ライトガイド 12.7mm x 61CM

直径 (インチ)	全長 (インチ)	商品コード	価格 (税別)	カートに入れる
0.06 0.13 0.25 0.50	12.00 24.00 36.00 48.00 72.00		11,550 13,700 15,350 15,800 19,050 19,600 20,550 27,300 34,800 43,600 45,800 53,450 62,100
0.06 0.06	36.00 36.00	#42-344	13,700 ¥13,700 見積依頼する	5-7営業日 ×
0.06 0.06	48.00 48.00	#39-365	15,800 ¥15,800 見積依頼する	5-7営業日 ×
0.13 0.13	24.00 24.00	#42-345	11,550 ¥11,550 見積依頼する	在庫あり ×
0.13 0.13	36.00 36.00	#40-644	13,700 ¥13,700 見積依頼する	5-7営業日 ×
0.13 0.13	48.00 48.00	#39-366	15,350 ¥15,350 見積依頼する	5-7営業日 ×
0.25 0.25	12.00 12.00	#40-639	19,600 ¥19,600 見積依頼する	5-7営業日 ×
0.25 0.25	24.00 24.00	#42-346	20,550 ¥20,550 見積依頼する	5-7営業日 ×
0.25 0.25	36.00 36.00	#42-347	19,050 ¥19,050 見積依頼する	5-7営業日 ×
0.25 0.25	48.00 48.00	#39-367	27,300 ¥27,300 見積依頼する	5-7営業日 ×
0.25 0.25	72.00 72.00	#39-368	34,800 ¥34,800 見積依頼する	5-7営業日 ×
0.50 0.50	12.00 12.00	#38-659	43,600 ¥43,600 見積依頼する	5-7営業日 ×
0.50 0.50	24.00 24.00	#39-369	45,800 ¥45,800 見積依頼する	5-7営業日 ×
0.50 0.50	36.00 36.00	#39-370	53,450 ¥53,450 見積依頼する	5-7営業日 ×
0.50 0.50	48.00 48.00	#39-371	62,100 ¥62,100 見積依頼する	お問い合わせ ×

さらに詳しく

Light Guide Adapters are required to mate the low profile Fiber Optic Line Lights with fiber optic illuminators.

ファイバー照明器との使用向けに

　透過率の高いガラスファイバーをバンドル状にしてその周囲をPVCモノコイルで被覆し (但し9.5mmと12.7mmのバンドル径のライトガイドはPVCメタルホースで被覆)、その先端部 (両端)をステンレス製の口金部でカバーした最も標準的なライトガイドです。ファイバーの末端面は研磨仕上げです。入射した光の約70%を伝搬でき、0.3m当たり6%の透過損失があります。なおファイバー照明器に本製品を接続する場合は、適切なライトガイドアダプターを接続するライトガイドの口金部の径と使用ファイバー光源に合わせて必ず併せてお求めください。

　正しいアダプターは、使用するライトガイドの口金部の径とファイバー照明器に依存します。1.6mmと3.2mmのファイバーバンドル径には#38-943 or #66-904を、6.4mmのバンドル径には#38-944 or #66-905を、9.5mmと12.7mmのバンドル径には#38-946 or #66-908をご使用ください。

アクセサリー製品

補足： 対応するアクセサリー製品は、個々の商品コード毎に異なる場合があります。
どのアクセサリー製品がご希望の製品に対応するかが不明な場合は、こちらにお問い合わせください。

タイトル	商品コード	価格 (税別)	カートに入れる

ライトガイドアダプター SX-10	#38-946	6,200 ¥6,200 見積依頼する	5-7営業日 ×
ライトガイドアダプター MX-10	#66-908	5,250 ¥5,250 見積依頼する	5-7営業日 ×

技術情報


Length	Diameter	Fiber Bundle Dimensions				Stock No.
Length	Diameter	A	B	C	D	Stock No.
24"	1/16"	0.187"	0.205"	0.56"	0.19"	#40-640
36"	1/16"	0.187"	0.205"	0.56"	0.19"	#42-344
48"	1/16"	0.187"	0.205"	0.56"	0.19"	#39-365
24"	1/8"	0.187"	0.250"	0.56"	0.23"	#42-345
36"	1/8"	0.187"	0.250"	0.56"	0.23"	#40-644
48"	1/8"	0.187"	0.250"	0.56"	0.23"	#39-366
12"	¼"	0.312"	0.422"	0.56"	0.41"	#40-639
24"	¼"	0.312"	0.422"	0.56"	0.41"	#42-346
36"	¼"	0.312"	0.422"	0.56"	0.41"	#42-347
48"	¼"	0.312"	0.422"	0.56"	0.41"	#39-367
72"	¼"	0.312"	0.422"	0.56"	0.41"	#39-368
36"	3/8"	0.562"	0.750"	0.86"	0.67"	#54-213
48"	3/8"	0.562"	0.750"	0.86"	0.67"	#54-214
12"	½"	0.562"	0.875"	0.86"	0.76"	#38-659
24"	½"	0.562"	0.875"	0.86"	0.76"	#39-369
36"	½"	0.562"	0.875"	0.86"	0.76"	#39-370
48"	½"	0.562"	0.875"	0.86"	0.76"	#39-371
72"	½"	0.562"	0.875"	0.86"	0.76"	#39-372

参考資料

Filter

How to Achieve Optimal Collimation with Fiber Optics

Collimated light is required for many fiber optic applications. Using the proper setup, fiber optic collimating lenses or ball lenses, and some optical know-how, you can achieve optimal collimation.

