Press Release: Shin-Etsu Chemical develops innovative new materials for wearable devices
Shin-Etsu MicroSi Blog
by Shin-Etsu Microsi
1y ago
Contributing to the realization of a society in which people will lead healthier and longer lives Shin-Etsu Chemical Co., Ltd. (Head Office: Tokyo; President: Yasuhiko Saitoh) has developed innovative electrophysiological dry electrodes and high-elasticity wiring materials, which will be used to contribute to the achievement of superior performance characteristics for next-generation wearable devices. These wearable devices enable remote measurement and transmission of a person’s electrical bio signals, including such vital signs as heart rate and electrocardiogram (ECG) waveform, while a p ..read more
Visit website
Shin-Etsu Chemical to Launch Newly Developed Advanced Materials for 5G Related Products
Shin-Etsu MicroSi Blog
by Shin-Etsu Microsi
1y ago
Shin-Etsu Chemical Co., Ltd. (Head Office: Tokyo; President: Yasuhiko Saitoh) is launching a number of new products in order to take advantage of surging demand for highly advanced materials in the coming 5G era (Fifth Generation Telecommunication). Shin-Etsu has newly developed a “Quartz Cloth” and a “Thermoset Ultra-low Dielectric Resin” ideal for electronics devices, printed circuit boards, IC substrates, antennas, and radar domes that will be used in 5G high-frequency (including millimeter-wave) communication. Furthermore, we are expanding our lineup of heat dissipation products. In conne ..read more
Visit website
Integrating Ultra-Thin Si Dies Within A Flexible Label
Shin-Etsu MicroSi Blog
by Shin-Etsu Microsi
1y ago
Recent developments in the integration of ultra-thin silicon dies within a flexible film lead to a new paradigm. Indeed, thanks to the thinness and flexibility of devices, it is conceivable that functions can be added around any object without changing its aspect [1-5]. Currently, only electronic tracks between components are flexible in the major flexible electronic products on the market. This is due to the fact that the silicon components are already packaged or are too thick. In order to get fully-flexible devices, silicon dies have to be thinned to less than 100µm. Three formats can be p ..read more
Visit website
Press Release: Shin-Etsu Chemical develops innovative new materials for wearable devices
Shin-Etsu MicroSi Blog
by Shin-Etsu Microsi
2y ago
Contributing to the realization of a society in which people will lead healthier and longer lives Shin-Etsu Chemical Co., Ltd. (Head Office: Tokyo; President: Yasuhiko Saitoh) has developed innovative electrophysiological dry electrodes and high-elasticity wiring materials, which will be used to contribute to the achievement of superior performance characteristics for next-generation wearable devices. These wearable devices enable remote measurement and transmission of a person’s electrical bio signals, including such vital signs as heart rate and electrocardiogram (ECG) waveform, while a p ..read more
Visit website
Press Release: Shin-Etsu Chemical proposes an innovative integrated chip process for manufacturing Micro LED displays
Shin-Etsu MicroSi Blog
by Shin-Etsu Microsi
2y ago
We will supply the essential parts and equipment needed to transfer Micro LED chips from LED wafer to backplane to help reach the goal of mass production of Micro LED displays Shin-Etsu Chemical Co., Ltd. (Head Office: Tokyo, President: Yasuhiko Saitoh) is announcing that it is ready to supply a unique set of transfer parts and equipment to be used for manufacturing of Micro LED displays. As a One-Stop Solution Provider, Shin-Etsu is proposing this innovative solution for manufacturing Micro LED displays to a wide range of customers, and we will work together with them on achieving the wide ..read more
Visit website
Press Release: Preferred Quality Supplier Award
Shin-Etsu MicroSi Blog
by Shin-Etsu Microsi
2y ago
Shin-Etsu Chemical Earns Intel’s 2020 Preferred Quality Supplier (PQS) Award Shin-Etsu Chemical is one of only 26 PQS Award recipients in all of Intel’s global supply chain.   Tokyo, Japan, June 2nd, 2021 – Shin-Etsu Chemical is proud to announce that it has earned the Preferred Quality Supplier (PQS) Award for 2020. Through its dedication to continuous quality improvement, Shin-Etsu Chemical has achieved a level of performance that consistently exceeds Intel’s expectations. “As one of only 26 Preferred Quality Supplier Award winners in the entire Intel supply chain, Shin-Etsu Chem ..read more
Visit website
Shin-Etsu Chemical to Launch Newly Developed Advanced Materials for 5G Related Products
Shin-Etsu MicroSi Blog
by Shin-Etsu Microsi
2y ago
Shin-Etsu Chemical Co., Ltd. (Head Office: Tokyo; President: Yasuhiko Saitoh) is launching a number of new products in order to take advantage of surging demand for highly advanced materials in the coming 5G era (Fifth Generation Telecommunication). Shin-Etsu has newly developed a “Quartz Cloth” and a “Thermoset Ultra-low Dielectric Resin” ideal for electronics devices, printed circuit boards, IC substrates, antennas, and radar domes that will be used in 5G high-frequency (including millimeter-wave) communication. Furthermore, we are expanding our lineup of heat dissipation products. In conne ..read more
Visit website
Integrating Ultra-Thin Si Dies Within A Flexible Label
Shin-Etsu MicroSi Blog
by Shin-Etsu Microsi
2y ago
Recent developments in the integration of ultra-thin silicon dies within a flexible film lead to a new paradigm. Indeed, thanks to the thinness and flexibility of devices, it is conceivable that functions can be added around any object without changing its aspect [1-5]. Currently, only electronic tracks between components are flexible in the major flexible electronic products on the market. This is due to the fact that the silicon components are already packaged or are too thick. In order to get fully-flexible devices, silicon dies have to be thinned to less than 100µm. Three formats can be p ..read more
Visit website
Semiconductor OEMs Experience Spending Declines Worldwide
Shin-Etsu MicroSi Blog
by Shin-Etsu MicroSi
2y ago
Softening market conditions and rising uncertainty in global trade and economy have impacted semiconductor spending from the world’s top OEMs, currently facing the steepest decline in over a decade. Worldwide spending from semiconductor OEMs will amount to just $316.6 billion in 2019, which is down 7% from 2018. The recent decline came after two years of double-digit growth, which pushed the served available market (SAM) to its highest level ever at $340.2 billion in 2018. The semiconductor spend market is at an inflection point, where component demand is transitioning from being driven by mob ..read more
Visit website
Breaking the Memory Wall In AI
Shin-Etsu MicroSi Blog
by Shin-Etsu MicroSi
2y ago
In the long unfolding arc of technology innovation, artificial intelligence (AI) looms as immense. In its quest to mimic human behavior, the technology touches energy, agriculture, manufacturing, logistics, healthcare, construction, transportation and nearly every other imaginable industry – a defining role that promises to fast track the fourth Industrial Revolution. And if the industry oracles have it right, AI growth will be nothing shy of explosive. Internet of Things (IoT) and 4G/5G, both key AI enablers, are expected to account for more than 75 percent of device connections by 2025. In o ..read more
Visit website

Follow Shin-Etsu MicroSi Blog on FeedSpot

Continue with Google
Continue with Apple
OR