CaterPillar Nitrogen oxides NOx sensor OEM:441-5129-03 reference:5WK97356
Key Attributes:
International Ceramic Chip: Our NOX sensor utilizes a ceramic chip imported from overseas, ensuring precise and dependable detection of nitrogen oxide levels. This advanced technology enables accurate measurements and contributes to the superior functionality of the sensor.
Corrosion-Resistant Probe: The sensor features a probe that resists corrosion, allowing it to effectively withstand harsh environmental conditions. This characteristic enhances the longevity and robustness of the sensor, making it suitable for a diverse range of operational environments.
High-Quality ECU Circuit (PCB) Supported by University Laboratory: The ECU circuit in our NOX sensor is of superior quality and is endorsed by the research and development of a distinguished university laboratory. This collaboration ensures that our product is backed by cutting-edge research and development, resulting in an advanced sensor with unparalleled performance.
Performance and Durability: Our NOX sensor provides exceptional stability and dependability, ensuring accurate and consistent readings of nitrogen oxide levels. The integration of advanced components and materials leads to a significantly extended lifespan, decreasing maintenance frequency and overall operational costs for users.
Accreditations: We are delighted to announce that our NOX sensor has achieved CE certification and IATF16949:2026 certification, signifying adherence to stringent quality and safety standards. These accreditations illustrate our commitment to delivering products of the highest quality and dependability to our customers.
In conclusion, our NOX sensor for Caterpillar trucks sets a new benchmark in the industry with its international ceramic chip, corrosion-resistant probe, exceptional ECU circuit, stable performance, and extended durability. Supported by esteemed certifications and comprehensive testing, our sensor provides a dependable solution for monitoring and managing nitrogen oxide levels in automotive applications.