How do I replace the 15894 oxygen sensor on my Pontiac car?

The oxygen sensor, particularly the 15894 oxygen sensor, is a critical component in your Pontiac car’s engine management system. It plays a pivotal role in ensuring your vehicle runs efficiently and complies with emissions regulations. In this article, we will provide a step-by-step guide on how to replace the 15894 oxygen sensor in your Pontiac car.

The Importance of the 15894 Oxygen Sensor

Before we delve into the replacement process, it’s essential to understand the significance of the 15894 oxygen sensor. This sensor monitors the level of oxygen in the exhaust gases and sends this data to the engine control unit (ECU). The ECU uses this information to adjust the air-fuel mixture, ensuring optimal combustion, fuel efficiency, and reduced emissions.

Tools and Preparation of 15894 Oxygen Sensor

Replacing the 15894 oxygen sensor requires a few tools and some preparation:

Safety First: Ensure that the vehicle is parked on a level surface and the engine is cool before you begin.

Tools: You’ll need a few basic tools, including a wrench or socket set, a ratchet, a jack and jack stands (if necessary), and a wire brush.

Replacement Sensor: Make sure you have the correct replacement 15894 oxygen sensor for your Pontiac model.

Step-by-Step Replacement 15894 Oxygen Sensor Process

Follow these steps to replace the 15894 oxygen sensor on your Pontiac car:

Locate the Sensor: The 15894 oxygen sensor is typically located in the exhaust system, either before or after the catalytic converter. Refer to your vehicle’s service manual for the exact location.

Disconnect the Battery: For safety reasons, disconnect the vehicle’s battery to prevent electrical shocks during the replacement process.

Access the Sensor: If necessary, raise the vehicle using a jack and secure it with jack stands. This will provide better access to the sensor.

Unplug the Sensor: Carefully disconnect the electrical connector attached to the sensor.

Remove the Old Sensor: Use a wrench or socket set to loosen and remove the old 15894 oxygen sensor from its mounting location. You may need to use a wire brush to clean the threads if they are corroded.

Install the New Sensor: Thread the new sensor into place by hand and use the wrench or socket set to tighten it. Be cautious not to over-tighten, as this can damage the sensor or the exhaust manifold.

Reconnect the Electrical Connector: Attach the electrical connector to the new sensor.

Reconnect the Battery: Reconnect the vehicle’s battery.

Clear Error Codes (if necessary): If the Check Engine Light was triggered by the old sensor, use an OBD-II scanner to clear any error codes.

Subtitle 4: Testing and Verification 15894 Oxygen Sensor

After replacing the 15894 oxygen sensor, take your Pontiac car for a test drive to ensure everything is functioning correctly. Monitor for any warning lights on the dashboard and check for improved engine performance and fuel efficiency.

Conclusion:

Replacing the 15894 oxygen sensor on your Pontiac car is a manageable DIY task that can significantly impact your vehicle’s performance and emissions. By following these steps and ensuring you have the correct replacement part, you can maintain your Pontiac’s engine efficiency and environmental responsibility. If you’re unsure about the replacement process, it’s advisable to consult a professional mechanic for assistance.

Why is the 15717 oxygen sensor one of the must-have upgrades for your Thunderbird model

When it comes to enhancing the performance and efficiency of your Thunderbird model, selecting the right upgrades is essential. Among the crucial components, the 15717 oxygen sensor stands out as a must-have for Thunderbird enthusiasts. In this article, we will delve into the significance of the 15717 oxygen sensor and why it’s a top choice for improving your Thunderbird’s overall performance.

The Role of the 15717 Oxygen Sensor

Before exploring the advantages of the 15717 oxygen sensor, it’s crucial to understand its role in your Thunderbird’s operation. This sensor is a vital component of the vehicle’s emissions control system. It continuously monitors the levels of oxygen in the exhaust gases, providing feedback to the engine control unit (ECU). The ECU then adjusts the air-fuel mixture based on this feedback, optimizing combustion for better performance and lower emissions.

