Industry News

Low Temperature Co-fired Ceramic (LTCC) machines represent one of the most critical technological advancements in modern electronic manufacturing. These machines are designed to produce multilayer ceramic substrates used in high-frequency, high-reliability applications such as automotive electronics, telecommunications, radar systems, and medical devices. LTCC technology allows the integration of multiple electrical circuits, resistors, and capacitors into a single compact module, reducing space and improving performance efficiency.

The MCH Machine is a cutting-edge solution in modern industrial manufacturing, designed to improve precision, speed, and cost-efficiency across multiple production environments. As industries continue to demand higher throughput and reduced error margins, MCH Machines have emerged as a pivotal technology, combining advanced automation, robust engineering, and user-friendly interfaces.

This article introduces that the global market for MLCC production equipment will exceed US$6.8 billion in 2024. It has advantages such as efficient mass production, is developing towards high-precision intelligence, and drives innovation in downstream industries.

Maintenance Specification for LTCC Chamfering and Sorting Machine

The HTCC flattening machine is a key equipment specially designed for processing HTCC green ceramic sheets and related products, and it plays an important role in the HTCC process. Its main function is to accurately flatten HTCC green ceramic sheets, ensuring the flatness and stability of the green ceramic sheets in subsequent processing, thereby effectively improving the quality and performance of the final products.

After 20 years of deep cultivation in the electronic component manufacturing industry, I have witnessed every innovation in the LTCC production process. When I visited an electronic component factory in Shenzhen last year, their production supervisor told me an amazing number: after the introduction of YSR Automatic LTCC Stacking Machine, the product defect rate dropped from 3.2% to 0.5%, which made me more convinced of the importance of automated equipment for precision manufacturing.