Hefei Ruimin Electronic Technology Co., Ltd.
                                                                                                           
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Ford Particulate Sensor 5461552 5461552RX 5461552CUM 4384376 2160128PRX 0281007167 0281007168 4326559

Price Negotiable
Price: To Be Negotiated
MOQ: 50
Delivery Time: 1-4weeks
Brand: RMOS
Product Description
Particulate Matter Sensor

5461552/5461552RX/5461552CUM/4384376/4384376RX/4384376CUM/2160128PRX/0281007167/0281007168/4326559/4326559RX/4326559CUM/A056N706/2160128/2160128PE/2131544

Specifications
Parameter Specification
Sensor Type Laser scattering particulate matter sensor
Operating Voltage 12V DC
Material Metal and ceramic construction
Weight Approximately 0.33 kg (0.72 lbs)
Dimensions 15.24 cm × 16.76 cm × 7.62 cm (6 in × 6.6 in × 3 in)
Output Type Digital signal
Mounting Type Flange mount
Exhaust Emission Standard EPA17 compliant
Measurement Principle Laser light scattering
Communication Interface LIN (Local Interconnect Network) or compatible protocol
Service Life 200,000 kilometers or 5 years (whichever comes first)
Ingress Protection IP5X rated

Measurement Principle:
The sensor utilizes laser scattering technology to detect particulate matter in the exhaust gas. As exhaust flows through the measurement chamber, particulate matter scatters the laser beam. The sensor's internal processor analyzes the scattered light patterns to determine the concentration of particles, transmitting this data to the ECM via the communication interface. This provides accurate soot detection to help the emissions system respond correctly in real time.

Environmental Operating Conditions:

  • Designed for the demanding environment of diesel exhaust systems
  • Robust construction with metal and ceramic housing materials for thermal and chemical resistance
  • Stable operation across a wide range of exhaust temperatures and pressures
  • Delivers reliable data to help maintain consistent performance and long-term system dependability

Cross-Reference

The Particulate Matter Sensor (5461552) is referenced under various Original Equipment (OE) part numbers and supplier references across different vehicle applications. When searching for a replacement, the following references may be applicable:

Reference Type Part Number
Primary Part Number 5461552
Alternate / Cross-Reference 5461552CUM
Alternate / Cross-Reference 5461552NX
Alternate / Cross-Reference 5461552RX
Alternate / Cross-Reference 0281006949
Alternate / Cross-Reference 0281006982
Alternate / Cross-Reference 0281007167
Alternate / Cross-Reference 0281007168
Alternate / Cross-Reference 2131544
Alternate / Cross-Reference 2131544PE
Alternate / Cross-Reference 2160128
Alternate / Cross-Reference 2160128PE
Alternate / Cross-Reference 2160128PRX
Alternate / Cross-Reference 4326559
Alternate / Cross-Reference 4326559CUM
Alternate / Cross-Reference 4326559NX
Alternate / Cross-Reference 4326559RX
Alternate / Cross-Reference 4384376
Alternate / Cross-Reference 4384376NX
Alternate / Cross-Reference 4384376RX
Alternate / Cross-Reference A044T217
Alternate / Cross-Reference A054P723
Alternate / Cross-Reference A056N706

Note: Cross-reference information is provided for reference purposes only. Always verify the correct part number for your specific vehicle application before purchasing.


Compatible Engines

The Particulate Matter Sensor (5461552) is designed for diesel engine applications equipped with DPF-based emissions control systems. This sensor is specifically engineered for compatibility with a range of heavy-duty diesel engine platforms.

General Compatibility Notes:

  • This sensor is compatible with diesel engines utilizing DPF-based emissions control systems
  • Applications include heavy-duty commercial vehicles, trucks, and various diesel-powered platforms
  • The 12V operating voltage makes this sensor suitable for standard automotive electrical systems
  • Different engine variants within the same model family may require different sensor configurations

Important Compatibility Verification:

  • Always verify compatibility by consulting the vehicle's Original Equipment Manufacturer (OEM) specifications
  • Confirm fitment by referencing the vehicle's VIN (Vehicle Identification Number) or engine serial number
  • Check the original sensor part number installed on your vehicle before ordering a replacement
  • Verify that the operating voltage (12V) matches your vehicle's electrical system specifications

Common Failure Symptoms

A failing or malfunctioning Particulate Matter Sensor can manifest through various symptoms. Early recognition of these signs can prevent more severe and costly emissions system damage.

1. Illuminated Check Engine Light (MIL)

The most common and immediate indicator of a sensor issue is the illumination of the check engine light on the vehicle's instrument panel. The ECM detects abnormal readings or circuit malfunctions and stores corresponding diagnostic trouble codes (DTCs). A properly functioning sensor helps reduce the risk of fault codes and unnecessary service interruptions.

2. DPF or Emissions System Warning Lights

Many modern diesel vehicles display specific DPF-related warning messages when the particulate matter sensor fails. These warnings indicate that the DPF regeneration process may not be functioning properly.

3. Reduced Engine Performance / Power Loss

When the sensor fails to correctly detect the filter level saturation, the ECM may reduce engine power output as a protective measure. This is often accompanied by limited engine RPM and reduced acceleration capability.

