P2622 – High Throttle Position Circuit

P2622 Possible Causes

  • Faulty throttle position sensor/switch
  • Throttle position sensor/switch harness is open or shorted
  • Poor electrical connection in throttle position sensor/switch circuit

How to Fix Code P2622

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 connector pins.

Possible Symptoms

Illuminated engine light (or service engine soon warning light)

P2622 Meaning

The Engine Control Module (ECM) monitors the throttle position circuit signal. The ECM sets the OBDII code when the throttle position circuit signal is outside factory specifications.

P2623 – Injector Control Pressure Regulator Circuit / Open

P2623 Possible Causes

  • Faulty injector control pressure regulator
  • Injector control pressure regulator harness is open or shorted
  • Poor electrical connection in injector control pressure regulator circuit

How to Fix Code P2623

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 connector pins.

Possible Symptoms

Illuminated engine light (or service engine soon warning light)

P2623 Meaning

The Powertrain Control Module (PCM) monitors the Injector Control Pressure Regulator (ICPR) circuit. The PCM sets the OBDII code when the injector control pressure regulator circuit is outside factory specifications.

P2624 – Low Injector Control Pressure Regulator Circuit

P2624 Possible Causes

  • Faulty injector control pressure regulator
  • Injector control pressure regulator harness is open or shorted
  • Poor electrical connection in injector control pressure regulator circuit

How to Fix Code P2624

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 connector pins.

Possible Symptoms

Illuminated engine light (or service engine soon warning light)

P2624 Meaning

The Powertrain Control Module (PCM) monitors the Injector Control Pressure Regulator (ICPR) circuit. The PCM sets the OBDII code when the injector control pressure regulator circuit is outside factory specifications.

P2625 – High Injector Control Pressure Regulator Circuit

🔧 Code P2625 – Injector Control Pressure Regulator

📌 Meaning of Code P2625

The Powertrain Control Module (PCM) monitors the Injector Control Pressure Regulator (ICPR) circuit. Code P2625 is stored when this circuit operates outside factory specifications.

🚨 Possible Symptoms

  • Check Engine light (or “Service Engine Soon” warning light)

❗ Possible Causes

  • Faulty injector control pressure regulator
  • Injector control pressure regulator wiring open or shorted
  • Poor electrical connection in the injector control pressure regulator circuit

🛠️ How to Fix Code P2625

  1. Check the possible causes mentioned above.
  2. Visually inspect the wiring harness and associated connectors.
  3. Look for:
    • Damaged components
    • Broken, bent, pushed out, or corroded connector pins

P2628 O2 Sensor, High Current Compensation Circuit Pumping B1S1

Code Severity and Symptoms

The severity of this code is moderate but will progress if not corrected in a timely manner. Symptoms of a P2628 fault code may include:

  • Worsening poor performance
  • Engine running lean
  • Engine running rich
  • Check engine light illuminated
  • Smoke from the exhaust pipe
  • Increased fuel consumption

Common Causes of P2628 Code

Possible causes of this code may include:

  • Faulty O2 sensor
  • Carbon buildup on the O2 sensor
  • Blown fuse (if applicable)
  • Fuel pressure too high
  • Fuel pressure too low
  • Engine vacuum leak
  • Excessive exhaust leak
  • Corroded or damaged connector
  • Faulty or damaged wiring
  • Faulty PCM

Common Repairs

  • Replacement or cleaning of the O2 sensor
  • Replacement of blown fuse (if applicable)
  • Adjusting fuel pressure
  • Repairing engine vacuum leaks
  • Repairing exhaust leaks
  • Cleaning connector corrosion
  • Repairing or replacing wiring
  • PCM replacement

P2628 Diagnostic and Repair Procedures

Check TSBs
The first step in troubleshooting any malfunction is to search for Technical Service Bulletins (TSBs) for the specific vehicle by year, model, and powertrain. In some circumstances, this can save significant time in the long run by pointing you in the right direction.

