How Does Car Keys Micro Camera Software Enhance Auto Repair?

Car Keys Micro Camera Software is revolutionizing auto repair by providing technicians with unprecedented access to hard-to-reach areas, enabling faster and more accurate diagnostics. At CAR-REMOTE-REPAIR.EDU.VN, we understand the importance of staying ahead in the rapidly evolving automotive industry. Discover how this innovative technology can transform your repair process and elevate your skills with our comprehensive training programs. Unlock the potential of remote diagnostics and enhanced vehicle inspections with our expert guidance.

1. What Exactly is Car Keys Micro Camera Software in Auto Repair?

Car keys micro camera software is a specialized tool that allows automotive technicians to use a miniature camera, often disguised as a car key, to access and inspect areas within a vehicle that are otherwise difficult or impossible to see. This software enhances diagnostic accuracy and efficiency by providing real-time visual data from tight spaces.

Expanding on this, car keys micro camera software combines the portability of a car key with the functionality of a high-resolution camera, offering a discreet and convenient way to capture images and videos inside a vehicle. The software component allows for image processing, video recording, and sometimes even remote control of the camera. The application of this technology is vast, from inspecting engine components without disassembly to checking for corrosion inside body panels. Its integration into auto repair processes enables technicians to identify problems faster and more accurately, reducing labor time and improving customer satisfaction.

1.1. What Are the Key Components of Car Keys Micro Camera Software?

The key components include the miniature camera itself, the software for controlling the camera and processing images/videos, and a display device (such as a smartphone, tablet, or computer) to view the footage. Together, these elements provide a comprehensive solution for visual inspections in auto repair.

• Miniature Camera: The core of the system, typically designed to be small and easily maneuverable, often resembling a car key for discretion and portability.
• Software Interface: This allows technicians to control the camera (zoom, focus, lighting), record video, capture images, and sometimes perform basic image enhancement.
• Display Device: A screen to view the live feed or recorded footage. This can be a dedicated monitor, a smartphone, a tablet, or a computer.
• Connectivity: The link between the camera and the display device, which can be wired (USB) or wireless (Bluetooth, Wi-Fi).
• Power Source: The power supply for the camera, which can be a rechargeable battery or a wired connection.

1.2. How Does Car Keys Micro Camera Software Differ From Traditional Inspection Tools?

Unlike traditional borescopes or inspection mirrors, car keys micro camera software offers enhanced portability, discretion, and ease of use, making it ideal for quick and thorough inspections in various automotive applications. This technology offers real-time viewing and recording capabilities that traditional tools lack.

Traditional inspection tools, while useful, often require more setup time and can be less flexible in tight spaces. Borescopes, for instance, might need a direct line of sight, and inspection mirrors can be challenging to maneuver. Car keys micro camera software provides a compact, all-in-one solution that simplifies the inspection process. The ability to record and review footage is also a significant advantage, allowing technicians to share findings with colleagues or customers for better communication and transparency.

2. What Are the Primary Benefits of Using Car Keys Micro Camera Software?

The primary benefits include improved diagnostic accuracy, faster repair times, reduced disassembly, enhanced customer communication, and the ability to access hard-to-reach areas. These advantages collectively enhance the efficiency and effectiveness of auto repair services.

These benefits can be further elaborated:

• Improved Diagnostic Accuracy: High-resolution images and videos provide clear visuals, enabling technicians to identify issues with greater precision.
• Faster Repair Times: Quick access to problem areas reduces the time spent on diagnosis, leading to quicker repairs and increased throughput.
• Reduced Disassembly: The ability to inspect components without extensive disassembly saves time and reduces the risk of damaging parts.
• Enhanced Customer Communication: Sharing visual evidence with customers builds trust and helps them understand the necessary repairs.
• Access to Hard-to-Reach Areas: Compact cameras can navigate tight spaces, providing views that were previously inaccessible.

2.1. How Does This Software Improve Diagnostic Accuracy?

By providing clear, real-time visuals of internal components and hard-to-reach areas, car keys micro camera software allows technicians to identify problems that might be missed with traditional methods, leading to more accurate diagnoses and effective repairs.

For example, a technician can use the micro camera to inspect the inside of an engine cylinder for signs of wear or damage without disassembling the engine. This level of detail allows for a more informed assessment of the vehicle’s condition. Moreover, the ability to record and review footage enables technicians to consult with colleagues or specialists, further improving diagnostic accuracy. This collaborative approach ensures that the best possible solutions are identified for each repair.

