LTC2320-16 (6)
LTC2320-16 is available from Analog Devices at Xecor. Designed for high-speed data acquisition systems and multiphase motor control, the LTC2320-16 offers 1.5Msps/Ch throughput rate, eight simultaneously sampling channels, and guaranteed 16-bit no missing codes. Available in a 52-pin QFN package, it is ideal for applications in communications, optical networking, and industrial systems. Whether used in high-speed data acquisition or precision motor control, this series ensures excellent performance, low power consumption, and high reliability for demanding applications. Xecor is an authorized distributor for Analog Devices. Please view our extensive selection of the LTC2320-16 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| LTC2320HUKG-16#TRPBF | Accurate analog-to-digital conversion with high speed and low power consumption, ideal for medical devices and automotive system | QFN-52 | 9,883 | |
| LTC2320CUKG-16#PBF | QFN-52-EP package | QFN-52 | 6,467 | |
| LTC2320CUKG-16#TRPBF | Efficiently convert analog signals to digital format at high speed | QFN-52 | 7,288 | |
| LTC2320HUKG-16#PBF | 8-Channel Quad ADC SAR 1.5Msps 16-bit Serial (SPI)/LVDS 52-Pin QFN EP Tube | QFN-52 | 9,696 | |
| LTC2320IUKG-16#TRPBF | 8-Channel Quad ADC SAR 1.5Msps 16-bit Serial (SPI)/LVDS 52-Pin QFN EP T/R | QFN-52 | 9,311 | |
| LTC2320IUKG-16#PBF | 320IUKG-16#PBF 16-bit SAR ADC in a 52-pin QFN package | QFN-52 | 7,252 |
Key Featrues
High-Speed Data Acquisition: The LTC2320-16 offers a throughput rate of 1.5Msps per channel, enabling rapid and precise data acquisition. This feature is critical for applications requiring high-speed sampling, such as communications and optical networking, ensuring accurate signal capture and minimal latency.
Simultaneous Sampling: With eight simultaneously sampling channels, the ADC can process multiple input signals in parallel. This capability is ideal for multiphase motor control and other applications where synchronized data from multiple sources is essential for real-time decision-making.
Wide Dynamic Range: The 8VP-P differential input range and wide input common mode range enhance the ADC's ability to handle signals with varying amplitudes and common-mode voltages. This ensures robust performance in environments with high noise or signal variability.
Low Power Consumption: Operating at just 20mW per channel, the LTC2320-16 is highly efficient, making it suitable for power-sensitive applications. Its low power dissipation reduces thermal stress and extends the lifespan of the device in continuous operation scenarios.
Compact and Robust Design: The small 52-pin QFN package (7mm × 8mm) allows for high-density integration in space-constrained systems. Its compact form factor, combined with guaranteed operation up to 125°C, ensures reliable performance in demanding industrial and automotive environments.
Simultaneous Sampling: With eight simultaneously sampling channels, the ADC can process multiple input signals in parallel. This capability is ideal for multiphase motor control and other applications where synchronized data from multiple sources is essential for real-time decision-making.
Wide Dynamic Range: The 8VP-P differential input range and wide input common mode range enhance the ADC's ability to handle signals with varying amplitudes and common-mode voltages. This ensures robust performance in environments with high noise or signal variability.
Low Power Consumption: Operating at just 20mW per channel, the LTC2320-16 is highly efficient, making it suitable for power-sensitive applications. Its low power dissipation reduces thermal stress and extends the lifespan of the device in continuous operation scenarios.
Compact and Robust Design: The small 52-pin QFN package (7mm × 8mm) allows for high-density integration in space-constrained systems. Its compact form factor, combined with guaranteed operation up to 125°C, ensures reliable performance in demanding industrial and automotive environments.
Applications
High-Speed Data Acquisition Systems: The LTC2320-16 is perfect for high-speed data acquisition systems requiring simultaneous sampling of multiple channels. Its 1.5Msps/channel throughput rate and 16-bit resolution ensure precise and rapid data capture, making it ideal for applications in test and measurement equipment, medical imaging, and radar systems.
Multiphase Motor Control: The LTC2320-16 excels in multiphase motor control applications, where simultaneous sampling of multiple current and voltage signals is critical. Its differential inputs and wide common mode range allow for accurate monitoring and control of motor phases, ensuring efficient and reliable operation in industrial automation and robotics.
Optical Networking: The LTC2320-16 is well-suited for optical networking systems, where high-speed and high-resolution analog-to-digital conversion is essential. Its ability to handle differential signals with low noise and distortion makes it ideal for digitizing signals from optical receivers, enabling high-performance data transmission in telecommunications and data centers.
Communications Systems: The LTC2320-16 is an excellent choice for communications systems requiring high-speed and high-resolution signal processing. Its simultaneous sampling capability and low power dissipation make it ideal for applications such as software-defined radios, base stations, and satellite communications, where accurate signal digitization is crucial for maintaining signal integrity.
Multiphase Motor Control: The LTC2320-16 excels in multiphase motor control applications, where simultaneous sampling of multiple current and voltage signals is critical. Its differential inputs and wide common mode range allow for accurate monitoring and control of motor phases, ensuring efficient and reliable operation in industrial automation and robotics.
Optical Networking: The LTC2320-16 is well-suited for optical networking systems, where high-speed and high-resolution analog-to-digital conversion is essential. Its ability to handle differential signals with low noise and distortion makes it ideal for digitizing signals from optical receivers, enabling high-performance data transmission in telecommunications and data centers.
Communications Systems: The LTC2320-16 is an excellent choice for communications systems requiring high-speed and high-resolution signal processing. Its simultaneous sampling capability and low power dissipation make it ideal for applications such as software-defined radios, base stations, and satellite communications, where accurate signal digitization is crucial for maintaining signal integrity.
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