LTC2248CUH#PBF - High-Speed ADC from Linear Technology

The LTC2248CUH#PBF is a state-of-the-art high-speed analog-to-digital converter (ADC) designed by Linear Technology, now part of Analog Devices. This high-performance ADC is a prime choice for a wide range of applications that require precise digital representation of analog signals, including medical imaging, communication systems, and instrumentation.

Key Features

• Resolution: The LTC2248CUH#PBF boasts a 14-bit resolution, ensuring high-fidelity conversion of analog input signals to digital output data.
• Sampling Rate: With a sampling rate of up to 105Msps (Mega samples per second), this ADC is capable of handling high-speed signal processing tasks with ease.
• Input Range: The device operates with a 2Vpp differential input range, which is compatible with a variety of signal sources.
• Low Power Consumption: It is designed for power efficiency, consuming only 135mW at the full 105Msps rate, making it ideal for power-sensitive applications.
• Output Format: Digital output is provided in LVDS (Low-Voltage Differential Signaling) format, which minimizes noise and allows for high-speed data transmission.
• No Missing Codes: The LTC2248CUH#PBF is guaranteed to have no missing codes over the full operating temperature range, ensuring reliable performance in all conditions.
• Package: The product is available in a 32-lead QFN package (5mm x 5mm), which is suitable for compact circuit designs.

Applications

The versatility of the LTC2248CUH#PBF allows it to be integrated into a variety of high-speed data acquisition systems. Its high sampling rate and resolution make it an excellent choice for:

• Communications Infrastructure
• Medical Imaging Equipment
• Test and Measurement Instruments
• Data Acquisition Systems
• Radar and Satellite Systems

Quality and Reliability

Linear Technology is renowned for its commitment to quality, and the LTC2248CUH#PBF is no exception. It is designed to meet rigorous industry standards, ensuring long-term reliability and performance in critical applications.