What Is The Standard Address For The Engine Module In VAG Cars? (01)

Car scan tools are essential for diagnosing and repairing modern vehicles, and specialized training is crucial for maximizing their effectiveness. At CAR-SCAN-TOOL.EDU.VN, we empower automotive technicians with in-depth car scanner training, enabling them to accurately interpret data and efficiently resolve complex automotive issues through remote technician education. Our comprehensive programs ensure professionals stay ahead in the rapidly evolving field of automotive diagnostics by offering advanced diagnostic skills and remote car diagnostics training.

1. Understanding the Engine Module Address in VAG Vehicles

The standard address for the engine module in VAG (Volkswagen Audi Group) cars is typically 01. This address is crucial for communicating with the engine control unit (ECU) using diagnostic tools. Understanding this address helps technicians accurately diagnose and resolve engine-related issues.

The engine module address, commonly “01,” is your gateway to the car’s brain. This is where a scan tool initiates communication to retrieve diagnostic trouble codes (DTCs), live data, and perform various tests. Think of it as the specific room number in a building (the car’s electronic architecture) where the engine management system resides. Knowing this address is the first step in efficient diagnostics.

The engine control unit (ECU), often referred to as the engine control module (ECM), is the central computer responsible for managing the engine’s performance. It controls various functions such as fuel injection, ignition timing, and emissions. Accessing the ECU via address 01 allows technicians to read and clear trouble codes, monitor real-time data, and perform system tests to identify and resolve engine-related problems.

2. Why Is Knowing the Engine Module Address Important?

Knowing the engine module address is important because it allows technicians to directly communicate with the ECU, enabling accurate diagnostics and efficient repairs. Without knowing the correct address, it would be impossible to access the necessary data and perform essential tests.

2.1 Efficient Diagnostics

By inputting the correct address, technicians can quickly access the ECU and retrieve diagnostic trouble codes (DTCs). DTCs provide valuable information about the nature and location of the problem, allowing technicians to focus their efforts on the affected systems.

2.2 Accurate Data Interpretation

Accessing the ECU through the correct address ensures that the data retrieved is accurate and relevant. This is crucial for interpreting live data streams and performing system tests, as incorrect data can lead to misdiagnosis and unnecessary repairs.

2.3 Streamlined Repairs

Knowing the engine module address streamlines the repair process by providing technicians with direct access to the information they need. This reduces the time required for diagnosis and repair, resulting in increased efficiency and customer satisfaction.

2.4 Diagnostic Precision

Imagine trying to find a specific file on your computer without knowing the correct folder path. Similarly, without the correct address, a scan tool is essentially lost in the car’s network. Knowing the engine module address allows for precise targeting of the ECU, ensuring you’re reading the correct data and performing the right tests. This precision minimizes guesswork and saves time.

2.5 Enhanced Communication

Think of the address as a common language understood by both the scan tool and the ECU. By using this “language,” the scan tool can request specific information and instructions from the ECU, which then responds with the requested data or executes the command. This clear communication channel is vital for tasks like resetting adaptations, coding new components, or performing output tests.

2.6 Avoiding Network Conflicts

Modern cars are complex networks of interconnected modules. Incorrectly addressing a module can lead to communication errors or even conflicts within the network. Knowing the correct address ensures that the scan tool only communicates with the intended module, preventing disruption to other systems.

2.7 Foundational Diagnostic Step

Consider knowing the engine module address as a fundamental step in the diagnostic process, like knowing the patient’s name before a medical examination. It sets the stage for all subsequent diagnostic procedures and ensures you’re starting on the right foot.

3. Common Diagnostic Tools Used for VAG Vehicles

Several diagnostic tools are commonly used for VAG vehicles, each offering unique features and capabilities. These tools range from basic code readers to advanced diagnostic systems.

3.1 VCDS (VAG-COM Diagnostic System)

VCDS is a popular diagnostic tool specifically designed for VAG vehicles. It offers a wide range of features, including DTC reading and clearing, live data monitoring, adaptation, and coding. VCDS is known for its user-friendly interface and extensive coverage of VAG models.

Key Features:

• DTC Reading and Clearing
• Live Data Monitoring
• Adaptation and Coding
• Actuator Tests
• Service Resets

3.2 ODIS (Offboard Diagnostic Information System)

ODIS is the official diagnostic tool used by VAG dealerships and authorized service centers. It provides comprehensive diagnostic and programming capabilities, including access to the latest software updates and technical information.

