Datasheet
TAS5508C
www.ti.com
SLES257–SEPTEMBER 2010
PIN
5-V
TYPE
(1)
TERMINATION
(2)
DESCRIPTION
TOLERANT
NAME NO.
PWM_P_5 56 DO PWM 5 output (differential +)
PWM_P_6 58 DO PWM 6 output (differential +)
PWM_P_7 50 DO PWM 7 (lineout L) output (differential +)
PWM_P_8 52 DO PWM 8 (lineout R) output (differential +)
RESERVED 21, 22, Connect to digital ground
23, 64
RESET 11 DI 5 V Pullup System reset input, active-low. A system reset is generated by applying a logic
low to this terminal. RESET is an asynchronous control signal that restores the
TAS5508C to its default conditions, sets the valid output low, and places the
PWM in the hard mute (M) state. Master volume is immediately set to full
attenuation. On the release of RESET, if PDN is high, the system performs a 4-
to 5-ms device initialization and sets the volume at mute.
SCL 25 DI 5 V
I
2
C serial-control clock input/output
SCLK 27 DI 5 V Serial-audio data clock (shift clock) input
SDA 24 DIO 5 V
I
2
C serial-control data-interface input/output
SDIN1 31 DI 5 V Pulldown Serial-audio data input 1 is one of the serial-data input ports. SDIN1 supports
four discrete (stereo) data formats and is capable of inputting data at 64 Fs.
SDIN2 30 DI 5 V Pulldown Serial-audio data input 2 is one of the serial-data input ports. SDIN2 supports
four discrete (stereo) data formats and is capable of inputting data at 64 Fs.
SDIN3 29 DI 5 V Pulldown Serial-audio data input 3 is one of the serial-data input ports. SDIN3 supports
four discrete (stereo) data formats and is capable of inputting data at 64 Fs.
SDIN4 28 DI 5 V Pulldown Serial-audio data input 4 is one of the serial-data input ports. SDIN4 supports
four discrete (stereo) data formats and is capable of inputting data at 64 Fs.
VALID 39 DO Output indicating validity of PWM outputs, active-high
VBGAP 10 P Band-gap voltage reference. A pinout of the internally regulated 1.2-V reference.
Typically has a 1-nF low-ESR capacitor between VBGAP and AVSS_PLL. This
terminal must not be used to power external devices.
VR_DIG 33 P Voltage reference for 1.8-V digital core supply. A pinout of the internally
regulated 1.8-V power used by digital core logic. A 4.7-mF low-ESR capacitor
(3)
should be connected between this terminal and DVSS. This terminal must not
be used to power external devices.
VR_DPLL 17 P Voltage reference for 1.8-V digital PLL supply. A pinout of the internally
regulated 1.8-V power used by digital PLL logic. A 0.1-mF low-ESR capacitor
(3)
should be connected between this terminal and DVSS_CORE. This terminal
must not be used to power external devices.
VR_PWM 48 P Voltage reference for 1.8-V digital PWM core supply. A pinout of the internally
regulated 1.8-V power used by digital PWM core logic. A 0.1-mF low-ESR
capacitor
(3)
should be connected between this terminal and DVSS_PWM. This
terminal must not be used to power external devices.
VRA_PLL 1 P Voltage reference for 1.8-V PLL analog supply. A pinout of the internally
regulated 1.8-V power used by PLL logic. A 0.1-mF low-ESR capacitor
(3)
should
be connected between this terminal and AVSS_PLL. This terminal must not be
used to power external devices.
VRD_PLL 7 P Voltage reference for 1.8-V PLL digital supply. A pinout of the internally
regulated 1.8-V power used by PLL logic. A 0.1-mF low-ESR capacitor
(3)
should
be connected between this terminal and AVSS_PLL. This terminal must not be
used to power external devices.
XTL_IN 20 AI XTL_OUT and XTL_IN are the only LVCMOS terminals on the device. They
provide a reference clock for the TAS5508C via use of an external
fundamental-mode crystal. XTL_IN is the 1.8-V input port for the oscillator
circuit. A 13.5-MHz crystal (HCM49) is recommended.
XTL_OUT 19 AO XTL_OUT and XTL_IN are the only LVCMOS terminals on the device. They
provide a reference clock for the TAS5508C via use of an external
fundamental-mode crystal. XTL_OUT is the 1.8-V output drive to the crystal. A
13.5-MHz crystal (HCM49) is recommended.
(3) If desired, low-ESR capacitance values can be implemented by paralleling two or more ceramic capacitors of equal value. Paralleling
capacitors of equal value provides an extended high-frequency supply decoupling. This approach avoids the potential of producing
parallel resonance circuits that have been observed when paralleling capacitors of different values.
2.2 TAS5508C Functional Description
Figure 2-1 shows the TAS5508C functional structure. The following sections describe the TAS5508C
functional blocks:
• Power supply
Copyright © 2010, Texas Instruments Incorporated Description 17
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