Sensors, imaging & radar
Meet your demanding defense-oriented specifications with our portfolio of high-end analog products
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Why choose TI for your sensors, imaging & radar applications?
High performance
Create high-bandwidth designs with greater integration while mantaining your design size, weight and power requirements.
High reliability
Explore solutions that meet stringent military-grade certifications and adhere to enhanced temperature and reliability qualifications.
Longevity and availability
Access our inventory of immediately available devices for your next prototype or production-ready design. With our extended production runs, components are available for extended project lifetimes.
Engineering excellence for sensing, imaging & radar applications
High-channel-count RF sampling transceivers for phased array radar systems
Designing high-performance phased array systems for radar, electronic warfare and communication requires high channel integration with low power consumption. Our RF-sampling transceivers with high channel density and wide signal bandwidths enable you to develop mobile, compact solutions faster.
AFE7950 Super-Heterodyne Solution for K-Band
How to Achieve Frequency Hopping with the AFE79xx
High-speed signal chain training series
Flexible, small and efficient power-management solutions
To help you meet your size, weight and power requirements, our power-management products support high power density and efficiency, low noise, and proper sequencing for field-programmable gate arrays and data converters. A variety of current levels include options for modules and dual devices to ensure a compact design. Our power engineers are available to assist in creating a customized solution for any design specification.
Powering the AFE7920 with the TPS62913 Low-Ripple and Low-Noise Buck Converter (Rev. A)
Exploring the value of power modules
Minimize noise and ripple with a low-noise buck converter
Wide bandwidth, frequency-agile products for electronic surveillance and jamming
Very wide bandwidth radio frequency-sampling converters capture large swaths of the spectrum for observation. Our products are digitally controlled and frequency-agile for quick maneuverability to frequency bands where activity is present. Low-latency devices provide quick analysis and adjustment in critical situations. High-frequency sample clock synthesizers and active balun interfaces complete the system.
Impact of PLL Jitter to GSPS ADC's SNR and Performance Optimization
Powering Sensitive Noise ADC Designs with the TPS62913 Low-Noise Buck Converter
Step-by-step considerations for designing wide-bandwidth multichannel systems
Featured products for electronic warfare
Integrated power amplifier biasing control devices
Accurate sensing and monitoring is necessary to keep radio-frequency (RF) power amplifiers at peak efficiency. Our all-in-one RF power amplifier biasing controllers integrate precision analog-to-digital converters (ADCs) and digital-to-analog converters (DACs), local and remote temperature sensing, current sensing, and sequencing control. Our power amplifier biasing controllers support laterally diffused metal-oxide semiconductor, gallium arsenide and high-efficiency gallium nitride technologies.
Temperature Compensation of Power Amplifier FET Bias Voltages
Current Sensing Applications in Communication Infrastructure Equipment (Rev. C)
Precision DACs (<=10MSPS) – Learning center
Design & development resources
Jitter and SNR Calculator for ADCs
JITTER-SNR-CALC can be used for calculating theoretical Signal to Noise (SNR) performance of ADCs based on input frequency and clock jitter.
Texas Instruments PLLatinum Simulator Tool
PLLATINUMSIM-SW is a simulation tool that allows users to create detailed designs and simulations of our PLLatinum™ integrated circuits, which include the LMX series of phase-locked loops (PLLs) and synthesizers.
JESD204 Rapid Design IP for FPGAs connected to TI high-speed data converters
The JESD204 rapid design IP has been designed to enable FPGA engineers to achieve an accelerated path to a working JESD204 system. The IP has been architected in a way that downstream digital processing and other application logic are isolated from most of the performance- and timing-critical (...)