AD9288 (4)
AD9288 is available from Analog Devices at Xecor. Designed for high-speed analog-to-digital conversion, the AD9288 offers 8-bit resolution, dual-channel operation, and a sampling rate of up to 80 MSPS, ensuring high performance and low power consumption. Available in a 48-pin LQFP package, it is ideal for applications in telecommunications, medical imaging, and industrial automation. Whether used in data acquisition systems, communication receivers, or test and measurement equipment, this series ensures precision, scalability, and efficiency for demanding applications. Xecor is an authorized distributor for Analog Devices. Please view our extensive selection of the AD9288 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| AD9288BSTZ-100 | Analog to Digital Converter | LQFP-48 | 6,240 | |
| AD9288BSTZ-80 | Analog-to-Digital Converter for precise digital conversion | LQFP-48 | 9,573 | |
| AD9288BSTZ-40 | 2-Channel Dual ADC Pipelined 40Msps 8-bit Parallel 48-Pin LQFP Tray | 48-LQFP | 8,035 | |
| AD9288BSTZRL-40 | 2-Channel Dual ADC Pipelined 40Msps 8-bit Parallel 48-Pin LQFP T/R | LQFP-48 | 6,888 |
Key Featrues
High Sampling Rate (80 MSPS): The AD9288BSTZ-80 offers a high sampling rate of 80 million samples per second (MSPS), enabling it to capture fast-changing analog signals with precision. This feature is critical for applications requiring real-time data acquisition, such as high-speed communication systems, medical imaging, and radar systems, ensuring accurate and efficient signal processing.
Dual-Channel Architecture: With two independent 8-bit ADCs, the device supports simultaneous sampling of two input channels. This dual-channel capability enhances performance in multi-channel systems, such as multi-antenna wireless receivers or stereo audio processing, by reducing latency and improving synchronization between channels.
Low Power Consumption (171 mW): The ADC operates with a power consumption of just 171 mW, making it suitable for power-sensitive applications. This efficiency is particularly beneficial in portable or battery-powered devices, such as handheld test equipment or IoT sensors, where extended battery life is essential.
Flexible Input Configuration: The device supports both differential and single-ended input types, providing versatility in interfacing with various signal sources. This flexibility allows designers to optimize signal integrity and noise immunity in diverse applications, from industrial sensors to consumer electronics.
Compact 48-Pin LQFP Package: The AD9288BSTZ-80 is housed in a compact 48-pin LQFP package, making it suitable for space-constrained designs. Its small footprint and surface-mount compatibility enable integration into densely populated PCBs, such as those in compact communication modules or embedded systems, without compromising performance.
Dual-Channel Architecture: With two independent 8-bit ADCs, the device supports simultaneous sampling of two input channels. This dual-channel capability enhances performance in multi-channel systems, such as multi-antenna wireless receivers or stereo audio processing, by reducing latency and improving synchronization between channels.
Low Power Consumption (171 mW): The ADC operates with a power consumption of just 171 mW, making it suitable for power-sensitive applications. This efficiency is particularly beneficial in portable or battery-powered devices, such as handheld test equipment or IoT sensors, where extended battery life is essential.
Flexible Input Configuration: The device supports both differential and single-ended input types, providing versatility in interfacing with various signal sources. This flexibility allows designers to optimize signal integrity and noise immunity in diverse applications, from industrial sensors to consumer electronics.
Compact 48-Pin LQFP Package: The AD9288BSTZ-80 is housed in a compact 48-pin LQFP package, making it suitable for space-constrained designs. Its small footprint and surface-mount compatibility enable integration into densely populated PCBs, such as those in compact communication modules or embedded systems, without compromising performance.
Applications
High-Speed Data Acquisition Systems: The AD9288BSTZ-80 is well-suited for high-speed data acquisition systems, particularly in applications requiring simultaneous sampling of multiple channels. Its dual-channel, 8-bit resolution and 80 MSPS sampling rate make it ideal for capturing fast transient signals in oscilloscopes, radar systems, and communication equipment.
Medical Imaging Equipment: This ADC is perfect for medical imaging applications such as ultrasound systems, where high-speed and accurate signal conversion is critical. Its differential input capability and pipelined architecture ensure precise digitization of analog signals from transducers, enabling high-resolution imaging for diagnostic purposes.
Wireless Communication Systems: The AD9288BSTZ-80 can be used in wireless communication systems, such as software-defined radios (SDRs) and base stations, to digitize RF signals. Its 80 MSPS sampling rate and parallel interface allow for efficient processing of high-frequency signals, ensuring reliable data transmission and reception in modern communication networks.
Industrial Automation and Control: In industrial environments, the AD9288BSTZ-80 can be employed for real-time monitoring and control of machinery. Its ability to handle differential and single-ended inputs makes it suitable for digitizing signals from sensors like encoders, pressure sensors, and temperature probes, enabling precise control and automation in manufacturing processes.
Medical Imaging Equipment: This ADC is perfect for medical imaging applications such as ultrasound systems, where high-speed and accurate signal conversion is critical. Its differential input capability and pipelined architecture ensure precise digitization of analog signals from transducers, enabling high-resolution imaging for diagnostic purposes.
Wireless Communication Systems: The AD9288BSTZ-80 can be used in wireless communication systems, such as software-defined radios (SDRs) and base stations, to digitize RF signals. Its 80 MSPS sampling rate and parallel interface allow for efficient processing of high-frequency signals, ensuring reliable data transmission and reception in modern communication networks.
Industrial Automation and Control: In industrial environments, the AD9288BSTZ-80 can be employed for real-time monitoring and control of machinery. Its ability to handle differential and single-ended inputs makes it suitable for digitizing signals from sensors like encoders, pressure sensors, and temperature probes, enabling precise control and automation in manufacturing processes.
Popular AD9288 Products comparison