List of Other optical parts products
- classification:Other optical parts
901~915 item / All 2284 items
Reduce the workload from handling heavy objects! Here are five case studies that solved customer challenges! We are also accepting free consultations and tests tailored to your work!
- Other conveying machines
Strong cold wind from room temperature to -13°C! Depending on the usage environment, you can choose between the combo type or the separate type!
- Cooling system
April 10, 2024 (Wednesday) to April 12, 2024 (Friday) Notice of Participation in Nagoya Manufacturing World 2024
Sanwa Shiki Ventilator Co., Ltd. will be exhibiting at the 2024 Monozukuri World (Nagoya) held at Port Messe Nagoya. We will also be showcasing our large cooling fans and cool/warm ambient products. Date: April 10, 2024 - April 12, 2024 Opening: 10:00 AM Location: Nagoya Port Messe (Exhibition Hall 1) *Our booth: 19-1 We would be grateful if you could visit us if you have the time.
Over 500 successful projects and a rich lineup of film deposition processing. With 100 years of experience since our founding, we contribute to our customers' technological innovations through optical...
- Sensors
- LED lighting
- Other optical parts
Co-creation proposal! Added 'Stationery/Office Supplies × Optical Thin Films' as a technical trend keyword.
Even in the current era of accelerating digitalization, stationery and office supplies remain indispensable to our work and learning. Not only traditional products like notebooks and writing instruments, but also electronic whiteboards, tablet devices, conference systems, digital signage, and authentication cards are becoming increasingly advanced in office spaces year by year. In particular, recent market changes such as hybrid work, the ICT transformation in education, the development of smart offices, enhanced information security, and the introduction of sensing technologies have made "visibility," "usability," and "information reading accuracy" significantly influence product value. Among these, the technology for "controlling light" has begun to attract attention. 01: Stationery and office supplies are becoming "information devices." 02: AR coatings change "visibility" and "ease of work." 03: The evolution of digital stationery and sensing technology. 04: New possibilities for "attractive stationery" and optical thin films. Summary: The next stationery and office supplies will be differentiated by "light." For more details, please visit our company website.
◆MPO polarity testing (type-A/B/C) insertion loss (IL) and return loss (RL) can be performed with a single unit ◆19-inch rack mount type
- Other optical parts
- Other physicochemical equipment
- Other measurement, recording and measuring instruments
◆Dial type allows continuity check of MPO one core at a time ◆Equipped with lighting and flashing modes ◆Custom options available for 12 cores, as well as 24 cores and 36 cores
- Other optical parts
- Other physicochemical equipment
◆Equipped with up to 8 channels and compact◆Compact housing◆No warm-up required◆Plug-in and unplug freely during measurement
- Other optical parts
- Other measurement, recording and measuring instruments
- Other physicochemical equipment
◆0.1Gbps to 100Gbps◆The simplest and fastest BER testing for AOC/optical transceivers.
- Other optical parts
- Other physicochemical equipment
- Other measurement, recording and measuring instruments
◆Quick simultaneous Type A/B/C polarity diagnosis and loss testing◆Simple operability using a touch panel◆Compact and lightweight
- Other optical parts
- Other measurement, recording and measuring instruments
- Other physicochemical equipment
It is a high light-transmitting ITO coating that combines an ITO film (transparent conductive film) with a dielectric multilayer anti-reflective film. It prevents condensation while allowing high tran...
- Other optical parts
- Sensors
- Surveillance Cameras
Co-creation proposal! Added 'Space × Optical Films' as a technology trend keyword.
Outer space is the most challenging and promising field for optical thin films. Environmental factors that are completely different from those on the ground—vacuum ultraviolet, high-energy particles, extreme thermal cycles, atomic oxygen—simultaneously pose threats to the thin films, while it is precisely these films that maintain the accuracy of sensing, communication, and observation. As the trend of New Space accelerates, the scenarios in which optical thin films influence the competitiveness of space development are increasing. We aspire to be more than just a "coating manufacturer"; we want to be partners who think together from the very beginning of development. It is perfectly fine if the requirements are not yet solidified or if we are still in the preliminary stages of specifications. We hope this can serve as a starting point for dialogue with engineers working on space products. Chapter 01: The Three Barriers that the Space Environment Poses to Optical Thin Films Chapter 02: Main Applications of Space × Optical Thin Films—Where Thin Films Thrive Chapter 03: How to Choose Optical Thin Films—The Trinity of Materials, Design, and Process Chapter 04: Proposal for Co-Creation Steps—"Start Small and Grow Steadily" Summary—Together, Let’s Take on the Challenge of Space with the Power of Thin Films.
◆ Individually measure the optical power of each lane of the optical transceiver ◆ Compatible with 400G LR4, SR8, DR8, FR8, LR8/ER8
- Other optical parts
- Other measurement, recording and measuring instruments
- Other physicochemical equipment
It is an optical thin-film filter that reduces the reflectance at specific wavelengths and improves transmittance. By increasing the amount of light, it contributes to energy saving and power reductio...
- Other optical parts
- lens
- Sensors
Co-creation proposal! Added 'Space × Optical Films' as a technology trend keyword.
