We have compiled a list of manufacturers, distributors, product information, reference prices, and rankings for Lens unit.
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Lens unit Product List and Ranking from 11 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

Lens unit Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

  1. フェニックス・ジャパン Kanagawa//Optical Instruments
  2. 須賀川市 経済環境部商工課 Fukushima//Government
  3. ファーストシステム 名古屋本社 Aichi//Electronic Components and Semiconductors
  4. 4 サニー・ジャパン Tokyo//Optical Instruments
  5. 4 光学設計研究所 Tokyo//Optical Instruments
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Lens unit Product ranking

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

  1. SIRTEC車載レンズユニット 事業紹介 フェニックス・ジャパン
  2. Kantatsu Co., Ltd. Sukagawa Factory 須賀川市 経済環境部商工課
  3. Vehicle-mounted lens unit サニー・ジャパン
  4. 4 Optical Design Research Institute Co., Ltd. Company Profile 光学設計研究所
  5. 5 Constant voltage: TAIKOO nano-24 ファーストシステム 名古屋本社

Lens unit Product List

16~30 item / All 37 items

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Optical unit (custom-made) Fθ lens unit

Optical unit (custom-made) Fθ lens unit

This is a lens used for a wide range of applications such as laser printers and laser processing.

The "fθ lens" from Daikyo Manufacturing is designed to ensure that the scanning speed is constant between the peripheral and central areas of the lens by changing the curvature of the combined lenses. The name comes from the relationship where the focal length is f, the incident angle is θ, and the image height Y is related by Y = fθ. ◆ We can make your specifications for fθ possible by designing it to meet requests that could not be achieved with off-the-shelf products! While maintaining the positional relationships of existing equipment, we aim to increase productivity for customers who want to: - "Expand the drawing area" - "Reduce the processing spot diameter," etc. We will respond to your requests! - We will customize the design and manufacture according to the applications of customers who find standard products insufficient in terms of spot size, drawing area, wavelength, etc. - Customers considering performance improvements with your products or processing machines are also welcome to contact us. 【Features】 ■ Scanning performance is better than non-telecentric systems ■ Large lens diameter

  • lens

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Constant current: TAIKOO 4B

Constant current: TAIKOO 4B

Constant current DC350/700mA specification! High diffusion lens module for single-sided signboards.

"TAIKOO 4B" is a constant current specification LED with a high diffusion lens module. The recommended sign thickness is 100mm to 150mm, and the recommended pitch is sign thickness (internal dimension) ÷ 0.5. We offer a daylight color lineup. 【Features】 ■ High diffusion lens module ■ Constant current DC350/700mA specification ■ Dedicated aluminum bar & mounting cap (sold separately) For more details, please refer to the catalog or feel free to contact us.

  • LED Module

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Constant voltage: TAIKOO mini-24

Constant voltage: TAIKOO mini-24

Constant voltage DC24V specification! Slim sign middle power lens module.

"TAIKOO mini-24" is a DC24V specification slim sign middle power lens module LED. The recommended sign thickness is 50mm to 100mm, and the recommended pitch is sign thickness (inner dimension) ÷ 0.6. Various colors are available in the lineup. 【Features】 ■ Uses domestic LEDs ■ High color rendering type with Ra80 For more details, please refer to the catalog or feel free to contact us.

  • LED Module

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Business Introduction: Design and Manufacturing of Optical Components and Glass Lens Processing

Business Introduction: Design and Manufacturing of Optical Components and Glass Lens Processing

Glass lens processing / aspherical lens processing

Sunny Group has accumulated over 30 years of experience in optical design and manufacturing technology, leading the industry in the research and application of core optical technologies such as aspheric, multi-coating, AF/zoom, and more. We can produce a wide range of optical components, including micro lenses, automotive lenses, infrared lenses, and lens units, in large quantities, at low cost, and with high quality to meet various needs.

