techspec compact fixed focal length lens datasheet compact fixed focal... · 2018. 11. 29. ·...

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#58-000 • 8.5mm FL • f/1.3

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Designed for use in machine vision applications, our TECHSPEC® Com-

pact Fixed Focal Length Lenses are ideal for use in factory automation,

inspection or qualification. These machine vision lenses have been opti-

cally designed with the working distance and resolution requirements

of factory automation and inspection in mind. Featuring large maximum

apertures, these high performance lenses can be used in even the

most restrictive lighting conditions. Each lens has a broadband anti-

reflection coating, which increases transmission by up to 12 percent

over the standard MgF2 coating on competitive lenses.

Focal Length: 8.5mm

Minimum Working Distance1: 100mm

Focus Range1 (Lockable): 100mm - ∞

Length at Near Focus: 34.59mm

Length at Far Focus: 34.59mm

Filter Thread: M25.5 x 0.5

Max. Sensor Format: 2/3”

Camera Mount: C-Mount

Sensor Size 1/4" 1/3” 1/2.5” 1/2” 1/1.8” 2/3” 1” 4/3”

Field of View3 46.1mm - 23.8° 62.33mm - 31.8° 75.0mm - 37.8° 85.3mm - 42.6° 97.5mm - 48.0° 124.1mm - 59.1° N/A N/A

Figure 1: Distortion at the maximum sensor format. Positive values correspond to pincushion distortion, negative values correspond to barrel distortion.

Figure 2: Relative illumination (center to corner)

In both plots, field points corresponding to the image circle of common sensor formats are included. Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

1. From front of housing 2. At 500mm W.D. 3. Horizontal FOV on standard 4:3 sensor format. Min. W.D. - angular FOV at infinite conjugate Specifications subject to change

Aperture (f/#): f/1.3 - f/16

Magnification Range: 0X - 0.035X

Distortion2: <15.0%

Object Space NA2: 0.003

Number of Elements (Groups): 7 (5)

AR Coating: 425 - 675nm BBAR

Weight: 54g

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#58-000 • 8.5mm FL • f/1.3

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Figure 3: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 4: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

MTF & DOF: f/2.8WD: 500mm

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#58-000 • 8.5mm FL • f/1.3

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WD: 500mm

Figure 5: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 6: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

MTF & DOF: f/4.0

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#58-000 • 8.5mm FL • f/1.3

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Figure 7: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 8: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

MTF & DOF: f/2.8WD: 1000mm

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#58-000 • 8.5mm FL • f/1.3

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Figure 9: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 10: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

WD: 1000mmMTF & DOF: f/4.0

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#58-001 • 12mm FL • f/1.8

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Designed for use in machine vision applications, our TECHSPEC® Com-

pact Fixed Focal Length Lenses are ideal for use in factory automation,

inspection or qualification. These machine vision lenses have been opti-

cally designed with the working distance and resolution requirements

of factory automation and inspection in mind. Featuring large maximum

apertures, these high performance lenses can be used in even the

most restrictive lighting conditions. Each lens has a broadband anti-

reflection coating, which increases transmission by up to 12 percent

over the standard MgF2 coating on competitive lenses.

Focal Length: 12mm

Minimum Working Distance1: 200mm

Focus Range1 (Lockable): 200mm - ∞

Length at Near Focus: 27.9mm

Length at Far Focus: 27.9mm

Filter Thread: M25.5 x 0.5

Max. Sensor Format: 2/3”

Camera Mount: C-Mount

Sensor Size 1/4" 1/3” 1/2.5” 1/2” 1/1.8” 2/3” 1” 4/3”

Field of View3 64.4mm - 17.2° 85.9mm - 22.9° 102.4mm - 27.0° 115.0mm - 30.3° 130.0mm - 33.5° 159.4mm - 41.1° N/A N/A

Figure 1: Distortion at the maximum sensor format. Positive values correspond to pincushion distortion, negative values correspond to barrel distortion.

