AD9648 (4)
AD9648 is available from Analog Devices at Xecor. Designed for high-speed, high-resolution analog-to-digital conversion, the AD9648 offers dual-channel 14-bit resolution, 105 MSPS sampling rate, and low power consumption. Available in a 64-pin LFCSP package, it is ideal for telecommunications, medical imaging, and industrial instrumentation applications. Whether used in wireless infrastructure, radar systems, or test and measurement equipment, this series ensures superior performance, accuracy, and flexibility for demanding applications. Xecor is an authorized distributor for Analog Devices. Please view our extensive selection of the AD9648 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| AD9648BCPZ-105 | 2-Channel Dual ADC Pipelined 105Msps 14-bit Parallel/LVDS 64-Pin LFCSP EP Tray | LFCSP-64 | 6,953 | |
| AD9648BCPZ-125 | 2-Channel Dual ADC Pipelined 125Msps 14-bit Parallel 64-Pin LFCSP EP Tray | LFCSP-64 | 6,945 | |
| AD9648TCPZ-125-EP | 2-Channel Dual ADC Pipelined 125Msps 14-bit Parallel/LVDS 64-Pin LFCSP EP Tray | LFCSP-64 | 6,791 | |
| AD9648BCPZRL7-105 | Low-power operation ensures reduced heat dissipation and increased reliabili | LFCSP-64 | 9,277 |
Key Featrues
Dual-Channel Architecture - The AD9648BCPZ-105 features two independent 14-bit ADC channels, enabling simultaneous sampling of two differential input signals. This dual-channel design enhances system efficiency by reducing the need for additional components, making it ideal for applications requiring synchronized data acquisition, such as multi-antenna communication systems or medical imaging.
High Sampling Rate (105 MSPS) - With a sampling rate of 105 million samples per second, the ADC ensures high-speed data conversion, which is critical for applications like radar systems, software-defined radios, and high-frequency signal processing. This feature allows for accurate capture of fast-changing signals, improving overall system performance.
Pipelined Conversion Architecture - The pipelined architecture of the AD9648BCPZ-105 enables high-speed data conversion with low latency. This design ensures minimal delay in signal processing, making it suitable for real-time applications such as wireless communication and video processing, where timing is critical.
Flexible Digital Interface (Parallel/LVDS) - The ADC supports both parallel and LVDS (Low-Voltage Differential Signaling) digital interfaces, providing flexibility in system integration. LVDS offers noise immunity and reduced electromagnetic interference (EMI), which is beneficial in high-speed data transmission environments, while the parallel interface simplifies connectivity in less complex systems.
Low Power Consumption (220.5 mW) - Operating at a maximum power dissipation of 220.5 mW, the AD9648BCPZ-105 is optimized for energy-efficient designs. This low power consumption makes it suitable for portable and battery-powered devices, such as handheld test equipment or IoT sensors, where minimizing energy usage is critical for extended operation.
High Sampling Rate (105 MSPS) - With a sampling rate of 105 million samples per second, the ADC ensures high-speed data conversion, which is critical for applications like radar systems, software-defined radios, and high-frequency signal processing. This feature allows for accurate capture of fast-changing signals, improving overall system performance.
Pipelined Conversion Architecture - The pipelined architecture of the AD9648BCPZ-105 enables high-speed data conversion with low latency. This design ensures minimal delay in signal processing, making it suitable for real-time applications such as wireless communication and video processing, where timing is critical.
Flexible Digital Interface (Parallel/LVDS) - The ADC supports both parallel and LVDS (Low-Voltage Differential Signaling) digital interfaces, providing flexibility in system integration. LVDS offers noise immunity and reduced electromagnetic interference (EMI), which is beneficial in high-speed data transmission environments, while the parallel interface simplifies connectivity in less complex systems.
Low Power Consumption (220.5 mW) - Operating at a maximum power dissipation of 220.5 mW, the AD9648BCPZ-105 is optimized for energy-efficient designs. This low power consumption makes it suitable for portable and battery-powered devices, such as handheld test equipment or IoT sensors, where minimizing energy usage is critical for extended operation.
Applications
High-Speed Data Acquisition Systems: The AD9648BCPZ-105 is well-suited for high-speed data acquisition systems, particularly in applications requiring simultaneous sampling of multiple channels. Its dual-channel, 14-bit resolution and 105 MSPS sampling rate make it ideal for capturing fast transient signals in oscilloscopes, radar systems, and medical imaging equipment, ensuring high accuracy and minimal signal distortion.
Wireless Communication Infrastructure: This ADC is perfect for wireless communication systems, such as 5G base stations and software-defined radios (SDRs). Its differential input and LVDS interface enable robust signal processing in noisy environments, while its high sampling rate supports wideband signal digitization, ensuring reliable data transmission and reception in modern telecommunication networks.
Industrial Automation and Control: The AD9648BCPZ-105 excels in industrial automation applications, such as motor control and power monitoring. Its ability to handle differential input signals and its high-resolution output make it suitable for precise measurement of voltage and current in variable frequency drives (VFDs) and power inverters, ensuring efficient and accurate control of industrial machinery.
Medical Imaging and Diagnostic Equipment: This ADC is ideal for medical imaging systems, such as ultrasound and MRI machines. Its high-speed sampling and dual-channel capability allow for the accurate digitization of analog signals from sensors and transducers, enabling detailed imaging and diagnostics. The device's low noise and high signal-to-noise ratio (SNR) ensure clear and reliable data for critical medical applications.
Wireless Communication Infrastructure: This ADC is perfect for wireless communication systems, such as 5G base stations and software-defined radios (SDRs). Its differential input and LVDS interface enable robust signal processing in noisy environments, while its high sampling rate supports wideband signal digitization, ensuring reliable data transmission and reception in modern telecommunication networks.
Industrial Automation and Control: The AD9648BCPZ-105 excels in industrial automation applications, such as motor control and power monitoring. Its ability to handle differential input signals and its high-resolution output make it suitable for precise measurement of voltage and current in variable frequency drives (VFDs) and power inverters, ensuring efficient and accurate control of industrial machinery.
Medical Imaging and Diagnostic Equipment: This ADC is ideal for medical imaging systems, such as ultrasound and MRI machines. Its high-speed sampling and dual-channel capability allow for the accurate digitization of analog signals from sensors and transducers, enabling detailed imaging and diagnostics. The device's low noise and high signal-to-noise ratio (SNR) ensure clear and reliable data for critical medical applications.
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