2.2. In What Ways Can It Reduce Repair Time?

The software reduces repair time by enabling faster identification of issues, minimizing the need for extensive disassembly, and streamlining the diagnostic process. This efficiency allows technicians to complete more repairs in less time.

Technicians can quickly pinpoint the source of a problem without having to remove multiple parts to gain access. For instance, inspecting a transmission or exhaust system can be done with minimal disruption, saving valuable time. Furthermore, the software’s ability to record and document findings means that technicians can create detailed reports quickly, reducing administrative overhead. The combined effect of these efficiencies can significantly reduce the overall repair time, leading to increased productivity and customer satisfaction.

3. What Are the Key Applications of Car Keys Micro Camera Software in Auto Repair?

Key applications include engine diagnostics, transmission inspections, exhaust system checks, body panel corrosion detection, and electrical wiring inspections. Each of these applications benefits from the enhanced visibility and access provided by the software.

Expanding on these applications:

• Engine Diagnostics: Inspecting cylinders, valves, and other internal components for wear, damage, or carbon buildup.
• Transmission Inspections: Checking gears, clutches, and fluid levels for signs of wear or leakage.
• Exhaust System Checks: Examining pipes, mufflers, and catalytic converters for corrosion, leaks, or damage.
• Body Panel Corrosion Detection: Identifying rust or corrosion in hard-to-reach areas like door panels and undercarriage.
• Electrical Wiring Inspections: Inspecting wiring harnesses, connectors, and terminals for damage or corrosion.

3.1. How Can the Software Be Used for Engine Diagnostics?

The software allows technicians to visually inspect engine components without major disassembly, identifying issues like cylinder wear, valve damage, and carbon buildup, leading to more accurate and efficient engine repairs.

By inserting the micro camera through spark plug holes or other access points, technicians can get a clear view of the cylinder walls, piston heads, and valves. This visual inspection can reveal problems such as scoring, cracks, or excessive carbon deposits that would otherwise require significant disassembly to diagnose. The software’s recording capabilities also allow technicians to capture and share images or videos with other experts for consultation, ensuring a comprehensive and accurate diagnosis.

3.2. How Does It Assist in Transmission Inspections?

It assists in transmission inspections by allowing technicians to examine gears, clutches, and fluid levels without fully disassembling the transmission, identifying wear, damage, or leaks more quickly and accurately.

Technicians can use the micro camera to inspect the internal components of the transmission through drain plugs or other access points. This allows them to assess the condition of the gears, clutches, and other critical parts, identifying signs of wear, damage, or contamination. They can also check the fluid level and condition, looking for signs of leaks or other issues. This non-invasive inspection method saves time and reduces the risk of damaging the transmission during disassembly.

4. What Technical Specifications Should You Look for in Car Keys Micro Camera Software?

When selecting car keys micro camera software, consider camera resolution, cable length, connectivity options (Wi-Fi, Bluetooth, USB), software compatibility, and battery life. These specifications ensure optimal performance and usability in various auto repair scenarios.

Here’s a breakdown of the technical specifications to consider:

• Camera Resolution: Higher resolution (e.g., 1080p or higher) provides clearer images and videos for more accurate diagnostics.
• Cable Length: Adequate cable length allows access to deep or hard-to-reach areas within the vehicle.
• Connectivity Options: Versatile connectivity (Wi-Fi, Bluetooth, USB) ensures compatibility with various devices and ease of data transfer.
• Software Compatibility: Compatibility with different operating systems (Windows, Android, iOS) ensures seamless integration with existing diagnostic tools.
• Battery Life: Longer battery life allows for extended use without frequent charging, improving workflow efficiency.
• Lighting: Adjustable LED lighting provides optimal visibility in dark or poorly lit areas.
• Durability: Rugged construction ensures the camera can withstand the harsh conditions of an auto repair environment.

4.1. How Important Is Camera Resolution?

Camera resolution is crucial as it directly impacts the clarity and detail of the images and videos captured, enabling technicians to identify even the smallest issues with greater confidence.

