ZHCSFY2B August 2015 – February 2019 TAS2555
PRODUCTION DATA.
The TAS2555 device is a state-of-the-art Class-D audio amplifier which is a full system on a Chip (SoC). The device features a ultra low-noise audio DAC and Class-D power amplifier which incorporates speaker voltage and current sensing feedback. An on-chip, low-latency DSP supports Texas Instruments SmartAmp speaker protection algorithms to maximizes loudness while maintaining safe speaker conditions. A smart integrated multi-level Class-H boost converter maximizes system efficiency at all times by tracking the required output voltage. The TAS2555 drives up to 3.8 W from a 4.2-V supply into an 8-Ω speaker with 1% THD, or up to up 5.7 W into a 4-Ω speaker with 1% THD.
The TAS2555 device, with final processed digital output, can also be used to increase loudness and clarity in both Noise Canceling / Echo Cancelling speaker phone applications as well as for music or other sound applications. The TAS2555 device supports analog inputs for applications such as FM chips with analog output only, but with reduction in performance and speaker protection. The TAS2555 device accepts input audio data rates from 8 kHz to 96 kHz using ROM modes to fully support both speaker-phone and music applications. When speaker protection system is running the maximum sampling rate is limited to 48 kHz.
The multi-level Class-H boost converter generates the Class-D amplifier supply rail. When the audio signal requires a output power below VBAT, the boost improves system efficiency by deactivating and connecting VBAT directly to the Class-D amplifier supply. When higher audio output power is required, the boost quickly activates and provides a much louder and much clearer signal than can be achieved in any standard amplifier speaker system design approach. A boost inductor of 1uH can be used with a slight increase in boost ripple.
On-chip brown out detection system shutdown down audio at the user configurable threshold to avoid undesired system reset. In addition, an AGC can be selected to minimize clipping events when a lower power supply voltage is provided to the Class-D speaker driver. When this supply voltage drops below the proper level then under-voltage protection will be tripped. All protection statuses are available via register reads.
The Class-D output switching frequency is synchronous with the digital input audio sample rate to avoid left and right PWM frequency differences from beating in stereo applications. PWM Edge rate control and Spread Spectrum features are available if further EMI reduction is desired in the user’s system.
The interrupt request pin, IRQ, indicates a device error condition. The interrupt flag condition or conditions are selectable via I2C and include: thermal overload, Class-D over-current, VBAT level low, VBOOST level Low, and PLL out-of-lock conditions. The IRQ signal is active-high for an interrupt request and active-high during normal operation. This behavior can be changed by a register setting to tri-state the pin during normal operation to allow the IRQ pin to be tied in parallel with other active-low interrupt request pins on other devices in the system.
Stereo configuration can be achieved with two TAS2555 devices by using the ADR0_SCLK and ADR1_MISO pins to set different I2C addresses in I2C mode or the SCL_SSZ chip enable pin in SPI mode. Refer to the General I2C Operation or General SPI Operation sections for more details.