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What are the advantages of Fiber Optic Illumination?

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What is the difference between flexible, quartz and liquid fiber optic light guides?

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What diameter beam will a light guide output?

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Why do fiber optic light guides lose so much energy?

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How do fiber optic light guides connect to fiber optic illuminators?

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Ring Light Guide

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Illumination Spot Size Calculator

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What diameter beam will an optical fiber output?

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What is the numerical aperture of a fiber?

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Why do optical fibers lose so much energy?

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What is the attenuation curve and how do I use it?

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What is the difference between a jacketed and an unjacketed optical fiber?

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What is the difference between single-mode and multimode fiber?

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What is "cross-talk" and how can I eliminate it?

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How do I cut and polish glass and plastic fibers?

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Will optical fibers allow light to escape from the sides, like a neon sign?

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What is the difference between coherent and incoherent fibers?

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What does bend radius (or minimum radius of bend) mean?

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I’m looking for the best way to maximize the amount of light from an LED into a fiber optic. What are the best options for coupling my LED and fiber?

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My application calls for inexpensive, straight fiber bundles but the ones that you sell are bent. Is it possible to buy straight ones?

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Bend Radius

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Buffer Material

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Cladding

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Decibel (dB)

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Fiber Jacket

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Fiberscope

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Optical Fiber

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Packing Fraction

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照明方法の正しい選択

Not sure which type of illumination you should use for your system? Learn more about the pros and cons of different illumination types at Edmund Optics.

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構造化照明の使用

Machine vision systems heavily rely on illumination. Learn more about how structured illumination can maximize your system at Edmund Optics.

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Spectrolight Mighty Light Product Overview

The Mighty Light is a self-contained, low-noise, tunable source of broadband visible and NIR light featuring a tungsten halogen lamp and output power up to 2W

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Spectrolight Flexible Wavelength Selector Basic Product Overview

Learn how to use a Spectrolight Flexible Wavelength Selector Basic to manually tune the emitted wavelength range of a Spectrolight Mighty Light Illuminator

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Spectrolight Flexible Wavelength Selector Auto Product Overview

Learn how to use a Spectrolight Flexible Wavelength Selector Auto to automatically tune the emitted wavelength range of a Spectrolight Mighty Light Illuminator

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What is ripple in illuminators and how does it affect my video system?

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What is the advantage of high frequency illumination?

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What are the advantages of LED Illumination?

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Candela

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Color Temperature

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Diffuse Illumination

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Directional Illumination

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Glancing Illumination

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Luminous Flux

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Lux

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Fiber Coupler Calculator

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Silhouetting Illumination in Machine Vision

Choosing the right backlight illumination is critical for precise measurement and edge detection in machine vision applications. Learn about your best options!

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How do I couple light into a fiber using a lens / ball lens?

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How can I decrease the output angle of a fiber to achieve a more collimated beam with a lens / ball lens?

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Does light entering a multimode fiber undergo a polarization change during propagation through the fiber? If so, can the emerging light be linearly polarized by placing a polarizer at the fiber’s output end?

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Why is it necessary to collimate the laser diode before fiber-coupling?

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Acceptance Angle

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Successful Light Polarization Techniques

Are you looking for a solution to common imaging problems? Discover different polarization techniques to improve your image at Edmund Optics.

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Spectrolight Mighty Light Accessories Overview

Modular accessories adapt the Spectrolight Mighty Light Illuminator for tuning to a specific wavelength, fiber coupling, collimating, homogenizing, and more

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Best Practice #4 Light Up Your Life

Join Nick Sischka, Vision Solutions Specialist and member of EO's Imaging Team, as he reviews some best practices to consider when designing an imaging system

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I am looking to prototype an illumination system. My objective is to use a small halogen filament bulb and end up with a beam of light. What would be the best lens or lens combination to give me this projected spot of light?

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Do you have C-Mount components to make an in-line illumination assembly?

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Axial Illumination

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Fan Angle

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Power Density

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Total Internal Reflection (TIR)

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同軸落射照明の考察

Are you designing a system and debating whether or not to use in-line illumination? Read more about the proper time to use in-line and comparisons at Edmund Optics.