The second step is to locate the pre-catalytic converter O2 sensor. Perform a thorough visual inspection to check the associated wiring for obvious defects such as scraping, rubbing, bare wires, or burns. Then, check the connector for security, corrosion, and damaged pins. With the engine running, the visual inspection should include identifying possible exhaust leaks. Based on fuel consumption and fuel pressure tests, engine operation adjustments may be recommended. You should consult specific technical data to determine this requirement.

Advanced Steps

Advanced steps become very vehicle-specific and require appropriate advanced equipment to perform accurately. These procedures require a digital multimeter and vehicle-specific technical references. Voltage requirements will be highly dependent on the specific vehicle year, model, and engine.

Voltage Checks

When the fuel mixture is balanced at approximately 14.7:1, which is normal for most engines to achieve optimal performance, the sensor will read about 0.45 volts. An oxygen sensor typically generates up to about 0.9 volts when the fuel mixture is rich and there is unburned oxygen in the exhaust gases. When the mixture is lean, the sensor’s output voltage will drop to about 0.1 volts.

If this process identifies the absence of a power source or ground, continuity tests may be required to check wiring integrity. Continuity tests should always be performed with the power disconnected from the circuit, and normal readings should be 0 ohms of resistance unless otherwise indicated by technical data. Resistance or lack of continuity indicates faulty open or shorted wiring and should be repaired or replaced.

I hope the information in this article has helped point you in the right direction to correct the issue with your O2 sensor pump current compensation circuit. This article is strictly informational, and specific technical data and service bulletins for your vehicle should always take priority.

P2627 O2 Sensor, Low Current Compensation Circuit Pumping B1S1

Code Severity and Symptoms

The severity of this code is moderate but will progress if not corrected in a timely manner. Symptoms of a P2627 fault code may include:

  • Worsening poor performance
  • Engine running lean
  • Engine running rich
  • Check engine light illuminated
  • Smoke from the exhaust pipe
  • Increased fuel consumption

Common Causes of P2627 Code

Causes

Possible causes of this code may include:

  • Faulty O2 sensor
  • Carbon buildup on the O2 sensor
  • Blown fuse (if applicable)
  • Fuel pressure too high
  • Fuel pressure too low
  • Engine vacuum leak
  • Excessive exhaust leak
  • Corroded or damaged connector
  • Faulty or damaged wiring
  • Faulty PCM

Common Repairs

  • Replacement or cleaning of the O2 sensor
  • Replacement of blown fuse (if applicable)
  • Adjustment of fuel pressure
  • Repairing engine vacuum leaks
  • Repairing exhaust leaks
  • Cleaning connector corrosion
  • Repairing or replacing wiring
  • PCM replacement

P2627 Diagnostic and Repair Procedures

Check TSBs
The first step in troubleshooting any malfunction is to search for Technical Service Bulletins (TSBs) for the specific vehicle by year, model, and powertrain. In some circumstances, this can save significant time in the long run by pointing you in the right direction.

The second step is to locate the pre-catalytic converter O2 sensor. Perform a thorough visual inspection to check the associated wiring for obvious defects such as scraping, rubbing, bare wires, or burns. Then, check the connector for security, corrosion, and damaged pins. With the engine running, the visual inspection should include identifying possible exhaust leaks. Based on fuel consumption and fuel pressure tests, engine operation adjustments may be recommended. You should consult specific technical data to determine this requirement.

Advanced Steps

Advanced steps become very vehicle-specific and require appropriate advanced equipment to perform accurately. These procedures require a digital multimeter and vehicle-specific technical references. Voltage requirements will be highly dependent on the specific vehicle’s year, model, and engine.

Voltage Checks

When the fuel mixture is balanced at approximately 14.7 to 1, which is normal for most engines to achieve optimal performance, the sensor will read about 0.45 volts. An oxygen sensor typically generates up to about 0.9 volts when the fuel mixture is rich and there is unburned oxygen in the exhaust gases. When the mixture is lean, the sensor’s output voltage will drop to about 0.1 volts.

If this process identifies the absence of a power source or ground, continuity tests may be required to check wiring integrity. Continuity tests should always be performed with the power disconnected from the circuit, and normal readings should be 0 ohms of resistance unless otherwise indicated by technical data. Resistance or lack of continuity indicates faulty open or shorted wiring and should be repaired or replaced.