Figure 2: Relative illumination (center to corner)

In both plots, field points corresponding to the image circle of common sensor formats are included. Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

1. From front of housing 2. At 300mm W.D. 3. Horizontal FOV on standard 4:3 sensor format. Min. W.D. - angular FOV at infinite conjugate Specifications subject to change

Aperture (f/#): f/1.8 - f/16

Magnification Range: 0X - 0.055X

Distortion2: <2.5%

Object Space NA2: 0.007

Number of Elements (Groups): 7 (7)

AR Coating: 425 - 675nm BBAR

Weight: 54g

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#58-001 • 12mm FL • f/1.8

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Figure 3: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 4: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

MTF & DOF: f/2.8WD: 300mm

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#58-001 • 12mm FL • f/1.8

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Figure 5: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 6: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

WD: 300mmMTF & DOF: f/4.0

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#58-001 • 12mm FL • f/1.8

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Figure 7: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 8: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

MTF & DOF: f/2.8WD: 750mm

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#58-001 • 12mm FL • f/1.8

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Figure 9: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 10: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

WD: 750mmMTF & DOF: f/4.0

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#59-870 • 16mm FL • f/1.4

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Designed for use in machine vision applications, our TECHSPEC® Com-

pact Fixed Focal Length Lenses are ideal for use in factory automation,

inspection or qualification. These machine vision lenses have been opti-

cally designed with the working distance and resolution requirements

of factory automation and inspection in mind. Featuring large maximum

apertures, these high performance lenses can be used in even the

most restrictive lighting conditions. Each lens has a broadband anti-

reflection coating, which increases transmission by up to 12 percent

over the standard MgF2 coating on competitive lenses.

Focal Length: 16mm

Minimum Working Distance1: 100mm

Focus Range1 (Lockable): 100mm - ∞

Length at Near Focus: 40.48mm

Length at Far Focus: 37.37mm

Filter Thread: M25.5 x 0.5

Max. Sensor Format: 2/3”

Camera Mount: C-Mount

Sensor Size 1/4" 1/3” 1/2.5” 1/2” 1/1.8” 2/3” 1” 4/3”

Field of View3 25.0mm - 12.8° 33.3mm - 17.1° 39.6mm - 20.2° 44.5mm - 22.7° 50.1mm - 25.2° 61.4mm - 30.9° N/A N/A

Figure 1: Distortion at the maximum sensor format. Positive values correspond to pincushion distortion, negative values correspond to barrel distortion.

Figure 2: Relative illumination (center to corner)

In both plots, field points corresponding to the image circle of common sensor formats are included. Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

1. From front of housing 2. At 200mm W.D. 3. Horizontal FOV on standard 4:3 sensor format. Min. W.D. - angular FOV at infinite conjugate Specifications subject to change

Aperture (f/#): f/1.4 - f/16

Magnification Range: 0X - 0.014X

Distortion2: <1.25%

Object Space NA2: 0.013

Number of Elements (Groups): 7 (6)

AR Coating: 425 - 675nm BBAR

Weight: 74g

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#59-870 • 16mm FL • f/1.4

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Figure 3: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 4: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

MTF & DOF: f/2.8WD: 200mm

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#59-870 • 16mm FL • f/1.4

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Figure 5: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 6: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

WD: 200mmMTF & DOF: f/4.0

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#59-870 • 16mm FL • f/1.4

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Figure 7: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 8: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

MTF & DOF: f/2.8WD: 500mm

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#59-870 • 16mm FL • f/1.4

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Figure 9: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 10: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

WD: 500mmMTF & DOF: f/4.0

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#59-871 • 25mm FL • f/1.4

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TICS, IN

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Designed for use in machine vision applications, our TECHSPEC® Com-

pact Fixed Focal Length Lenses are ideal for use in factory automation,

inspection or qualification. These machine vision lenses have been opti-

cally designed with the working distance and resolution requirements

of factory automation and inspection in mind. Featuring large maximum

apertures, these high performance lenses can be used in even the

most restrictive lighting conditions. Each lens has a broadband anti-

reflection coating, which increases transmission by up to 12 percent

over the standard MgF2 coating on competitive lenses.

Focal Length: 25mm

Minimum Working Distance1: 100mm

Focus Range1 (Lockable): 100mm - ∞

Length at Near Focus: 30.43mm

Length at Far Focus: 30.43mm

Filter Thread: M25.5 x 0.5

Max. Sensor Format: 2/3”

Camera Mount: C-Mount

Sensor Size 1/4" 1/3” 1/2.5” 1/2” 1/1.8” 2/3” 1” 4/3”

Field of View3 14.2mm - 8.2° 19.0mm - 10.9° 22.6mm - 12.9° 25.4mm - 14.5° 28.5mm - 16.1° 35.0mm - 19.8° N/A N/A

Figure 1: Distortion at the maximum sensor format. Positive values correspond to pincushion distortion, negative values correspond to barrel distortion.

