A sustainable integration test system and test method for automotive electronic components

By utilizing a sustainable integrated testing system for automotive electronic components, and through automated channel switching and power management of the host computer system, testing tools, and slave computer system, the problems of wasted testing resources and repetitive manual operations are solved, and an efficient and accurate testing process is achieved.

CN122193779APending Publication Date: 2026-06-12KOSTAL SHANGHAI ELECTROMECHANICAL CO LTD +1

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
KOSTAL SHANGHAI ELECTROMECHANICAL CO LTD
Filing Date
2026-04-20
Publication Date
2026-06-12

AI Technical Summary

Technical Problem

In current automotive electronic component software testing, the utilization rate of testing resources is low and there are many repetitive manual operations, resulting in waste of testing equipment resources and reduced accuracy of test results, making it difficult to meet the industry's demand for rapid R&D and delivery.

Method used

A sustainable integrated testing system for automotive electronic components is provided, including a host computer system, testing tools, and a slave computer system. It achieves automated channel switching and power supply management through multiplexed switching circuits and power supply circuits, and combines with a Jenkins server to achieve centralized control and remote management of test tasks.

Benefits of technology

It enables the intensive use of testing resources, reduces repetitive manual work, improves testing efficiency and accuracy, and supports rapid software iteration and delivery.

✦ Generated by Eureka AI based on patent content.

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Abstract

This application discloses a sustainable integration testing system and method for automotive electronic components; it relates to the field of automated testing and addresses the problems of inefficient use of testing resources and excessive repetitive manual operations. It consists of three core modules: a host computer system, testing tools, and a slave computer system. The host computer system acts as the central control core, communicating with both the testing tools and the slave computer system. The testing tools, as specialized test execution components, communicate bidirectionally with both the host and slave computers. The slave computer system performs functional testing and data acquisition of the components, and switches communication channels and supplies power as needed according to instructions from the host computer, achieving automated configuration of the testing link. The communication channel switching of the multiplexed switching circuit and the power supply path allocation of the power supply circuit are synchronously controlled by the main control unit according to the logical scheduling signal output by the same control instruction from the host computer. The entire process requires no manual intervention in hardware connection adjustments, alleviating the energy consumption caused by manual operation.
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