List of Electronic Components and Modules products
- classification:Electronic Components and Modules
2776~2790 item / All 58714 items
Amino acid-derived natural cationic polymer that can be used in food preservatives, hygiene materials, and daily necessities. It is a safe material as it is a fermentation product produced by natural ...
- Shelf life enhancer
Introduction of the preservative polylysine / fermented polyamino acids that contribute to food poisoning prevention.
We provide easy-to-understand materials explaining the natural preservative polylysine, which prevents food poisoning. ε-Polylysine (hereafter referred to as polylysine) is an amino acid-derived preservative widely used as a food preservative. By adding polylysine, the growth of microorganisms that cause food poisoning can be prevented. Every year, food poisoning caused by microorganisms is a significant issue and is frequently reported in the news. Even foods that do not appear to be spoiled can rapidly proliferate microorganisms if the growth environment is suitable, so caution is necessary. Even if something looks clean, contamination by bacteria can progress, posing a risk of food poisoning. By ensuring hygiene management during the manufacturing process, proper storage at appropriate temperatures, and the appropriate use of the preservative polylysine, food safety can be more effectively protected. 【Features】 ■ A safe material produced through fermentation by natural microorganisms (not genetically modified organisms) ■ Provides a good image as a natural fermented product ■ Listed in the existing additive registry as a food preservative ■ A safe domestic product *Please feel free to contact us.
Can be processed into various shapes, with a wide range of application possibilities! We will polymerize the polymer according to your requirements.
- Public Testing/Laboratory
- Contract manufacturing
Spatial output, Littman/Metcalf configuration, and a red wavelength tunable CW narrow linewidth laser.
- Laser Components
Spatial output, Littman/Metcalf configuration, and a continuously variable wavelength CW narrow linewidth laser in the near-infrared range.
- Laser Components
"Complete sealing of electrical components in just a few dozen seconds. Ideal for waterproofing, dustproofing, and insulation!" Hot melt molding is gaining attention for the waterproof sealing of elec...
- plastic
- Coating Agent
- Other electronic parts
Introducing the waterproof, dustproof, and insulation protection technology for various electrical components called "hot melt molding." Sealing is completed in just a few dozen seconds, achieving process improvement and cost reduction.
The technology "Hot Melt Molding," which is expanding its adoption for waterproofing, dustproofing, and insulation protection of various electrical components, rapidly solidifies thermoplastic hot melt adhesives within molds, completing sealing in a short time of just a few dozen seconds. Compared to traditional urethane potting and epoxy potting, this technology allows for sealing to be completed in an ultra-short time, leading to alternatives aimed at process improvement and cost reduction. Additionally, because it involves mold forming, it offers high freedom of shape, receiving high praise for miniaturization and lightweighting of components. Our company, Matsumoto Processing, has been involved in the protection of many electrical components, including automotive electrical components, as a pioneer of this technology alongside our customers. We can achieve material selection, specification consideration, prototype shape design, mold manufacturing, and prototyping in a short time. Customers interested in this technology are encouraged to feel free to contact us.
Spatial output, Littman/Metcalf configuration, and a continuously variable wavelength CW narrow linewidth laser in the near-infrared range.
- Laser Components
Spatial output, Littman/Metcalf configuration, and a continuously variable wavelength CW narrow linewidth laser in the near-infrared range.
- Laser Components
Spatial output, Littman/Metcalf configuration, and a continuously variable wavelength CW narrow linewidth laser in the near-infrared range.
- Laser Components
Spatial output, Littman/Metcalf configuration, and a continuously variable wavelength CW narrow linewidth laser in the near-infrared range.
- Laser Components
Spatial output, Littman/Metcalf configuration, near-infrared wavelength tunable CW narrow linewidth laser.
- Laser Components
Spatial output, Littman/Metcalf configuration, and a continuously variable wavelength CW narrow linewidth laser in the near-infrared range.
- Laser Components
Coexistence of 3D inspection capabilities with conventional 2D inspection! Supports shape inspection of semiconductors with a size of 15mm square.
- Sensors
- Sensors
- Other Sensors
Spatial output, Littman/Metcalf configuration, and a continuously variable wavelength CW narrow linewidth laser in the near-infrared range.
- Laser Components
Spatial output, Littman/Metcalf configuration, and a continuously variable wavelength CW narrow linewidth laser in the near-infrared range.
- Laser Components
Spatial output, Littman/Metcalf configuration, and a continuously variable wavelength CW narrow linewidth laser in the near-infrared range.
- Laser Components
Spatial output, Littman/Metcalf configuration, and a continuously variable wavelength CW narrow linewidth laser in the near-infrared range.
- Laser Components
Spatial output, Littman/Metcalf configuration, and a continuously variable wavelength CW narrow linewidth laser in the near-infrared range.
- Laser Components