Advantages of the 15717 Oxygen Sensor for Thunderbird

The 15717 oxygen sensor offers a range of advantages that make it a must-have upgrade for your Thunderbird:

Enhanced Fuel Efficiency: One of the primary benefits of the 15717 oxygen sensor is its ability to improve fuel efficiency. By providing real-time data on oxygen levels, it helps the ECU maintain an ideal air-fuel ratio, resulting in better mileage and reduced fuel consumption.

Optimized Engine Performance: The sensor’s feedback contributes to smoother engine performance. Your Thunderbird will experience consistent power delivery, reducing rough idling and improving overall driving experience.

Reduced Emissions: Upgrading to the 15717 oxygen sensor can significantly reduce harmful emissions, making your Thunderbird more environmentally friendly. It aids in achieving compliance with emissions regulations.

Extended Catalytic Converter Life: The precise data from the 15717 oxygen sensor ensures that the catalytic converter functions optimally. This can extend the lifespan of the converter and reduce maintenance costs.

Improved Response Time: The 15717 sensor is known for its fast response time, allowing it to quickly adapt to changes in oxygen levels. This ensures that your Thunderbird’s engine is always operating at its peak.

Where to Find the Best 15717 Oxygen Sensor for Your Thunderbird

To make the most of this upgrade, it’s essential to source the best 15717 oxygen sensor for your Thunderbird. Reputable automotive parts suppliers, authorized dealers, and online retailers often stock high-quality sensors designed for Thunderbird models. Ensure that the sensor you choose meets or exceeds OEM specifications and consider factors like warranty and customer reviews when making your selection.

Conclusion:

In conclusion, the 15717 oxygen sensor is a must-have upgrade for Thunderbird owners seeking improved performance, fuel efficiency, and reduced emissions. Its role in optimizing the air-fuel mixture, enhancing engine performance, and extending the life of critical components like the catalytic converter cannot be overstated. Invest in a quality 15717 oxygen sensor to unlock the full potential of your Thunderbird model, making it a more efficient and eco-friendly vehicle.

How to install the 15717 oxygen sensor to make your Thunderbird more environmentally friendly

If you own a Thunderbird and are looking to improve its environmental impact and overall performance, one essential component to consider is the 15717 oxygen sensor. In this article, we will guide you through the process of installing the 15717 oxygen sensor to help make your Thunderbird more environmentally friendly.

Understanding the Role of the 15717 Oxygen Sensor

Before we dive into the installation process, it’s essential to understand why the 15717 oxygen sensor is crucial for your Thunderbird. This sensor is responsible for monitoring the oxygen levels in the exhaust gases and providing real-time feedback to the engine control unit (ECU). This information helps the ECU optimize the air-fuel mixture, leading to improved fuel efficiency and reduced emissions.

Steps for Installing the 15717 Oxygen Sensor

Installing the 15717 oxygen sensor is a relatively straightforward process, but it requires attention to detail and care. Here are the steps to follow:

Safety First: Ensure your Thunderbird is parked on a level surface and the engine is cool before starting the installation.

Locate the Sensor: Find the location of the existing 15717 oxygen sensor in your exhaust system. It’s usually located before or after the catalytic converter.

Disconnect the Battery: For safety reasons, disconnect the negative terminal of the battery to prevent any electrical mishaps during the installation.

Remove the Old Sensor: Use an oxygen sensor socket or wrench to carefully remove the old sensor. Be cautious not to damage the wiring or the threads on the exhaust manifold or pipe.

Install the New Sensor: Apply anti-seize compound to the threads of the new 15717 oxygen sensor. Thread it into the same location where you removed the old sensor. Tighten it securely but avoid over-tightening.

Connect the Wiring: Reconnect the electrical wiring to the new sensor. Ensure the connection is secure and that the wiring is properly routed to avoid any damage.

Reconnect the Battery: Reconnect the negative terminal of the battery.