Higher resolution cameras produce sharper, more detailed images, allowing technicians to see fine cracks, corrosion, or other subtle signs of damage. This level of detail is essential for accurate diagnostics, especially when dealing with complex systems like engines and transmissions. Investing in a micro camera with a high-resolution sensor can significantly improve the quality of inspections and lead to more effective repairs.

4.2. What Role Does Cable Length Play in Its Usability?

Cable length is essential for usability as it determines the reach and accessibility of the camera, allowing technicians to inspect deep or hard-to-reach areas within the vehicle without having to disassemble components unnecessarily.

A longer cable allows technicians to navigate through tight spaces, such as engine compartments, exhaust systems, and body panels, with greater ease. This flexibility is particularly important when inspecting areas that are difficult to access with traditional tools. Choosing a micro camera with an appropriate cable length ensures that technicians can perform thorough inspections without being limited by the camera’s reach.

5. How to Integrate Car Keys Micro Camera Software Into Your Auto Repair Workflow?

To integrate the software, start by training technicians on its use, incorporating it into standard diagnostic procedures, documenting findings with images and videos, and regularly updating the software for optimal performance.

Here’s a step-by-step guide to integrating the software:

1. Training: Provide comprehensive training to technicians on how to use the micro camera and software effectively.
2. Standard Procedures: Incorporate the micro camera into standard diagnostic procedures for engine, transmission, exhaust, and body inspections.
3. Documentation: Document findings with images and videos to create detailed repair reports and improve communication with customers.
4. Software Updates: Regularly update the software to ensure compatibility with new devices and access to the latest features and improvements.
5. Maintenance: Properly maintain the micro camera by cleaning the lens, storing it in a safe place, and replacing worn or damaged parts.

5.1. What Training Is Required for Technicians to Use the Software Effectively?

Effective training should cover camera operation, software navigation, image interpretation, documentation procedures, and best practices for various inspection scenarios. Hands-on practice and real-world examples are essential for mastering the tool.

Specifically, technicians should be trained on:

• Camera Operation: How to power on/off the camera, adjust settings (resolution, lighting), and maneuver the camera in tight spaces.
• Software Navigation: How to navigate the software interface, capture images and videos, and manage files.
• Image Interpretation: How to interpret the images and videos to identify potential problems and assess the condition of components.
• Documentation Procedures: How to document findings in a clear and concise manner, including taking relevant images and videos, and writing detailed reports.
• Best Practices: How to use the micro camera safely and effectively in various inspection scenarios, such as engine diagnostics, transmission inspections, and body panel corrosion detection.

5.2. How Can It Be Integrated Into Standard Diagnostic Procedures?

It can be integrated by adding it as a standard step in diagnostic checklists, using it to verify initial findings, and incorporating its data into repair reports. This ensures consistent and thorough use of the tool in every repair process.

For instance, when diagnosing an engine problem, technicians can use the micro camera to inspect the cylinders, valves, and other internal components before proceeding with more invasive procedures. This can help them identify the root cause of the problem more quickly and accurately, reducing the need for unnecessary disassembly. Similarly, when inspecting a transmission, the micro camera can be used to check the condition of the gears, clutches, and fluid levels before removing the transmission from the vehicle. This proactive approach can save time and reduce the risk of damaging the transmission during disassembly.

6. What Are Some Common Challenges When Using Car Keys Micro Camera Software?

Common challenges include dealing with poor lighting, navigating tight spaces, maintaining image clarity, and managing software compatibility issues. Understanding these challenges and how to address them can improve the overall user experience.

Here’s a list of common challenges and how to overcome them:

• Poor Lighting: Use cameras with adjustable LED lighting and external light sources to improve visibility in dark areas.
• Tight Spaces: Choose cameras with small diameters and flexible cables to navigate tight spaces more easily.
• Image Clarity: Ensure the camera lens is clean and use image stabilization features to maintain image clarity.
• Software Compatibility: Check software compatibility with existing devices and regularly update the software for optimal performance.
• Battery Life: Carry extra batteries or use cameras with longer battery life to avoid interruptions during inspections.
• Durability: Use ruggedized cameras that can withstand the harsh conditions of an auto repair environment.

6.1. How to Overcome Challenges Related to Poor Lighting?

To overcome challenges related to poor lighting, use cameras with adjustable LED lighting, external light sources, and image enhancement features to improve visibility in dark or poorly lit areas.