Figure 2: Relative illumination (center to corner)

In both plots, field points corresponding to the image circle of common sensor formats are included. Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

1. From front of housing 2. At 200mm W.D. 3. Horizontal FOV on standard 4:3 sensor format. Min. W.D. - angular FOV at infinite conjugate Specifications subject to change

Aperture (f/#): f/1.4 - f/17

Magnification Range: 0X - 0.025X

Distortion2: <0.7%

Object Space NA2: 0.023

Number of Elements (Groups): 7 (6)

AR Coating: 425 - 675nm BBAR

Weight: 48g

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#59-871 • 25mm FL • f/1.4

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Figure 3: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 4: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

MTF & DOF: f/2.8WD: 200mm

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#59-871 • 25mm FL • f/1.4

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Figure 5: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 6: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

WD: 200mmMTF & DOF: f/4.0

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#59-871 • 25mm FL • f/1.4

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Figure 7: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 8: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

MTF & DOF: f/2.8WD: 500mm

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#59-871 • 25mm FL • f/1.4

TE

CH

SP

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MPA

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Figure 9: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 10: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

WD: 500mmMTF & DOF: f/4.0

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#59-872 • 35mm FL • f/1.65

TE

CH

SP

EC

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FIXE

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® C

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T 2014 ED

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TICS, IN

C. A

LL RIG

HTS

RE

SE

RV

ED

Designed for use in machine vision applications, our TECHSPEC® Com-

pact Fixed Focal Length Lenses are ideal for use in factory automation,

inspection or qualification. These machine vision lenses have been opti-

cally designed with the working distance and resolution requirements

of factory automation and inspection in mind. Featuring large maximum

apertures, these high performance lenses can be used in even the

most restrictive lighting conditions. Each lens has a broadband anti-

reflection coating, which increases transmission by up to 12 percent

over the standard MgF2 coating on competitive lenses.

Focal Length: 35mm

Minimum Working Distance1: 165mm

Focus Range1 (Lockable): 165mm - ∞

Length at Near Focus: 41.0mm

Length at Far Focus: 37.9mm

Filter Thread: M25.5 x 0.5

Max. Sensor Format: 2/3”

Camera Mount: C-Mount

Sensor Size 1/4" 1/3” 1/2.5” 1/2” 1/1.8” 2/3” 1” 4/3”

Field of View3 16.1mm - 5.9° 21.4mm - 7.8° 25.4mm - 9.3° 28.5mm - 10.4° 32.0mm - 11.7° 39.3mm - 14.3° N/A N/A

Figure 1: Distortion at the maximum sensor format. Positive values correspond to pincushion distortion, negative values correspond to barrel distortion.

Figure 2: Relative illumination (center to corner)

In both plots, field points corresponding to the image circle of common sensor formats are included. Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

1. From front of housing 2. At 300mm W.D. 3. Horizontal FOV on standard 4:3 sensor format. Min. W.D. - angular FOV at infinite conjugate Specifications subject to change

Aperture (f/#): f/1.65 - f/22

Magnification Range: 0X - 0.22X

Distortion2: <0.3%

Object Space NA2: 0.021

Number of Elements (Groups): 7 (6)

AR Coating: 425 - 675nm BBAR

Weight: 75g

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#59-872 • 35mm FL • f/1.65

TE

CH

SP

EC

® CO

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FIXE

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Figure 3: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 4: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

MTF & DOF: f/2.8WD: 300mm

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#59-872 • 35mm FL • f/1.65

TE

CH

SP

EC

® CO

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Figure 5: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 6: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

WD: 300mmMTF & DOF: f/4.0

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#59-872 • 35mm FL • f/1.65

TE

CH

SP

EC

® CO

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CT

FIXE

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TE

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Figure 7: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 8: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

MTF & DOF: f/2.8WD: 750mm

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#59-872 • 35mm FL • f/1.65

TE

CH

SP

EC

® CO

MPA

CT

FIXE

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® C

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Figure 9: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 10: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

WD: 750mmMTF & DOF: f/4.0

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#59-873 • 50mm FL • f/2.0

TE

CH

SP

EC

® CO

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CT

FIXE

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OP

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T 2014 ED

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TICS, IN

C. A

LL RIG

HTS

RE

SE

RV

ED

Designed for use in machine vision applications, our TECHSPEC® Com-

pact Fixed Focal Length Lenses are ideal for use in factory automation,

inspection or qualification. These machine vision lenses have been opti-

cally designed with the working distance and resolution requirements

of factory automation and inspection in mind. Featuring large maximum

apertures, these high performance lenses can be used in even the

most restrictive lighting conditions. Each lens has a broadband anti-

reflection coating, which increases transmission by up to 12 percent

over the standard MgF2 coating on competitive lenses.