Key Features:

• Guided Fault Finding
• ECU Programming and Flashing
• Access to Technical Service Bulletins (TSBs)
• Vehicle Diagnostics
• Module Coding and Adaptation

3.3 Generic OBD-II Scanners

Generic OBD-II scanners can be used for basic diagnostics on VAG vehicles, particularly for reading and clearing engine-related DTCs. While they may not offer the advanced features of VCDS or ODIS, they can be a cost-effective option for basic troubleshooting.

Key Features:

• DTC Reading and Clearing
• Live Data Monitoring (limited)
• Freeze Frame Data
• I/M Readiness Tests

3.4 Autel Diagnostic Tools

Autel offers a range of diagnostic tools that support VAG vehicles, providing features such as DTC reading and clearing, live data monitoring, and basic coding functions. These tools are known for their versatility and ease of use.

Key Features:

• DTC Reading and Clearing
• Live Data Monitoring
• Basic Coding Functions
• Service Resets
• Bi-Directional Control

3.5 Launch Diagnostic Tools

Launch diagnostic tools are another popular option for VAG vehicles, offering similar features to Autel tools. They provide comprehensive diagnostic capabilities, including DTC reading and clearing, live data monitoring, and special functions.

Key Features:

• DTC Reading and Clearing
• Live Data Monitoring
• Special Functions (e.g., throttle reset, steering angle reset)
• Service Resets
• ECU Coding

Here’s a table summarizing the features of each tool:

Diagnostic Tool	DTC Reading/Clearing	Live Data Monitoring	Adaptation/Coding	Special Functions	Official VAG Support
VCDS	Yes	Yes	Yes	Yes	No
ODIS	Yes	Yes	Yes	Yes	Yes
Generic OBD-II Scanners	Yes	Limited	No	No	No
Autel Diagnostic Tools	Yes	Yes	Basic	Yes	No
Launch Diagnostic Tools	Yes	Yes	Basic	Yes	No

3.6 Snap-on Diagnostic Tools

Snap-on diagnostic tools are known for their robust build quality and advanced diagnostic capabilities. While they can be more expensive than other options, they offer comprehensive coverage of VAG vehicles and advanced features such as guided diagnostics and component testing.

Key Features:

• DTC Reading and Clearing
• Live Data Monitoring
• Guided Diagnostics
• Component Testing
• Extensive Vehicle Coverage

4. Step-by-Step Guide to Accessing the Engine Module

Accessing the engine module in VAG vehicles involves connecting a diagnostic tool to the OBD-II port and using the tool to communicate with the ECU at address 01.

4.1 Connecting the Diagnostic Tool

1. Locate the OBD-II Port: The OBD-II port is typically located under the dashboard on the driver’s side.
2. Connect the Tool: Plug the diagnostic tool into the OBD-II port.
3. Turn on the Ignition: Turn the ignition key to the “ON” position without starting the engine.

4.2 Using the Diagnostic Tool

1. Power On the Tool: Turn on the diagnostic tool and wait for it to boot up.
2. Select VAG Vehicle: Choose the appropriate VAG vehicle model from the tool’s menu.
3. Enter Module Address: Enter “01” as the engine module address.
4. Initiate Communication: Start the communication process with the ECU.
5. Read DTCs and Live Data: Once connected, you can read diagnostic trouble codes (DTCs) and monitor live data streams.

4.3 A Practical Example: Using VCDS

1. Connect VCDS: Plug the VCDS interface into the OBD-II port and connect it to your computer via USB.
2. Launch VCDS Software: Open the VCDS software on your computer.
3. Select Control Module: Click on “Select Control Module” on the main screen.
4. Enter Address 01: Enter “01” in the address field and press “Enter.”
5. Access Engine Module: VCDS will now communicate with the engine module, allowing you to read DTCs, view live data, and perform various tests.

5. Interpreting Data from the Engine Module

Interpreting data from the engine module requires understanding diagnostic trouble codes (DTCs) and live data streams.

5.1 Understanding Diagnostic Trouble Codes (DTCs)

DTCs are codes stored in the ECU that indicate a problem with a specific system or component. Each DTC consists of a letter followed by four numbers.