Start the Engine: Start your Thunderbird and let it run for a few minutes to allow the new 15717 oxygen sensor to warm up and begin providing data to the ECU.

Check for Errors: Use an OBD-II scanner to check for any error codes related to the oxygen sensor. If none are detected, you’ve successfully installed the 15717 oxygen sensor.

Benefits of the 15717 Oxygen Sensor

By installing the 15717 oxygen sensor in your Thunderbird, you can enjoy several benefits:

Reduced Emissions: The sensor helps your Thunderbird produce fewer harmful emissions, contributing to a cleaner environment.

Improved Fuel Efficiency: Optimized air-fuel mixture results in better fuel economy.

Enhanced Engine Performance: A properly functioning oxygen sensor leads to smoother engine operation and consistent power delivery.

Conclusion:

Installing the 15717 oxygen sensor in your Thunderbird is a simple yet effective way to make your vehicle more environmentally friendly while also improving its overall performance. Following the installation steps carefully ensures that the sensor operates optimally, contributing to lower emissions and better fuel efficiency. Make the environmentally conscious choice and upgrade your Thunderbird with the 15717 oxygen sensor today.

Audi A4 engine oxygen sensor is not good what impact? 0258003478 AUDI A4 Oxygen Sensor

The Audi A4 engine oxygen sensor is a crucial component for engine control, as its primary function is to monitor engine emissions and relay this information to the engine control unit (ECU). This enables the ECU to adjust the combustion efficiency of the engine based on changes in oxygen levels. If there is a malfunction with the oxygen sensor, it can have several effects on the engine:

0258003478 AUDI A4 Oxygen Sensor

Audi A4 engine oxygen sensor is not good what impact ?
1、Reduced fuel economy: A faulty oxygen sensor can prevent accurate adjustment of fuel supply and ignition timing by the ECU, resulting in decreased fuel efficiency.

Audi A4 engine oxygen sensor is not good what impact ?
2、Degraded engine performance: In of combustion efficiency due to an impaired oxygen sensor may lead to poor acceleration, insufficient power output, and other performance issues.

Audi A4 engine oxygen sensor is not good what impact ?
3、Increased emissions: An improperly functioning oxygen sensor can disrupt proper control of combustion efficiency by the ECU, potentially leading to higher emission levels of substances like CO and NOx.

Audi A4 engine oxygen sensor is not good what impact ?
4、Engine fault indicator illuminated: When an abnormal signal is detected by the ECU due to a failed oxygen sensor, it will trigger a fault code and illuminate the engine fault indicator light.

Audi A4 engine oxygen sensor is not good what impact ?
5、Engine stalling: If fuel supply and ignition timing are not properly regulated by a malfunctioning oxygen sensor, it may result in unexpected stalling of the engine.

0258003478 AUDI A4 Oxygen Sensor
OEM NO.: 0258003478 0258003518 0258003519
Lambda Oxygen Sensor for AUDI A4 A6 from 1994 1995 1996 1997 1998 1999 2000 2001 2002 2003 2004 2005
Type: Heating Type
Linear: 4 wires
this 0258003478 Oxygen Sensor also fit for CABRIOLET and VW Polo Passat 1.6 1.8 car

Why does your Infiniti FX45 need 250-24403 oxygen sensor Upstream?

Maintaining your Infiniti FX45’s optimal performance and efficiency is essential for a smooth driving experience. One critical component that plays a vital role in achieving this is the 250-24403 oxygen sensor upstream. In this article, we will explore the significance of the 250-24403 oxygen sensor upstream for your Infiniti FX45 and why it’s crucial for your vehicle’s well-being.

The Role of the 250-24403 Oxygen Sensor Upstream

The 250-24403 oxygen sensor upstream is a sensor positioned in the exhaust system before the catalytic converter. Its primary function is to monitor the levels of oxygen in the exhaust gases and provide real-time data to the engine control unit (ECU). This data allows the ECU to adjust the air-fuel mixture to achieve optimal combustion.