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Edmund Optics Imaging Lab 3.2: The W of Illumination Geometry

Learn how to specify imaging system components.

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Edmund Optics Imaging Lab 3.3: Directional Illumination

Learn how to specify imaging system components.

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Edmund Optics Imaging Lab 3.4: Directional Illumination of Ring Lights

Learn how to specify imaging system components.

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Edmund Optics Imaging Lab 3.5: Backlights

Learn how to specify imaging system components.

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Edmund Optics Imaging Lab 3.6: Dome Lights

Learn how to specify imaging system components.

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Edmund Optics Imaging Lab 3.7: Line Lights

Learn how to specify imaging system components.

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Best Practice #5 Color Matters

Join Nick Sischka, Vision Solutions Specialist and member of EO's Imaging Team, as he reviews some best practices to consider when designing an imaging system.

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Illumination: The Third Pillar of Imaging System Design

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Understanding unique machine vision illumination methods

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Can I use an illuminator alone to affect the spectral contrast of my image?

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Monochromatic

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Understanding Collimation to Determine Optical Lens Focal Length

Collimated light occurs when light rays travel parallel to each other.

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Darkfield Illumination

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Numerical Aperture (NA)

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Edmund Optics Imaging Lab Module 3: Illumination Overview

Learn how to specify imaging system components.

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Edmund Optics Imaging Lab Module 3.1: Introduction to Illumination Concepts

Learn how to specify imaging system components.

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Brightfield Illumination

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ライトガイド 12.7mm x 61CM

直径 (インチ):

全長 (インチ):

概要

物理的および機械的特性

光学的特性

環境および耐久性的要素

法規制対応状況

商品一覧

さらに詳しく

アクセサリー製品

技術情報

参考資料

How to Achieve Optimal Collimation with Fiber Optics

What are the advantages of Fiber Optic Illumination?

What is the difference between flexible, quartz and liquid fiber optic light guides?

What diameter beam will a light guide output?

Why do fiber optic light guides lose so much energy?

How do fiber optic light guides connect to fiber optic illuminators?

Ring Light Guide

Illumination Spot Size Calculator

What diameter beam will an optical fiber output?

What is the numerical aperture of a fiber?

Why do optical fibers lose so much energy?

What is the attenuation curve and how do I use it?

What is the difference between a jacketed and an unjacketed optical fiber?

What is the difference between single-mode and multimode fiber?

What is "cross-talk" and how can I eliminate it?

How do I cut and polish glass and plastic fibers?

Will optical fibers allow light to escape from the sides, like a neon sign?

What is the difference between coherent and incoherent fibers?

What does bend radius (or minimum radius of bend) mean?

I’m looking for the best way to maximize the amount of light from an LED into a fiber optic. What are the best options for coupling my LED and fiber?

My application calls for inexpensive, straight fiber bundles but the ones that you sell are bent. Is it possible to buy straight ones?

Bend Radius

Buffer Material

Cladding

Decibel (dB)

Fiber Jacket

Fiberscope

Optical Fiber

Packing Fraction

照明方法の正しい選択

構造化照明の使用

Spectrolight Mighty Light Product Overview

Spectrolight Flexible Wavelength Selector Basic Product Overview

Spectrolight Flexible Wavelength Selector Auto Product Overview

What is ripple in illuminators and how does it affect my video system?

What is the advantage of high frequency illumination?

What are the advantages of LED Illumination?

Candela

Color Temperature

Diffuse Illumination

Directional Illumination

Glancing Illumination

Luminous Flux

Lux

Fiber Coupler Calculator

Silhouetting Illumination in Machine Vision

How do I couple light into a fiber using a lens / ball lens?

How can I decrease the output angle of a fiber to achieve a more collimated beam with a lens / ball lens?

Does light entering a multimode fiber undergo a polarization change during propagation through the fiber? If so, can the emerging light be linearly polarized by placing a polarizer at the fiber’s output end?

Why is it necessary to collimate the laser diode before fiber-coupling?

Acceptance Angle

Successful Light Polarization Techniques

Spectrolight Mighty Light Accessories Overview

Best Practice #4 Light Up Your Life

I am looking to prototype an illumination system. My objective is to use a small halogen filament bulb and end up with a beam of light. What would be the best lens or lens combination to give me this projected spot of light?

Do you have C-Mount components to make an in-line illumination assembly?

Axial Illumination

Fan Angle

Power Density

Total Internal Reflection (TIR)

同軸落射照明の考察

Edmund Optics Imaging Lab 3.2: The W of Illumination Geometry

Edmund Optics Imaging Lab 3.3: Directional Illumination

Edmund Optics Imaging Lab 3.4: Directional Illumination of Ring Lights

Edmund Optics Imaging Lab 3.5: Backlights

Edmund Optics Imaging Lab 3.6: Dome Lights

Edmund Optics Imaging Lab 3.7: Line Lights