3 Results
Automotive radar sensors concealed in bumpers must transmit in the correct frequency domain. To effectively hide sensors, radar-transparent areas usually have the exact same paint as the rest of the vehicle. When selecting paint and coatings for bumpers, you need to know their material properties. In the past, either quasi-optical or waveguide based setups with vector network analyzers (VNA) were used. The following application card describes a simplified material characterization method in the automotive radar frequency domain (76 GHz to 81 GHz) with the R&S®QAR50 automotive radome tester.
22-May-2024
Autonomous and semi-autonomous vehicles rely on a complex hardware and software architecture to gather and exploit information from numerous radar sensors. To generate reliable data, the sensors require an unobstructed view of the surroundings. The bumpers or radomes mounted in front of the sensors must not impair radar functionality. This requires extensive testing of the deployed plastic parts and their underlying polymer structure. The R&S®QAR50 is the ideal tool to characterize the material properties of polymers and their influence on the quality of the radar signal at an early design stage and in quality control of material development.
24-Jun-2022
Testing radomes, bumpers, QAR50 Ensure a high level of performance and reduce performance degradation of automotive radar sensors caused by radomes and bumpers with the R&S®QAR50. Testing radomes and bumpers in all phases – from design to high-volume production Testing radomes, bumpers, QAR50 Ensure a high level of performance and reduce performance degradation of automotive radar sensors caused by
21-Apr-2022