Benefits of the 250-24403 Oxygen Sensor Upstream

Having a functional 250-24403 oxygen sensor upstream in your Infiniti FX45 offers several advantages:

Emissions Control: The sensor helps regulate the air-fuel mixture, ensuring that it remains within the desired parameters. This leads to reduced emissions of harmful pollutants like carbon monoxide (CO) and nitrogen oxides (NOx), making your vehicle more environmentally friendly.

Improved Fuel Efficiency: With precise monitoring of the oxygen levels, the 250-24403 oxygen sensor upstream assists the ECU in achieving the ideal air-fuel ratio. This optimization results in improved fuel efficiency, saving you money at the pump.

Enhanced Engine Performance: Maintaining the correct air-fuel ratio is essential for engine performance. The 250-24403 oxygen sensor upstream helps your Infiniti FX45 run smoothly, providing consistent power and reducing the risk of engine misfires or poor acceleration.

Longevity of the Catalytic Converter: By ensuring that the catalytic converter receives accurate data, the 250-24403 sensor helps prolong the life of this critical emissions control component. This can save you from expensive catalytic converter replacements.

Signs of a Failing 250-24403 Oxygen Sensor Upstream

It’s essential to be aware of signs that your 250-24403 oxygen sensor upstream may be failing. Common indicators include:

Check Engine Light (CEL): If the sensor malfunctions, it can trigger the CEL on your dashboard.

Reduced Fuel Efficiency: A failing sensor can lead to decreased fuel economy due to an incorrect air-fuel mixture.

Poor Performance: You may notice rough idling, reduced power, or hesitation during acceleration.

Increased Emissions: A failing sensor can cause your vehicle to emit higher levels of pollutants, potentially leading to emissions test failure.

Conclusion:

In conclusion, the 250-24403 oxygen sensor upstream is a vital component for your Infiniti FX45’s performance, emissions control, and fuel efficiency. Regular maintenance and prompt replacement when necessary can ensure that your vehicle continues to run smoothly and in an environmentally friendly manner. If you observe any signs of a failing sensor, it’s advisable to consult a professional mechanic for diagnosis and replacement to maintain the well-being of your Infiniti FX45.

How does the Infiniti FX35 model 250-24403 oxygen sensor work downstream?

The Infiniti FX35 model, equipped with the 250-24403 downstream oxygen sensor, is a sophisticated vehicle designed for performance and efficiency. In this article, we will delve into the workings of the 250-24403 oxygen sensor downstream in the Infiniti FX35, shedding light on its vital role in optimizing engine performance and emissions control.

Understanding the Role of the 250-24403 downstream oxygen sensor

The 250-24403 downstream oxygen sensor, often referred to as a post-catalytic converter sensor, is an integral part of the vehicle’s emissions control system. Positioned after the catalytic converter, its primary function is to monitor the oxygen content in the exhaust gases as they exit the converter.

The Operational Mechanism of the 250-24403 downstream oxygen sensor

The 250-24403 downstream oxygen sensor operates based on a simple yet crucial principle: measuring the oxygen levels in the exhaust gases. Here’s how it works:

Monitoring Exhaust Gases: As exhaust gases flow through the exhaust system after passing through the catalytic converter, the 250-24403 downstream oxygen sensor is strategically placed to assess the oxygen concentration in these gases.

Data Transmission: The sensor constantly measures the oxygen levels and sends this data to the engine control unit (ECU) in real-time.

Adjusting the Air-Fuel Ratio: The ECU utilizes the information provided by the 250-24403 downstream oxygen sensor to fine-tune the air-fuel mixture fed into the engine. This feedback loop ensures that the engine operates at the optimal air-fuel ratio, improving fuel efficiency and minimizing harmful emissions.

Emissions Control: By regulating the air-fuel mixture, the 250-24403 downstream oxygen sensor helps the vehicle meet stringent emissions standards. It reduces the release of pollutants such as carbon monoxide (CO), nitrogen oxides (NOx), and hydrocarbons (HC), making the vehicle more environmentally friendly.

