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Varioptic AF エクスプローラー 液体レンズ用ボードカメラ

Corning® Varioptic® AF エクスプローラー オートフォーカス 液体レンズ用ボードレベルカメラ

Corning® Varioptic® AF エクスプローラー オートフォーカス 液体レンズ用ボードレベルカメラ

Corning® Varioptic® AF エクスプローラー オートフォーカス 液体レンズ用ボードレベルカメラ TECHSPEC® 液体レンズ実装 Cx シリーズ レンズや同M12 マウントレンズ (別売り) を用いたプラグ・アンド・プレイ操作を可能するCorning® Varioptic® AF エクスプローラー Corning® Varioptic® AF エクスプローラー オートフォーカス 液体レンズ用ボードレベルカメラの構成部品
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商品コード #22-097 5-7営業日
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¥136,350
数量 1+
¥136,350
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概要

タイプ:
Color Camera
キットの構成:
1 x AF Explorer Camera Board
1 x Sony IMX335 Sensor
1 x TOF Sensor
1 x USB Type-C Cable
1 x Mounting Pedestals
White LEDs
AF Lab Camera Software

物理的および機械的特性

寸法 (mm):
110 x 70 x 5 (excludes sensor and lens mount)
自重 (g):
504

性能

消費電力 (W):
1.65W - 2.60W (LED Off/On, 5MP 30fps)

ハードウェア & インターフェース接続

コネクター:
USB 3.1 Gen 1, Type-C

ねじ径 & 固定

マウント:
C-Mount or S-Mount
固定用ねじ径:
¼-20 Tripod Adapter, Built-in Pedestals

環境および耐久性的要素

動作温度 (°C):
0°C to +65°C
保管温度 (°C):
-20°C to +85°C

法規制対応状況

RoHS 2011/65:
適合証明書:

製品群全体の紹介

  • 液体レンズ技術を評価・探求するのに最適
  • AF LabソフトウェアからUSB経由で簡単駆動
  • 液体レンズ実装の TECHSPEC® Cx シリーズM12 レンズを用いてプラグ・アンド・プレイ

Corning® Varioptic® AF エクスプローラー オートフォーカス 液体レンズ用ボードレベルカメラは、液体レンズ技術とマシンビジョンアプリケーションへのそのメリットを探求するのに使いやすい評価プラットフォームです。液体レンズ実装の TECHSPEC® Cx シリーズM12 レンズを用いたプラグ・アンド・プレイに対応したAF エクスプローラーは、付属のAF エクスプローラーソフトウェア経由でセンサーの基本設定、オートフォーカスモード、オートフォーカスアルゴリズムなどの調整が簡単に行えます。Corning® Varioptic® AF エクスプローラー オートフォーカス 液体レンズ用ボードレベルカメラは、マシンビジョンやライフサイエンスアプリケーションに初めて液体レンズ技術を取り入れようとする方や、生産アプリケーション内のスタンドアローンカメラとして最適です。AF エクスプローラーには、メイン電子基板、画像センサー、ToFセンサー、ソフトウェア、製品ドキュメントが付属しています。

補足: AF エクスプローラーとの使用が可能な他のイメージセンサーに、Samsung M3085 (8MP 1/3.2型)、Sony IMX307 (2MP 1/2.8型)、Sony IMX219 (8MP ¼型) などがあり、いずれも当社のTECHSPEC® 液体レンズ実装イメージングレンズとの使用に最適化されています。詳しくはお問い合わせください。

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The AF Lab software allows for users to acquire images, record video, and easily use auto-focus features such as switched focus between different regions of interest.
The AF Lab software allows for users to acquire images, record video, and easily use auto-focus features such as switched focus between different regions of interest.
Filter

Working Distance and Focal Length Basics

Working distance and focal length are two of the most fundamental parameters of any imaging system. Learn more in this hands-on video demo.

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イメージングでの液体レンズ

従来のイメージングレンズは、再ピント調整を素早く行わなければならなかった高速・高精度アプリケーションで、画像をシャープかつ正確に取り込むことが苦手でした。液体レンズは、作動距離が異なる位置にある物体や高低差のある物体にピントを素早く合わせることで、こうした限界を解消します。

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液体レンズの機能・アプリケーション・技術

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液体レンズの基本

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Liquid Lenses in Machine Vision - TRENDING IN OPTICS: EPISODE 1

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液体レンズ技術の理解

Liquid lenses can be used to maximize imaging system flexibility across a wide variety of applications requiring rapid focusing.

