The Texas Instruments ADS5287IRGCT is a high-performance, octal-channel analog-to-digital converter (ADC) designed to meet the rigorous demands of advanced digital imaging, wireless base stations, and data acquisition systems. This ADC features a 12-bit resolution and a maximum sample rate of 65 MSPS per channel, delivering the precision and speed required for high-fidelity signal processing applications.

Key Features

• High-Speed Operation: With a sample rate of up to 65 MSPS, the ADS5287IRGCT enables the capture of high-frequency signals, making it ideal for IF sampling in wireless communication systems and for high-speed imaging applications.
• Octal-Channel Input: The device integrates eight ADC channels in a single package, providing a compact solution for systems requiring multiple ADCs, thereby reducing board space and simplifying design complexity.
• Low Power Consumption: Designed with power efficiency in mind, the ADS5287IRGCT operates with a low power consumption of 92 mW per channel at the full 65 MSPS, making it suitable for portable and battery-powered applications.
• Flexible Input Range: The input range is adjustable, allowing for a variety of input signals, and supports both single-ended and differential inputs, providing versatility in interfacing with different signal sources.
• Integrated Features: The device includes features such as an internal voltage reference, a programmable gain amplifier, and digital error correction, which enhance performance and reduce the need for external components.

Applications

The ADS5287IRGCT is well-suited for a range of applications, including:

• Medical imaging systems
• Test and measurement equipment
• Wireless base stations
• High-speed data acquisition
• Communications equipment

Package and Quality

This ADC is available in a compact 64-VQFN (RGCT) package, making it suitable for space-constrained applications. Manufactured by Texas Instruments, a leader in semiconductor solutions, the ADS5287IRGCT is built to high-quality standards, ensuring reliability and performance for critical applications.