Outer space is the most challenging and promising field for optical thin films. Environmental factors that are completely different from those on the ground—vacuum ultraviolet, high-energy particles, extreme thermal cycles, atomic oxygen—simultaneously pose threats to the thin films, while it is precisely these films that maintain the accuracy of sensing, communication, and observation. As the trend of New Space accelerates, the scenarios in which optical thin films influence the competitiveness of space development are increasing. We aspire to be more than just a "coating manufacturer"; we want to be partners who think together from the very beginning of development. It is perfectly fine if the requirements are not yet solidified or if we are still in the preliminary stages of specifications. We hope this can serve as a starting point for dialogue with engineers working on space products. Chapter 01: The Three Barriers that the Space Environment Poses to Optical Thin Films Chapter 02: Main Applications of Space × Optical Thin Films—Where Thin Films Thrive Chapter 03: How to Choose Optical Thin Films—The Trinity of Materials, Design, and Process Chapter 04: Proposal for Co-Creation Steps—"Start Small and Grow Steadily" Summary—Together, Let’s Take on the Challenge of Space with the Power of Thin Films.
◆14-pin butterfly package ◆Wideband, high output ◆Built-in power monitor function included
- Other optical parts
- Other physicochemical equipment
◆Narrow linewidth <2MHz ◆Excellent center wavelength accuracy ◆Mode-hop free
- Other optical parts
- Other semiconductors
- Other physicochemical equipment
It is an optical filter that cuts ultraviolet and infrared light while having a high transmittance in the visible light range.
- Other optical parts
- Surveillance Cameras
- Sensors
Co-creation proposal! Added 'Space × Optical Films' as a technology trend keyword.
Outer space is the most challenging and promising field for optical thin films. Environmental factors that are completely different from those on the ground—vacuum ultraviolet, high-energy particles, extreme thermal cycles, atomic oxygen—simultaneously pose threats to the thin films, while it is precisely these films that maintain the accuracy of sensing, communication, and observation. As the trend of New Space accelerates, the scenarios in which optical thin films influence the competitiveness of space development are increasing. We aspire to be more than just a "coating manufacturer"; we want to be partners who think together from the very beginning of development. It is perfectly fine if the requirements are not yet solidified or if we are still in the preliminary stages of specifications. We hope this can serve as a starting point for dialogue with engineers working on space products. Chapter 01: The Three Barriers that the Space Environment Poses to Optical Thin Films Chapter 02: Main Applications of Space × Optical Thin Films—Where Thin Films Thrive Chapter 03: How to Choose Optical Thin Films—The Trinity of Materials, Design, and Process Chapter 04: Proposal for Co-Creation Steps—"Start Small and Grow Steadily" Summary—Together, Let’s Take on the Challenge of Space with the Power of Thin Films.
It is a filter that efficiently cuts (reflects) short-wavelength UV (ultraviolet) light while allowing visible light to pass through.
- Sensors
- Other optical parts
- Lighting for image processing
Co-creation proposal! Added 'Space × Optical Films' as a technology trend keyword.
Outer space is the most challenging and promising field for optical thin films. Environmental factors that are completely different from those on the ground—vacuum ultraviolet, high-energy particles, extreme thermal cycles, atomic oxygen—simultaneously pose threats to the thin films, while it is precisely these films that maintain the accuracy of sensing, communication, and observation. As the trend of New Space accelerates, the scenarios in which optical thin films influence the competitiveness of space development are increasing. We aspire to be more than just a "coating manufacturer"; we want to be partners who think together from the very beginning of development. It is perfectly fine if the requirements are not yet solidified or if we are still in the preliminary stages of specifications. We hope this can serve as a starting point for dialogue with engineers working on space products. Chapter 01: The Three Barriers that the Space Environment Poses to Optical Thin Films Chapter 02: Main Applications of Space × Optical Thin Films—Where Thin Films Thrive Chapter 03: How to Choose Optical Thin Films—The Trinity of Materials, Design, and Process Chapter 04: Proposal for Co-Creation Steps—"Start Small and Grow Steadily" Summary—Together, Let’s Take on the Challenge of Space with the Power of Thin Films.
It is a dielectric multilayer film filter that transmits visible light and reflects near-infrared light.
- Other optical parts
- Color camera
- Sensors
Co-creation proposal! Added 'Space × Optical Films' as a technology trend keyword.
Outer space is the most challenging and promising field for optical thin films. Environmental factors that are completely different from those on the ground—vacuum ultraviolet, high-energy particles, extreme thermal cycles, atomic oxygen—simultaneously pose threats to the thin films, while it is precisely these films that maintain the accuracy of sensing, communication, and observation. As the trend of New Space accelerates, the scenarios in which optical thin films influence the competitiveness of space development are increasing. We aspire to be more than just a "coating manufacturer"; we want to be partners who think together from the very beginning of development. It is perfectly fine if the requirements are not yet solidified or if we are still in the preliminary stages of specifications. We hope this can serve as a starting point for dialogue with engineers working on space products. Chapter 01: The Three Barriers that the Space Environment Poses to Optical Thin Films Chapter 02: Main Applications of Space × Optical Thin Films—Where Thin Films Thrive Chapter 03: How to Choose Optical Thin Films—The Trinity of Materials, Design, and Process Chapter 04: Proposal for Co-Creation Steps—"Start Small and Grow Steadily" Summary—Together, Let’s Take on the Challenge of Space with the Power of Thin Films.
◆Adjustable output between 10% and 100%◆With protection features for overcurrent/voltage/temperature
- Other optical parts
- Other physicochemical equipment