Industry application technical index advantages Infrared detector and imaging Mid-wave infrared response:...
Industrial application of aluminum arsenide materials High temperature electronic devices High temperature...
Industry applications Solar cells High photoelectric conversion efficiency: the highest efficiency in...
Application scenarios of gallium nitride materials Power electronics Power devices: Gallium nitride field-effect...
Core application areas of indium phosphide Optical communication and laser technology 1550 NM laser:...
Advantages of application technical indicators Technical performance Through ion implantation or diffusion...
Application scenario advantages Semiconductor devices: used to manufacture power devices such as MOSFET...
Apply technical advantages Photovoltaic field: â—¦ Conversion efficiency 15%-22% (PERC technology), cost...
Application advantages Photovoltaic field: conversion efficiency of 24% (polysilicon only 18-20%), combined...
Industry applications High frequency communication and 5G/6G RF power amplifier: used in 5G base stations...
Cherpter 1 Constantly achieve micro and integration High integration and multi-layer circuit design Through...
Charpter 1 Lightweight quantification and structural strength Lightweight advantage Material density...
Chapter 1 Thermal management I. Ultra-high thermal conductivity and high-frequency heat dissipation capabilities...
Chapter 1 Reliability and Durability I. Technical Advantages of Ceramic Shell 1. High Airtightness and...
Chapter 1 Adaptability to Extreme Environments 1. Extreme Temperature Tolerance The thermal conductivity...
Chapter 1 Thermal management performance 1. High thermal conductivity and low thermal resistance The...
Chapter 1 Thermal management performance I. Technical indicators of ceramic shells 1. High thermal conductivity...
Charpter 1 Air tightness and heat dissipation performance Advantages of air tightness technical index...
Semiconductor ceramic packages and ceramic substrates play a vital role in the sensor industry, especially in applications requiring high precision and high reliability. They not only provide mechanical support and electrical connections, but also play an important role in thermal management, environmental protection, electrical performance, mechanical strength, signal integrity, etc. They have greatly promoted the development of the sensor industry and achieved breakthrough innovations in many fields.
All evolving technologies will become a reality through scientific and technological development. Continuous innovation in semiconductors has promoted the advancement of medical devices and technologies, which not only improves the performance and reliability of equipment, but also injects new vitality into the development of the medical industry. In the future, there will be more breakthroughs that will further promote changes in the medical and health field.
Aerospace field: With its unique physical and chemical properties, it has brought significant boost and breakthrough innovation to the industry.
Semiconductor ceramic tube shells and ceramic substrates have brought significant assistance and breakthrough innovation to the automotive industry with their unique physical and chemical properties. With the popularization of electric vehicles and autonomous driving technology, they will play an important role in improving energy efficiency, safety and intelligence, further promoting the change and development of the automotive industry.
Semiconductor ceramic tubes and ceramic substrates provide key support for AI hardware. The rapid development of artificial intelligence technology has increased the demand for high-performance computing (HPC) systems, data centers, and smart devices, and the demand for high-performance, high-reliability optical modules and other electronic components has also increased.
Semiconductor ceramic packages and ceramic substrates provide key performance advantages in the communications industry, especially in 5G and beyond. Their properties help solve the challenges of high-frequency, high-speed data transmission and promote a number of breakthrough innovations.
Semiconductor ceramic packages and ceramic substrates also play a key role in the optical industry, especially in lasers, optical communication devices, sensors, and various optical modules. They provide the necessary mechanical support, electrical connection, thermal management, environmental protection and other functions for these high-precision optical components, and promote a number of breakthrough innovations.
The application of semiconductor ceramic packages and ceramic substrates in the UAV industry has not only improved the performance and reliability of UAVs, but also expanded their application scenarios, promoted the continuous emergence of new technologies and new products, and promoted breakthrough innovations in many technologies.
R&D Engineer (Blake Kang) has this to say about our ceramic products: We recently purchased ceramic substrates from DEEPETCH for our high-frequency applications and we are very pleased. The quality of the products is excellent, the ceramic material is stable and the thermal conductivity is extremely high, which is crucial for our performance. Punctual delivery, first-class after-sales service
Allen Wang, R&D engineer, has this to say about our ceramic products: We ordered ceramic casings from DEEPETCH and we are very satisfied with the quality of the products. The dimensions are fully compatible and the finish is perfect. Excellent performance in high temperature applications. Smartnob thanks le'a for the quality of its products and services. We look forward to working together again in the future
JingRui wang, Manufacturing engineer, said this about our ceramic products: The carrier plate is easy to weld and perfectly matches our existing circuit design, which greatly simplifies our assembly process, everything is as expected, and DEEPETCH is a good choice
Engineering Designer (Xunchun lin) said this about our ceramic products: DEEPETCH's ceramic carrier plate has excellent thermal conductivity, which can effectively disperse heat, ensuring that the electronic components used in the design remain stable during high load operation
QC Department, senior engineer (Jack Zhu) about our chip products he said: After a long time of testing, I found that the chip failure rate is very low, proving its excellent quality and reliability, which is essential for our applications that need to run continuously for a long time.
