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Technical

This is a historical page from the old MaxMax.com website. Please use the current site at www.MaxMax.com.


Order Filters IR FAQ Technical Filter Comparison Bandpass Visible Bandpass IR Examples Links Notch Filters

 

X-Nite Filters are precision made, quality filters.  Listed are various specifications.

Infrared Filters (Infrared Pass / Visual Light Blocking)

 

Filter Type Cutoff 50% (nm) Limit Passband (nm), %
X-Nite630 630 nm 690nm, >-= 91%
X-Nite665 665 nm 730nm, >= 91%
X-Nite715 715 nm 780 nm, >= 99%
X-Nite780 780 nm 830 nm, >= 99%
X-Nite830 830 nm 900 nm, >= 99%
X-Nite850 850 nm 1100 nm, >= 99%
X-Nite1000 1000 nm 1300 nm, >= 90%
X-NiteXDP Wideband Dual Profile

 

Infrared Color Band Pass Series

 

 

 

  5% Low Cut 50% Low Cut 50% High Cut 5% High Cut
XNiteBPB 650nm 662nm 753nm 787nm
XNiteBPG 735nm 795nm 860nm 935nm
XNiteBPR 888nm 921nm 958nm 1000nm

 

bulletGlass Type : Precision Ground
bulletMaterial Thickness: 3mm
bulletSurface Quality: 80-50
bulletVisual Color: 630nm & 665nm Red, Others are Black
bulletRange: High Red to Infrared
bulletConstruction: Two-piece metal rings and glass

Infrared Blocking / Visual Light Pass Filter

 

Filter Type Center Wavelength 50% Transmission
X-NiteCC1 483nm 325nm, 645nm
X-NiteCC2 500nm 315nm, 730nm

 

Ultraviolet Pass / Visual Light Blocking Filter

 

Filter Type Center Wavelength 50% Transmission
X-Nite330 330nm 270nm, 375nm, 50%

 

 

 

 

 

330nm Filter                                            Bandpass BP1 Filter

                                

 

XNite330 versus XNiteBP1 Transmssion

 

XNite330 + BP1 Filter Stacked Together Transmisson

 

 

Visual Color Bandpass Series

XNiteBP450, XNiteBP525 and XNiteBP625 are visible bandpass filters with the center frequencies located at the center of the same frequencies as a digital camera's RGB sensor.  However, unlike the camera's RGB response, these filter do not leak into each other in the viisble spectrum.

 

The XNiteBP450, XNiteBP525 and XNiteBP625 do open in the infrared spectrum above 825nm.  Because of this, if you will be using a camera that sees both visible and infrared light simultaneously, you also use a CC1 filter to block the infrared.  If you are using a stock camera, the infrared frequencies will be blocked by the camera's internal IR Cut Filter.a

We have a camera RGB channel notch filters in 30mm and 58m sizes.

 

 

 

CCD and CMOS image sensors only see black and white.  In order for the camera to see color, small color filters are printed on top of the image sensors.  These filters are typically arranged in a Bayer pattern.

Below is the typical response curve for CCD and CMOS image sensors.  The top dark blue channel shows the quantum efficiency of an unfiltered image sensor.  The Red, Green and Blue traces show the transmission response after the light passes through the mosaic color filter over the image sensors.

 

When we convert a camera to see IR+Visible or IR-Only, the majority of the infrared data will come in on the red channel.  Interestingly, the blue and green channels will see some infrared but will be much lower than the red channel.

Other Glass Equivalents:

Kaya PF4 is 780nm
Kaya PF2 is 830nm
Kaya PF1 & PF3a is 1000nm

Hoya RM72 is 720nm
Hoya RM90 is 900nm
Hoya RM100 is 1000nm

M&K #078  is 780nm
M&K #093 is 830nm
M&K #095  is 850nm
M&K 1000 is 1000nm

Wratten 18A is 350nm
Wratten 29 is 620nm
Wratten 70 is 675nm
Wratten 89B is 720nm
Wratten 88 is 735nm
Wratten 88A is 750nm
Wratten 87 is 795nm
Wratten 87C is 850nm
Wratten 87B is 930nm
Wratten 87A is 1000nm

Heliopan filters use Schott glass indicated by the RG number.  For example, RG830 = 830nm and RG1000=1000nm.

                                

 

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Last modified: June 18, 2015