10X 120i Plan APO Infinity Corrected Objectives

Name: 10X 120i Plan APO Infinity Corrected Objectives
SKU: 15-943
Price: 29925.00 TWD

#15-943: 10X 120i Infinity Corrected Objective

Stock #15-943 聯絡我們

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NT$29,925

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注意: 本項目需要搭配配件使用 | 進一步瞭解

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Specifications
產品概覽
Technical Information
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成像鏡頭選擇器
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Specifications

概況

Compatible Tube Lens Focal Length (mm):

Focal Length: 120mm

Type:

Microscope Objective

Style:

Infinity Corrected

Manufacturer:

Edmund Optics®

物理和機械特性

Length (mm):

64.00

Length excluding Threads (mm):

64.00

Maximum Diameter (mm):

Weight (g):

130

光學特性

Horizontal Field of View, 1/2" Sensor:

0.64mm

Horizontal Field of View, 2/3" Sensor:

0.88mm

Horizontal Field of View, 1.1" Sensor:

1.41mm

Focal Length FL (mm):

12.00

Magnification:

10X

Numerical Aperture NA:

0.28

Resolving Power (μm):

1.0

Depth of Field (μm):

3.60

Working Distance (mm):

14.7

Wavelength Range (nm):

400 - 700

Field Number (mm):

17.6

Parfocal Length (mm):

78.7

傳感器

Maximum Sensor Format:

1.1"

螺紋和安裝

Mounting Threads:

1" x 32 TPI

環境和耐用性因素

Operating Temperature (°C):

+10 to +40

Regulatory Compliance

RoHS 2015:

Compliant

Certificate of Conformance:

View

Reach 240:

Contains SVHC(s)

Need different specs or modifications?

愛特蒙特光學（Edmund Optics）為您提供全面的光學和成像元件客製化服務，精準滿足特定應用需求。無論您的專案處於原型開發階段或籌備量產階段，我們都能為您提供靈活的解決方案。從概念設計到產品交付，我們經驗豐富的工程師團隊將為您提供全程支援。

我們的核心能力包括:

尺寸定制、材料定制、鍍膜定制等
高精度表面質量與平整度控制
嚴格的公差要求與復雜的幾何形狀加工
可靈活擴展的生產系統 — 從樣品試產到批量生產

target="_blank">客製化生產能力或在此提交諮詢需求。

產品概覽

C 接口安裝螺牙，便於系統整合
設計與 120mm 管鏡搭配使用
是生命科學及工業應用的理想選擇
2023 年 VSD 創新者銅獎獲獎者

EdmuOptics^®120i Plan APO無限遠校正物鏡是一款無限遠共軛顯微鏡物鏡，能夠在400-700nm波長範圍內提供卓越的影像平直度和色差校正。這些物鏡專為1.1吋畫幅感測器設計，旨在為大視野和高吞吐量成像應用提供可靠的影像品質這些物鏡是顯微鏡、流式細胞儀、藥品檢測和裝配線或故障檢查等生物醫學和機器視覺應用的理想選擇。

這些物鏡榮獲 2023 VSD 創新者獎銅獎。

Technical Note: Why Numerical Aperture Does Not Define Performance

Numerical aperture (NA) is an important specification to define for a microscope objective because it describes the objective’s ability to gather light at a fixed working distance. The NA is often assumed to describe an objective’s resolving power; however, this is not an accurate assumption. The equation below is the first-order equation used to calculate NA. This equation is useful for understanding NA on-axis, but it does not consider field changes for off-axis performance. In addition, this equation does not consider tolerances during the manufacturing and assembly of microscope objectives that can impact the performance.

n: refractive index of imaging medium

θ: one-half of the objective’s opening angle

Figure 1 below demonstrates the off-axis performance of the 5X 120i Plan APO Infinity Corrected Objective compared to another 5X Plan APO infinity corrected objective from another manufacturer that has the same NA of 0.14. Performance off-axis is better with the 120i Objective in the corner of a 1.1” sensor, indicating that NA is not the defining factor for the performance of an objective.