I hope the information in this article has helped point you in the right direction to correct the issue with your O2 sensor pump current compensation circuit. This article is strictly informational, and specific technical data and service bulletins for your vehicle should always take priority.

O2 Sensor Pumping Current Compensation Circuit / Open B1S1

Code Severity and Symptoms

The severity of this code is moderate but will progress if not corrected in a timely manner. Symptoms of a P2626 fault code may include:

  • Worsening poor performance
  • Engine running lean
  • Engine running rich
  • Engine light illuminated
  • Smoke from the exhaust pipe
  • Increased fuel consumption

Common Causes of a P2626 Code

Possible causes of this code may include:

  • Faulty O2 sensor
  • Carbon buildup on the O2 sensor
  • Blown fuse (if applicable)
  • Fuel pressure too high
  • Fuel pressure too low
  • Engine vacuum leak
  • Excessive exhaust leak
  • Corroded or damaged connector
  • Faulty or damaged wiring
  • Faulty PCM

Common Repairs

  • Replacement or cleaning of the O2 sensor
  • Replacement of blown fuse (if applicable)
  • Adjusting fuel pressure
  • Repairing engine vacuum leaks
  • Repairing exhaust leaks
  • Cleaning connector corrosion
  • Repairing or replacing wiring
  • PCM replacement

P2626 Diagnostic and Repair Procedures

Check TSBs
The first step in troubleshooting any malfunction is to search for Technical Service Bulletins (TSBs) for the specific vehicle by year, model, and powertrain. In some circumstances, this can save significant time in the long run by pointing you in the right direction.

The second step is to locate the pre-catalytic converter O2 sensor. Perform a thorough visual inspection to check the associated wiring for obvious defects such as scraping, rubbing, bare wires, or burns. Then, check the connector for security, corrosion, and damaged pins. With the engine running, the visual inspection should include identifying possible exhaust leaks. Based on fuel consumption and fuel pressure tests, engine operation adjustments may be recommended. You should consult specific technical data to determine this requirement.

Advanced Steps

Advanced steps become very vehicle-specific and require appropriate advanced equipment to perform accurately. These procedures require a digital multimeter and vehicle-specific technical references. Voltage requirements will be highly dependent on the specific vehicle year, model, and engine.

Voltage Checks

When the fuel mixture is balanced at approximately 14.7 to 1, which is normal for most engines to achieve optimal performance, the sensor will read about 0.45 volts. An oxygen sensor typically generates up to about 0.9 volts when the fuel mixture is rich and there is unburned oxygen in the exhaust gases. When the mixture is lean, the sensor’s output voltage will drop to about 0.1 volt.

If this process identifies the absence of a power source or ground, continuity tests may be required to check wiring integrity. Continuity tests should always be performed with the power disconnected from the circuit, and normal readings should be 0 ohms of resistance, unless otherwise indicated by technical data. Resistance or lack of continuity is an indication of faulty open or short-circuited wiring and should be repaired or replaced.

I hope the information in this article has helped point you in the right direction to correct the issue with your O2 sensor pump current compensation circuit. This article is strictly informational, and specific technical data and service bulletins for your vehicle should always take priority.

P2631 -O2 High Current Compensation Circuit Pumping Sensor B2S1

Code Severity and Symptoms

The severity of this code is moderate but will progress if not corrected in a timely manner. Symptoms of a P2631 fault code may include:

  • Poor performance that worsens
  • Engine running lean
  • Engine running rich
  • Engine light illuminated
  • Smoke from the exhaust pipe
  • Increased fuel consumption

Common Causes of a P2631 Code

Causes

Possible causes of this code may include:

  • Faulty O2 sensor
  • Carbon buildup on the O2 sensor
  • Blown fuse (if applicable)
  • Fuel pressure too high
  • Fuel pressure too low
  • Engine vacuum leak
  • Excessive exhaust leak
  • Corroded or damaged connector
  • Faulty or damaged wiring
  • Faulty PCM

P2631 Diagnostic and Repair Procedures

Check TSBs

The first step in troubleshooting any malfunction is to search for Technical Service Bulletins (TSBs) for the specific vehicle by year, model, and powertrain. In some circumstances, this can save significant time in the long run by pointing you in the right direction.

