Datasheet
Table Of Contents
- FEATURES
- APPLICATIONS
- DESCRIPTION
- DEVICE INFORMATION
- ABSOLUTE MAXIMUM RATINGS
- THERMAL INFORMATION
- RECOMMENDED OPERATING CONDITIONS
- PWM OPERATION AT RECOMMENDED OPERATING CONDITIONS
- PLL INPUT PARAMETERS AND EXTERNAL FILTER COMPONENTS
- ELECTRICAL CHARACTERISTICS
- DC Characteristics
- AC Characteristics (BTL)
- SERIAL AUDIO PORTS SLAVE MODE
- I2C SERIAL CONTROL PORT OPERATION
- RESET TIMING (RESET)
- TYPICAL CHARACTERISTICS, BTL CONFIGURATION
- TYPICAL CHARACTERISTICS, SE CONFIGURATION
- TYPICAL CHARACTERISTICS, PBTL CONFIGURATION
- DETAILED DESCRIPTION
- POWER SUPPLY
- ERROR REPORTING
- DEVICE PROTECTION SYSTEM
- SSTIMER FUNCTIONALITY
- CLOCK, AUTO DETECTION, AND PLL
- SERIAL DATA INTERFACE
- PWM Section
- SERIAL INTERFACE CONTROL AND TIMING
- I2C SERIAL CONTROL INTERFACE
- Output Mode and MUX Selection
- 2.1-Mode Support
- Single-Filter PBTL-Mode Support
- Dynamic Range Control (DRC)
- BANK SWITCHING
- 26-Bit 3.23 Number Format
- Recommended Use Model
- CLOCK CONTROL REGISTER (0x00)
- DEVICE ID REGISTER (0x01)
- ERROR STATUS REGISTER (0x02)
- SYSTEM CONTROL REGISTER 1 (0x03)
- SERIAL DATA INTERFACE REGISTER (0x04)
- SYSTEM CONTROL REGISTER 2 (0x05)
- SOFT MUTE REGISTER (0x06)
- VOLUME REGISTERS (0x07, 0x08, 0x09, 0x0A)
- VOLUME CONFIGURATION REGISTER (0x0E)
- MODULATION LIMIT REGISTER (0x10)
- INTERCHANNEL DELAY REGISTERS (0x11, 0x12, 0x13, and 0x14)
- PWM SHUTDOWN GROUP REGISTER (0x19)
- START/STOP PERIOD REGISTER (0x1A)
- OSCILLATOR TRIM REGISTER (0x1B)
- BKND_ERR REGISTER (0x1C)
- INPUT MULTIPLEXER REGISTER (0x20)
- CHANNEL 4 SOURCE SELECT REGISTER (0x21)
- PWM OUTPUT MUX REGISTER (0x25)
- DRC CONTROL (0x46)
- BANK SWITCH AND EQ CONTROL (0x50)
- Revision History
2 Bit
–23
S_xx.xxxx_xxxx_xxxx_xxxx_xxxx_xxx
2 Bit
–5
2 Bit
–1
2 Bit
0
SignBit
2 Bit
1
M0125-01
TAS5711
SLOS600A –DECEMBER 2009–REVISED AUGUST 2010
www.ti.com
BANK SWITCHING
The TAS5711 uses an approach called bank switching together with automatic sample-rate detection. All
processing features that must be changed for different sample rates are stored internally in three banks. The
user can program which sample rates map to each bank. By default, bank 1 is used in 32kHz mode, bank 2 is
used in 44.1/48 kHz mode, and bank 3 is used for all other rates. Combined with the clock-rate autodetection
feature, bank switching allows the TAS5711 to detect automatically a change in the input sample rate and switch
to the appropriate bank without any MCU intervention.
An external controller configures bankable locations (0x29-0x36, 0x3A-0x3F, and 0x58-0x5F) for all three banks
during the initialization sequence.
If auto bank switching is enabled (register 0x50, bits 2:0) , then the TAS5711 automatically swaps the coefficients
for subsequent sample rate changes, avoiding the need for any external controller intervention for a sample rate
change.
By default, bits 2:0 have the value 000; indicating that bank switching is disabled. In that state, updates to
bankable locations take immediate effect. A write to register 0x50 with bits 2:0 being 001, 010, or 011 brings the
system into the coefficient-bank-update state update bank1, update bank2, or update bank3, respectively. Any
subsequent write to bankable locations updates the coefficient banks stored outside the DAP. After updating all
the three banks, the system controller should issue a write to register 0x50 with bits 2:0 being 100; this changes
the system state to automatic bank switching mode. In automatic bank switching mode, the TAS5711
automatically swaps banks based on the sample rate.
Command sequences for updating DAP coefficients can be summarized as follows:
1. Bank switching disabled (default): DAP coefficient writes take immediate effect and are not
influenced by subsequent sample rate changes.
OR
Bank switching enabled:
(a) Update bank-1 mode: Write "001" to bits 2:0 of reg 0x50. Load the 32 kHz coefficients.
(b) Update bank-2 mode: Write "010" to bits 2:0 of reg 0x50. Load the 48 kHz coefficients.
(c) Update bank-3 mode: Write "011" to bits 2:0 of reg 0x50. Load the other coefficients.
(d) Enable automatic bank switching by writing "100" to bits 2:0 of reg 0x50.
26-Bit 3.23 Number Format
All mixer gain coefficients are 26-bit coefficients using a 3.23 number format. Numbers formatted as 3.23
numbers means that there are 3 bits to the left of the decimal point and 23 bits to the right of the decimal point.
This is shown in Figure 54 .
Figure 54. 3.23 Format
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