TAS5825P

Name: TAS5825P
Brand: TI
SKU: TAS5825P
Price: 1.578 USD

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Datenblatt

document-pdfAcrobat TAS5825P 4.5 V to 26.4 V, 38 W Stereo, Digital Input, High Efficiency Closed-Loop Class-D Audio Amplifier with Hybrid-Pro Algorithm datasheet (Rev. A) (Englisch) PDF | HTML

TAS5825P

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Datenblatt

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Produktdetails

Audio input type

Digital Input

Architecture

Class-D, Smart Amp

Speaker channels (max)

Stereo

Rating

Catalog

Power stage supply (max) (V)

26.4

Power stage supply (min) (V)

4.5

Load (min) (Ω)

4

Output power (W)

38

SNR (dB)

111

THD + N at 1 kHz (%)

0.02

Iq (typ) (mA)

14.8

Control interface

Software

Closed/open loop

Closed

Analog supply (min) (V)

4.5

Analog supply voltage (max) (V)

26.4

Sampling rate (max) (kHz)

192

Operating temperature range (°C)

-25 to 85

Audio input type

Digital Input

Architecture

Class-D, Smart Amp

Speaker channels (max)

Stereo

Rating

Catalog

Power stage supply (max) (V)

26.4

Power stage supply (min) (V)

4.5

Load (min) (Ω)

4

Output power (W)

38

SNR (dB)

111

THD + N at 1 kHz (%)

0.02

Iq (typ) (mA)

14.8

Control interface

Software

Closed/open loop

Closed

Analog supply (min) (V)

4.5

Analog supply voltage (max) (V)

26.4

Sampling rate (max) (kHz)

192

Operating temperature range (°C)

-25 to 85

VQFN (RHB)

32

25 mm² 5 x 5

High-efficiency Class-D operation with Hybrid-Pro:
- Approximately 50% longer battery life compared to fixed supply voltage solutions
- > 90% Power efficiency, 90 mΩ R_DS(on)
- Low quiescent current, < 20 mA at 12 V PVDD
Supports multiple output configurations:
- 1 × 53 W, 1.0 Mode (4-Ω, 22 V, THD+N=1%)
- 1 × 65 W, 1.0 Mode (4-Ω, 22 V, THD+N=10%)
- 2 × 30 W, 2.0 Mode (8-Ω, 24 V, THD+N=1%)
- 2 × 38 W, 2.0 Mode (8-Ω, 24 V, THD+N=10%)
Excellent audio performance:
- THD+N ≤ 0.03% at 1 W, 1 kHz, PVDD = 12 V
- SNR ≥ 110 dB (A-weighted), ICN ≤ 35 µVRMS
Flexible audio I/O:
- Supports 32, 44.1, 48, 88.2, 96 kHz SR
- Supports I²S, LJ, RJ, TDM format
- Supports 3-wire digital audio interface
Flexible processing features:
- 3-Band advanced DRC + AGL, 2 × 15 BQs
- PVDD sensing to avoid clipping distortion while voltage rail drops
- Up to 4 ms lookahead delay buffer for Hybrid-Pro algorithm audio signal tracking
- Optional 8 or 16 Hybrid-Pro DC-DC control steps with max 10 ms peak sample hold
Flexible power supply configurations:
- PVDD: 4.5 V to 26.4 V
- DVDD and I/O: 1.8 V or 3.3 V
Excellent integrated self-protection:
- Over-current error (OCE)
- Cycle-by-cycle current limit
- Over-temperature warning (OTW)
- Over-temperature error (OTE)
- Under, over-voltage lock-out (UVLO, OVLO)
Easy system integration:
- I²C Software Control
- Reduced solution size:
  - Small 5 × 5 mm package
  - Fewer passives required compared to open-loop Class-D devices
  - No bulky electrolytic capacitors or large inductors required for most applications