4. Failed Emissions Inspection

Since the sensor provides critical data for verifying DPF efficiency, a malfunctioning sensor can cause the vehicle to fail OBD-II emissions testing. The powertrain control module cannot confirm that the DPF is operating within required parameters.

5. Excessive Exhaust Smoke

A failing sensor can result in improper DPF regeneration scheduling, leading to increased soot accumulation and visible black or grey smoke from the exhaust.

6. Increased Fuel Consumption

When the sensor fails to provide accurate data, the DPF regeneration process may not occur at optimal intervals, resulting in decreased fuel efficiency.

7. System Regeneration Issues

The vehicle may experience incomplete or excessively frequent DPF regeneration cycles, as the ECM lacks accurate particulate matter concentration data to determine the optimal regeneration timing.

8. Erratic or Unstable Readings

The sensor may provide readings that are consistently too high, too low, or fluctuate wildly, indicating internal contamination or failure.

Common Diagnostic Trouble Codes (DTCs)

When the sensor fails, one or more of the following OBD-II codes may be stored in the ECM:

Code Description
P0471 Exhaust Pressure Sensor Range/Performance
P2453 Diesel Particulate Filter Pressure Sensor "A" Circuit Range/Performance
P2454 Diesel Particulate Filter Pressure Sensor "A" Circuit Low
P2455 Diesel Particulate Filter Pressure Sensor "A" Circuit High
Common Causes of Failure
  • Presence of water in the exhaust pipes – Condensation or moisture ingress can damage the sensor's internal electronics
  • Pipework clogged by unburned soot – Particularly common on vehicles making frequent short journeys where the DPF does not reach regeneration temperature
  • Problems caused by regenerations or cleaning of the DPF – Improper cleaning procedures can damage the sensor
  • Damage to connecting cables, connector, or sensor body – Physical damage from road debris, heat exposure, or improper handling
  • Deterioration or leakage between the pipes and the sensor or the DPF – Air leaks can cause inaccurate readings
  • Wiring harness issues – Chafed wires, broken wires inside insulation, or poor terminal tension can cause open or short circuit conditions
  • Sensor contamination – Dust, soot, or moisture accumulation can block the sensing element

Note: If any of these symptoms or codes are present, professional diagnostic scanning is recommended to confirm sensor failure before replacement.


Important Purchase Considerations

When purchasing a replacement Particulate Matter Sensor (5461552), consider the following factors to ensure proper fitment, performance, and longevity:

1. OEM Specification Compliance

Ensure that the sensor meets or exceeds Original Equipment Manufacturer specifications for your specific vehicle application. The sensor should be manufactured to the same quality and performance standards as the original component. High-quality sensors are tested and calibrated before shipment to ensure reliable performance.

2. Vehicle Compatibility Verification
  • Always verify the sensor part number against your vehicle's specific requirements
  • Check compatibility with your vehicle's make, model, engine type, and model year
  • Consult your vehicle's service manual or authorized dealer for the correct part number
  • Cross-reference the OE number from your original sensor with the replacement part
  • Confirm the operating voltage (12V) matches your vehicle's electrical system specifications
3. Quality and Authenticity
  • Purchase from reputable suppliers to avoid substandard products
  • Authentic sensors are manufactured with precision-engineered components to ensure accurate particulate detection
  • Look for certifications such as IATF 16949:2016, which indicates adherence to automotive quality management standards
  • sensors may not meet the same accuracy or durability standards, potentially leading to premature failure or incorrect emissions readings
4. Installation Considerations
  • Professional installation is recommended, as the sensor is integrated into the exhaust system and emissions control network
  • Handle with extreme care – The sensor contains a fragile sensing element that is easily damaged
  • Never use lubricant on the sensor threads or tip
  • Proper orientation of the sensor is required for correct operation
  • Do not cut the harness when attempting to remove the sensor – use the appropriate socket to keep the harness intact
  • The sensor requires correct electrical connection to the vehicle's communication network
  • Following installation, the vehicle's ECM may need to be reset or recalibrated to recognize the new sensor
  • If multiple sensor failures have been experienced, check for water damage as a potential root cause
5. System Diagnostics After Replacement
  • Clear any stored diagnostic trouble codes
  • Perform a system check to confirm proper sensor communication with the ECM
  • Verify that DPF regeneration cycles are occurring as expected
  • Monitor for recurrence of any previously stored fault codes
  • If multiple sensor failures have been experienced, check for water damage as a potential root cause
6. Warranty and Return Policy
  • Check the warranty coverage offered by the supplier
  • Ensure the seller provides a reasonable return or exchange policy in case of compatibility issues
  • Verify the warranty period and any conditions that may apply
7. Service Life Expectancy

With a typical service life of 200,000 kilometers or 5 years, this sensor is designed for long-term durability. However, operating conditions, driving habits, and environmental factors can affect actual lifespan.

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Company Hefei Ruimin Electronic Technology Co., Ltd.
Location Second Floor, No. 4 Building, No. 1666, Ningxi Road, High-Tech District,Hefei,Anhui,China
Contact Person Mark

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