Maintenance and Replacement 250-24403 downstream oxygen sensor

To ensure the Infiniti FX35 continues to perform at its best, regular maintenance of the 250-24403 downstream oxygen sensor is essential. Over time, sensors may wear out or become less accurate. Signs of a failing sensor may include a check engine light, reduced fuel efficiency, and poor engine performance.

When replacing the 250-24403 downstream oxygen sensor, it’s advisable to choose a high-quality sensor that meets or exceeds OEM standards. This ensures accurate readings and reliable performance, allowing your Infiniti FX35 to continue operating efficiently and environmentally responsibly.

Conclusion:

In conclusion, the 250-24403 downstream oxygen sensor in the Infiniti FX35 plays a vital role in optimizing engine performance and emissions control. By constantly monitoring and regulating the oxygen levels in exhaust gases, this sensor ensures that the vehicle operates efficiently while minimizing its environmental impact. Regular maintenance and replacement, if necessary, are key to ensuring the Infiniti FX35 continues to perform at its best.

Infiniti FX35 Vehicle fault code P0136? 250-24403 Oxygen sensor downstream problem analysis

When your Infiniti FX35 triggers a fault code P0136, it’s essential to understand the underlying issue, especially when it relates to the 250-24403 oxygen sensor downstream. In this article, we will delve into the significance of this fault code in an Infiniti FX35 and analyze the problems associated with the 250-24403 oxygen sensor downstream.

Decoding Fault Code P0136 in the Infiniti FX35

Fault code P0136 in an Infiniti FX35 refers to an issue with the downstream oxygen sensor, specifically the 250-24403 oxygen sensor downstream. This code indicates that the sensor is not functioning within its expected parameters, potentially affecting the vehicle’s performance, fuel efficiency, and emissions. Understanding the nature of this fault is crucial for effective diagnosis and repair.

Subtitle 2: The Role of the 250-24403 Oxygen Sensor Downstream

The 250-24403 oxygen sensor downstream is a critical component of the Infiniti FX35’s emissions control system. Its primary function is to monitor the levels of oxygen in the exhaust gases after they have passed through the catalytic converter. This information is relayed to the engine control unit (ECU), allowing it to make necessary adjustments to the air-fuel mixture for optimal performance and emissions control.

When this 250-24403 oxygen sensor downstream malfunctions, it can lead to various issues, including reduced fuel efficiency, increased emissions, and even poor engine performance. These problems can potentially result in a failed emissions test and increased environmental impact.

Diagnosing and Addressing 250-24403 Oxygen Sensor Downstream Problems

If you encounter fault code P0136 in your Infiniti FX35, it’s crucial to take appropriate steps to diagnose and address the issue:

Check Wiring and Connections: Begin by inspecting the wiring and connections associated with the 250-24403 oxygen sensor downstream. Loose or damaged wires can lead to erratic sensor readings.

250-24403 oxygen sensor downstream Replacement: If the wiring and connections are in good condition, it may be necessary to replace the sensor itself. Ensure that you choose a high-quality replacement sensor compatible with your Infiniti FX35.

Clearing Fault Codes: After addressing the problem, use a diagnostic tool to clear the fault codes stored in the ECU. This step ensures that the issue has been resolved.

Monitor Performance: After replacing the sensor or fixing the wiring issue, monitor the vehicle’s performance, fuel efficiency, and emissions to ensure that the problem has been successfully addressed.

Conclusion:

In conclusion, when your Infiniti FX35 displays fault code P0136 related to the 250-24403 oxygen sensor downstream, it’s essential to take prompt action. Understanding the role of this sensor and its significance in emissions control and engine performance is key to diagnosing and addressing the issue effectively. By following the necessary steps for diagnosis and repair, you can ensure that your Infiniti FX35 continues to run smoothly while minimizing its environmental impact.

