AD9248 (9)
The AD9248 series is available from Analog Devices at Xecor. Designed for high-speed, high-resolution analog-to-digital conversion, the AD9248 offers 14-bit resolution, dual-channel operation, and a pipelined architecture with a sampling rate of up to 20Msps. Available in a 64-pin LQFP package, it is ideal for applications in telecommunications, medical imaging, and industrial instrumentation. Whether used in signal processing systems, data acquisition, or precision measurement equipment, this series ensures high performance, low power consumption, and flexibility for demanding applications. Xecor is an authorized distributor for Analog Devices. Please view our extensive selection of the AD9248 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| AD9248BSTZ-65 | 248BSTZ-65 ADC features a high-speed sampling rate of 65MHz | LQFP-64 | 6,002 | |
| AD9248BSTZ-40 | 2-Channel Dual ADC Pipelined 40Msps 14-bit Parallel 64-Pin LQFP Tray | LQFP-64 | 9,704 | |
| AD9248BCPZ-20 | High precision analog-to-digital converter with dual differential inputs and 14-bit resolution in a 64-Pin Lead Frame Chip Scale Package | LFCSP-64 | 7,852 | |
| AD9248BSTZ-20 | 2-Channel Dual ADC Pipelined 20Msps 14-bit Parallel 64-Pin LQFP Tray | LQFP-64 | 7,620 | |
| AD9248BCPZ-40 | 2-Channel Dual ADC Pipelined 40Msps 14-bit Parallel 64-Pin LFCSP EP Tray | LFCSP-64 | 6,519 | |
| AD9248BCPZ-65 | High-speed analog-to-digital conversion for demanding applications | LFCSP-64 | 5,073 | |
| AD9248BCPZRL-40 | 2-Channel Dual ADC Pipelined 40Msps 14-bit Parallel 64-Pin LFCSP EP T/R | LFCSP-64 | 7,773 | |
| AD9248BCPZRL-65 | With its impressive sampling rate of 65Msps and 14-bit parallel architecture | LFCSP-64 | 8,008 | |
| AD9248BSTZRL-20 | Analog to Digital Converters - ADC Dual 14-Bit, 20/40/65 MSPS, 3 V Analog-to-Digital Converter | LQFP-64 | 9,769 |
Key Featrues
High-Speed Sampling Rate (20 MSPS): The AD9248BSTZ-20 offers a sampling rate of 20 million samples per second (MSPS), making it suitable for high-speed data acquisition applications such as medical imaging, radar systems, and communications. This high sampling rate ensures accurate and real-time data conversion, enhancing system performance in time-sensitive environments.
Dual-Channel Architecture: With two independent ADC channels, the device supports simultaneous sampling of multiple input signals. This feature is particularly beneficial in applications like multi-channel data acquisition systems, where synchronized sampling of multiple sensors or signals is critical for maintaining data integrity and reducing latency.
14-Bit Resolution: The 14-bit resolution provides high precision in converting analog signals to digital data, resulting in a wide dynamic range and low quantization noise. This makes the ADC ideal for applications requiring detailed signal analysis, such as audio processing, instrumentation, and industrial control systems.
Flexible Input Configuration: The ADC supports both differential and single-ended input types, offering versatility in interfacing with various signal sources. This flexibility allows the device to be used in a wide range of applications, from high-noise environments (where differential inputs are preferred) to simpler setups (where single-ended inputs suffice).
Low Power Consumption (400 mW): With a power dissipation of 400 mW, the AD9248BSTZ-20 is designed for energy-efficient operation. This low power consumption is advantageous in portable and battery-powered devices, extending battery life and reducing thermal management requirements in compact designs.
Dual-Channel Architecture: With two independent ADC channels, the device supports simultaneous sampling of multiple input signals. This feature is particularly beneficial in applications like multi-channel data acquisition systems, where synchronized sampling of multiple sensors or signals is critical for maintaining data integrity and reducing latency.
14-Bit Resolution: The 14-bit resolution provides high precision in converting analog signals to digital data, resulting in a wide dynamic range and low quantization noise. This makes the ADC ideal for applications requiring detailed signal analysis, such as audio processing, instrumentation, and industrial control systems.
Flexible Input Configuration: The ADC supports both differential and single-ended input types, offering versatility in interfacing with various signal sources. This flexibility allows the device to be used in a wide range of applications, from high-noise environments (where differential inputs are preferred) to simpler setups (where single-ended inputs suffice).
Low Power Consumption (400 mW): With a power dissipation of 400 mW, the AD9248BSTZ-20 is designed for energy-efficient operation. This low power consumption is advantageous in portable and battery-powered devices, extending battery life and reducing thermal management requirements in compact designs.
Applications
High-Speed Data Acquisition Systems: The AD9248BSTZ-20 is well-suited for high-speed data acquisition systems, such as those used in medical imaging, radar, and communication systems. Its dual-channel, 14-bit resolution and 20 MSPS sampling rate enable precise digitization of high-frequency signals, ensuring accurate data capture and analysis in real-time applications.
Industrial Automation and Control: This ADC is ideal for industrial automation systems where simultaneous sampling of multiple sensors is required. Its differential and single-ended input capabilities, combined with its pipelined architecture, make it suitable for monitoring and controlling processes in manufacturing, robotics, and energy management systems.
Test and Measurement Equipment: The AD9248BSTZ-20 can be used in advanced test and measurement equipment, such as oscilloscopes and spectrum analyzers. Its high resolution and fast sampling rate allow for detailed signal analysis, while its parallel interface ensures efficient data transfer, making it a reliable choice for laboratory and field testing environments.
Wireless Communication Systems: In wireless communication systems, the AD9248BSTZ-20 can be employed for digitizing RF and baseband signals. Its ability to handle differential inputs and its high signal-to-noise ratio (SNR) make it suitable for applications like software-defined radios (SDRs) and 5G infrastructure, where accurate signal processing is critical for maintaining communication quality.
Industrial Automation and Control: This ADC is ideal for industrial automation systems where simultaneous sampling of multiple sensors is required. Its differential and single-ended input capabilities, combined with its pipelined architecture, make it suitable for monitoring and controlling processes in manufacturing, robotics, and energy management systems.
Test and Measurement Equipment: The AD9248BSTZ-20 can be used in advanced test and measurement equipment, such as oscilloscopes and spectrum analyzers. Its high resolution and fast sampling rate allow for detailed signal analysis, while its parallel interface ensures efficient data transfer, making it a reliable choice for laboratory and field testing environments.
Wireless Communication Systems: In wireless communication systems, the AD9248BSTZ-20 can be employed for digitizing RF and baseband signals. Its ability to handle differential inputs and its high signal-to-noise ratio (SNR) make it suitable for applications like software-defined radios (SDRs) and 5G infrastructure, where accurate signal processing is critical for maintaining communication quality.
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