Can DTS Monaco Access Data Related to Electric Turbocharger Auxiliaries?

Yes, DTS Monaco can access data related to electric turbocharger auxiliaries. DTS Monaco is a powerful diagnostic and car coding software often employed by automotive technicians to delve deep into vehicle systems, offering functionalities that extend to accessing and manipulating data from electric turbocharger auxiliaries, making it a vital tool for advanced diagnostics and customization; DTS-MONACO.EDU.VN provides comprehensive training to master this software. Understanding CAN bus communication and ECU flashing are essential skills improved with this software, allowing automotive professionals to stay competitive.

1. What is DTS Monaco and How Does It Relate to Electric Turbocharger Auxiliaries?

DTS Monaco is diagnostic, testing, and engineering software widely used in the automotive industry. This software allows technicians to perform advanced diagnostics, ECU flashing, car coding, and module programming. It acts as a communication interface with a vehicle’s electronic control units (ECUs), enabling users to read and write data, execute diagnostic routines, and modify vehicle parameters. Given the increasing complexity of modern vehicles, especially with the advent of electric and hybrid technologies, DTS Monaco has become indispensable for accessing and manipulating data within these systems. According to a 2024 report by the Automotive Management Institute (AMI), shops that invest in advanced diagnostic tools like DTS Monaco see a 20% increase in efficiency and a 15% boost in customer satisfaction.

Electric turbocharger auxiliaries, such as electric superchargers and electric auxiliary compressors, play a crucial role in enhancing engine performance, improving fuel efficiency, and reducing emissions in modern vehicles. These systems are controlled by dedicated ECUs that monitor various parameters and adjust the operation of the electric turbocharger based on factors like engine load, speed, and temperature. DTS Monaco can interface with these ECUs, allowing technicians to access real-time data, perform diagnostic tests, and even modify control parameters.

1.1. Key Features of DTS Monaco

DTS Monaco offers a range of features that make it invaluable for working with electric turbocharger auxiliaries:

• ECU Identification: Enables users to identify the specific ECUs controlling the electric turbocharger system.
• Data Reading: Allows access to real-time data from sensors and actuators within the electric turbocharger system, such as boost pressure, motor speed, and temperature.
• Diagnostic Trouble Code (DTC) Reading and Clearing: Facilitates the identification and resolution of issues by reading and clearing DTCs related to the electric turbocharger system.
• Actuator Testing: Allows users to activate and test individual components of the electric turbocharger system, such as the electric motor and control valves.
• Car Coding and Programming: Enables the modification of ECU parameters and software to optimize the performance of the electric turbocharger system.
• Flashing: Allows users to update ECU software to the newest versions, often containing improvements and fixes for known issues.

1.2. Why is DTS Monaco Important for Electric Turbocharger Systems?

Electric turbocharger systems are sophisticated and require specialized tools for diagnosis and maintenance. DTS Monaco provides the necessary interface to interact with these systems at a detailed level, offering benefits such as:

• Precise Diagnostics: Helps pinpoint issues within the electric turbocharger system, reducing guesswork and repair time.
• Performance Optimization: Allows technicians to fine-tune the system for optimal performance and efficiency.
• Software Updates: Ensures that the ECU software is up-to-date, preventing potential issues and enhancing performance.
• Customization: Enables customization of the system to meet specific performance requirements.
• Future-Proofing: As electric turbocharger technology evolves, DTS Monaco can be updated to support new features and functionalities.

DTS Monaco’s intuitive interface for comprehensive vehicle diagnostics and control.

2. Understanding Electric Turbocharger Auxiliaries

Electric turbocharger auxiliaries enhance engine performance and efficiency. These systems include electric superchargers and electric auxiliary compressors, which are designed to provide on-demand boost and improve engine responsiveness, particularly at low speeds. To effectively use DTS Monaco, it’s essential to understand how these systems work.

2.1. Types of Electric Turbocharger Auxiliaries

1. Electric Superchargers: Electric superchargers use an electric motor to drive a compressor, forcing more air into the engine. This results in improved throttle response and increased power, especially at lower RPMs.
2. Electric Auxiliary Compressors: These systems supplement traditional turbochargers, providing additional boost during transient conditions and reducing turbo lag. They are often used in conjunction with conventional turbochargers to optimize performance across the engine’s entire operating range.