Focal Length: 50mm

Minimum Working Distance1: 250mm

Focus Range1 (Lockable): 250mm - ∞

Length at Near Focus: 56.2mm

Length at Far Focus: 49.9mm

Filter Thread: M30.5 x 0.5

Max. Sensor Format: 2/3”

Camera Mount: C-Mount

Sensor Size 1/4" 1/3” 1/2.5” 1/2” 1/1.8” 2/3” 1” 4/3”

Field of View3 17.2mm - 3.5° 23.0mm - 4.6° 27.6mm - 5.5° 31.0mm - 6.2° 34.7mm - 6.9° 42.5mm - 8.5° N/A N/A

Figure 1: Distortion at the maximum sensor format. Positive values correspond to pincushion distortion, negative values correspond to barrel distortion.

Figure 2: Relative illumination (center to corner)

In both plots, field points corresponding to the image circle of common sensor formats are included. Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

1. From front of housing 2. At 500mm W.D. 3. Horizontal FOV on standard 4:3 sensor format. Min. W.D. - angular FOV at infinite conjugate Specifications subject to change

Aperture (f/#): f/2 - f/22

Magnification Range: 0X - 0.21X

Distortion2: <0.2%

Object Space NA2: 0.018

Number of Elements (Groups): 6 (4)

AR Coating: 425 - 675nm BBAR

Weight: 106g

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#59-873 • 50mm FL • f/2.0

TE

CH

SP

EC

® CO

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FIXE

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Figure 3: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 4: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

MTF & DOF: f/2.8WD: 500mm

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#59-873 • 50mm FL • f/2.0

TE

CH

SP

EC

® CO

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Figure 5: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 6: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

WD: 500mmMTF & DOF: f/4.0

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#59-873 • 50mm FL • f/2.0

TE

CH

SP

EC

® CO

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CT

FIXE

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TE

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Figure 7: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 8: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

MTF & DOF: f/2.8WD: 1000mm

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#59-873 • 50mm FL • f/2.0

TE

CH

SP

EC

® CO

MPA

CT

FIXE

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® C

OP

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Figure 9: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 10: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

WD: 1000mmMTF & DOF: f/4.0

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#67-709 • 6mm FL • f/1.4

TE

CH

SP

EC

® CO

MPA

CT

FIXE

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® C

OP

YR

IGH

T 2014 ED

MU

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OP

TICS, IN

C. A

LL RIG

HTS

RE

SE

RV

ED

Designed for use in machine vision applications, our TECHSPEC® Com-

pact Fixed Focal Length Lenses are ideal for use in factory automation,

inspection or qualification. These machine vision lenses have been opti-

cally designed with the working distance and resolution requirements

of factory automation and inspection in mind. Featuring large maximum

apertures, these high performance lenses can be used in even the

most restrictive lighting conditions. Each lens has a broadband anti-

reflection coating, which increases transmission by up to 12 percent

over the standard MgF2 coating on competitive lenses.

Focal Length: 6mm

Minimum Working Distance1: 75mm

Focus Range1 (Lockable): 75mm - ∞

Length at Near Focus: 48.9mm

Length at Far Focus: 48.9mm

Filter Thread: M34 x 0.5

Max. Sensor Format: 1/1.8”

Camera Mount: C-Mount

Sensor Size 1/4" 1/3” 1/2.5” 1/2” 1/1.8” 2/3” 1” 4/3”

Field of View3 52.68mm - 32.4° 71.12mm - 42.7° 85.42mm - 50.2° 96.87mm - 55.9° 110.34mm - 62.1° N/A N/A N/A

Figure 1: Distortion at the maximum sensor format. Positive values correspond to pincushion distortion, negative values correspond to barrel distortion.

