LTC2215 (4)
LTC2215 is available from Analog Devices at Xecor. Designed for digitizing high frequency, wide dynamic range signals, the LTC2215 offers 16-bit resolution, a sampling rate of 65Msps, and a low noise floor of 81.5dBFS. Available in a 64-pin QFN package, it is ideal for telecommunications, cellular base stations, spectrum analysis, and imaging systems. Whether used in receiver systems or automated test equipment (ATE), this series ensures high performance, precision, and efficiency for demanding applications. Xecor is an authorized distributor for Analog Devices. Please view our extensive selection of the LTC2215 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| LTC2215IUP#TRPBF | Transmit/receive functionality for seamless integration in communication systems | QFN-64 | 6,517 | |
| LTC2215CUP#TRPBF | Fast Conversion: This -bit, Msps ADC offers rapid conversion speed | QFN-64 | 9,903 | |
| LTC2215IUP#PBF | 1-Channel Single ADC Pipelined 65Msps 16-bit Parallel 64-Pin QFN EP Tube | QFN-64 | 7,248 | |
| LTC2215CUP#PBF | Analog Switches / Multiplexers ROHS LTC2215CUP#PBF QFN-64-EP(9x9) | QFN-64 | 7,121 |
Key Featrues
High Sampling Rate (65Msps): The LTC2215 ADC offers a high sampling rate of 65 million samples per second, enabling accurate digitization of high-frequency signals up to 400MHz. This makes it ideal for applications requiring fast and precise signal processing, such as telecommunications and spectrum analysis.
16-Bit Resolution: With 16-bit resolution, the ADC provides exceptional signal detail and dynamic range, ensuring minimal quantization error. This high resolution is particularly beneficial for applications like imaging systems and cellular base stations, where fine signal differentiation is crucial.
Low Noise Floor (81.5dBFS): The ADC features a low noise floor of 81.5dBFS, which enhances signal clarity and reduces distortion in high-frequency environments. This improves the overall performance in noise-sensitive applications such as receivers and ATE (Automated Test Equipment).
Differential Input Type: The differential input configuration allows for better noise immunity and common-mode rejection, making it suitable for environments with high electromagnetic interference. This feature ensures reliable performance in industrial and telecommunications applications.
Single 3.3V Supply Operation: Operating on a single 3.3V supply, the LTC2215 simplifies power management and reduces overall system complexity. This low power requirement, combined with its high performance, makes it an efficient choice for portable and power-sensitive applications.
16-Bit Resolution: With 16-bit resolution, the ADC provides exceptional signal detail and dynamic range, ensuring minimal quantization error. This high resolution is particularly beneficial for applications like imaging systems and cellular base stations, where fine signal differentiation is crucial.
Low Noise Floor (81.5dBFS): The ADC features a low noise floor of 81.5dBFS, which enhances signal clarity and reduces distortion in high-frequency environments. This improves the overall performance in noise-sensitive applications such as receivers and ATE (Automated Test Equipment).
Differential Input Type: The differential input configuration allows for better noise immunity and common-mode rejection, making it suitable for environments with high electromagnetic interference. This feature ensures reliable performance in industrial and telecommunications applications.
Single 3.3V Supply Operation: Operating on a single 3.3V supply, the LTC2215 simplifies power management and reduces overall system complexity. This low power requirement, combined with its high performance, makes it an efficient choice for portable and power-sensitive applications.
Applications
High-Frequency Signal Analyzer: The LTC2215 is ideal for analyzing high-frequency signals in telecommunications and spectrum analysis applications. Its 65Msps sampling rate and 16-bit resolution ensure precise digitization of wide dynamic range signals, making it suitable for advanced signal processing in cellular base stations and RF receivers.
Imaging System Digitizer: The LTC2215 is perfect for digitizing signals in imaging systems, such as medical imaging or industrial inspection. Its low noise floor of 81.5dBFS and high spurious-free dynamic range (SFDR) ensure accurate capture of high-frequency analog signals, enabling detailed image reconstruction and analysis.
Automated Test Equipment (ATE) Signal Processor: The LTC2215 is well-suited for use in ATE systems, where it can digitize high-frequency test signals with exceptional accuracy. Its pipelined architecture and differential input type make it ideal for capturing and processing signals in precision testing environments.
Broadband Communication Receiver: The LTC2215 is an excellent choice for broadband communication systems, such as satellite or cable receivers. Its 400MHz full power bandwidth sample-and-hold (S/H) circuit and optional internal dither ensure reliable performance in high-speed data acquisition, making it ideal for modern communication infrastructure.
Imaging System Digitizer: The LTC2215 is perfect for digitizing signals in imaging systems, such as medical imaging or industrial inspection. Its low noise floor of 81.5dBFS and high spurious-free dynamic range (SFDR) ensure accurate capture of high-frequency analog signals, enabling detailed image reconstruction and analysis.
Automated Test Equipment (ATE) Signal Processor: The LTC2215 is well-suited for use in ATE systems, where it can digitize high-frequency test signals with exceptional accuracy. Its pipelined architecture and differential input type make it ideal for capturing and processing signals in precision testing environments.
Broadband Communication Receiver: The LTC2215 is an excellent choice for broadband communication systems, such as satellite or cable receivers. Its 400MHz full power bandwidth sample-and-hold (S/H) circuit and optional internal dither ensure reliable performance in high-speed data acquisition, making it ideal for modern communication infrastructure.
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