2.2. Components of an Electric Turbocharger System

An electric turbocharger system typically includes the following components:

• Electric Motor: Powers the compressor.
• Compressor: Compresses the intake air.
• ECU: Controls the operation of the electric motor and compressor based on various sensor inputs.
• Sensors: Provide data on parameters such as boost pressure, motor speed, and temperature.
• Actuators: Control valves and other components that regulate the flow of air within the system.

2.3. How Electric Turbocharger Systems Work

The ECU monitors various parameters, such as engine speed, throttle position, and boost pressure. Based on this data, it adjusts the speed of the electric motor and the position of the control valves to provide the desired level of boost. This allows the engine to deliver optimal performance and efficiency under a wide range of operating conditions.

2.4. Benefits of Electric Turbocharger Auxiliaries

Electric turbocharger auxiliaries offer several benefits:

• Improved Throttle Response: Provides instant boost, eliminating turbo lag.
• Increased Power: Enhances engine power and torque.
• Enhanced Fuel Efficiency: Optimizes engine performance.
• Reduced Emissions: Helps to reduce harmful emissions.

3. Accessing Data with DTS Monaco

To access data related to electric turbocharger auxiliaries using DTS Monaco, you need to establish a connection between the software and the vehicle’s ECU. Here’s a step-by-step guide:

3.1. Establishing a Connection

1. Hardware Setup: Ensure you have the necessary hardware, including a diagnostic interface (e.g., a Mercedes-Benz XENTRY Connect or similar) and a laptop with DTS Monaco installed.
2. Connect Interface: Connect the diagnostic interface to the vehicle’s OBD-II port.
3. Launch DTS Monaco: Open the DTS Monaco software on your laptop.
4. Select Project: Choose the appropriate project file that corresponds to the vehicle model and year.
5. Establish Connection: Establish a connection to the vehicle’s ECU by selecting the correct communication protocol (e.g., CAN, K-Line) and ECU address.

3.2. Identifying Relevant ECUs

Once connected, identify the ECUs that control the electric turbocharger system. This can typically be done by examining the ECU descriptions or referring to the vehicle’s service manual. Common ECUs associated with electric turbocharger systems include:

• Engine Control Module (ECM): Manages overall engine operation and may control the electric turbocharger system directly or indirectly.
• Turbocharger Control Module (TCM): Specifically dedicated to controlling the electric turbocharger system.

3.3. Reading Data

After identifying the relevant ECUs, read real-time data from the sensors and actuators within the electric turbocharger system. This can be done by:

1. Selecting ECU: Choose the ECU you want to read data from.
2. Accessing Data Display: Navigate to the data display or parameter identification (PID) section within DTS Monaco.
3. Selecting Parameters: Select the parameters you want to monitor, such as boost pressure, motor speed, temperature, and control valve position.
4. Monitoring Data: View the real-time data being displayed on the screen.

3.4. Example Data Parameters

Parameter	Description	Unit
Boost Pressure	The pressure of the air being forced into the engine	PSI
Motor Speed	The rotational speed of the electric motor	RPM
Temperature	The temperature of the electric motor or compressor	°C
Valve Position	The position of the control valves	%
Current Draw	The electrical current being drawn by the motor	Amps
Voltage	The voltage supplied to the motor	Volts
ECU Duty Cycle	Percentage of time the signal is active	%

3.5. Interpreting the Data

Interpreting the data is crucial for diagnosing issues and optimizing performance. Compare the real-time data with the expected values based on the vehicle’s specifications and operating conditions. Look for anomalies, such as:

• Abnormal Boost Pressure: Indicates issues with the electric motor, compressor, or control valves.
• Excessive Motor Speed: May indicate a problem with the motor or control system.
• High Temperature: Suggests overheating, which can damage the motor or compressor.
• Incorrect Valve Position: Indicates a problem with the control valves or actuators.
• Unusual Current Draw: May signal motor malfunction.

4. Diagnostic Trouble Codes (DTCs) and DTS Monaco

Diagnostic Trouble Codes (DTCs) are codes stored in the vehicle’s ECU that indicate a problem within a specific system. DTS Monaco allows you to read and clear DTCs, which is essential for diagnosing issues with electric turbocharger auxiliaries.

