P0133 2009 NISSAN ROGUE - Air Fuel Ratio Circuit Slow Response Bank 1 Sensor 1

Repair Importance Level: 2/3
Repair Difficulty Level: 2/3

P0133 2009 NISSAN ROGUE Causes

  • Faulty Air fuel ratio (A/F) sensor 1 bank 1
  • Air fuel ratio (A/F) sensor 1 bank 1 harness is open or shorted
  • Air fuel ratio (A/F) sensor 1 bank 1 circuit poor electrical connection
  • Inappropriate fuel pressure
  • Faulty fuel injectors
  • Intake air leaks may be faulty
  • Exhaust gas leaks
  • P0133 2009 NISSAN ROGUE Notes

    Replacing the Air fuel ratio (A/F) sensor 1 bank 1 usually takes care of the problem.

    First diagnose P0133 2009 NISSAN ROGUE code

      Check the "Possible Causes" listed above. Visually inspect the related wiring harness and connectors. Check for damaged components and look for broken, bent, pushed out, or corroded terminals.

    Cost of diagnosing the P0133 2009 NISSAN ROGUE code

      Labor: 1.0

      The cost of diagnosing the P0133 2009 NISSAN ROGUE code is 1.0 hour of labor. The auto repair labor rates vary widely across the country, and even within the same city. Most auto repairs shops charge between $75 and $150 per hour.

    P0133 2009 NISSAN ROGUE Symptoms

  • Engine Light ON (or Service Engine Soon Warning Light)
  • High Fuel Consumption
  • Excessive Smoke from Exhaust
  • P0133 2009 NISSAN ROGUE More Information

    Need more information on how to fix the P0133 2009 NISSAN ROGUE code?
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    P0133 2009 NISSAN ROGUE Description

    The Air Fuel Ratio (A/F) sensor is a planar dual-cell limit current sensor. The sensor element of the A/F sensor is the combination of a Nernst concentration cell (sensor cell) with an oxygen-pump cell, which transports ions. It has a heater in the element.

    The sensor is capable of precise measurement λ= 1, but also in the lean and rich range. Together with its control electronics, the sensor outputs a clear, continuous signal throughout a wide range (0.7 < λ < air).

    The exhaust gas components diffuse through the diffusion gap at the electrode of the oxygen pump and Nernst concentration cell, where they are brought to thermodynamic balance. An electronic circuit controls the pump current through the oxygen pump cell so that the composition of the exhaust gas in the diffusion gap remains constant at λ = 1. Therefore, the A/F sensor is able to indicate air/fuel ratio by this pumping of current. In addition, a heater is integrated in the sensor to ensure the required operating temperature of 700 - 800°C (1,292 - 1,472°F).