Last Updated: Aggregation Period:Dec 24, 2025~Jan 20, 2026
This ranking is based on the number of page views on our site.
Last Updated: Aggregation Period:Dec 24, 2025~Jan 20, 2026
This ranking is based on the number of page views on our site.
Last Updated: Aggregation Period:Dec 24, 2025~Jan 20, 2026
This ranking is based on the number of page views on our site.
1~15 item / All 79 items
Easy to install! Thin design! Perfect for saving space.
【Features】 Compact dehumidifying element (characterized by its size, similar to a fingertip) Universal dehumidifying element (easy to install with included packing) Slim dehumidifying element (characterized by its thinness) *For more details, please refer to the PDF document or feel free to contact us.
They are used as ultra-thin beam splitters, windows, mirrors, and filters!
The pellicle optical elements from National Photo Color Co. are used primarily in spectroscopic devices as ultra-thin beam splitters, windows, mirrors, and filters, due to their film thickness of a few micrometers, which eliminates secondary reflections, spherical aberrations, chromatic aberrations, and refraction anomalies.
New inductor element using spintronics technology
An inductor is known as an element that uses the induced electromotive force generated in a coil to stabilize the current in circuits. Circuit elements used in small electronic devices require miniaturization, but there is a fundamental limit for conventional inductors due to a physical restriction. This invention uses the principle of induction in spintronics physics, as the inventors have shown, that inductance emerges in uniform magnetic materials as a result of spin-orbit interaction, where any “twists” are not required like conventional coils or magnetic structures. This technology offers various inductor elements that are low-cost, stable against temperature variation, and capable of miniaturizing.
Innovative technology possible to apply in a wide application by using spintronics
There are various schemes to electrically control magnetic materials. Several functional elements such as random number generation, oscillator, wave detection and memory based on the previously discovered phenomena have been proposed so far. However, elements that use ferromagnetic material is sensitive to magnetic field noise caused by external magnetic field, needs magnetic field control by an external mechanism to control oscillator and wave detector frequency, and requires miniaturization. This technology solves the above issues based on the new phenomenon, so called continuous rotation of chiral spin structure in non-collinear antiferromagnetic materials, and provides ultra compact, low power consumption and highly stable elements.
Realizing wide viewing-zone angles For electronic-holography 3D displays
・ Electronic holography for displaying three-dimensional (3D) information is required for entertainment, industrial design, measurement, and head-up display for automobiles. ・3D information is displayed by reconstructing an image through a spatial light modulator(SLM). SLM cannot narrow the pixel pitchbecause the electric field leaks out to adjacent pixels, resulting in a narrow viewing-zone angles. ・Therefore, the invention introduces a liquid crystal driving system in a lateral electric field by a continuous potential difference and fine ground electrodes into the SLM. ・As a result, the electric field leakage is reduced, the pixel pitch of less than 1 μm is achieved for the first time. ・Using the pixel pitch of 1μm, it is possible to achieve practical viewing-zone angels of 30°. invention is expected to enlarge electronic holography application field.
Achieving angle-selective radiative heat transfer over a wide wavelength range!
Traditionally, when performing angle-selective radiative heat transfer, the energy transported is minimal. To achieve angle-selective radiative heat transfer, it is necessary to generate thermal radiation over a wide wavelength range, and materials for thermal radiators corresponding to that wavelength range are essential. However, if such materials are not readily available, it becomes impossible to apply thermal transport. Therefore, there is a demand for technology that can finely adjust the wavelength range of thermal radiation regardless of the materials used for thermal radiators. This invention makes it possible to provide a thermal radiation element capable of realizing thermal radiation at a predetermined angle over a wide wavelength range, as well as a thermal transport method using that thermal radiation element. The thermal radiation element of this invention comprises a first metal substrate, a dielectric film, and a plurality of second metal members arranged at a predetermined interval, with the width of the second metal members being between 4μm and 50μm. This allows for the realization of thermal radiation over a wide wavelength range with a large amount of energy.
Introducing a remote control receiving unit with a built-in special filter that is strong against inverter fluorescent lights!