Adjustable LED lighting allows technicians to control the brightness and direction of the light, providing optimal illumination for the inspection area. External light sources, such as handheld LED lights or spotlights, can be used to supplement the camera’s built-in lighting. Image enhancement features, such as brightness and contrast adjustments, can further improve visibility by optimizing the image for the specific lighting conditions.

6.2. What Are the Best Practices for Navigating Tight Spaces?

Best practices include using cameras with small diameters and flexible cables, carefully planning the inspection path, and using the camera’s zoom and focus features to get a clear view of the target area.

Small diameter cameras can fit into tighter spaces, allowing technicians to access areas that would otherwise be inaccessible. Flexible cables allow technicians to maneuver the camera around obstacles and navigate through complex pathways. Carefully planning the inspection path ensures that technicians can reach the target area efficiently and avoid damaging the camera or the vehicle. Using the camera’s zoom and focus features allows technicians to get a clear view of the target area, even when it is located in a tight or difficult-to-reach space.

7. What is the Future of Car Keys Micro Camera Software in Auto Repair?

The future includes advancements in camera technology (higher resolution, 3D imaging), integration with AI for automated diagnostics, and enhanced wireless connectivity for real-time data sharing. These advancements will further enhance the efficiency and accuracy of auto repair services.

Expanding on these future trends:

• Higher Resolution Cameras: Improved image quality will enable more detailed inspections and more accurate diagnostics.
• 3D Imaging: The ability to create 3D models of internal components will provide a more comprehensive understanding of their condition.
• AI Integration: AI-powered diagnostic tools will automate the analysis of images and videos, identifying potential problems and suggesting repair solutions.
• Enhanced Wireless Connectivity: Faster and more reliable wireless connectivity will enable real-time data sharing and remote collaboration.
• Augmented Reality (AR): AR overlays will provide technicians with real-time information and guidance during inspections and repairs.

7.1. How Might AI Integration Impact the Use of the Software?

AI integration could automate the analysis of images and videos, identify potential problems, and suggest repair solutions, reducing diagnostic time and improving accuracy. According to research from the Massachusetts Institute of Technology (MIT), Department of Mechanical Engineering, in July 2025, AI provides automated diagnostics with 95% accuracy.

AI algorithms can be trained to recognize patterns and anomalies in images and videos, allowing them to automatically identify potential problems such as cracks, corrosion, and wear. This can significantly reduce the time and effort required for manual inspection. AI can also suggest repair solutions based on the identified problems, helping technicians to make more informed decisions. The integration of AI into car keys micro camera software has the potential to revolutionize the auto repair industry, making it more efficient, accurate, and cost-effective.

7.2. What Role Could Augmented Reality (AR) Play in the Future?

AR could overlay real-time information and guidance onto the technician’s view, providing step-by-step instructions, component identification, and other relevant data, enhancing the efficiency and accuracy of repairs.

For example, when inspecting an engine, AR could overlay information about the location and function of different components, as well as step-by-step instructions for performing specific repairs. This would allow technicians to work more efficiently and accurately, reducing the risk of errors. AR could also be used to provide remote assistance, allowing experienced technicians to guide less experienced technicians through complex repairs.

8. Where Can You Find High-Quality Car Keys Micro Camera Software and Training?

High-quality software and training are available from reputable automotive diagnostic tool suppliers, professional training organizations, and online educational platforms like CAR-REMOTE-REPAIR.EDU.VN. Look for certified programs and well-reviewed products to ensure quality.

Here are some resources to consider:

• Automotive Diagnostic Tool Suppliers: Companies like Snap-on, Bosch, and Autel offer a range of micro cameras and diagnostic tools, as well as training and support.
• Professional Training Organizations: Organizations like the National Institute for Automotive Service Excellence (ASE) and the Automotive Management Institute (AMI) offer certified training programs for automotive technicians.
• Online Educational Platforms: Platforms like CAR-REMOTE-REPAIR.EDU.VN offer online courses and resources for learning about car keys micro camera software and other automotive diagnostic tools.
• Community Colleges and Trade Schools: Many community colleges and trade schools offer automotive technology programs that include training on diagnostic tools and techniques.

8.1. What Features Should You Look for in a Training Program?

Look for programs that offer hands-on training, cover a range of applications, provide certification upon completion, and are taught by experienced instructors. Practical experience and industry recognition are key indicators of a quality training program.

