Overview of AWR1243FBIGABLQ1 by Texas Instruments
The AWR1243FBIGABLQ1 is a high-performance automotive millimeter-wave integrated circuit (MMIC) designed for radar sensing applications in the 76 GHz to 81 GHz frequency range. Housed in a 161-pin, flip-chip plastic ball grid array (FCPBGA) package, it is designed to operate under extreme environmental conditions with an operating temperature range from -40°C to 125°C. This component is characterized by its integration of both RF transceiver functionalities and a microcontroller unit (MCU) for radar data processing, making it a compact, efficient solution for automotive radar systems.
Produced by Texas Instruments, a leader in semiconductor solutions, this part adheres to rigorous standards, including AEC-Q100 qualification for automotive components. It’s also compliant with RoHS, REACH, and comes with an ECCN Code of EAR99, ensuring its suitability for global use without major export restrictions. The component is noted for its small size, with a height of just 1.17 mm and a footprint of 10.4 mm by 10.4 mm, enabling it to fit into dense electronic assemblies commonly found in modern automobiles.
Industry Applications for AWR1243FBIGABLQ1
The AWR1243FBIGABLQ1 could potentially be suited for various high-demand applications across multiple industries where high-frequency, high-reliability radar components are required. Below are a few possible industry applications:
- Automotive: The component’s ability to function in extreme temperatures and its fidelity in sensing applications potentially makes it suitable for automotive safety applications, such as adaptive cruise control, collision avoidance systems, and park assist features. Its compliance with automotive industry standards like AEC-Q100 reinforces its suitability for these roles.
- Aerospace and Defense: The robust operating temperature range and high-frequency capabilities might make the AWR1243FBIGABLQ1 a candidate for aerospace applications, including unmanned aerial vehicles (UAVs) for terrain mapping and obstacle detection. Defense applications could include perimeter security technologies that require high precision and reliability.
- Smart Cities: Applications within smart city initiatives could include traffic monitoring systems that utilize radar technology to manage and control traffic flow efficiently. This could aid in reducing congestion and enhancing safety in urban environments.
Note that these potential industry applications are conceptual and require rigorous verification and compliance with industry-specific standards by engineering and design teams.
About Texas Instruments
Texas Instruments (TI) is a global semiconductor company that designs and manufactures Other Signal Circuits, among a broad portfolio of other electronics solutions. TI has been at the forefront of innovation in the electronics market, particularly known for its contributions to the signal processing segment. The AWR1243FBIGABLQ1 is a prime example of TI’s commitment to developing advanced radar technology for automotive and other high-demand industries. TI’s components are broadly recognized for their reliability, cutting-edge technology, and compliance with international standards, making them preferred choices in diverse applications ranging from consumer electronics to industrial and high-technology sectors.
Where to Find AWR1243FBIGABLQ1 by Texas Instruments
To purchase the AWR1243FBIGABLQ1, potential buyers are recommended to visit findchips.com. On this site, one can verify the current availability, check updated stock levels, and compare pricing across multiple distributors. Historically, distributors such as LCSC, Quest Components, Bristol Electronics, Mouser Electronics, and DigiKey have stocked this part, but for current inventory statuses, users should refer directly to findchips.com. Additionally, the site allows users to explore other parts within the Other Signal Circuits subcategory which might be offered by Texas Instruments or other manufacturers, providing alternatives that may suit different application needs or budgetary constraints.