The second step is to locate the pre-catalytic converter O2 sensor. Perform a thorough visual inspection to check the associated wiring for obvious defects such as scraping, rubbing, bare wires, or burns. Then, check the connector for security, corrosion, and damaged pins. With the engine running, the visual inspection should include identifying possible exhaust leaks. Based on fuel consumption and fuel pressure tests, engine operation adjustments may be recommended. You should consult specific technical data to determine this requirement.

Advanced Steps

Advanced steps become very vehicle-specific and require appropriate advanced equipment to perform accurately. These procedures require a digital multimeter and vehicle-specific technical references. Voltage requirements will be highly dependent on the specific vehicle’s year, model, and engine.

Voltage Checks

When the fuel mixture is balanced at approximately 14.7 to 1, which is normal for most engines to achieve optimal performance, the sensor will read about 0.45 volts. An oxygen sensor typically generates up to about 0.9 volts when the fuel mixture is rich and there is unburned oxygen in the exhaust gases. When the mixture is lean, the sensor’s output voltage will drop to about 0.1 volt.

If this process identifies a lack of power source or ground, continuity tests may be required to check wiring integrity. Continuity tests should always be performed with the power disconnected from the circuit, and normal readings should be 0 ohms of resistance unless otherwise indicated by technical data. Resistance or lack of continuity indicates faulty open or shorted wiring and should be repaired or replaced.

Common Repairs

  • Replacing or cleaning the O2 sensor
  • Replacing a blown fuse (if applicable)
  • Adjusting fuel pressure
  • Repairing engine vacuum leaks
  • Repairing exhaust leaks
  • Cleaning connector corrosion
  • Repairing or replacing wiring
  • PCM replacement

I hope the information in this article has helped guide you in the right direction to correct the issue with your O2 sensor pump current compensation circuit. This article is strictly informational, and specific technical data and service bulletins for your vehicle should always take priority.

P2630 -O2 Sensor Low Current Compensation Circuit Pumping B2S1

Code Severity and Symptoms

The severity of this code is moderate but will progress if not corrected in a timely manner. Symptoms of a P2630 fault code may include:

  • Worsening poor performance
  • Engine running lean
  • Engine running rich
  • Check engine light illuminated
  • Exhaust pipe smoke
  • Increased fuel consumption

Common Causes of P2630 Code

Causes

Possible causes of this code may include:

  • Faulty O2 sensor
  • Carbon buildup on O2 sensor
  • Blown fuse (if applicable)
  • Fuel pressure too high
  • Fuel pressure too low
  • Engine vacuum leak
  • Excessive exhaust leak
  • Corroded or damaged connector
  • Faulty or damaged wiring
  • Faulty PCM

P2630 Diagnostic and Repair Procedures

Check TSBs

The first step in troubleshooting any malfunction is to search for Technical Service Bulletins (TSBs) for the specific vehicle by year, model, and powertrain. In some circumstances, this can save significant time in the long run by pointing you in the right direction.

The second step is to locate the pre-catalytic converter O2 sensor. Perform a thorough visual inspection to check the associated wiring for obvious defects such as scraping, rubbing, bare wires, or burns. Then check the connector for security, corrosion, and damaged pins. With the engine running, the visual inspection should include identifying possible exhaust leaks. Based on fuel consumption and fuel pressure tests, engine operation adjustments may be recommended. You should consult specific technical data to determine this requirement.

Advanced Steps

Advanced steps become very vehicle-specific and require appropriate advanced equipment to perform accurately. These procedures require a digital multimeter and vehicle-specific technical references. Voltage requirements will be highly dependent on the specific vehicle year, model, and engine.