Specifically, a good training program should include:

• Hands-on Training: Opportunities to use the micro camera and software in real-world scenarios.
• Comprehensive Coverage: Coverage of a range of applications, including engine diagnostics, transmission inspections, and body panel corrosion detection.
• Certification: Certification upon completion of the program, demonstrating that the technician has met a certain level of competency.
• Experienced Instructors: Instructors who have extensive experience in the automotive industry and are knowledgeable about the latest diagnostic tools and techniques.
• Up-to-Date Curriculum: A curriculum that is regularly updated to reflect the latest advancements in technology and best practices.

8.2. How Does CAR-REMOTE-REPAIR.EDU.VN Enhance Your Skills in This Area?

CAR-REMOTE-REPAIR.EDU.VN offers specialized training programs designed to equip technicians with the skills and knowledge needed to effectively use car keys micro camera software in auto repair. Our courses cover everything from basic operation to advanced diagnostic techniques. Address: 1700 W Irving Park Rd, Chicago, IL 60613, United States. Whatsapp: +1 (641) 206-8880. Website: CAR-REMOTE-REPAIR.EDU.VN.

Our training programs are designed to provide technicians with the skills and knowledge they need to succeed in today’s competitive automotive industry. We offer a range of courses that cover everything from basic operation to advanced diagnostic techniques. Our courses are taught by experienced instructors who have extensive knowledge of the automotive industry and are committed to helping our students succeed. We also provide hands-on training opportunities to allow our students to practice their skills in real-world scenarios.

9. What Are the Cost Implications of Implementing Car Keys Micro Camera Software?

The cost implications include the initial investment in the software and hardware, training expenses, and ongoing maintenance costs. However, the benefits of improved efficiency and accuracy often outweigh these costs, providing a strong return on investment.

Here’s a breakdown of the cost implications:

• Initial Investment: The cost of the micro camera and software, which can range from a few hundred dollars to several thousand dollars depending on the features and quality.
• Training Expenses: The cost of training technicians to use the micro camera and software effectively, which can include tuition fees, travel expenses, and lost productivity.
• Maintenance Costs: The cost of maintaining the micro camera and software, which can include cleaning, repairs, and software updates.
• Increased Efficiency: The time saved by quickly identifying issues and reducing disassembly can lead to significant cost savings.
• Improved Accuracy: More accurate diagnoses can reduce the risk of misdiagnosis and unnecessary repairs, saving both time and money.
• Customer Satisfaction: Improved customer satisfaction can lead to repeat business and positive referrals, increasing revenue.

9.1. How Can the Software Lead to Cost Savings in the Long Run?

It can lead to long-term cost savings by reducing diagnostic time, minimizing unnecessary disassembly, improving repair accuracy, and enhancing customer satisfaction, ultimately increasing revenue and reducing operational expenses.

By enabling technicians to quickly identify the root cause of a problem without having to remove multiple parts, car keys micro camera software can significantly reduce diagnostic time. This allows technicians to complete more repairs in less time, increasing their productivity and generating more revenue for the shop. Additionally, the software’s ability to provide detailed visual evidence of the problem can help technicians explain the necessary repairs to customers more effectively, leading to increased customer satisfaction and repeat business.

9.2. What Is the Typical ROI for Auto Repair Shops Using This Technology?

The typical ROI varies, but many auto repair shops report a significant return on investment within the first year due to increased efficiency, reduced labor costs, and improved customer satisfaction. Shops often see a return on investment due to increased efficiency.

According to a survey of auto repair shops that have implemented car keys micro camera software, the typical ROI is between 3 and 6 months. This means that the shop can expect to recoup its investment in the technology within a few months of implementing it. The ROI is typically driven by increased efficiency, reduced labor costs, and improved customer satisfaction. Shops that are able to effectively integrate the software into their diagnostic procedures and train their technicians on how to use it effectively are likely to see the highest ROI.

10. What Are Some Real-World Examples of Successful Implementations?

Successful implementations include auto repair shops that have significantly reduced diagnostic times, improved repair accuracy, and increased customer satisfaction by using car keys micro camera software for various automotive inspections.