• P**: Powertrain (Engine, Transmission)
• B**: Body (Airbags, Lights)
• C**: Chassis (ABS, Stability Control)
• U**: Network (Communication)

The numbers provide more specific information about the fault. For example, P0300 indicates a random misfire detected.

5.2 Analyzing Live Data Streams

Live data streams provide real-time information about various engine parameters, such as RPM, coolant temperature, and oxygen sensor readings. Analyzing these data streams can help identify intermittent problems and diagnose performance issues.

• RPM (Revolutions Per Minute): Indicates the engine speed.
• Coolant Temperature: Shows the engine’s operating temperature.
• Oxygen Sensor Readings: Indicates the air-fuel mixture.
• Mass Airflow (MAF): Measures the amount of air entering the engine.

5.3 A Real-World Scenario: Diagnosing a Misfire

1. Read DTCs: Connect your scan tool and find a DTC like P0301 (Cylinder 1 Misfire).
2. Check Live Data: Monitor RPM, MAF, and O2 sensor readings. Look for fluctuations or abnormalities.
3. Perform Cylinder Balance Test: Use the scan tool to deactivate cylinder 1 and see if the misfire goes away. If it does, the problem is likely in that cylinder.
4. Inspect Components: Check the spark plug, ignition coil, and fuel injector for cylinder 1.

6. Common Issues and Solutions When Accessing the Engine Module

Several issues can arise when attempting to access the engine module, including communication errors, incorrect addresses, and faulty diagnostic tools.

6.1 Communication Errors

Communication errors can occur due to various reasons, such as a loose connection, a faulty OBD-II port, or a problem with the diagnostic tool.

Solutions:

• Check the connection between the diagnostic tool and the OBD-II port.
• Inspect the OBD-II port for damage or corrosion.
• Try a different diagnostic tool or cable.

6.2 Incorrect Address

Entering the wrong address can prevent the diagnostic tool from communicating with the engine module.

Solutions:

• Double-check the address and ensure it is entered correctly.
• Consult the vehicle’s service manual or a reliable online resource for the correct address.
• Try using the tool’s auto-scan feature to identify the engine module automatically.

6.3 Faulty Diagnostic Tool

A faulty diagnostic tool can cause communication errors and prevent access to the engine module.

Solutions:

• Test the diagnostic tool on another vehicle to see if it is working correctly.
• Update the tool’s software to the latest version.
• Contact the tool manufacturer for support or repair.

6.4 Software Glitches

Diagnostic tools, like any computer, can experience software glitches.

Solutions:

• Restart the Tool: A simple restart can often resolve minor software issues.
• Update Software: Keep your scan tool’s software up-to-date. Manufacturers regularly release updates that fix bugs and improve performance.
• Reinstall Software: If issues persist, consider reinstalling the software.
• Factory Reset: As a last resort, perform a factory reset. Be aware that this will erase any custom settings.

6.5 Vehicle Battery Issues

A weak or dying car battery can sometimes interfere with the diagnostic process.

Solutions:

• Check Battery Voltage: Use a multimeter to check the battery’s voltage. It should be around 12.6 volts when the car is off.
• Jump Start: If the battery is low, try jump-starting the car and then attempt to connect with the scan tool.
• Battery Charger: Use a battery charger to fully charge the battery before attempting diagnostics.

6.6 CAN Bus Problems

The Controller Area Network (CAN) bus is the communication network that connects all the electronic modules in the car. Problems with the CAN bus can prevent communication with the engine module.

Solutions:

• Check for Physical Damage: Inspect the wiring harness for any signs of damage, such as cuts, breaks, or corrosion.
• Check CAN Bus Voltage: Use a multimeter to check the voltage on the CAN bus wires. Consult the vehicle’s service manual for the correct voltage specifications.
• Look for DTCs: Use a scan tool to check for DTCs related to CAN bus communication.

7. Advanced Diagnostic Techniques

Advanced diagnostic techniques can help technicians diagnose complex engine problems that cannot be resolved with basic diagnostics.

7.1 Component Testing

Component testing involves using a multimeter or oscilloscope to test individual components, such as sensors, actuators, and wiring harnesses. This can help identify faulty components that are causing engine problems.

7.2 Actuator Testing

Actuator testing involves using the diagnostic tool to activate or deactivate specific components, such as fuel injectors or solenoids. This can help determine if the components are functioning correctly.

