TAS5710_15 Datasheet, PDF(1/58 Page) Texas Instruments – 20-W STEREO DIGITAL AUDIO POWER AMPLIFIER WITH EQ/DRC and FEEDBACK

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TAS5710_15 Datasheet, PDF (1/58 Pages) Texas Instruments – 20-W STEREO DIGITAL AUDIO POWER AMPLIFIER WITH EQ/DRC and FEEDBACK

TAS5710

www.ti.com............................................................................................................................................................................................... SLOS605 â JANUARY 2009

20-W STEREO DIGITAL AUDIO POWER AMPLIFIER WITH EQ/DRC and FEEDBACK

FEATURES

â¢ Audio Input/Output

â 20-W Into an 8-â¦ Load From an 18-V Supply

â Wide PVCC Range (10 V to 26 V)

â Supports One Serial Audio Input (8 kHz - 48

kHz Sample Rates) (LJ/RJ/I2S)

â Power-Stage Feedback Allows Operation

From Poorly Regulated Power Supplies

â¢ Audio/PWM Processing

â Factory-Trimmed Internal Oscillator for

Automatic Rate Detection

â High-End 32-Bit Data Path Audio Processor

â 18 Biquads for Speaker EQ

â Dynamic Range Control (DRC)

â Support for Pseudo Bass and 3D Effects

â¢ Benefits

â EQ: Speaker Equalization for Better Sound

â 2-Band DRC: Improved Bass Performance,

Enables Speaker Protection and Night

mode Listening

â Autobank Switching: Preloaded

Coefficients for Three Different Sample

Rates Eliminates the Need to Update

Coefficients When Sample Rate Changes

â Autodetect: Automatically Detects

Sample-Rate Changes Eliminating the Need

for External Microprocessor Intervention

â Closed-Loop Power Stage: Enables Wide

PVCC Operating Range and Reduced

Power Supply Ripple Distortion

DESCRIPTION

The TAS5710 is a 20-W, efficient, digital audio power amplifier for driving stereo bridge-tied speakers. A 32-bit

datapath eliminates the need for pre-scaling before processing and preserves signal integrity without sacrificing

dynamic range. A digital audio processor with fully programmable digital filters allows designers to custom tune

speakers for optimum sound in small enclosures. A programmable DRC can adjust power levels for a scaleable

design while also enabling night-mode listening modes.

The closed-loop architecture allows the device to operate from poorly regulated supplies. Figure 1 below shows

the benefit of the feedback architecture when a noisy supply (1kHz, 500mVpp ripple) modulates a 10kHz audio

input. The figure shows a 40dB improvement in sideband suppression when compared to an open-loop design.

This correlates directly to a 24dB improvement in distortion as seen in Figure 2.

â20

â40

â60

Closest Open-Loop

Competitor

TI Closed-Loop

40 dB

Inprovement

Fundamental

Audio Input

2nd Order

Sideband

3rd Order

Sideband

Closest Open-Loop

Competitor

TI Closed-Loop

â80

0.1

â100

â120

â140

Audio Input = 10 kHz

Supply Ripple = 1 kHz, 500 mVpp

6k 7k 8k 9k 10k 12k 15k

f â Frequency â Hz

20k

G018

Figure 1. Supply Ripple Intermodulation Distortion

0.01

PO = 3 W

Supply Ripple = 1 kHz, 500 mVpp

100

10k 20k

f â Frequency â Hz

G019

Figure 2. THD+N vs Frequency

Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of Texas

Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.

PRODUCTION DATA information is current as of publication date.

Products conform to specifications per the terms of the Texas

Instruments standard warranty. Production processing does not

necessarily include testing of all parameters.

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