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The NOx Sensor 5WK9 7371 is a critical component in diesel exhaust aftertreatment systems, specifically designed for Selective Catalytic Reduction (SCR). Its primary function is to measure NOx concentration in real time, delivering this crucial data to the SCR control unit. Based on the sensor’s input, the system determines the optimal Diesel Exhaust Fluid (DEF) dosage, ensuring precise injection at the SCR inlet. This process significantly reduces NOx emissions, resulting in cleaner exhaust output.
Kreation’s latest-generation NOx sensor meets the strictest emission standards across Europe, China, the U.S., Japan, and South Korea, matching the quality and performance of OEM-grade components. Additionally, we offer customizable solutions—tailoring software algorithms, hardware configurations, and structural designs to meet specific customer requirements.
• Optimal Performance for Specific Engines: The application - specific calibration allows the sensor to perform at its best in the intended engine environment. It provides more accurate NOx data, enabling the engine control system to make more effective adjustments for emissions reduction and performance optimization.
• Wide Compatibility: The intelligent communication interface ensures that the sensor can be easily integrated into various engine management systems. This makes it a versatile choice for manufacturers and aftermarket installers, reducing the complexity of installation and operation.
• Consistent Accuracy: The adaptive temperature compensation feature maintains the accuracy of the sensor's readings regardless of temperature fluctuations. This consistency is crucial for reliable emissions control and engine performance monitoring.
• Hybrid Vehicles: In hybrid engines, which combine gasoline or diesel engines with electric motors, our NOx Sensor provides accurate measurement of NOx emissions during the operation of the internal combustion engine. It helps hybrid vehicles meet emissions standards while optimizing the performance of the engine - electric system.
• Alternative Fuel Engines: For engines running on alternative fuels such as natural gas, biodiesel, or hydrogen, our sensor can be calibrated to accurately measure NOx emissions. This is important as these engines also need to comply with emissions regulations.
• Special - Purpose Vehicles: Military vehicles, airport ground support equipment, and other special - purpose vehicles often have unique engine requirements. Our application - specific NOx Sensor can be customized to meet the emissions control needs of these specialized vehicles.
Nitrogen Oxide – NOx Sensor
1. Quality: We have strict quality standards and good reputation.
2. Low MOQ: It can meet your business needs.
 |  |
Operating Temperature Range: -40°C to +900°C
Measurement Range: 0–2500 ppm NOx
Output Signal: CAN bus or analog voltage
IP Rating: IP67 (dustproof and waterproof)
Warranty: 24 months
Ensure proper alignment and secure connections to prevent signal interference.
Regularly inspect for soot buildup or contamination that may affect accuracy.
Use diagnostic tools to verify sensor functionality during routine checks.
The NOx Sensor 5WK9 7371 is a critical component in diesel exhaust aftertreatment systems, specifically designed for Selective Catalytic Reduction (SCR). Its primary function is to measure NOx concentration in real time, delivering this crucial data to the SCR control unit. Based on the sensor’s input, the system determines the optimal Diesel Exhaust Fluid (DEF) dosage, ensuring precise injection at the SCR inlet. This process significantly reduces NOx emissions, resulting in cleaner exhaust output.
Kreation’s latest-generation NOx sensor meets the strictest emission standards across Europe, China, the U.S., Japan, and South Korea, matching the quality and performance of OEM-grade components. Additionally, we offer customizable solutions—tailoring software algorithms, hardware configurations, and structural designs to meet specific customer requirements.
• Optimal Performance for Specific Engines: The application - specific calibration allows the sensor to perform at its best in the intended engine environment. It provides more accurate NOx data, enabling the engine control system to make more effective adjustments for emissions reduction and performance optimization.
• Wide Compatibility: The intelligent communication interface ensures that the sensor can be easily integrated into various engine management systems. This makes it a versatile choice for manufacturers and aftermarket installers, reducing the complexity of installation and operation.
• Consistent Accuracy: The adaptive temperature compensation feature maintains the accuracy of the sensor's readings regardless of temperature fluctuations. This consistency is crucial for reliable emissions control and engine performance monitoring.
• Hybrid Vehicles: In hybrid engines, which combine gasoline or diesel engines with electric motors, our NOx Sensor provides accurate measurement of NOx emissions during the operation of the internal combustion engine. It helps hybrid vehicles meet emissions standards while optimizing the performance of the engine - electric system.
• Alternative Fuel Engines: For engines running on alternative fuels such as natural gas, biodiesel, or hydrogen, our sensor can be calibrated to accurately measure NOx emissions. This is important as these engines also need to comply with emissions regulations.
• Special - Purpose Vehicles: Military vehicles, airport ground support equipment, and other special - purpose vehicles often have unique engine requirements. Our application - specific NOx Sensor can be customized to meet the emissions control needs of these specialized vehicles.
Nitrogen Oxide – NOx Sensor
1. Quality: We have strict quality standards and good reputation.
2. Low MOQ: It can meet your business needs.
| |
Operating Temperature Range: -40°C to +900°C
Measurement Range: 0–2500 ppm NOx
Output Signal: CAN bus or analog voltage
IP Rating: IP67 (dustproof and waterproof)
Warranty: 24 months
Ensure proper alignment and secure connections to prevent signal interference.
Regularly inspect for soot buildup or contamination that may affect accuracy.
Use diagnostic tools to verify sensor functionality during routine checks.
