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Project Management Feature

In the DynaLink software, the Project Management Feature allows users to efficiently manage each vehicle's test projects. Users can clearly view detailed information and test results for each project, providing a comprehensive project management experience.

Key Features:

  1. Project Overview: You can view all created test projects, including the project creation date, last run time, vehicle make, model, and other basic information, helping you quickly locate the data you need to analyze.

  2. Test Data Viewing and Analysis: In the "Runs" tab, detailed data for each test is displayed, including speed source, gear ratio, correction standards, engine power, wheel power, torque, etc. By double-clicking on any run record, users can open a detailed graph analysis to view power and performance curves.

  3. Project Editing and Vehicle Information Modification: Users can easily edit the basic vehicle information in the project data section and upload vehicle images to provide a more intuitive reference for each project.

  4. Power Graph Preview: The software offers a power graph preview feature when hovering over specific test runs. Users can quickly view the preview of horsepower and torque curves simply by hovering over a test run, making it easier to locate the correct dyno test graph for in-depth analysis.

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PROJECT DATA Feature

In the PROJECT DATA feature, users can manually input vehicle data or click "Fill with online database" to automatically retrieve the relevant vehicle data from the online database. This data is critical as it allows our system to calculate the vehicle’s actual engine power using complex algorithms and large models, rather than just relying on percentage-based estimations.

Key Data Fields:

1. Vehicle Basic Information: Includes customer name, vehicle ID, make, model, series, year, weight, and other basic information. These parameters ensure the accuracy of the test results.

2. Engine Information: Includes fuel type, boost type, displacement, number of cylinders, transmission type, factory engine power, and torque. These parameters ensure the test results match the actual vehicle configuration.

3. ​Measurement Data (Measurement): This is the core data used by the system to calculate vehicle inertia, drivetrain losses, and more.

  • Engine Inertia (Eng. inertia [kg·m²]): Represents the inertia from the engine to the clutch components. The system can estimate this value based on the vehicle type, engine cycle (e.g., 4-stroke or 2-stroke), number of cylinders, displacement, and fuel type.

  • Drivetrain Inertia (DT inertia [kg·m²]): Reflects the inertia of all rotating components in the drivetrain, such as the transmission, driveshaft, and differential, and their effect on vehicle acceleration and deceleration. The system calculates this value to compensate for inertia losses, ensuring the dyno test results reflect the vehicle's true power output. Higher drivetrain inertia absorbs more energy, reducing the actual output power, so accurately inputting this value better reflects the drivetrain's actual power transmission efficiency.

  • Drivetrain Loss Factor (DT loss factor [%]): Indicates the power losses due to drivetrain efficiency. The system provides recommended values based on drivetrain type, such as 3%-8% for manual transmissions.

4. Error Ignoring Option: Users can choose to ignore coastdown errors during the testing process, which is important for high-precision testing requirements.By using the PROJECT DATA feature, users can ensure the accuracy of test data and the reliability of the system's calculations, providing highly dependable vehicle performance analysis for each test project.

PROJECT picture Feature

The PROJECT picture is a unique feature in the DynaLink software. Using an optional camera, users can capture real-time images directly from the dyno room and automatically store them in the project database. This feature allows users to save test photos with a single click, ensuring they can quickly locate the vehicle associated with a specific test project in the future.

Feature Advantages:

  1. Convenience: Users don’t need to manually take or upload photos, as the system automatically saves vehicle images in the corresponding project, saving time and effort in managing test records.

  2. Efficient Management: By storing photos in the project database, users can easily and quickly review the test vehicles for each project, facilitating maintenance and subsequent analysis.

  3. Differentiation Advantage: This feature is not available from other dynamometer manufacturers, offering great convenience and enhancing the software's practicality and intelligence. This innovative feature helps users create a visual record of projects while conducting vehicle tests, improving the efficiency and accuracy of project management.

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