  • lens
  • prism

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[Analysis Case] Pressure Analysis

[Analysis Case] Pressure Analysis

Understand the risks of deformation and dents in the lens unit when gripping the product!

Our company is simulating the behavior of lenses when the barrel is pressurized, aiming to improve the reliability of micro lenses. By considering different conditions and materials, we analyze the deformation and stress state of the internal lenses. The results obtained are utilized in the design from the early stages of product development, allowing us to resolve potential issues during barrel integration in advance. To provide high performance and stability, we propose reliability improvements using advanced CAE technology. [Features] ■ Analyzing the deformation and stress state of internal lenses while considering different conditions and materials ■ Resolving potential issues during barrel integration in advance ■ Proposing reliability improvements using advanced CAE technology *For more details, please refer to the PDF materials or feel free to contact us.

  • Structural Analysis

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[Analysis Case] Optical Tube Section Route Analysis

[Analysis Case] Optical Tube Section Route Analysis

Contributing to the success of the project! Providing analysis and corrections of ghosts tailored to your requirements.

We provide analysis and correction for ghosting caused by factors other than the lens, such as reflections and glare from the barrel or the exterior of the lens. Through real image verification, we confirm the ghost images of the subject, elucidate the routes of ghost occurrence by combining past verification data with ray tracing information, and propose suitable correction methods. This allows us to effectively control ghosting from outside the lens in projects, achieving high-quality images and photographs. 【Features】 ■ By combining past verification data with ray tracing information, we elucidate the routes of ghost occurrence and propose suitable correction methods. ■ Effectively control ghosting from outside the lens in projects, achieving high-quality images and photographs. *For more details, please refer to the PDF materials or feel free to contact us.

  • Structural Analysis

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[Analysis Case] Lens Molding Analysis

[Analysis Case] Lens Molding Analysis

Utilizing advanced simulation technology, we propose optimal manufacturing conditions for your project.

Our company conducts detailed analysis by setting parameters such as gate position, materials, and injection conditions through micro lens molding simulation. We can efficiently check filling time and potential defects such as weld lines and sink marks, and we can also evaluate deformation caused by birefringence and shrinkage in advance. Especially in the fine structures of micro lenses, simulation is essential for ensuring quality, and the data obtained contributes to the optimization of product design and manufacturing processes. 【Features】 ■ Efficiently check filling time and potential defects such as weld lines and sink marks, and evaluate deformation caused by birefringence and shrinkage in advance. ■ Contribute to the optimization of product design and manufacturing processes. ■ Utilize advanced simulation technology to propose suitable manufacturing conditions for your projects. *For more details, please refer to the PDF document or feel free to contact us.

  • Structural Analysis

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[Analysis Case] Prism Molding Analysis

[Analysis Case] Prism Molding Analysis

It is possible to conduct a series of evaluations through simulation, including the molding of the actual object.

Our company conducts resin flow simulations for prisms, new shapes, and technical projects to evaluate birefringence, deformation, and other potential risks in advance. Through simulations with multiple materials, we can confirm and evaluate trends such as material selection and warping. In the development of new shapes and technologies, this resin flow simulation contributes to quality improvement and development efficiency, providing a means to understand risks at the design stage. [Features] ■ Through simulations with multiple materials, we can confirm and evaluate trends such as material selection and warping. ■ Contributes to quality improvement and development efficiency, providing a means to understand risks at the design stage. *For more details, please refer to the PDF materials or feel free to contact us.

  • Structural Analysis

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[Analysis Case] Press Fit Analysis

[Analysis Case] Press Fit Analysis

Clearly define the allowable range of deformation! We will derive measures that contribute to improving product yield.

