LTC2193 (4)
The LTC2193 is available from Analog Devices at Xecor. Designed for digitizing high-frequency, wide dynamic range signals, the LTC2193 offers 2-channel simultaneous sampling, 16-bit resolution, and 80Msps sampling rate with low power consumption (249mW total). Available in a 52-pin QFN package, it is ideal for communications, cellular base stations, software-defined radios, portable medical imaging, and multi-channel data acquisition. Whether used in nondestructive testing or telecommunications, this series ensures excellent noise performance, ultralow jitter (0.07psRMS), and scalability for demanding applications. Xecor is an authorized distributor for Analog Devices. Please view our extensive selection of the LTC2193 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| LTC2193IUKG#TRPBF | Compact 52-pin QFN EP package for easy integration | QFN-52 | 4,629 | |
| LTC2193CUKG#PBF | Reliable, high-resolution analog-to-digital converter for industrial automatio | QFN-52 | 5,846 | |
| LTC2193CUKG#TRPBF | The LTC2193CUKG#TRPBF is a 16-bit Analog to Digital Converter (ADC) that incorporates dual ADCs | QFN-52 | 2,518 | |
| LTC2193IUKG#PBF | 2-Channel Dual ADC Pipelined 80Msps 16-bit Serial 52-Pin QFN EP Tube | QFN-52 | 8,524 |
Key Featrues
2-Channel Simultaneous Sampling ADC: The LTC2193 features two independent ADC channels that can sample signals simultaneously, making it ideal for applications requiring precise timing and synchronization, such as multi-channel data acquisition and communications systems. This capability enhances performance in scenarios where phase coherence between channels is critical.
Serial LVDS Outputs: The device supports serial LVDS outputs with configurable data rates (1, 2, or 4 bits per channel), enabling high-speed data transfer with reduced noise and power consumption. This feature is particularly beneficial for high-frequency signal processing and minimizes signal integrity issues in noisy environments.
Low Power Consumption: With total power dissipation as low as 249mW (125mW per channel), the LTC2193 is optimized for power-sensitive applications like portable medical imaging and battery-operated systems. Its low power operation extends battery life and reduces thermal management requirements.
High Dynamic Range and SNR: The ADC delivers 76.8dB SNR and 90dB SFDR, ensuring accurate digitization of high-frequency, wide dynamic range signals. This makes it suitable for demanding applications such as cellular base stations and software-defined radios, where signal fidelity is paramount.
Flexible Input Ranges and Bandwidth: The device offers selectable input ranges (1VP-P to 2VP-P) and a 550MHz full-power bandwidth sample-and-hold circuit, enabling it to handle a wide variety of signal amplitudes and frequencies. This flexibility supports diverse use cases, from nondestructive testing to high-speed communications.
Serial LVDS Outputs: The device supports serial LVDS outputs with configurable data rates (1, 2, or 4 bits per channel), enabling high-speed data transfer with reduced noise and power consumption. This feature is particularly beneficial for high-frequency signal processing and minimizes signal integrity issues in noisy environments.
Low Power Consumption: With total power dissipation as low as 249mW (125mW per channel), the LTC2193 is optimized for power-sensitive applications like portable medical imaging and battery-operated systems. Its low power operation extends battery life and reduces thermal management requirements.
High Dynamic Range and SNR: The ADC delivers 76.8dB SNR and 90dB SFDR, ensuring accurate digitization of high-frequency, wide dynamic range signals. This makes it suitable for demanding applications such as cellular base stations and software-defined radios, where signal fidelity is paramount.
Flexible Input Ranges and Bandwidth: The device offers selectable input ranges (1VP-P to 2VP-P) and a 550MHz full-power bandwidth sample-and-hold circuit, enabling it to handle a wide variety of signal amplitudes and frequencies. This flexibility supports diverse use cases, from nondestructive testing to high-speed communications.
Applications
High-Speed Communication Systems: The LTC2195/LTC2194/LTC2193 is perfect for high-speed communication systems, such as cellular base stations and software-defined radios. Its 16-bit resolution, 80Msps sampling rate, and excellent SNR (76.8dB) ensure accurate digitization of high-frequency signals, making it ideal for demanding communication applications.
Portable Medical Imaging: These ADCs are well-suited for portable medical imaging devices, such as ultrasound systems. With their low power consumption (249mW total) and simultaneous sampling capability, they enable high-resolution imaging while maintaining portability and battery life, critical for medical field applications.
Multi-Channel Data Acquisition: The LTC2195/LTC2194/LTC2193 excels in multi-channel data acquisition systems, where simultaneous sampling of multiple signals is required. Its dual-channel architecture and serial LVDS outputs make it ideal for applications like industrial automation, test and measurement, and scientific research.
Nondestructive Testing (NDT): These ADCs are ideal for nondestructive testing applications, such as ultrasonic flaw detection or material analysis. Their high dynamic range (90dB SFDR) and low jitter (0.07ps RMS) ensure precise signal capture, enabling accurate detection and analysis of defects in materials without causing damage.
These applications highlight the versatility and performance of the LTC2195/LTC2194/LTC2193 in various high-precision and high-speed environments.
Portable Medical Imaging: These ADCs are well-suited for portable medical imaging devices, such as ultrasound systems. With their low power consumption (249mW total) and simultaneous sampling capability, they enable high-resolution imaging while maintaining portability and battery life, critical for medical field applications.
Multi-Channel Data Acquisition: The LTC2195/LTC2194/LTC2193 excels in multi-channel data acquisition systems, where simultaneous sampling of multiple signals is required. Its dual-channel architecture and serial LVDS outputs make it ideal for applications like industrial automation, test and measurement, and scientific research.
Nondestructive Testing (NDT): These ADCs are ideal for nondestructive testing applications, such as ultrasonic flaw detection or material analysis. Their high dynamic range (90dB SFDR) and low jitter (0.07ps RMS) ensure precise signal capture, enabling accurate detection and analysis of defects in materials without causing damage.
These applications highlight the versatility and performance of the LTC2195/LTC2194/LTC2193 in various high-precision and high-speed environments.
Popular LTC2193 Products comparison