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液体レンズ実装 Cxシリーズレンズのアッセンブリ

Learn how to insert a liquid lens into a modular TECHSPEC Liquid Lens Cx Series Fixed Focal Length Lens Assembly from Edmund Optics.

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When to integrate liquid lenses into machine vision optics

Can I integrate a liquid lens into another type of lens, such as a fixed focal length lens?

How quickly can liquid lenses change between different focus positions?

液体レンズ実装 M12マウントレンズ

TECHSPEC® Liquid Lens M12 Imaging Lenses from Edmund Optics combine a high-resolution with the electronic auto-focus of an integrated liquid lens

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液体レンズ実装 Cxシリーズ 固定焦点レンズ

TECHSPEC® Liquid Lens Cx Series Fixed Focal Length Lenses from Edmund Optics offer both high resolution and fast electronic focus.

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MercuryTL™ 液体レンズ実装テレセントリックレンズ

MercuryTL™ Liquid Lens Telecentric Lenses

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MercuryTL™ 液体レンズ実装テレセントリックレンズ

The TECHSPEC® MercuryTL™ Liquid Lens Telecentric Lenses combine the parallax error correction and high image quality of a telecentric lens with the flexibility of an integrated liquid lens.

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Optotune Focus-Tunable Lenses Review

Optotune Focus-Tunable lenses feature a liquid polymer substrate with continuous focusability.

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センサーの性能と限界

Imaging Electronics 101: Basics of Digital Camera Settings for Improved Imaging Results

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Imaging Electronics 101: Camera Resolution for Improved Imaging System Performance

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Imaging Electronics 101: Understanding Camera Sensors for Machine Vision Applications

The performance of an imaging system relies on a number of things, including imaging electronics. Before using your imaging system, learn about camera sensors at Edmund Optics.

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How Do Cameras Work?

Optical Engineer Kevin Quist explains how cameras work, describing sensors, lenses, and pixels in a kid-friendly way

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Advancements in Short Wave Infrared Sensors

What is a progressive scan camera and when should I use one?

I recently removed an optical low pass filter from my digital camera. Do you have any suggestions on how to measure its Modulation Transfer Function (MTF)?

I recently removed the IR cut filter from my camera and did not replace it with any type of clear glass. It has since lost sensitivity in the IR, which was the goal, but also focus ability in the optics. Can you explain why this is so?

Does Edmund Optics sell cameras with APS-C or APS-H sensors?

Does Edmund Optics sell cameras with a TFL Mount?

Is there a difference between the resolution capability of a monochrome and a color camera?

Automatic Gain Control (AGC)

Back Light Compensation

Bayer Filter

Binning

Blooming

Board-Level Camera

Jitter

Scheimpflug Condition

Time Delay Integration (TDI)

Imaging System Parameter Calculator

Imaging Lens Selector

センサーとレンズ

Imaging lenses and sensors must be paired together with special attention.

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イメージングの基本

Want to understand the basic concepts of imaging? Learn more about essential terms and how they incorporate in the imaging industry at Edmund Optics.

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レンズからセンサーへ: 情報を集めることの限界

Trying to understand how much information you can obtain from a lens and sensor? Learn more about the limitations of collecting data at Edmund Optics.

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カメラ

デジタルカメラには、アプリケーション要件に依存して様々な種類のインターフェースを選ぶことができます。2種類のUSB規格を始めとする一部のフォーマットは、1本のケーブルで映像信号出力と電源を供給できるため、セットアップを大幅に単純化することができます。

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物空間側の解像力

Are you new to imaging and want to learn more about lens magnification? Learn more about lens magnification and other key imaging concepts at Edmund Optics.

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周辺光量比、ロールオフ、口径食

In order to understand vignetting, it is important to understand sensor sizes, formats, and roll-off and relative illumination. Find out more at Edmund Optics.

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LIGHT TALK - EPISODE 2: Increasing Imaging Sensor Sizes with Katie Schwertz

Join our discussion about increasing imaging sensor sizes and what that means for optical designers in the second episode of our LIGHT TALKS series.

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Imaging Innovation Summit Keynote

Master the mindset needed for building an imaging system from asking the right questions to properly combining imaging technologies.