7.3 Data Logging

Data logging involves recording live data streams over a period of time. This can help identify intermittent problems and diagnose performance issues that only occur under certain conditions.

7.4 ECU Programming and Coding

In some cases, it may be necessary to reprogram or recode the ECU to resolve engine problems. This requires specialized tools and knowledge, and should only be performed by qualified technicians.

7.5 Harness Checks

Visually inspect the wiring harness for any signs of damage, such as frayed wires, corrosion, or loose connections. Pay close attention to areas where the harness is routed near sharp edges or hot components.

7.6 Pinpoint Testing

Pinpoint testing involves using a multimeter to check the voltage, resistance, and continuity of individual wires and components. This can help isolate the source of a problem, such as a broken wire or a faulty sensor.

7.7 Advanced Oscilloscope Techniques

An oscilloscope can be used to analyze the waveforms of electrical signals, providing valuable insights into the performance of sensors and actuators. Advanced techniques include:

• Relative Compression Testing: Measures the compression of each cylinder relative to the others, helping to identify cylinders with low compression.
• Fuel Injector Waveform Analysis: Analyzes the waveform of the fuel injector signal to check for proper operation.
• Ignition System Analysis: Analyzes the waveforms of the ignition system to check for proper spark and timing.

8. The Importance of Training and Education

Proper training and education are essential for technicians to effectively use diagnostic tools and perform advanced diagnostics. CAR-SCAN-TOOL.EDU.VN offers comprehensive training programs designed to equip technicians with the knowledge and skills they need to succeed.

8.1 Benefits of Professional Training

• Increased Accuracy: Training improves diagnostic accuracy, reducing the risk of misdiagnosis and unnecessary repairs.
• Improved Efficiency: Skilled technicians can diagnose and repair problems more quickly, increasing efficiency and customer satisfaction.
• Enhanced Knowledge: Training provides technicians with a deeper understanding of automotive systems and diagnostic techniques.
• Career Advancement: Certification and advanced training can lead to career advancement opportunities and higher earning potential.

8.2 CAR-SCAN-TOOL.EDU.VN Training Programs

CAR-SCAN-TOOL.EDU.VN offers a variety of training programs designed to meet the needs of technicians at all skill levels. Our programs cover a wide range of topics, including basic diagnostics, advanced diagnostics, and ECU programming.

Course Name	Duration	Target Audience	Description
Basic Diagnostics	2 Weeks	Entry-Level Technicians	Covers basic diagnostic techniques and the use of diagnostic tools.
Advanced Diagnostics	4 Weeks	Experienced Technicians	Covers advanced diagnostic techniques and component testing.
ECU Programming	3 Weeks	Technicians with coding experience	Focuses on ECU programming and coding procedures.
VAG Vehicle Diagnostics	5 Weeks	Technicians specializing in VAG	In-depth training on VAG vehicle diagnostics, including VCDS and ODIS.
Remote Diagnostic Techniques	4 Weeks	All Technicians	Training on remote diagnostic tools and techniques for efficient troubleshooting.

8.3 Case Study: Success with Training

John, a technician with five years of experience, struggled with diagnosing complex engine problems. After completing the Advanced Diagnostics program at CAR-SCAN-TOOL.EDU.VN, John’s diagnostic accuracy improved significantly. He was able to diagnose and repair problems more quickly, resulting in increased efficiency and customer satisfaction.

8.4 Continuous Learning Imperative

The automotive industry is in constant flux, with new technologies and systems emerging regularly. This necessitates continuous learning for technicians to stay updated. Training programs should emphasize the importance of staying current with industry advancements and provide resources for ongoing professional development.

8.5 Hands-On Experience

Effective training programs incorporate hands-on experience to complement theoretical knowledge. This can involve working on real vehicles, using diagnostic tools in simulated scenarios, and participating in workshops where technicians can practice their skills under the guidance of experienced instructors.

8.6 Industry Certifications

Industry certifications validate a technician’s knowledge and skills, enhancing their credibility and demonstrating their commitment to excellence. Training programs should prepare technicians for relevant certifications, such as those offered by ASE (Automotive Service Excellence) or manufacturer-specific certifications.

8.7 Mentorship Programs

Pairing experienced technicians with less experienced ones can facilitate knowledge transfer and provide valuable mentorship opportunities. Mentors can guide trainees, share insights, and provide support as they navigate the complexities of automotive diagnostics.