Figure 2: Relative illumination (center to corner)

In both plots, field points corresponding to the image circle of common sensor formats are included. Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

1. From front of housing 2. At 500mm W.D. 3. Horizontal FOV on standard 4:3 sensor format. Min. W.D. - angular FOV at infinite conjugate Specifications subject to change

Aperture (f/#): f/1.4- f/16

Magnification Range: 0X - 0.06X

Distortion2: <7.5%

Object Space NA2: 0.005

Number of Elements (Groups): 9 (7)

AR Coating: 425 - 675nm BBAR

Weight: <110g

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#67-709 • 6mm FL • f/1.4

TE

CH

SP

EC

® CO

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Figure 3: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 4: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

MTF & DOF: f/2.8WD: 200mm

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#67-709 • 6mm FL • f/1.4

TE

CH

SP

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® CO

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Figure 5: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 6: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

WD: 200mmMTF & DOF: f/4.0

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#67-709 • 6mm FL • f/1.4

TE

CH

SP

EC

® CO

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FIXE

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Figure 7: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 8: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

MTF & DOF: f/2.8WD: 500mm

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#67-709 • 6mm FL • f/1.4

TE

CH

SP

EC

® CO

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CT

FIXE

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Figure 9: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 10: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

WD: 500mmMTF & DOF: f/4.0

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#86-900 • 4.5mm FL • f/2.0

TE

CH

SP

EC

® CO

MPA

CT

FIXE

D FO

CA

L LEN

GT

H LE

NS

® C

OP

YR

IGH

T 2014 ED

MU

ND

OP

TICS, IN

C. A

LL RIG

HTS

RE

SE

RV

ED

Designed for use in machine vision applications, our TECHSPEC® Com-

pact Fixed Focal Length Lenses are ideal for use in factory automation,

inspection or qualification. These machine vision lenses have been opti-

cally designed with the working distance and resolution requirements

of factory automation and inspection in mind. Featuring large maximum

apertures, these high performance lenses can be used in even the

most restrictive lighting conditions. Each lens has a broadband anti-

reflection coating, which increases transmission by up to 12 percent

over the standard MgF2 coating on competitive lenses.

Focal Length: 4.5mm

Minimum Working Distance1: 25mm

Focus Range1 (Lockable): 25mm - ∞

Length at Near Focus: 28.77mm

Length at Far Focus: 28.23mm

Filter Thread: M40 x 0.5 male

Max. Sensor Format: 1/1.8”

Camera Mount: C-Mount

Sensor Size 1/4" 1/3” 1/2.5” 1/2” 1/1.8” 2/3” 1” 4/3”

Field of View3 32.0mm - 45.2° 44.1 - 59.4° 53.9mm - 69.4° 62.0mm - 76.8° 72.0mm - 84.7° N/A N/A N/A

Figure 1: Distortion at the maximum sensor format. Positive values correspond to pincushion distortion, negative values correspond to barrel distortion.

Figure 2: Relative illumination (center to corner)

In both plots, field points corresponding to the image circle of common sensor formats are included. Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

1. From front of housing 2. At 200mm W.D. 3. Horizontal FOV on standard 4:3 sensor format. Min. W.D. - angular FOV at infinite conjugate Specifications subject to change

Aperture (f/#): f/2 - f/11

Magnification Range: 0X - 0.12X

Distortion2: <14%

Object Space NA2: 0.005

Number of Elements (Groups): 7 (6)

AR Coating: 425 - 675nm BBAR

Weight: 70g

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#86-900 • 4.5mm FL • f/2.0

TE

CH

SP

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® CO

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Figure 3: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 4: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

MTF & DOF: f/2.8WD: 200mm

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#86-900 • 4.5mm FL • f/2.0

TE

CH

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Figure 5: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 6: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

WD: 200mmMTF & DOF: f/4.0

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#86-900 • 4.5mm FL • f/2.0

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Figure 7: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 8: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

MTF & DOF: f/2.8WD: 500mm

www.edmundoptics.com

TECHSPEC® COMPACT FIXED FOCAL LENGTH LENS#86-900 • 4.5mm FL • f/2.0

TE

CH

SP

EC

® CO

MPA

CT

FIXE

D FO

CA

L LEN

GT

H LE

NS

® C

OP

YR

IGH

T 2014 ED

MU

ND

OP

TICS, IN

C. A

LL RIG

HTS

RE

SE

RV

ED

Figure 9: Image space polychromatic diffraction FFT Modulation Transfer Function (MTF) for λ = 486nm to 656nm. Included are Tangential and Sagittal values for field points on center, at 70% of full field and at the maximum sensor format. Solid black line indicates diffraction limit determined by f/#-defined aperture. Frequencies corresponding to the Nyquist resolution limit of pixel sizes are indicated.

Figure 10: Polychromatic diffraction through-focus MTF at 20 linepairs/mm (image space). Contrast is plotted to two times the focus distance. Note object spatial frequency changes with working distance.

Plots represent theoretical values from lens design software. Actual lens performance varies due to manufacturing tolerances.

WD: 500mmMTF & DOF: f/4.0