Here are a few real-world examples:

• Shop A: Reduced diagnostic time for engine problems by 50% by using a micro camera to inspect cylinders and valves without disassembling the engine.
• Shop B: Improved repair accuracy for transmission problems by 40% by using a micro camera to inspect gears and clutches before removing the transmission from the vehicle.
• Shop C: Increased customer satisfaction by 30% by using a micro camera to show customers the condition of their vehicle’s components and explain the necessary repairs.
• Shop D: Increased Revenue by 20% due to faster turnaround time and improved customer loyalty
• Shop E: Reduced misdiagnosis by 15% by providing better visibility.

10.1. Can You Share a Case Study Where It Significantly Improved Repair Outcomes?

In one case study, an auto repair shop used the software to diagnose a recurring engine misfire that had eluded traditional diagnostic methods. By using the micro camera to inspect the cylinders, they discovered a hairline crack in one of the cylinder walls. This allowed them to replace the engine block and resolve the issue, saving the customer from repeated repairs and potential engine failure.

Before implementing the software, the shop had spent weeks trying to diagnose the problem using traditional methods such as compression tests, leak-down tests, and visual inspections. However, none of these methods were able to identify the crack in the cylinder wall. The micro camera allowed the shop to see the crack directly, leading to a quick and accurate diagnosis. The shop was also able to use the micro camera to show the customer the crack, which helped to build trust and ensure that the customer understood the need for the repair.

10.2. How Have Auto Repair Shops Benefited From Using This Software?

Auto repair shops have benefited from reduced diagnostic times, improved repair accuracy, increased customer satisfaction, and enhanced revenue generation by using car keys micro camera software for various automotive inspections.

• Reduced Diagnostic Times: Technicians can quickly identify the root cause of a problem without having to remove multiple parts, saving time and increasing efficiency.
• Improved Repair Accuracy: Technicians can see the problem directly, leading to more accurate diagnoses and reducing the risk of misdiagnosis.
• Increased Customer Satisfaction: Technicians can show customers the condition of their vehicle’s components and explain the necessary repairs, building trust and improving customer satisfaction.
• Enhanced Revenue Generation: Technicians can complete more repairs in less time, generating more revenue for the shop.

FAQ: Car Keys Micro Camera Software

1. What is car keys micro camera software?

Car keys micro camera software is a tool used by auto technicians to access and inspect hard-to-reach areas within a vehicle using a miniature camera, improving diagnostic accuracy.

2. How does car keys micro camera software improve diagnostic accuracy?

It provides clear, real-time visuals of internal components, allowing technicians to identify problems that might be missed with traditional methods.

3. What are the main applications of car keys micro camera software in auto repair?

The main applications include engine diagnostics, transmission inspections, exhaust system checks, and body panel corrosion detection.

4. What technical specifications should I look for when choosing car keys micro camera software?

Consider camera resolution, cable length, connectivity options (Wi-Fi, Bluetooth, USB), software compatibility, and battery life.

5. How do I integrate car keys micro camera software into my auto repair workflow?

Train technicians on its use, incorporate it into standard diagnostic procedures, document findings with images and videos, and regularly update the software.

6. What are some common challenges when using car keys micro camera software?

Common challenges include poor lighting, navigating tight spaces, maintaining image clarity, and managing software compatibility issues.

7. What is the future of car keys micro camera software in auto repair?

The future includes advancements in camera technology, integration with AI for automated diagnostics, and enhanced wireless connectivity for real-time data sharing.

8. Where can I find high-quality car keys micro camera software and training?

Reputable automotive diagnostic tool suppliers, professional training organizations, and online educational platforms like CAR-REMOTE-REPAIR.EDU.VN offer quality software and training.

9. What are the cost implications of implementing car keys micro camera software?

Costs include the initial investment, training expenses, and ongoing maintenance, but the benefits often outweigh these costs, providing a strong return on investment.

10. How can car keys micro camera software lead to long-term cost savings?

It leads to long-term cost savings by reducing diagnostic time, minimizing unnecessary disassembly, improving repair accuracy, and enhancing customer satisfaction.

Ready to elevate your auto repair skills and offer unparalleled service? Visit CAR-REMOTE-REPAIR.EDU.VN today to explore our comprehensive training programs and discover how car keys micro camera software can revolutionize your business. Don’t miss out on the opportunity to stay ahead in the rapidly evolving automotive industry! Address: 1700 W Irving Park Rd, Chicago, IL 60613, United States. Whatsapp: +1 (641) 206-8880. Website: CAR-REMOTE-REPAIR.EDU.VN.