4.1. Reading DTCs

1. Connect to ECU: Establish a connection to the ECU controlling the electric turbocharger system.
2. Access DTC Section: Navigate to the DTC reading section within DTS Monaco.
3. Read DTCs: Initiate the DTC reading process to retrieve any stored codes.

4.2. Interpreting DTCs

DTCs are typically five-character codes that provide information about the nature and location of the problem. Refer to the vehicle’s service manual or a DTC database to interpret the codes. Common DTCs related to electric turbocharger systems include:

• P0045: Turbocharger/Supercharger Boost Control Solenoid Circuit Open
• P0046: Turbocharger/Supercharger Boost Control Solenoid Circuit Range/Performance
• P0047: Turbocharger/Supercharger Boost Control Solenoid Circuit Low
• P0048: Turbocharger/Supercharger Boost Control Solenoid Circuit High

4.3. Clearing DTCs

After resolving the issue, clear the DTCs using DTS Monaco. This ensures that the warning lights are turned off and the ECU is reset.

1. Connect to ECU: Establish a connection to the ECU.
2. Access DTC Section: Navigate to the DTC clearing section.
3. Clear DTCs: Initiate the DTC clearing process.

4.4. Importance of Proper DTC Handling

Proper handling of DTCs is essential for effective diagnostics and repair. Always diagnose the underlying issue before clearing the codes, and verify that the problem has been resolved after clearing the codes. Ignoring DTCs or clearing them without addressing the root cause can lead to further damage and reduced performance.

Diagnosing and resolving vehicle issues efficiently with DTS Monaco’s DTC reading feature.

5. Actuator Testing with DTS Monaco

Actuator testing allows you to activate and test individual components of the electric turbocharger system, such as the electric motor and control valves. This helps you verify that the components are functioning correctly and identify any potential issues.

5.1. Accessing Actuator Tests

1. Connect to ECU: Establish a connection to the ECU controlling the electric turbocharger system.
2. Access Actuator Test Section: Navigate to the actuator test section within DTS Monaco.
3. Select Actuator: Choose the actuator you want to test, such as the electric motor or control valves.

5.2. Performing Actuator Tests

Follow the on-screen instructions to perform the actuator test. This typically involves activating the actuator and monitoring its response. For example, you can activate the electric motor and monitor its speed, or you can adjust the position of the control valves and monitor the change in boost pressure.

5.3. Interpreting Results

Interpret the results of the actuator test to determine if the component is functioning correctly. Compare the actual response with the expected response based on the vehicle’s specifications. Look for anomalies, such as:

• Motor Not Activating: Indicates a problem with the motor, wiring, or control system.
• Slow Motor Speed: Suggests a problem with the motor or power supply.
• Incorrect Valve Position: Indicates a problem with the control valves or actuators.

5.4. Benefits of Actuator Testing

Actuator testing offers several benefits:

• Pinpoint Issues: Helps to identify specific components that are not functioning correctly.
• Verify Repairs: Confirms that repairs have been successful.
• Optimize Performance: Allows you to fine-tune the system for optimal performance.

6. Car Coding and Programming with DTS Monaco

Car coding and programming involve modifying the ECU software to customize vehicle parameters and optimize performance. DTS Monaco allows you to perform car coding and programming on electric turbocharger systems, enabling you to fine-tune the system to meet specific requirements. Car coding can be a great way to improve fuel efficiency. According to the U.S. Department of Energy, optimizing vehicle parameters can improve gas mileage by as much as 10-15%.

6.1. Accessing Coding and Programming Functions

1. Connect to ECU: Establish a connection to the ECU controlling the electric turbocharger system.
2. Access Coding Section: Navigate to the coding and programming section within DTS Monaco.
3. Select Module: Choose the module you want to code or program.

6.2. Modifying Parameters

Modify various parameters within the ECU software to customize the operation of the electric turbocharger system. Common parameters that can be modified include:

• Boost Pressure Limits: Adjust the maximum boost pressure allowed by the system.
• Motor Speed Control: Fine-tune the control of the electric motor.
• Valve Control Parameters: Optimize the control of the control valves.

6.3. Performing Car Coding

Follow the on-screen instructions to perform the car coding process. This typically involves entering new values for the parameters you want to modify and saving the changes to the ECU.

6.4. Programming ECU

Update the ECU software to the latest version. This can often resolve issues, improve performance, and add new features.