The "ROM Series" is a miniaturized light-receiving element for infrared remote control systems. It features a PIN photodiode and preamplifier mounted on the substrate. An epoxy package with an infrared filter is used. It is resistant to stray light noise, has stable characteristics, and performs excellently against stray pulses. 【Features】 ■ Wide operating voltage range: 2.7V ~ 5.5V ■ Strong against stray light noise and electromagnetic noise ■ Versatile band selection available (32.7kHz/36.7kHz/37.9kHz/40kHz/56.7kHz) ■ Built-in special filter resistant to inverter fluorescent lights ■ Open collector output ■ Lead (Pb) free components *For more details, please refer to the PDF document or feel free to contact us.
Generating power through grip! Introducing piezoelectric elements that are easily customizable according to your needs.
The "MP-G" is a piezoelectric element that generates electricity through grip strength. Made from flexible materials, it can generate power in the low-frequency range. Since it is entirely made of resin, it is easy to customize according to requirements such as shape, size, and weight. To check the amount of electricity generated or to connect to a load, please connect it to a commercially available rectifier circuit. 【Features】 ■ Generates electricity through grip strength ■ To generate electricity, grip it a few times ■ The output voltage and current from the generating element are alternating current ■ To check the amount of electricity generated or to connect to a load, please connect it to a commercially available rectifier circuit *For more details, please refer to the related link page or feel free to contact us.
It can generate power even in low-light environments like indoors! A photovoltaic element that generates power even under extremely low illumination.
The "SQ-DSSC" leverages its characteristic of providing sufficient power generation even in low light conditions, compared to silicon solar cells, to realize autonomous power supply for IoT devices. Our products are embedded as autonomous power sources within IoT gateways that bundle multiple devices, such as various sensors, measuring instruments, and beacons with communication functions, connecting them to the network. We provide services and solutions that address the challenges faced by users, enhancing operational efficiency and delivering economic benefits. 【Features】 ■ Utilizes the characteristic of providing sufficient power generation even in low light conditions ■ Realizes autonomous power supply for IoT devices ■ Embeds our products to connect to the network ■ Addresses user challenges, enhances operational efficiency, and delivers economic benefits *For more details, please refer to the PDF materials or feel free to contact us.
Increase and improve the capacity of heat exchangers, reduce fouling inside the tubes! A group of experts solving various issues related to heat exchangers. Support from Japanese professionals who are well-versed in processes and heat exchangers!
◇ What is "hiTRAN"? 1. Wire elements intricately woven are inserted into the pipes of the heat exchanger. 2. Various wire materials such as SUS and copper can be used. 3. Compatible diameters: φ6 to φ150mm. 4. Applicable to both "existing" and "new" heat exchangers. 5. Appropriate shapes and densities are selected according to specification conditions. ◇ What are the benefits of "hiTRAN"? 1. Miniaturization of new heat exchangers (e.g., from 4 to 1 pass) ⇒ Reduction in initial costs! 2. Recovery of capacity in existing heat exchangers ⇒ Reduction in running costs! 3. Prevention and reduction of dirt in heat exchanger pipes ⇒ Reduction in maintenance costs and shutdown time! 4. Improvement of plant operational capacity ⇒ Reduction in utility costs!
Introducing "thin-film piezo technology," as well as "MEMS technology" and "ultra-high precision assembly technology."
Let me introduce Epson's core technology. The PrecisionCore print head is equipped with a 1μm thin film piezo developed and manufactured in-house from materials and processes, serving as the actuator that drives ink ejection. Despite its compact size, it offers precise ink ejection performance. Additionally, the "MEMS technology" enables miniaturization and high-density nozzle design, while the "ultra-high precision assembly technology" ensures stable high quality through automation with clean rooms and robots, as well as automatic inspection using image analysis. 【Features】 <Thin Film Piezo Technology> ■ 1μm thin film piezo developed and manufactured in-house from materials and processes ■ Large displacement due to voltage with minimal performance variation ■ Achieves precise ink ejection performance despite its small size *For more details, please refer to the PDF document or feel free to contact us.
By combining with organic semiconductor products, it is possible to create a wider range of applications!
"Organic semiconductor lasers" have the potential to be low-cost in the future and can be manufactured on a large scale and easily using organic semiconductor processes. They can emit specific wavelengths, making them suitable as light sources for biosensors that detect specific substances within living organisms. Furthermore, they can enable displays that express ultra-high gradation beauty by utilizing the high color purity characteristic of laser light. 【Features of Organic Semiconductor Lasers】 ■ Can be placed anywhere ■ Can emit any wavelength ■ Excellent compatibility with organic devices *For more details, please refer to the PDF document or feel free to contact us.
