All modern modes of transportation, including automobiles, ships, trains, and planes, heavily rely on electronic devices. These electronic devices operate under harsh conditions, supporting not only functionality and efficiency but also safety. As a result, such equipment must adhere to particularly stringent quality requirements.
To learn more about the applications of electronics manufacturing in transportation, read this article.
Applications of electronics in vehicles
Automotive electronic devices are core components of the majority of modern cars, in which many functions do not work properly or are entirely unavailable without electronics. Whether it is an engine control unit (ECU), a navigation system, parking sensors, or safety features like ABS and airbags, electronic devices play a crucial role in their operation.
Electric and hybrid vehicles rely on electronic equipment even more, including charging infrastructure, battery management systems, and electric motor control.
Railway transportation requires communication, train control, and signalling systems. Marine transportation, used for both recreational and commercial shipping, is equipped with weather forecasting, radar, and sonar systems. Meanwhile, aircraft depend on advanced electronics for flight management systems and autopilot functions.
Electronics for transportation infrastructure
The utilisation of electronic devices in the transportation industry extends beyond vehicles. Ensuring the structural integrity and safety of transportation infrastructure, which includes roads, tunnels, bridges, railroads, and airports, also necessitates the use of electronic equipment.
Furthermore, traffic control systems, ranging from traffic lights to advanced intelligent highway systems, rely on electronic devices for their operation, too.
Requirements for electronic devices in the transportation industry
Electronic devices used in transportation must withstand harsh environmental conditions such as extreme and fluctuating temperatures, dust, chemicals, and moisture. The production of such devices requires well-equipped production facilities and skilled employees working according to IPC Class 3 standards.
For example, Assel, based in Poland, enforces stringent BOM and supply chain management practices to ensure production that precisely meets the requirements of original equipment manufacturers (OEMs).
Some of the methods employed by Assel to support the production of particularly demanding electronic components for the transportation sector include specific testing procedures, such as thermal shock chambers and burn-in tests, as well as potting and conformal coating.
Conclusions
Electronics manufacturing has numerous applications in various types of vehicles and transportation infrastructures. Regardless of its function, such equipment must be reliable, as its malfunction can seriously compromise safety. For more information on the production of high-quality devices for transportation, visit
https://asselems.com/en/transportation1