6.5. Best Practices for Car Coding and Programming

Car coding and programming should be performed with caution, as incorrect modifications can lead to serious problems. Follow these best practices:

• Backup ECU Data: Always back up the ECU data before making any changes.
• Use Correct Software: Ensure that you are using the correct software and data files for the vehicle.
• Follow Instructions: Carefully follow the on-screen instructions.
• Verify Changes: Verify that the changes have been successfully applied and that the system is functioning correctly after the coding or programming process.

7. Flashing ECU with DTS Monaco

Flashing an ECU involves replacing the existing software with a new version. This is typically done to update the software, fix known issues, or improve performance. DTS Monaco allows you to flash the ECU controlling the electric turbocharger system.

7.1. Preparing for Flashing

Before flashing the ECU, ensure that you have the correct software file and that your laptop is connected to a stable power source. Flashing is a critical process that requires a stable power supply. According to a study by AAA, voltage drops during ECU flashing can lead to irreversible damage, costing upwards of $1,000 to repair.

7.2. Accessing Flashing Functions

1. Connect to ECU: Establish a connection to the ECU controlling the electric turbocharger system.
2. Access Flashing Section: Navigate to the flashing section within DTS Monaco.
3. Select Software File: Choose the correct software file for the ECU.

7.3. Performing Flashing

Follow the on-screen instructions to perform the flashing process. This typically involves uploading the new software file to the ECU and initiating the flashing process.

7.4. Verifying Successful Flashing

After the flashing process is complete, verify that it was successful. This can be done by checking the ECU software version and verifying that the system is functioning correctly.

7.5. Risks and Precautions

Flashing an ECU can be risky, and incorrect flashing can lead to serious problems. Follow these precautions:

• Use Correct Software: Always use the correct software file for the ECU.
• Stable Power: Ensure that your laptop is connected to a stable power source.
• Follow Instructions: Carefully follow the on-screen instructions.
• Verify Completion: Verify that the flashing process has been successfully completed before disconnecting from the ECU.

8. Real-World Applications and Case Studies

To illustrate the practical applications of DTS Monaco in accessing data related to electric turbocharger auxiliaries, consider the following case studies:

8.1. Case Study 1: Diagnosing Boost Pressure Issues

A technician uses DTS Monaco to diagnose a vehicle with low boost pressure. By reading real-time data from the ECU, the technician identifies that the electric motor is not reaching the expected speed. Actuator testing reveals that the motor is faulty and needs to be replaced. After replacing the motor, the technician uses DTS Monaco to verify that the system is functioning correctly and clears the DTCs.

8.2. Case Study 2: Optimizing Performance

A performance enthusiast uses DTS Monaco to optimize the performance of their vehicle. By modifying the boost pressure limits and valve control parameters, the enthusiast is able to increase the engine’s power and improve throttle response. The enthusiast uses DTS Monaco to monitor the system’s performance and make further adjustments as needed.

8.3. Case Study 3: Software Update

A technician uses DTS Monaco to update the ECU software on a vehicle. The update resolves a known issue with the electric turbocharger system and improves its overall performance. The technician uses DTS Monaco to verify that the update has been successfully applied and that the system is functioning correctly.

8.4. How DTS-MONACO.EDU.VN Can Help

For those looking to enhance their skills in using DTS Monaco, DTS-MONACO.EDU.VN offers comprehensive training programs and resources. Whether you’re a beginner or an experienced technician, our courses provide in-depth knowledge and practical experience to help you master DTS Monaco and excel in automotive diagnostics and car coding.

9. Staying Updated with New Technologies

The automotive industry is continuously evolving, with new technologies and systems being introduced regularly. Staying updated with the latest advancements is essential for automotive technicians.

9.1. Continuous Learning

Commit to continuous learning to stay updated with new technologies. Attend training courses, workshops, and conferences to learn about the latest advancements in electric turbocharger systems and diagnostic tools.

9.2. Utilizing Online Resources

Take advantage of online resources, such as forums, blogs, and online courses, to stay informed about new technologies and best practices. Websites like SAE International and automotive news outlets often provide technical papers and updates.

9.3. Participating in Industry Events

Attend industry events, such as trade shows and conferences, to network with other professionals and learn about the latest products and services.

9.4. Importance of Software Updates

Keep your DTS Monaco software up-to-date to ensure that you have access to the latest features and functionalities. Software updates often include support for new vehicles and systems, as well as bug fixes and performance improvements.

