XDMA6415 OPERACIÓN

Operación de USB – Archivos MP3/WMA

Información MP3/WMA Adicional

Tasa de Frecuencia de Muestreo MP3

WMA

Rango de Transferencia de Bits MP3

WMA

Mostrar Etiqueta MP3

Solamente se pasarán archivos MP3 con extensión de nombre de archivo (.mp3). Solamente se pasarán archivos WMA con extensión en el nombre (.wma). No intente pasar discos que contengan archivos que no sean MP3/WMA con extensiones MP3/WMA.

8kHz ~ 48kHz

32kHz ~ 48kHz

32kbps ~ 320kbps constantes Rangos de bit variables

48kbps ~ 192kbps constantes Rangos de bit variables

Nota: Algunos archivos pueden ejecutarse o mostrarse en forma incorrecta dependiendo de la frecuencia de muestreo y rango de bits.

Etiquetas ID3 Versión 1.x

Este modelo no mostrará ID3 Versión 2.0 ó etiquetas más grandes.

Nota: Si se detecta una versión de etiqueta ID3 inválida, "NO SUPPORT" aparecerá en la pantalla.

19

Page 19
Image 19
Dual XDMA6415 manual Tasa de Frecuencia de Muestreo MP3, Mostrar Etiqueta MP3

XDMA6415 specifications

The Dual XDMA6415 is a cutting-edge dual-channel digital signal processor designed for a wide range of applications, including telecommunications, industrial control systems, and consumer electronics. This advanced DSP architecture allows for high-performance data processing with exceptional efficiency and versatility.

One of the standout features of the Dual XDMA6415 is its high-speed processing capability. It is equipped with multiple processing cores that operate in parallel, enabling it to handle complex algorithms and large data sets with ease. This parallel processing architecture significantly enhances real-time processing capabilities, making the Dual XDMA6415 an ideal choice for applications that require rapid data handling and decision-making.

The Dual XDMA6415 also incorporates advanced digital communication technologies. It supports various protocols, including Ethernet, DSP, and serial communication, ensuring seamless integration into existing systems. The device is designed with enhanced flexibility, allowing users to configure the communication interfaces based on their specific needs. This adaptability is critical for developers looking to create custom solutions that meet unique application requirements.

In terms of power efficiency, the Dual XDMA6415 shines with low power consumption, making it suitable for battery-operated devices and energy-conscious applications. Its advanced power management features enable dynamic power scaling, ensuring optimal performance while minimizing energy usage. This characteristic is particularly beneficial for mobile and portable devices where battery life is a key consideration.

The device also boasts robust data integrity and error correction mechanisms. These features ensure reliable communication and processing, which are essential for mission-critical applications. With built-in redundancy and fault tolerance, the Dual XDMA6415 enhances system reliability and operational stability.

Another significant aspect of the Dual XDMA6415 is its scalability. The architecture supports both small-scale and large-scale implementations, allowing developers to tailor solutions based on specific project demands. This scalability, combined with the device's rich feature set, makes it a future-proof choice for a growing range of applications.

In summary, the Dual XDMA6415 represents an innovative leap in digital signal processing technology. With its high-speed processing capabilities, advanced communication support, energy-efficient design, and robust reliability features, it is poised to meet the challenges of modern digital systems across various industries, ensuring high performance and adaptability for developers and engineers alike.