8.8 Return on Investment

Investing in training is an investment in a technician’s future. Studies have shown that trained technicians are more productive, make fewer mistakes, and are more likely to stay with their employers. This translates into significant cost savings and increased profitability for automotive service businesses.

According to a study by the National Institute for Automotive Service Excellence (ASE), certified technicians earn an average of 16% more than non-certified technicians. This highlights the tangible financial benefits of investing in professional training and certification.

9. Remote Diagnostic Training at CAR-SCAN-TOOL.EDU.VN

CAR-SCAN-TOOL.EDU.VN provides cutting-edge remote diagnostic training, designed to meet the needs of modern automotive technicians. Our online programs offer flexibility, convenience, and comprehensive content, ensuring that you can enhance your skills from anywhere in the world.

9.1 Flexibility and Convenience

Our remote training programs allow you to learn at your own pace and on your own schedule. You can access course materials and participate in live sessions from anywhere with an internet connection, making it easy to balance your training with your work and personal commitments.

9.2 Comprehensive Content

Our remote training programs cover a wide range of topics, including basic diagnostics, advanced diagnostics, ECU programming, and vehicle-specific diagnostics. We use a variety of teaching methods, including video lectures, interactive simulations, and hands-on exercises, to ensure that you gain a thorough understanding of the material.

9.3 Expert Instructors

Our instructors are experienced automotive technicians and diagnostic specialists who are passionate about sharing their knowledge and skills. They provide personalized support and guidance to help you succeed in your training.

9.4 Cutting-Edge Technology

We use the latest technology to deliver our remote training programs, including high-definition video, interactive simulations, and virtual reality (VR) training environments. This ensures that you have an engaging and immersive learning experience.

9.5 Interactive Learning

Our remote training programs are designed to be interactive and engaging. You’ll have opportunities to participate in live discussions, ask questions, and collaborate with other students. We also provide regular feedback and assessments to help you track your progress.

9.6 Customized Learning Paths

We understand that every technician has unique learning needs. That’s why we offer customized learning paths that allow you to focus on the topics that are most relevant to your career goals.

9.7 Access to Industry Experts

Our remote training programs provide access to industry experts who can answer your questions and provide guidance on complex diagnostic challenges.

9.8 Cost-Effective Training

Remote training is often more cost-effective than traditional classroom-based training, as it eliminates the need for travel and accommodation expenses.

9.9 Immediate Application of Knowledge

Remote training allows you to immediately apply what you’ve learned to real-world diagnostic scenarios, reinforcing your understanding and improving your skills.

9.10 Continuous Support

We provide ongoing support to our remote training graduates, including access to online resources, forums, and mentorship programs.

9.11 Advanced Diagnostic Simulation

CAR-SCAN-TOOL.EDU.VN employs advanced diagnostic simulation, mirroring real-world vehicle issues, for effective remote training.

9.12 Real-World Vehicle Scenarios

CAR-SCAN-TOOL.EDU.VN’s remote training uses scenarios mimicking everyday vehicle repairs, improving technicians’ diagnostic capabilities.

9.13 Virtual Reality Diagnostic Environments

CAR-SCAN-TOOL.EDU.VN offers VR diagnostic training, creating an immersive learning experience for complex automotive diagnostics.

10. Staying Updated with the Latest Technology

The automotive industry is constantly evolving, so it is essential to stay updated with the latest technology and diagnostic techniques.

10.1 Subscribing to Industry Publications

Subscribing to industry publications and online resources can provide valuable information about new technologies, diagnostic techniques, and industry trends.

10.2 Attending Trade Shows and Conferences

Attending trade shows and conferences can provide opportunities to network with other technicians, learn about new products and services, and attend technical seminars and workshops.

10.3 Participating in Online Forums and Communities

Participating in online forums and communities can provide opportunities to share knowledge, ask questions, and learn from other technicians.

10.4 Embracing Hybrid and Electric Vehicle Diagnostics

As hybrid and electric vehicles become more prevalent, it’s essential to develop expertise in diagnosing and repairing these vehicles. This requires specialized training and equipment.

10.5 Keeping Up With ADAS Technology

Advanced Driver-Assistance Systems (ADAS) are becoming increasingly common in modern vehicles. Technicians need to understand how these systems work and how to diagnose and calibrate them.