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Edmund Optics Imaging Lab Module 1: Imaging Overview

Learn how to specify imaging system components.

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What is the difference between Primary Magnification and System Magnification?

I need a video lens for my camera - but where do I start?

Aspect Ratio

Back Flange Distance

Charge-Coupled Device (CCD)

Color Sensor

Digital Signal

Digital Signal Processing (DSP)

Electronic Shutter

Gain

Gamma

Horizontal Resolution

Image Capture Board (Frame Grabber)

Integration Time

Minimum Sensitivity

Monochrome Sensor

Polychromatic

Primary Magnification (PMAG)

Progressive Scan

Relative Illumination (RI)

Sensing Area

Shutter Speed

S-Mount

T-Mount

White Balance

良質なイメージングを得るための11のベスト・プラクティス

Do you use imaging systems constantly in your professional field? Learn top tips for improving your imaging system and practices at Edmund Optics.

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イメージングとは?

In imaging, light rays are mapped from an object onto an imaging sensor by an imaging lens, to reproduce the characteristics and likeness of the object for the purposes of inspection, sorting, or analysis.

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解像力とMTFテスト

Machine Vision for Golf Simulators

Imaging lenses are critical components of the quickly-growing golf simulator market. Learn how to select the right lenses and cameras!

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LIGHT TALK - EPISODE 1: Machine Vision Trends with Nick Sischka

Join our discussion around machine vision trends including such as increasing resolution and new sensors in the first episode of our LIGHT TALKS series.

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ハイパースペクトル & マルチスペクトルイメージング - 光学テクノロジー最前線: エピソード 7

Hyperspectral and multispectral imaging are imaging technologies that capture information from a broader portion of the electromagnetic spectrum.

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Lens Types, Resolution, and Sensor Coverage

No imaging lens is the ideal choice for every type of imaging sensor, as multiple tradeoffs must be weighed and prioritized for every application.

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Axial and Lateral Chromatic Aberration

Chromatic aberrations impact the performance of imaging systems in many different ways, as exemplified in this hands-on demonstration.

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Edmund Optics Imaging Lab 1.1: Field of View

Learn how to specify imaging system components.

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Edmund Optics Imaging Lab 1.2: Working Distance

Edmund Optics Imaging Lab 1.5: Sensor Size

Learn how to specify imaging system components.

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Next generation image sensors: Are suppliers ready to meet growing customer expectations?

Complementary Metal Oxide Semiconductor (CMOS)

Contrast

Dynamic Range

Frame Rate

Monochromatic

Pixel

Pixel Clock

Pixel Depth

Sensor Format

Signal-to-Noise Ratio (SNR)

Spatial Frequency

解像力とコントラスト特性の比較

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Understanding Camera Mounting Interfaces

Interested in learning about the different types of camera mounts available from Edmund Optics?

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Edmund Optics Imaging Lab 1.4: Depth of Field

Learn how to specify imaging system components.

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Edmund Optics Imaging Lab 1.7: Contrast In Depth

Learn how to specify imaging system components.

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Modulation Transfer Function (MTF)

Nyquist Limit

Resolution

Resolving Power

解像力

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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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Edmund Optics Imaging Lab 1.3: Resolution

Learn how to specify imaging system components.

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Edmund Optics Imaging Lab 1.6: Resolution In Depth

Learn how to specify imaging system components.

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Edmund Optics Imaging Lab 1.8: Depth of Field in Depth

Learn how to specify imaging system components.

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Edmund Optics Imaging Lab Module 2: Gauging and Measurement Accuracy Overview

Learn how to specify imaging system components.

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Edmund Optics Imaging Lab 2.1: Distortion

Learn how to specify imaging system components.

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Edmund Optics Imaging Lab 2.2: Telecentricity

Learn how to specify imaging system components.

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How I do select the correct testing target for my electronic imaging system (camera & lens)?

If I'm using a digital camera do I still need an image capture board (frame grabber)?

C-Mount

Field of View (FOV)

Magnification

Is frame rate, area of interest and exposure time related when using the Edmund Optics USB2.0 cameras?

I have two Basler Scout GigE cameras but I cannot use them simultaneously. When connected to a computer, either via two network cards or a single network card and a switch, they can be opened but cannot acquire images. What is causing the problem?

I am looking for a way to power a camera and a 3.3V, 2W laser (always on) in an OEM application. Which of the two - USB or Firewire – can sustain more power?

 
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