LTM9003 (4)
LTM9003 is available from Analog Devices at Xecor. Designed for high-speed analog-to-digital conversion, the LTM9003 offers 24-bit resolution, 1-channel input, and a sampling rate of 7.5 S/s, making it a powerful solution for precision signal processing. Available in the LGA-108 package, it is ideal for applications in telecommunications, industrial automation, and high-performance measurement systems. Whether used in data acquisition systems, medical imaging, or RF receivers, this series ensures exceptional accuracy, low power consumption, and scalability for demanding applications. Xecor is an authorized distributor for Analog Devices. Please view our extensive selection of the LTM9003 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| LTM9003IV-AB#PBF | Compact and versatile, this receiver is ideal for advanced RF projects | 108-Lead LGA | 4,499 | |
| LTM9003IV-AA#PBF | The LTM9003IV-AA#PBF is a high-performance receiver subsystem | 108-Lead LGA | 7,450 | |
| LTM9003CV-AB#PBF | Advanced LGA package design enables efficient thermal dissipation, reliable signal integrity, and enhanced electromagnetic immunit | LGA-108 | 2,433 | |
| LTM9003CV-AA#PBF | Robust ADC subsystem for seamless data acquisition | LGA-108 | 5,255 |
Key Featrues
High Resolution (24-bit): The 24-bit resolution of the ADC ensures precise and accurate conversion of analog signals to digital data, making it ideal for high-precision applications such as medical instrumentation, scientific research, and industrial automation. This high resolution minimizes quantization errors and enhances the overall fidelity of the signal processing.
Sigma-Delta Architecture: The Sigma-Delta architecture provides excellent noise performance and high dynamic range, which is particularly beneficial in applications requiring high signal-to-noise ratios (SNR). This architecture is well-suited for audio processing, vibration analysis, and other scenarios where low noise and high accuracy are critical.
Wide Analog Supply Voltage (2.7V to 5.5V): The ability to operate across a wide range of supply voltages (2.7V to 5.5V) offers flexibility in various power environments, making it adaptable for both low-power and high-performance applications. This feature is advantageous in portable devices, battery-powered systems, and mixed-voltage environments.
Single-Channel Input: The single-channel input simplifies the design and reduces the complexity of the signal chain, making it easier to integrate into systems where only one signal path is required. This is particularly useful in applications like single-sensor data acquisition, where simplicity and cost-effectiveness are prioritized.
Shutdown Feature: The inclusion of a shutdown feature allows for power-saving modes when the device is not in active use, reducing overall power consumption and extending battery life in portable applications. This feature is essential for energy-efficient designs, especially in IoT devices and other low-power systems.
Sigma-Delta Architecture: The Sigma-Delta architecture provides excellent noise performance and high dynamic range, which is particularly beneficial in applications requiring high signal-to-noise ratios (SNR). This architecture is well-suited for audio processing, vibration analysis, and other scenarios where low noise and high accuracy are critical.
Wide Analog Supply Voltage (2.7V to 5.5V): The ability to operate across a wide range of supply voltages (2.7V to 5.5V) offers flexibility in various power environments, making it adaptable for both low-power and high-performance applications. This feature is advantageous in portable devices, battery-powered systems, and mixed-voltage environments.
Single-Channel Input: The single-channel input simplifies the design and reduces the complexity of the signal chain, making it easier to integrate into systems where only one signal path is required. This is particularly useful in applications like single-sensor data acquisition, where simplicity and cost-effectiveness are prioritized.
Shutdown Feature: The inclusion of a shutdown feature allows for power-saving modes when the device is not in active use, reducing overall power consumption and extending battery life in portable applications. This feature is essential for energy-efficient designs, especially in IoT devices and other low-power systems.
Applications
High-Speed Data Acquisition Systems: The LTM9003 is well-suited for high-speed data acquisition systems, particularly in applications requiring precise analog-to-digital conversion. Its 24-bit resolution and 7.5 S/s sampling rate make it ideal for capturing and digitizing signals from sensors in medical imaging, radar systems, and communication equipment, ensuring high accuracy and reliability in demanding environments.
Industrial Process Monitoring: The LTM9003 can be used in industrial process monitoring systems to digitize signals from various sensors, such as pressure transducers, flow meters, and temperature sensors. Its single-ended input and sigma-delta architecture provide high precision and low noise, making it suitable for real-time monitoring and control in manufacturing and automation applications.
Precision Instrumentation: With its 24-bit resolution and low gain error (4 ppm), the LTM9003 is ideal for precision instrumentation applications, such as laboratory equipment and test and measurement devices. It can accurately digitize signals from high-impedance sensors, ensuring reliable data acquisition in scientific research and quality control processes.
Wireless Communication Systems: The LTM9003 can be integrated into wireless communication systems to digitize RF signals with high precision. Its ability to handle single-ended inputs and its external reference type make it suitable for use in base stations, satellite communication systems, and other RF applications where accurate signal processing is critical for maintaining communication integrity.
Industrial Process Monitoring: The LTM9003 can be used in industrial process monitoring systems to digitize signals from various sensors, such as pressure transducers, flow meters, and temperature sensors. Its single-ended input and sigma-delta architecture provide high precision and low noise, making it suitable for real-time monitoring and control in manufacturing and automation applications.
Precision Instrumentation: With its 24-bit resolution and low gain error (4 ppm), the LTM9003 is ideal for precision instrumentation applications, such as laboratory equipment and test and measurement devices. It can accurately digitize signals from high-impedance sensors, ensuring reliable data acquisition in scientific research and quality control processes.
Wireless Communication Systems: The LTM9003 can be integrated into wireless communication systems to digitize RF signals with high precision. Its ability to handle single-ended inputs and its external reference type make it suitable for use in base stations, satellite communication systems, and other RF applications where accurate signal processing is critical for maintaining communication integrity.
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