated by an SPI master.The byte from the SPI master begins shifting in on the slave MOSI pin
under the control of the master serial clock(driven onto SCLK). As the byte shifts in on the MOSI pin, a
byte shifts out on the MISO pin to the master shif tregister.
SDA/MOSI=MOSI as a standard SPI port with clock polarity setting of 0 (typical microprocessor SPI
control bit CPOL = 0). The SPI port allows full-duplex, synchronous, serial communication between a host
processor (the master) and peripheral devices (slaves). The SPI master (in this case, the host processor)
generates the synchronizing clock (driven onto SCLK) and initiates transmissions. The SPI slave devices
(such as the TAS2505) depend on a master to start and synchronize transmissions. A transmission begins
when initiated by an SPI master.The byte from the SPI master begins shifting in on the slave MOSI pin
under the control of the master serial clock(driven onto SCLK). As the byte shifts in on the MOSI pin, a
byte shifts out on the MISO pin to the master shif tregister.
For more detailed information see the TAS2505 Application Reference Guide (
5.6.7.3
Power Supply
The TAS2505 integrates a large amount of digital and analog functionality, and each of these blocks can
be powered separately to enable the system to select appropriate power supplies for desired performance
and power consumption. The device has separate power domains for digital IO, digital core, analog core,
analog input, headphone driver, and speaker drivers. If desired, all of the supplies (except for the supplies
for speaker drivers, which can directly connect to the battery) can be connected together and be supplied
from one source in the range of 1.65 to 1.95V. Individually, the IOVDD voltage can be supplied in the
range of 1.1V to 3.6V. For improved power efficiency, the digital core power supply can range from 1.26V
to 1.95V. The analog core supply can either be derived from the internal LDO accepting an SPKVDD
voltage in the range of 2.7V to 5.5V, or the AVDD pin can directly be driven with a voltage in the range of
1.5V to 1.95V. The speaker driver voltages (SPKVDD) can range from 2.7V to 5.5V.
be powered separately to enable the system to select appropriate power supplies for desired performance
and power consumption. The device has separate power domains for digital IO, digital core, analog core,
analog input, headphone driver, and speaker drivers. If desired, all of the supplies (except for the supplies
for speaker drivers, which can directly connect to the battery) can be connected together and be supplied
from one source in the range of 1.65 to 1.95V. Individually, the IOVDD voltage can be supplied in the
range of 1.1V to 3.6V. For improved power efficiency, the digital core power supply can range from 1.26V
to 1.95V. The analog core supply can either be derived from the internal LDO accepting an SPKVDD
voltage in the range of 2.7V to 5.5V, or the AVDD pin can directly be driven with a voltage in the range of
1.5V to 1.95V. The speaker driver voltages (SPKVDD) can range from 2.7V to 5.5V.
For more detailed information see the TAS2505 Application Reference Guide (
5.6.7.4
Device Special Functions
•
Interrupt generation
•
Flexible pin multiplexing
For more detailed information see the TAS2505 Application Reference Guide (
24
Application Overview
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