Stuthings semiconductor sensors utilize a variety of advanced process sensing technologies, including residual gas analysis, optical emission spectrometry, quartz crystal microbalances (film thickness gauges), leak detectors, pressure gauges and radio frequency measurements. Equipped with patented software, users can monitor the production process in real time and control equipment instantly to ensure the highest quality of products through leading technology.
As semiconductor technology continues to advance and the demand for chips continues to increase, it is more important than ever to understand how gases and plasmas interact with their surroundings. Stuthings offers a variety of sensors for you, whether measuring during processing to ensure product safety and quality, during chamber cleaning or tool maintenance to minimize downtime, or even monitoring emission reduction systems to reduce Greenhouse gas emissions can meet your needs. Stuthings is your best partner.
Stuthings' sensors are suitable for the entire semiconductor manufacturing cycle. These sensors accurately measure gas composition to support early-stage research and development, front-end/back-end production, and plant-wide facility performance monitoring. The application scope covers back-end clean room mold sorting and assembly, thereby improving process control efficiency and productivity, achieving high-quality, reliable manufacturing, and achieving maximum productivity and highest efficiency operating levels. Whatever your challenge, Stuthings can provide you with a tailor-made solution.
Submarket
Semiconductor equipment manufacturers
The semiconductor industry involves the design, manufacturing, assembly and testing of integrated circuits. These semiconductor products are mainly used in data processing, communications, consumer electronics, automobiles, aerospace and other fields. In order to meet the growing demand for semiconductors, semiconductor tool manufacturers are committed to developing and selling semiconductor wafer tools for manufacturing microelectronic components. These tools typically consist of multiple wafer processing stations surrounding a central automated processing unit. As chip design becomes more complex, the level of automation must be continuously improved in order to reduce costs, increase productivity, improve process reliability and product quality.
All semiconductor tools are composed of three components or groups of components: a processing/cleaning/cooling chamber, a loading and unloading chamber, and a robot to transfer wafers between chambers. Each chamber operates at different pressures and specific process gases or plasmas, and these processes require precise control.
As a leading sensor developer, Stuthings uses state-of-the-art technology to offer a large portfolio of sensors that are widely used in thousands of process monitoring applications in semiconductor manufacturing tools. Our core technologies include mass spectrometry, quartz crystal microbalances (film thickness gauges), RF DC detectors, optical sensors, vacuum gauges and leak detectors.
Stuthings' products are proven to significantly increase productivity, efficiency, uptime and yield, enabling original equipment manufacturers (OEMs) to successfully sell equipment and meet growing semiconductor demand.