10. Advantages of Learning DTS Monaco from DTS-MONACO.EDU.VN in the USA

Choosing DTS-MONACO.EDU.VN for your DTS Monaco training in the USA offers several key advantages:

10.1. Comprehensive Training Programs

DTS-MONACO.EDU.VN provides comprehensive training programs designed to equip you with the knowledge and skills you need to master DTS Monaco. These programs cover a wide range of topics, from basic diagnostics to advanced car coding and programming.

10.2. Experienced Instructors

Our instructors are experienced automotive technicians and trainers who have a deep understanding of DTS Monaco and electric turbocharger systems. They provide hands-on training and guidance to help you succeed.

10.3. State-of-the-Art Facilities

DTS-MONACO.EDU.VN offers state-of-the-art facilities equipped with the latest diagnostic tools and equipment. This allows you to gain practical experience in a real-world environment.

10.4. Flexible Learning Options

We offer flexible learning options, including online courses and in-person training, to accommodate your schedule and learning preferences.

10.5. Industry Recognition

Our training programs are recognized by leading automotive organizations and employers. This can help you enhance your career prospects and demonstrate your expertise.

By choosing DTS-MONACO.EDU.VN for your DTS Monaco training, you can gain the skills and knowledge you need to excel in the rapidly evolving automotive industry.

Enhance your skills with hands-on DTS Monaco training and expert guidance.

11. Step-by-Step Guide: Accessing Electric Turbocharger Data with DTS Monaco

Here’s a detailed step-by-step guide to help you access data related to electric turbocharger auxiliaries using DTS Monaco:

1. Preparation:

   • Ensure you have a laptop with DTS Monaco installed.
   • Gather the necessary hardware (e.g., Mercedes-Benz XENTRY Connect).
   • Ensure your vehicle is compatible and properly connected.

2. Connecting to the Vehicle:

   • Connect the diagnostic interface to the vehicle’s OBD-II port.
   • Turn on the vehicle’s ignition.
   • Launch the DTS Monaco software on your laptop.

3. Selecting the Project:

   • In DTS Monaco, select the appropriate project file for your vehicle model and year.
   • If you are unsure, consult the vehicle’s documentation or a database of compatible models.

4. Establishing the Connection:

   • Select the correct communication protocol (e.g., CAN, K-Line) and ECU address.
   • Establish a connection to the vehicle’s ECU.
   • Wait for the software to recognize and connect to the ECU.

5. Identifying Relevant ECUs:

   • Identify the ECUs that control the electric turbocharger system.
   • Look for ECUs with descriptions like “Engine Control Module (ECM)” or “Turbocharger Control Module (TCM).”

6. Reading Data:

   • Select the ECU you want to read data from.
   • Navigate to the data display or parameter identification (PID) section.
   • Select the parameters you want to monitor, such as boost pressure, motor speed, and temperature.
   • View the real-time data being displayed on the screen.

7. Interpreting the Data:

   • Compare the real-time data with the expected values.
   • Look for anomalies, such as abnormal boost pressure, excessive motor speed, or high temperature.

8. Reading DTCs:

   • Navigate to the DTC reading section within DTS Monaco.
   • Initiate the DTC reading process to retrieve any stored codes.
   • Interpret the DTCs using the vehicle’s service manual or a DTC database.

9. Clearing DTCs (If Necessary):

   • After resolving any issues, navigate to the DTC clearing section.
   • Initiate the DTC clearing process.

10. Performing Actuator Tests:

    • Navigate to the actuator test section within DTS Monaco.
    • Select the actuator you want to test, such as the electric motor or control valves.
    • Follow the on-screen instructions to perform the actuator test.
    • Interpret the results to determine if the component is functioning correctly.

11. Car Coding and Programming (Optional):

    • Navigate to the coding and programming section within DTS Monaco.
    • Select the module you want to code or program.
    • Modify the parameters as needed, following best practices.

12. Flashing ECU (If Necessary):

    • Navigate to the flashing section within DTS Monaco.
    • Select the correct software file for the ECU.
    • Follow the on-screen instructions to perform the flashing process.
    • Verify that the flashing process was successful.