We are conducting simulations related to press-fitting to thoroughly examine the effects caused by manufacturing variations in the micro-lens production process. We address manufacturing variations and different conditions, taking into account the stress distribution and deformation state during lens press-fitting. We particularly focus on the potential impact on optical performance and evaluate the variations affecting product yield in detail. The results obtained provide a concrete approach toward understanding the mechanisms of lens deformation caused by manufacturing variations and designing an optimal fitting structure. [Case Summary] - Addressing manufacturing variations and different conditions, considering the stress distribution and deformation state during lens press-fitting. - Focusing on the potential impact on optical performance and evaluating the variations affecting product yield in detail. - Providing a concrete approach toward designing an optimal fitting structure. *For more details, please refer to the PDF document or feel free to contact us.*

  • Structural Analysis

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[Analysis Case] Environmental Impact Analysis

[Analysis Case] Environmental Impact Analysis

We will monitor lens deformation due to changes in environmental temperature and humidity over time!

Based on the reliability test data of micro lenses, we have introduced a coupled analysis of nonlinear structure, heat transfer, and diffusion, and conducted temperature and humidity profile simulations. We model the nonlinear structural deformation, heat transfer, and diffusion based on reliability tests, analyzing the deformation and stress state of micro lenses under different temperature and humidity conditions, including time-dependent creep. The results obtained provide a concrete approach to understanding the mechanisms of lens deformation due to temperature and humidity effects and to designing suitable fitting structures. [Case Overview] ■ Analysis of the deformation and stress state of micro lenses under different temperature and humidity conditions, including time-dependent creep. ■ Providing a concrete approach to designing suitable fitting structures. *For more details, please refer to the PDF document or feel free to contact us.

  • Structural Analysis

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[Analysis Case] Local Thermal Deformation

[Analysis Case] Local Thermal Deformation

Understanding the state in which the lens deforms due to heat transmitted from a heat source near the lens!

Our company conducts thermal-structural coupled analysis of lens units to thoroughly examine the interaction between heat transfer and structure in the design of optical devices. We connect heat transfer from the heat source with the structural behavior of the lens, simultaneously analyzing stress and deformation under different temperature conditions and heat source configurations. Through coupled analysis, we evaluate in detail the impact of heat transfer on the physical properties of the lens, achieving optimal design and material selection. The results provide insights into understanding the interaction between heat transfer and structure, yielding valuable knowledge for improving product performance and ensuring reliability. [Case Summary] - Simultaneous analysis of stress and deformation under different temperature conditions and heat source configurations - Achieving optimal design and material selection - Providing insights into understanding the interaction between heat transfer and structure *For more details, please refer to the PDF document or feel free to contact us.

  • Structural Analysis

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[Analysis Case] Structural - Optical Performance Analysis

[Analysis Case] Structural - Optical Performance Analysis

Reflecting the micro-deformation of the lens based on structural analysis results in optical performance! Introducing analysis examples.

Our company adopts an integrated approach combining structural analysis and optical simulation to enhance the reliability of micro-lenses. This integration allows us to verify structural changes in response to manufacturing variations and external environmental changes, and to model in detail the impact of minute deformations of the lens on optical performance. Based on the results obtained, we derive optimal design conditions that contribute to improved yield and reliability, providing high-quality and reliable micro-lenses. [Case Summary] - Detailed modeling of the impact of minute deformations of the lens on optical performance - Provision of high-quality and reliable micro-lenses *For more details, please refer to the PDF document or feel free to contact us.

  • Structural Analysis

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[Analysis Case] Drop Analysis 2

[Analysis Case] Drop Analysis 2

A case study on understanding the behavior of multiple lenses mounted in a drop fixture during drop impact!

We conduct drop impact simulations that replicate actual reliability test conditions for the reliability evaluation of micro lenses. In this case, we evaluate the acceleration experienced by multiple lens units mounted on a frame designed to resemble a smartphone. The simulation analyzes the acceleration variations during drops under different conditions and lens arrangements in detail, allowing for the optimization of fixtures and lens configurations to improve the accuracy of reliability evaluations. [Case Overview] ■ Evaluation of acceleration experienced by multiple lens units ■ Detailed analysis of acceleration variations during drops under different conditions and lens arrangements *For more details, please refer to the PDF document or feel free to contact us.

  • Structural Analysis

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