2344191 O2 Sensor Upgrade Guide: Make your Hyundai Tucson Greener

As automotive technology continues to advance, there are innovative ways to make your Hyundai Tucson more environmentally friendly and efficient. One such method is upgrading to the 2344191 O2 sensor, which can have a significant impact on reducing emissions and enhancing fuel efficiency. In this article, we will provide a comprehensive guide on how to upgrade your Hyundai Tucson with the 2344191 O2 sensor for a greener and more eco-friendly driving experience.

The Role of the 2344191 O2 Sensor in Your Hyundai Tucson

The 2344191 O2 sensor, also known as the oxygen sensor, is a critical component in your Hyundai Tucson’s exhaust system. Its primary function is to monitor the levels of oxygen in the exhaust gases and provide this data to the engine control unit (ECU). This information allows the ECU to make precise adjustments to the air-fuel mixture, ensuring optimal combustion and reducing harmful emissions.

Advantages of Upgrading to the 2344191 O2 Sensor

Upgrading to the 2344191 O2 sensor offers several notable advantages for your Hyundai Tucson:

Reduced Emissions: The upgraded sensor provides more accurate readings, allowing for better control over the air-fuel ratio. This results in lower emissions of pollutants such as carbon monoxide (CO) and nitrogen oxides (NOx), contributing to a cleaner environment.

Improved Fuel Efficiency: The 2344191 O2 sensor helps optimize fuel combustion, preventing excess fuel from being used. This optimization leads to improved fuel efficiency and reduced fuel consumption.

Enhanced Engine Performance: With precise air-fuel ratio control, your Hyundai Tucson’s engine operates more efficiently, leading to smoother and more consistent power delivery.

Extended Catalytic Converter Life: By reducing the workload on the catalytic converter, the upgraded sensor can extend its lifespan, potentially saving you from costly replacements.

How to Upgrade to the 2344191 O2 Sensor in Your Hyundai Tucson

Upgrading to the 2344191 O2 sensor in your Hyundai Tucson can be a relatively straightforward process, but it is recommended to have it done by a qualified mechanic or technician. Here are the general steps:

Identify the Location: Determine the location of the existing O2 sensor in your Tucson’s exhaust system. It is typically located before or after the catalytic converter.

Disconnect and Remove: Safely disconnect the old O2 sensor and remove it from its mounting point. This may require specialized tools.

Install the New Sensor: Carefully install the 2344191 O2 sensor in the same location as the old one, ensuring it is securely attached.

Connect Wiring: Reconnect the sensor’s wiring to your Tucson’s electrical system.

Testing: After installation, the new sensor should be tested to ensure it is functioning correctly. Any error codes should be cleared from the ECU.

Conclusion:

Upgrading your Hyundai Tucson with the 2344191 O2 sensor is a proactive step towards making your vehicle greener and more eco-friendly. With its ability to reduce emissions, enhance fuel efficiency, and improve engine performance, this upgrade not only benefits the environment but also your wallet in the long run. Remember to consult with a professional mechanic or technician for a proper installation to fully enjoy the advantages of this upgrade.

Discover what the 2344191 O2 sensor does in the Hyundai Tucson: Create an exceptional driving experience

When it comes to optimizing the performance and efficiency of your Hyundai Tucson, the 2344191 O2 sensor plays a crucial role. In this article, we will explore the functions of the 2344191 O2 sensor in the Hyundai Tucson and how it contributes to creating an exceptional driving experience.

Understanding the 2344191 O2 Sensor

The 2344191 O2 sensor, also known as the oxygen sensor, is a vital component of your Hyundai Tucson’s emissions control system. It is strategically located in the exhaust system, usually before or after the catalytic converter. The primary function of this sensor is to monitor the level of oxygen in the exhaust gases and provide feedback to the engine control unit (ECU).