Voltage Checks

When the fuel mixture is balanced at approximately 14.7:1, which is normal for most engines to achieve optimal performance, the sensor will read about 0.45 volts. An oxygen sensor typically generates up to about 0.9 volts when the fuel mixture is rich and there is unburned oxygen in the exhaust gases. When the mixture is lean, the sensor output voltage will drop to about 0.1 volt.

If this process identifies the absence of power source or ground, continuity tests may be required to verify wiring integrity. Continuity tests should always be performed with power disconnected from the circuit, and normal readings should be 0 ohms resistance unless otherwise specified by technical data. Resistance or lack of continuity indicates faulty open or shorted wiring and should be repaired or replaced.

Common Repairs

  • Replacing or cleaning O2 sensor
  • Replacing blown fuse (if applicable)
  • Adjusting fuel pressure
  • Repairing engine vacuum leaks
  • Repairing exhaust leaks
  • Cleaning connector corrosion
  • Repairing or replacing wiring
  • PCM replacement

I hope the information in this article has helped point you in the right direction to correct the issue with your O2 sensor pump current compensation circuit. This article is strictly informational, and specific technical data and service bulletins for your vehicle should always take priority.

P2629 – Open O2 Sensor Pumping Current Trim Circuit / Bank 2 Sensor 1

Code Severity and Symptoms

The severity of this code is moderate but will progress if not corrected in a timely manner. Symptoms of a P2629 fault code may include:

  • Poor performance that worsens
  • Engine running lean
  • Engine running rich
  • Engine light illuminated
  • Smoke from the exhaust pipe
  • Increased fuel consumption

Common Causes of a P2629 Code

Possible causes of this code may include:

  • Faulty O2 sensor
  • Carbon buildup on the O2 sensor
  • Blown fuse (if applicable)
  • Fuel pressure too high
  • Fuel pressure too low
  • Engine vacuum leak
  • Excessive exhaust leak
  • Corroded or damaged connector
  • Faulty or damaged wiring
  • Faulty PCM

P2629 Diagnostic and Repair Procedures

Check TSBs

The first step in troubleshooting any malfunction is to search for Technical Service Bulletins (TSBs) for the specific vehicle by year, model, and powertrain. In some circumstances, this can save significant time in the long run by pointing you in the right direction.

The second step is to locate the pre-catalytic converter O2 sensor. Perform a thorough visual inspection to check the associated wiring for obvious defects such as scraping, rubbing, bare wires, or burns. Then, check the connector for security, corrosion, and damaged pins. With the engine running, the visual inspection should include identifying possible exhaust leaks. Based on fuel consumption and fuel pressure tests, engine operation adjustments may be recommended. You should consult specific technical data to determine this requirement.

Advanced Steps

Advanced steps become very vehicle-specific and require appropriate advanced equipment to perform accurately. These procedures require a digital multimeter and vehicle-specific technical references. Voltage requirements will be highly dependent on the specific vehicle’s year, model, and engine.

Voltage Checks

When the fuel mixture is balanced at approximately 14.7 to 1, which is normal for most engines to achieve optimal performance, the sensor will read about 0.45 volts. An oxygen sensor typically generates up to about 0.9 volts when the fuel mixture is rich and there is unburned oxygen in the exhaust gases. When the mixture is lean, the sensor’s output voltage will drop to about 0.1 volt.

If this process identifies the absence of a power source or ground, continuity tests may be required to check the wiring integrity. Continuity tests should always be performed with the power disconnected from the circuit, and normal readings should be 0 ohms of resistance unless otherwise indicated by technical data. Resistance or lack of continuity indicates faulty wiring that is open or short-circuited and must be repaired or replaced.

Common Repairs

  • Replacing or cleaning the O2 sensor
  • Replacing a blown fuse (if applicable)
  • Adjusting fuel pressure
  • Repairing engine vacuum leaks
  • Repairing exhaust leaks
  • Cleaning connector corrosion
  • Repairing or replacing wiring
  • PCM replacement

I hope the information in this article has helped guide you in the right direction to correct the issue with your O2 sensor pump current compensation circuit. This article is strictly informational, and the technical data and service bulletins specific to your vehicle should always take priority.