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Mstar Technologies, Inc, as a leading provider of a comprehensive Machine Vision System in China, was founded in March 2012, located in Zhejiangoverseas High-Level Talents Innovation Park. Mstar Technologies, Inc, is a company engaged in the area of development and production of machine vision products including machine vision system, industrial camera, FA lenses, machine vision lightings, infrared thermal cameras and etc..
Home / all / FA Lens / C-Mount Lens /

C-Mount Lens | 10MP Fixed Focus FA Machine Vision Lenses for 1/1.8" Sensor

Home / all / FA Lens / C-Mount Lens /

C-Mount Lens | 10MP Fixed Focus FA Machine Vision Lenses for 1/1.8" Sensor

C-Mount Lens | 10MP Fixed Focus FA Machine Vision Lenses for 1/1.8" Sensor

C-Mount Lens | 10MP Fixed Focus FA Machine Vision Lenses for 1/1.8" Sensor
C-Mount Lens | 10MP Fixed Focus FA Machine Vision Lenses for 1/1.8" SensorC-Mount Lens | 10MP Fixed Focus FA Machine Vision Lenses for 1/1.8" SensorC-Mount Lens | 10MP Fixed Focus FA Machine Vision Lenses for 1/1.8" SensorC-Mount Lens | 10MP Fixed Focus FA Machine Vision Lenses for 1/1.8" SensorC-Mount Lens | 10MP Fixed Focus FA Machine Vision Lenses for 1/1.8" Sensor
CategoriesC-Mount Lens
BrandMSTAR Machine Vision System
ModelHF-P series
Focal Length6mm - 50mm
F-NumberF2.4
Image SizeΦ9mm(1/1.8)
MountC-Mount
Iris ControlManual
Focus ControlManual
Terms of PaymentT/T, Paypal
Download DOC
Update Time2022/10/5
Detail Information
C-Mount Lens | 10MP Fixed Focus FA Machine Vision Lenses for 1/1.8" Sensor
Introduction
HF-P series FA Lens are optimized for machine vision light sources and sensor, with high resolution, excellent image quality, high transmittance and good stability. Featured with fixed focal length, manual aperture and compact size, it is suitable for machine vision industry applications and ideal for industrial cameras.  
Key Feature
■ Ultra high resolution and consistency of image clarity

■ Bigger aperture, lower distortion and higher relative illumination rate

■ Achromatic optical system design, Better imaging performance with color camera

■ Excellent vibration resistance performance, optical axis shifting within pixel level

■ Good stability at high and low temperature

■ Multilayer and broadband coating design, compatible with visible and near-infrared applications
Specifications

Pic

Model

EFL

F No.

MOD

Image Size

Datasheet

CAD Data

HF0624M-10MP

6 mm

F2.4~F16

0.1m

Φ9 mm(1/1.8'')

Download


HF0824M-10MP

8 mm

F2.4~F16

0.1m

Φ9 mm(1/1.8'')

Download

Download

HF1224M-10MP

12 mm

F2.4~F16

0.1m

Φ9 mm(1/1.8'')

Download

Download

HF1624M-10MP

16 mm

F2.4~F16

0.1m

Φ9 mm(1/1.8'')

Download

Download

HF2524M-10MP

25 mm

F2.4~F16

0.1m

Φ9 mm(1/1.8'')

Download

Download

HF3524M-10MP

35 mm

F2.4~F16

0.15m

Φ9 mm(1/1.8'')

Download

Download

HF5024M-10MP

50 mm

F2.4~F16

0.3m

Φ9 mm(1/1.8'')

Download

Download

Manufacturing
Lens assembling
Lens assembling
Lens assembling
Lens assembling
Optical components
Centering
Coating

Metal machining

Ultra-sonic Cleaning
Huang Zhe
Grind
Middle Inspection
Quality Assurance
3D Vision Measuring Machine
Eccentricity Inspection
Resolution Inspection
TV Resolution
Download document
Basic of Lens Selection
Image Sensor and Image Processing Basics
FAQ
What Is The Resolution(Μm) Of The Lens?
Resolution is a measured by how closely 2 points can be before they cannot be distinguished. For example, 1μm resolution means that 2 points that are 1μm away from each other can be distinguished. Resolution values in this catalog are theoretical resolutions for the lenses. The following is a formula to calculate theoretical resolution based on a lens's ray diffraction with no aberration. 
Resolution=0.61×λ/NA          λ : Wavelength       0.61: Fixed Number
Distortion
(%)
Distortion is the aberration of a lens where a straight object outside of the optical axis appears curved. Distortion of a straight line towards the center is called pincushion distortion, while distortion expanding outwards is called barrel distortion
WD
(Working Distance)

Distance from the front end of a lens system to the object under inspection.
F Number
The value indicates lens brightness. It is calculated by dividing the focal distance of the lens by its effective diameter (entrance pupil diameter D mm) looking from its object side. It can also be calculated by NA and the lens' optical magnifi cation ( ). The smaller the number the brighter the lens is.
F No=f/D
Field Of View
Field of view is the size of an object that can be shot when the lens is attached to a camera.
The size of fi eld of view is (sensor size) ÷ (optical magnification ).

(Calculation Example) Optical Magnification =0.2x, camera Size 1/2" (4.8mm Long, 6.4mm Wide) :
                Size of Field of View   Length =4.8/0.2=24 (mm)
                                                    Width =6.4/0.2=32 (mm)
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Mstar Technologies, Inc, as a leading provider of a comprehensive Machine Vision System in China, was founded in March 2012, located in Zhejiangoverseas High-Level Talents Innovation Park. Mstar Technologies, Inc, is a company engaged in the area of development and production of machine vision products including machine vision system, industrial camera, FA lenses, machine vision lightings, infrared thermal cameras and etc..