Datasheet

ManualsBrandsTEXAS INSTRUMENTS ManualsLinear ICsLinear IC - Custom audio Digital audio interfacing I²C TSSOP 38

1−8

TERMINAL

PULLUP/

DOWN

(2)

DESCRIPTION

NAME

PULLUP/

DOWN

(2)

DESCRIPTION

TYPE

(1)

I/ONO.

VDDS (3.3 V) 31 - PWR VDDS is the 3.3-V pin that powers (1) the 1.8-V internal power regulator used

to supply logic power to the chip and (2) the I/O ring. It is recommended that

this pin be bypassed to DVSS (pin 28) with a low-ESR capacitor of 47 µF or

greater. A 0.1-µf ceramic capacitor should be placed in parallel with the 47-µf

capacitor to provide high-frequency decoupling.

None

XTALI (1.8-V logic) 4 I A XTALO and XTALI provide a master clock for the TAS3103A via use of an

external fundamental-mode crystal. XTALI is the 1.8-V input port for the

oscillator circuit. See Note 3 for recommended crystal type and accompanying

circuitry. This pin should be grounded when the MCLKI pin is used as the

source for the master clock.

None

XTALO (1.8-V logic) 5 O A XTALO and XTALI provide a master clock for the TAS3103A via use of an

external fundamental-mode crystal. XTALO is the 1.8-V output drive to the

crystal. XTALO can support crystal frequencies between 2.8 MHz and

20 MHz. See Note 3 for recommended crystal type and accompanying

circuitry. This pin should be left unconnected in applications using an external

clock input to MCLKI.

None

NOTES: 1. TYPE: A = analog; D = 3.3-V digital; PWR = power/ground/decoupling

2. All pullups are 20-µA weak pullups and all pulldowns are 20-µA weak pulldowns. The pullups and pulldowns are included to ensure

proper input logic levels if the pins are left unconnected (pullups => logic 1 input; pulldowns => logic 0 input). Devices that drive inputs

with pullups must be able to sink 20 µΑ while maintaining a logic 0 drive level. Devices that drive inputs with pulldowns must be able

to source 20 µA while maintaining a logic 1 drive level.

3. Crystal type and recommended circuit:

OSC

Circuit

AVSS

TAS3103A

• Crystal type = parallel-mode, fundamental-mode crystal

• r

= drive level control resistor—vendor specified

• C

= Crystal load capacitance (capacitance of circuitry between the two terminals of the crystal)

• C

= (C

× C

) / (C

+ C

) + C

(where C

= board stray capacitance ~2 pF)

− Example: Vendor recommended C

= 18 pF, C

= 3 pF ⇒ C

= C

= 2 × (18 − 3) = 30 pF

The TAS3103A crystal should comply with the following minimum specifications:

• Operation mode: fundamental

• Frequency tolerance: ±≤100 ppm at 25°C

• Frequency temperature characteristics: ±≤100 ppm, –20°C to 70°C

• Aging: ±≤10 ppm/year, maximum