13. Verification:

    • After making any changes, verify that the system is functioning correctly.
    • Monitor the real-time data to ensure that the electric turbocharger auxiliaries are operating as expected.
    • Take the vehicle for a test drive to ensure that the performance has been optimized.

12. Future Trends in Electric Turbocharger Technology

The field of electric turbocharger technology is rapidly advancing. Staying informed about the latest trends is crucial for automotive technicians and enthusiasts.

12.1. Integrated Electric Turbochargers

Integrated electric turbochargers combine the electric motor and compressor into a single unit. This results in a more compact and efficient system.

12.2. Advanced Control Algorithms

Advanced control algorithms optimize the performance of electric turbocharger systems by continuously monitoring various parameters and adjusting the operation of the electric motor and control valves.

12.3. Improved Battery Technology

Improved battery technology provides more power and longer run times for electric turbocharger systems. This allows for more aggressive boost and improved overall performance.

12.4. Increased Adoption in Hybrid and Electric Vehicles

Electric turbocharger technology is increasingly being adopted in hybrid and electric vehicles to improve performance and efficiency.

12.5. Integration with Autonomous Driving Systems

Electric turbocharger systems are being integrated with autonomous driving systems to optimize performance and efficiency based on driving conditions.

13. FAQ: DTS Monaco and Electric Turbocharger Auxiliaries

Here are some frequently asked questions about DTS Monaco and electric turbocharger auxiliaries:

1. Can DTS Monaco be used on all vehicles with electric turbochargers?

   • DTS Monaco supports a wide range of vehicles, but compatibility depends on the specific vehicle model and the diagnostic protocols it uses. Always verify compatibility before use.

2. Is training required to use DTS Monaco effectively?

   • While it’s possible to use DTS Monaco without formal training, comprehensive training is highly recommended to understand its features and functions fully and avoid potential issues.

3. What are the risks of improper car coding with DTS Monaco?

   • Improper car coding can lead to serious problems, including engine damage, reduced performance, and safety issues. Always follow best practices and backup ECU data before making changes.

4. How often should I update the software for DTS Monaco?

   • It’s recommended to update the software regularly to ensure you have access to the latest features, bug fixes, and vehicle support.

5. Can DTS Monaco help improve fuel efficiency in vehicles with electric turbochargers?

   • Yes, by optimizing the performance of the electric turbocharger system, DTS Monaco can help improve fuel efficiency.

6. What kind of diagnostic interface do I need to use DTS Monaco?

   • The diagnostic interface depends on the vehicle and the communication protocols it uses. Common interfaces include Mercedes-Benz XENTRY Connect and similar devices.

7. Are there any legal restrictions on car coding with DTS Monaco?

   • Legal restrictions vary by region. Be aware of local laws and regulations before performing car coding.

8. What should I do if I encounter an error while using DTS Monaco?

   • Consult the DTS Monaco documentation, seek assistance from online forums, or contact technical support for help.

9. How does DTS Monaco compare to other diagnostic tools?

   • DTS Monaco is a powerful and versatile tool that offers advanced features and functions. However, other diagnostic tools may be more suitable for specific tasks or vehicles.

10. Where can I find reliable software files for flashing ECUs with DTS Monaco?

    • Obtain software files from trusted sources, such as the vehicle manufacturer or authorized dealers, to ensure they are correct and safe to use.

14. Conclusion: Mastering Electric Turbocharger Diagnostics with DTS Monaco

In conclusion, DTS Monaco is a powerful tool that can access data related to electric turbocharger auxiliaries, enabling technicians to diagnose issues, optimize performance, and update software. By understanding the fundamentals of electric turbocharger systems and mastering the features of DTS Monaco, you can enhance your skills and stay ahead in the rapidly evolving automotive industry. For comprehensive training and resources, consider enrolling in courses at DTS-MONACO.EDU.VN, where experienced instructors and state-of-the-art facilities will equip you with the knowledge and practical experience you need to succeed. Mastering DTS Monaco will not only elevate your diagnostic capabilities but also ensure you’re well-prepared for the future of automotive technology.

Ready to take your automotive diagnostic skills to the next level? Visit DTS-MONACO.EDU.VN today to explore our comprehensive DTS Monaco training programs and unlock the full potential of car coding and vehicle diagnostics in the USA. Contact us at Whatsapp: +1 (641) 206-8880, or visit us at 275 N Harrison St, Chandler, AZ 85225, United States.