Introducing the UDA1334BT/N2 Audio DAC from NXP
Experience high-quality audio with the UDA1334BT/N2, a standout low-power stereo audio digital-to-analog converter (DAC) from NXP Semiconductors. This compact, efficient device is designed to deliver exceptional sound quality while maintaining power efficiency, making it an ideal choice for a wide range of audio applications.
Key Features
- High-Quality Sound: With the UDA1334BT/N2, you can enjoy crystal-clear audio. The DAC supports a range of sampling frequencies from 8 kHz to 96 kHz and a 24-bit resolution, ensuring detailed and accurate sound reproduction.
- Low Power Consumption: This DAC is engineered for efficiency. It operates on a low voltage supply, making it perfect for battery-powered devices where power consumption is a critical concern.
- Flexible I2S Interface: The device features an I2S-bus interface, allowing for straightforward digital audio input and providing compatibility with a variety of microcontrollers and processors.
- Integrated Interpolation Filter: The UDA1334BT/N2 includes an on-chip interpolation filter which enhances audio performance by reducing digital noise at higher frequencies.
Applications
The UDA1334BT/N2 is versatile and can be used across a diverse set of audio applications. It’s particularly well-suited for portable audio devices, such as MP3 players, smartphones, and tablets, as well as home audio systems, soundbars, and smart speakers. Its low power consumption also makes it an excellent choice for wearable audio devices and other IoT products where power efficiency is paramount.
Technical Specifications
- Supply Voltage: 2.7 V to 3.6 V
- Dynamic Range: 100 dB
- THD+N: -86 dB
- Power-down and mute features
With its combination of high-quality audio output, low power requirements, and a user-friendly interface, the UDA1334BT/N2 from NXP is an excellent DAC option for developers and manufacturers looking to enhance their audio products. Its robust design and advanced features ensure a premium listening experience for end-users across various applications.