Packaging information
Package | Pins HTSSOP (DCP) | 38 |
Operating temperature range (°C) -25 to 85 |
Package qty | Carrier 2,000 | LARGE T&R |
Features for the TAS5806M
- Supports multiple output configurations
- 2 × 23 W in 2.0 mode (8-Ω, 21 V, THD+N=1%)
- 45 W in mono mode (4-Ω, 21 V, THD+N=1%)
- Excellent audio performance
- THD+N ≤ 0.03% at 1 W, 1 kHz, PVDD = 12 V
- SNR ≥ 107 dB (A-weighted), noise level < 40 µVRMS
- Low quiescent current with hybrid
modulation
- 16.5 mA at PVDD = 13.5 V , 22 µH + 0.68 µF filter
- Flexible power supply configurations
- PVDD: 4.5 V to 26.4 V
- DVDD and I/O: 1.8 V or 3.3 V
- Flexible audio I/O
- I2S, LJ, RJ, TDM, 3-wire digital audio interface (no MCLK required)
- Supports 32, 44.1, 48, 88.2, 96 kHz sample rates
- SDOUT for audio monitoring, sub-channel or echo cancellation
- Enhanced audio
processing
- Multi-band advanced DRC and AGL
- 2×15 BQs, thermal foldback, DC blocking
- Input mixer, output crossbar, level meter
- 5 BQs + 1 band DRC +THD manager for the subwoofer channel
- Integrated
self-protection
- Adjacent pin-to-pin short without device damage
- Over-current error (OCE)
- Over-temperature warning (OTW)
- Over-temperature error (OTE)
- Under or Over-Voltage Lock-out (UVLO/OVLO)
- Easy system integration
- I2C software control
- Reduced solution size
- Fewer passives required compared to open-loop devices
- Inductor-less operation (ferrite bead) for most cases where PVDD ≤ 14V
- Pin-to-pin compatible with TAS5806MD
Description for the TAS5806M
The TAS5806M is a high-efficiency, stereo, closed-loop Class-D amplifier offering a cost-effective digital input solution with low power dissipation and sound enrichment. The device’s integrated audio processor and 96 kHz architecture support advanced audio process flow, including SRC, 15 BQs per channel, volume control, audio mixing, 3-band 4th order DRC, full-band AGL, THD manager and level meter.
Featuring the TI proprietary Hybrid Modulation scheme, the TAS5806M consumes low quiescent current (16.5 mA at 13.5 V PVDD), extending battery life in portable audio applications. With advanced EMI suppression technology, for applications under 10 W designers can leverage inexpensive ferrite bead filters to reduce board space and system cost.