INNOVACERA | technical ceramic solutions

As the developing of the power electronics, manufacturers are looking for substrate solutions that not only deliver reliable performance but also make sense from a cost and production method. Alumina (Al₂O₃) substrates used in Direct Plated Copper (DPC) technology remain a practical and widely adopted choice across many industries.   A Reliable and Cost-Effective Material Choice   Alumina substrates have been used in electronic package for a long time due to reliable electrical insulation, strong mechanical support, and steady thermal performance, which making them a good choice for a wide range of power and electronic applications used every day.   Alumina has a great advantage for cost-effectiveness when compared with other ceramic materials. Manufacturers can reach to dependable performance without driving up overall system costs, with a well-established supply chain, stable quality, and the ability to support mass production. As a result, alumina DPC substrates are pa...

Electron gun and ion source assemblies work in harsh conditions—high voltage, high temperatures, and ultra-high vacuum alike. This is especially true for ion repeller insulators, a key interface component where reliable electrical isolation and airtight vacuum sealing are both must-haves.   Our glazed alumina ceramic tubes with precision internal threading—engineered as Ion Repeller Ceramic Tubes—are made specifically for these tough applications. As the core insulating part of repeller insulator assemblies, they pair perfectly with alumina bolts, delivering steady performance while ensuring firm mechanical fastening and reliable electrical isolation.     High-Vacuum Design: A Core Engineering Challenge Keeping long-term vacuum integrity in high-voltage setups is a classic engineering hurdle. Insulators have to do three jobs at once: act as mechanical support, block electrical current, and seal the vacuum—all while staying stable when hit with thermal and electrical stres...

  Designed for demanding laser applications, high-current hermetic feedthroughs for CO₂ lasers are critical components where stable power transmission, reliable insulation, and mechanical integrity are essential for continuous system operation.   Hermetic Ceramic Feedthrough  Applications: The ceramic feedthrough for laser power supply is commonly used in: CO₂ laser power supplies Industrial laser cutting and welding systems Laser system maintenance and component replacement Other high-current electrical feedthrough applications within laser equipment     Ceramic Feedthrough Features: 100A rated capacity High electrical insulation Ceramic Material High-Purity Alumina (Al₂O₃) Copper conductor ensuring minimal resistive loss Compact, flanged design for secure panel mounting Engineered for continuous, reliable operation in laser environments   Technical Specifications Parameter Specification Rated Current Up to 100 A Ceramic Material High-purity Alum...

In semiconductor equipment, industrial control systems, and high-reliability electronic systems, the package not only provides electrical connections but also directly affects the long-term stability of the device in high-temperature, vacuum, or otherwise demanding environments. Although traditional plastic-encapsulated SOP packaging is cost-effective and fast to produce, it is susceptible to aging, leakage, or performance degradation under high humidity, high temperature, and long-term operation conditions. In contrast, ceramic packaging has inherent advantages in terms of air tightness, material stability, and service life. Among them,  Ceramic Small Outline Package (CSOP)  is a type of ceramic package that combines mature manufacturing techniques with surface mount requirements. It integrates the high stability of ceramic materials with the compact form factor of SOP (Surface Mount Package), and is widely used in electronic systems that have high requirements for reliabilit...

Alumina ceramic  is widely applied in the high-temperature industry because of its excellent resistance to high temperatures. It can withstand high temperatures up to 1800℃, in addition to its stable chemical properties, high mechanical strength, and electrical insulation. So  Alumina ceramic tube  is commonly used in high-temperature furnaces, thermocouples tubes, insulating tubes, and corona electrode’s square ceramic tubes. In this articles, we would like to discuss how to use alumina ceramic tubes at high temperatures to ensure optimal performance and longevity.

One Primary Use:Water-cooled crucible liner,Application as Crucible Liner for copper crucible,This high-purity alumina component is specifically engineered as a thermal insulation liner for water-cooled crucible systems in molten aluminum operations. Its primary function is to effectively isolate the corrosive from the crucible body, thereby serving the dual critical purposes of minimizing heat loss and providing exceptional resistance against aluminum penetration and erosion.   This set ensures enhanced process stability, energy efficiency, and prolonged crucible service life.   Advantage: It must provide excellent thermal insulation and withstand corrosion from molten aluminum.   Product Specifications a.Material: 99% Alumina b.Size: 296*126*58 mm c.Tolerances: Wall thickness ±8 mm, width & height ±2 mm, length ±4 mm d.Customization: Yes e.Mold Required: No f.MOQ: None (orders can start from 1 unit) g.Product Model Number: SS0483B0...