High-efficiency Class-D operation with Hybrid-Pro:
- Approximately 50% longer battery life compared to fixed supply voltage solutions
- > 90% Power efficiency, 90 mΩ R_DS(on)
- Low quiescent current, < 20 mA at 12 V PVDD
Supports multiple output configurations:
- 1 × 53 W, 1.0 Mode (4-Ω, 22 V, THD+N=1%)
- 1 × 65 W, 1.0 Mode (4-Ω, 22 V, THD+N=10%)
- 2 × 30 W, 2.0 Mode (8-Ω, 24 V, THD+N=1%)
- 2 × 38 W, 2.0 Mode (8-Ω, 24 V, THD+N=10%)
Excellent audio performance:
- THD+N ≤ 0.03% at 1 W, 1 kHz, PVDD = 12 V
- SNR ≥ 110 dB (A-weighted), ICN ≤ 35 µVRMS
Flexible audio I/O:
- Supports 32, 44.1, 48, 88.2, 96 kHz SR
- Supports I²S, LJ, RJ, TDM format
- Supports 3-wire digital audio interface
Flexible processing features:
- 3-Band advanced DRC + AGL, 2 × 15 BQs
- PVDD sensing to avoid clipping distortion while voltage rail drops
- Up to 4 ms lookahead delay buffer for Hybrid-Pro algorithm audio signal tracking
- Optional 8 or 16 Hybrid-Pro DC-DC control steps with max 10 ms peak sample hold
Flexible power supply configurations:
- PVDD: 4.5 V to 26.4 V
- DVDD and I/O: 1.8 V or 3.3 V
Excellent integrated self-protection:
- Over-current error (OCE)
- Cycle-by-cycle current limit
- Over-temperature warning (OTW)
- Over-temperature error (OTE)
- Under, over-voltage lock-out (UVLO, OVLO)
Easy system integration:
- I²C Software Control
- Reduced solution size:
  - Small 5 × 5 mm package
  - Fewer passives required compared to open-loop Class-D devices
  - No bulky electrolytic capacitors or large inductors required for most applications

TAS5825P is a stereo high-efficiency Closed-Loop audio Class-D audio amplifier with an advanced Hybrid-Pro algorithm to improve system efficiency and reduce heat without clipping distortion.

The supply voltage (PVDD) of an audio amplifier is normally provided by a DC-DC converter. Compared with a fixed PVDD, a variable PVDD that fluctuates based on the audio signal significantly improves efficiency, lowers idle current, and reduces heat.

The powerful audio DSP core of TAS5825P implements a proprietary algorithm called Hybrid-Pro. The Hybrid-Pro algorithm detects the upcoming audio power demand and provides a PWM control signal for the former DC-DC converter via the Hybrid-Pro feedback pin (HPFB). The TAS5825P supports up to 4 ms of delay buffer to look ahead at the audio signal and prevent audio clipping distortion. In various experiments, the TAS5825P increased the runtime of 1S and 2S batteries by greater than 50% while continuously playing music.

TAS5825P is a stereo high-efficiency Closed-Loop audio Class-D audio amplifier with an advanced Hybrid-Pro algorithm to improve system efficiency and reduce heat without clipping distortion.

The supply voltage (PVDD) of an audio amplifier is normally provided by a DC-DC converter. Compared with a fixed PVDD, a variable PVDD that fluctuates based on the audio signal significantly improves efficiency, lowers idle current, and reduces heat.

The powerful audio DSP core of TAS5825P implements a proprietary algorithm called Hybrid-Pro. The Hybrid-Pro algorithm detects the upcoming audio power demand and provides a PWM control signal for the former DC-DC converter via the Hybrid-Pro feedback pin (HPFB). The TAS5825P supports up to 4 ms of delay buffer to look ahead at the audio signal and prevent audio clipping distortion. In various experiments, the TAS5825P increased the runtime of 1S and 2S batteries by greater than 50% while continuously playing music.

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	Typ	Titel		Datum
*	Data sheet	TAS5825P 4.5 V to 26.4 V, 38 W Stereo, Digital Input, High Efficiency Closed-Loop Class-D Audio Amplifier with Hybrid-Pro Algorithm datasheet (Rev. A)	PDF \| HTML	09 Jan 2023
	Technical article	How smart amps are bringing high-fidelity audio into the smart home	PDF \| HTML	03 Mai 2021
	Technical article	How to extend battery life and reduce power consumption with Class-D audio amplifi	PDF \| HTML	10 Dez 2020
	Technical article	How audio amplifiers with integrated DSPs are increasing efficiency	PDF \| HTML	08 Dez 2020
	EVM User's guide	TAS5825PEVM Evaluation Module User's Guide		03 Sep 2019

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TAS5825P

Audioverstärker der Klasse D mit 4,5V-bis 26,4V-Klasse-H-Steuerung mit extrem niedrigem Leerlaufverb

TAS5825P

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