10.6 Utilizing Cloud-Based Diagnostic Tools

Cloud-based diagnostic tools offer several advantages, including remote access, automatic updates, and collaborative features.

10.7 Understanding Cybersecurity Risks

Modern vehicles are vulnerable to cybersecurity threats. Technicians need to be aware of these risks and take steps to protect their diagnostic tools and the vehicles they are working on.

10.8 Software Update and Maintenance

Ensure that the diagnostic software is always updated to support new vehicle models and diagnostic protocols. Neglecting updates can lead to inaccurate readings or the inability to communicate with newer systems.

10.9 Staying Compliant with Regulations

Keep abreast of any regulatory changes affecting automotive diagnostics, such as emissions testing requirements or safety standards.

FAQ: Addressing Your Questions About Engine Module Diagnostics

Here are some frequently asked questions to help you further understand engine module diagnostics and training:

1. What is the standard address for the engine module in VAG cars and why is it important?

The standard address is 01. It’s essential for direct communication with the ECU, enabling accurate diagnostics and efficient repairs.

2. What are the most common diagnostic tools used for accessing the engine module in VAG vehicles?

Common tools include VCDS, ODIS, generic OBD-II scanners, Autel, Launch, and Snap-on diagnostic tools.

3. How can I interpret diagnostic trouble codes (DTCs) from the engine module?

DTCs provide information about the nature and location of the problem. They consist of a letter (P, B, C, or U) followed by four numbers.

4. What are some common issues that can prevent access to the engine module?

Common issues include communication errors, incorrect addresses, and faulty diagnostic tools.

5. What advanced diagnostic techniques can help with complex engine problems?

Advanced techniques include component testing, actuator testing, data logging, and ECU programming.

6. Why is training and education important for automotive technicians?

Training improves diagnostic accuracy, enhances knowledge, and provides career advancement opportunities.

7. What remote training programs does CAR-SCAN-TOOL.EDU.VN offer?

CAR-SCAN-TOOL.EDU.VN offers remote training programs covering basic diagnostics, advanced diagnostics, and ECU programming.

8. How can remote training benefit automotive technicians?

Remote training offers flexibility, convenience, and comprehensive content, allowing technicians to learn at their own pace.

9. How can I stay updated with the latest technology in automotive diagnostics?

Stay updated by subscribing to industry publications, attending trade shows, and participating in online forums.

10. What support does CAR-SCAN-TOOL.EDU.VN offer to remote training graduates?

We provide ongoing support, including access to online resources, forums, and mentorship programs.

11. What is the role of live data streams in diagnosing engine issues?

Live data streams offer real-time information about engine parameters like RPM, coolant temperature, and oxygen sensor readings, which are essential for diagnosing performance issues and intermittent problems.

12. How does ECU programming help in resolving complex engine problems?

ECU programming involves reprogramming or recoding the ECU to resolve engine problems, requiring specialized tools and qualified technicians.

13. How can I effectively use a generic OBD-II scanner for VAG vehicle diagnostics?

Generic OBD-II scanners can be used for basic diagnostics on VAG vehicles to read and clear engine-related DTCs, though they may lack advanced features compared to VCDS or ODIS.

14. What are the benefits of choosing VCDS for VAG vehicle diagnostics over other tools?

VCDS is specifically designed for VAG vehicles, offering a user-friendly interface and extensive coverage of VAG models with features like DTC reading and clearing, live data monitoring, adaptation, and coding.

15. Can remote training help me stay updated with the latest ADAS technology?

Yes, CAR-SCAN-TOOL.EDU.VN’s remote training programs are designed to keep you up-to-date with the latest automotive technologies, including ADAS.

Understanding the standard address for the engine module in VAG cars and mastering the use of diagnostic tools is crucial for any automotive technician. With the right training and tools, you can efficiently diagnose and repair complex engine problems. CAR-SCAN-TOOL.EDU.VN provides comprehensive remote training programs to equip you with the skills and knowledge you need to succeed in the automotive industry. Equip yourself with advanced car diagnostic training and remote automotive education.

Ready to take your diagnostic skills to the next level? Contact CAR-SCAN-TOOL.EDU.VN today to learn more about our remote training programs and how they can help you advance your career!

Contact us at: 555 Automotive Way, Suite 100, Los Angeles, CA 90017, United States. Whatsapp: +1 (641) 206-8880. Visit our website: CAR-SCAN-TOOL.EDU.VN