With the development of new energy, renewable energy and other emerging technologies, the fuse continues to put forward new requirements, fuse manufacturers need to continue to improve the level of materials and manufacturing processes to better meet the circuit safety and equipment protection, mainly reflected in the following aspects

1.Higher performance requirements

With the diversification and modernization of electronic products, people also put forward many new protection requirements for the circuit, and thus many new types of fuses with novel protection functions will appear one after another, such as faster melting action, strong pulse resistance, smaller rated current or higher rated current, smaller size, etc..

2.To the intelligent, miniaturized development

New types of protection: electrostatic protection, lightning protection, electromagnetic interference protection. Fuse development may be towards miniaturization, surface mount, multi-functional or multi-circuit integration of the direction of development, to become both overcurrent protection characteristics and other circuit protection features of the new product, and even with reusable features.

3.To the direction of more environmentally friendly development

Now the fuse usually contains lead, cadmium and other heavy metals, polluting the environment and causing harm to the human body. With the progress of science and technology, especially the development of new materials, the fuse will be more and more environmentally friendly, and gradually say goodbye to these heavy metals that pollute the environment.

4.Safety performance is further improved

In the opening of the current, the current fuse may be harmed by harmonic resonance overcurrent and explosion, spray arc, etc., thus causing harm to the environment. We believe that with the development of technology, these problems will be solved.

5.Digital Trends

Manufacturing design process digitalization: that is, simulation of the manufacturing process, the use of computers powerful computing capabilities for parts of the experimental trial production, so as to accurately rationalize the design and improvement of parts and processes, saving design and test time.
Realization of the digitalization of the production process: the use of computers to realize the complete automation of the production process, combined with the entire production system and logistics and transportation systems to complete the entire production process of the manufacturing industry.

6.Refinement

With the continuous improvement of manufacturing methods, the precision is also increasing. For example, in the 20th century, the so-called ultra-precision manufacturing error reduced to 10 μm, then to 1 μm, and then to 0.1 μm. to the end of the 0.01 century, reached 1 μm, and now has reached XNUMXnm. with the continuous progress of nanotechnology in the future, the manufacturing process will also be fully into the nanometer era at all.

7.Integration, automation trends

The development of integration is the product of a high degree of automation, that is, the entire manufacturing process from the original decentralized into a fully integrated, continuous manufacturing. The future of integration will be the entire finished product of integrated manufacturing, so that the whole process of design, production, assembly, finished product inspection, delivery and so on can be completed in an automated system.