End-of-Line (EoL) testing devices are used to test the quality of the product after the production process. The purpose of the testing system is to check any visual, audio or other problems that may arise during the installation and assembly of components before they are delivered to customers. Application examples of end-of-line testing systems developed by Novosim include: Rotary systems (transmissions, axles, etc.) Automotive Component Testing Noise and vibration level measurements special systems EoL testing systems are complex systems that generally operate automatically and include a range of sensors, data acquisition devices and testing equipment. Test procedures can be prepared in the form of predefined scenarios by the development team and stored in a database. Different scenarios can be prepared for different test conditions (high speed, low speed, long term, short term, etc.) and then called from the database.
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Cabins are used to determine the acoustic absorption properties of materials and are generally called "acoustic test cabins" or "reverberation rooms". These cabins are designed to detect the sound absorption properties of materials against frequency, measure their acoustic performance and determine their properties. Here are some of different types of cabins: Reverberation Rooms: In these rooms, sound waves hit and reflect on surfaces and resonate for a while. In this process, the acoustic absorption capabilities of the material are measured. Acoustic Test Booths: These booths are designed to evaluate the acoustic performance of specific materials or products. They often include high-sensitivity microphones, sound sources and measuring devices. Acoustic Rooms: These rooms are generally large and can be specially designed. It is used for larger-scale or special tests of the acoustic properties of materials.
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End-of-Line (EoL) testing devices play a crucial role in assessing product quality post-production. They are instrumental in detecting any visual, auditory, or operational issues that may arise during component installation and assembly, ensuring that only flawless products reach customers. Novosim's end-of-line testing systems cater to a diverse range of applications, including rotary systems (such as transmissions and axles), automotive component testing, noise and vibration level measurements, and specialized testing requirements. These sophisticated EoL testing systems are designed to operate automatically, leveraging a comprehensive array of sensors, data acquisition devices, and testing equipment. They enable the creation of customized test procedures, which are stored in a centralized database for easy access. These procedures can be tailored to different test conditions, accommodating variations in speed, duration, and other parameters.
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Accelerate your product development cycle with our Test Dynamometer service. Our system enables accelerated testing of transmissions, axles, gears, and other rotating elements to identify potential issues early in the development process. With fast data collection and intuitive user interface, we help you iterate quickly and efficiently. Key Features: Accelerated testing for faster product development Comprehensive data collection from low-speed and fast channels Quick setup and execution of test cases Expert support and training for test center operators
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This system is very valuable for testing the durability and expected life of the transmissions, axles, gears, transfer cases and shafts under various scenarios. It is hard to do vehicle level durability tests and without the need of getting the vehicle on the road for replicating claims caused by the powertrain, such type of a custom system help replicate the driving conditions where problems occur and the engineering team can develop a solution and iterate on the bench. Easy to use user interface; simplicity in get the system running in a target time is our most important goal. Operators in a test center can quickly receive training and begin running a variety of scenarios. Data from low speed channels such as sensors including thermocouples, RTD temperature sensors, pressure sensors and others can be collected whereas data from fast channels such as acceleration or microphone are collected through data collection (DAQ) systems, depending on the customer's preference.
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