인피콘 아카데미
지금 다음 웹세미나/세미나를 등록하거나 귀하에게 필요한 콘텐츠로 구성한 교육 과정을 예약하십시오.
곧 만나 뵙기를 기대하겠습니다!
모든 제안
CrystalSix and Crystal 12 are rotary Quartz Crystal Monitors utilized in OLED, Solar and Semiconductor applications, to name a few. QCMs like these also sometimes require user troubleshooting and maintenance to ensure good connectivity as well as crystal positioning within the aperture. During this webinar you will learn about the CrystalSix and Crystal12 and best practices to troubleshoot and maintain them.
Understand how Pirani technology works
Most people, when asked, cite equipment downtime as a top contributor to cycle time in their wafer fabs. Downtime impacts cycle time by taking away buffer capacity (driving tools to a steeper part of the operating curve), increasing process time variability (because lots must wait during downtime events), and reducing the available number of qualified tools during a given day or shift. Understanding these effects suggests specific metrics that are helpful for driving cycle time improvement and other metrics that are less useful. In this webinar, Dr. Jennifer Robinson, Cycle Time Evangelist for INFICON, will teach participants to select the best downtime metrics and operating practices for cycle time improvement. The session will include chart examples from the FabTime® reporting module.
Gain an in-depth understanding of the issues that cause cycle time problems and learn how to solve them.
A new future proof Hot Ion Gauge generation from INFICON
Smart essentials for intelligent leak detection
Quartz crystal microbalance (QCM) technology has been used for decades to control deposition rate and thickness for the most complex processes seen in the ophthalmic, optical, display, and solar markets. INFICON has recently made a new advancement in QCM technology to address a problem seen across all of these industries related to QCM temperature effects. Thermal shock can cause QCM thickness errors which can decrease yield and increase manufacturing costs if temperature is not accounted for correctly.
Temperature impacts the frequency measurement and can create false mass readings. Thin film deposition controllers currently on the market have no good way of distinguishing frequency shifts related to mass from frequency shifts related to temperature, resulting in thickness errors and poor PID control. This can be detrimental to complex coating processes due to the low deposition rates and incredibly thin layers required. Thermal shocks can occur at any point in a deposition process and can cause unnecessary PID-loop corrections, triggering non-uniform deposition in respect to time. This means that the quality throughout the bulk of the material is inadequate. For very thin films, the thickness termination may not be at the real intended thickness because the process time window is small compared to the time allowed for a QCM to recover from a thermal shock event.
INFICON has patented a new temperature compensation technique for SC-cut crystals to remove the effects of temperature variation on the QCM without the need for additional hardware or custom and expensive sensors.
Please join us for the ‘Temperature Compensation for QCMs’ webinar, hosted by Sheldon Wayman, Product Engineer for INFICON Inc.
HAPSITE CDT provides versatility for military, civilian and hazardous response teams to identify and quantify narcotics, Chemical Warfare Agents (CWA), Fourth Generation Agents (FGA), explosives and toxic industrial chemical threats on-site to develop critical health risk assessments, quickly. The new handheld cartridge-based sampling system allows users to carry lighter equipment, quickly deploy and get multiple samples analyzed onsite. This webinar reviews air sampling using the HAPSITE CDT.
NFICON의 He Leak Detector를 이용하면 공정 설비의 유지 보수 필요성이 줄어듦과 동시에 더욱 안전한 환경에서 작업할 수 있습니다.
INFICON 아카데미
The INFICON 아카데미 에서는 혁신적 측정 기술, 핵심 기술에 대한 센서 기술과 오늘날의 스마트 제조/Industry 4.0 소프트웨어에 대한 지식을 배울 수 있습니다.