The Role of the 2344191 O2 Sensor in the Hyundai Tucson

The 2344191 O2 sensor serves several essential functions in the Hyundai Tucson:

Optimizing Air-Fuel Mixture: The sensor continuously measures the oxygen content in the exhaust gases and relays this information to the ECU. Based on this data, the ECU adjusts the air-fuel mixture in real-time, ensuring that it is neither too rich (excess fuel) nor too lean (excess air). This optimization results in improved fuel efficiency and engine performance.

Emissions Control: By monitoring the exhaust gases, the 2344191 O2 sensor helps reduce harmful emissions, such as carbon monoxide (CO) and nitrogen oxides (NOx). This is essential for compliance with emissions regulations and minimizing your vehicle’s environmental impact.

Catalytic Converter Efficiency: The sensor’s data also plays a crucial role in ensuring the catalytic converter operates at its peak efficiency. This extends the lifespan of the catalytic converter and reduces maintenance costs.

Enhancing Driving Experience: An accurately functioning 2344191 O2 sensor contributes to a smoother and more responsive engine performance. It helps eliminate issues like rough idling and hesitation, creating a more enjoyable and comfortable driving experience.

Maintaining and Replacing the 2344191 O2 Sensor

To ensure that your Hyundai Tucson continues to deliver an exceptional driving experience, it’s essential to maintain and, if necessary, replace the 2344191 O2 sensor when it malfunctions. Signs of a faulty sensor may include a check engine light, decreased fuel efficiency, rough idling, or increased emissions.

When replacing the sensor, it’s crucial to choose a high-quality replacement part that meets or exceeds OEM specifications. You can find compatible 2344191 O2 sensors from reputable automotive parts suppliers or authorized Hyundai dealers.

Conclusion:

In conclusion, the 2344191 O2 sensor in the Hyundai Tucson is a critical component that significantly impacts the vehicle’s performance, efficiency, and environmental footprint. Understanding its functions and ensuring its proper maintenance and replacement when needed can help you create and maintain an exceptional driving experience in your Hyundai Tucson.

0258007351 Lambda Oxygen Sensor Skoda Volkswagen Jetta auto Part find a replacement lambda sensor

if you want find a Lambda Oxygen Sensor For Skoda Volkswagen Jetta you should find the correct part based on your vehicle’s VIN number or other identifying information.

find about 0258007351 Lambda Oxygen Sensor

Fitment-Manufacturer Part No# 0 258 007 351 0258007351 1K0998262D 234-5112
Type Linear:5-wire,
suitable
For 2002 2003 2004 2005 Volkswagen Jetta 1.8L-L4,
For 1999 2000 2001 2002 2003 2004 2005 Skoda

0258007351 Lambda Oxygen Sensor mean

This Lambda Oxygen Sensor is suitable for Skoda Jetta models produced from 1999 to 2005, with specific adaptation years including 2002, 2003, 2004, and 2005. In addition, this sensor is located on the left rear and is suitable for gasoline engine cars with automatic transmissions, and needs to be matched with a specific VIN number . This sensor has 5 wires and is suitable for a 1.8-liter four cylinder engine.

matters need attention 0258007351 Lambda Oxygen Sensor

Always make sure to verify the compatibility of the part with your vehicle before making a purchase. When installing a new Lambda sensor, it is important to follow the manufacturer’s recommendations for installation and maintenance.

If the oxygen sensor 0258007351 malfunctions, it will affect the regulating function of the engine control system, thereby affecting the combustion efficiency of the engine and the purification effect of emissions.

about Volkswagen Jetta,According to J.D. Power’s 2019 Automotive Reliability report, the Volkswagen Jetta has a reliability score of 86 in the North American market, which is 14 percentage points higher than the average. In addition, the model was also praised for its safety, receiving the IIHS’s highest safety award. Many consumers consider the Jetta to be a cost-effective, reliable, and stylish looking car.

Skoda (Skoda) is one of the classic brands of Volkswagen, founded in 1895, headquartered in Mlada-Boleslav, Czech Republic. It is one of the four oldest automobile manufacturers in the world, the main products are Cordiac, Coroke, Suepai, Octavia and so on.