Singapore Optics shop retail laser optics & fiber optical components covering the entire spectrum from UV to FIR.
 
 

       HomeProductsNewsLinksContact
  Products Fast Search
  
Optical Substrates
Optical Crystals Ceramics
Optical Windows Shadow Masks
Optical Lenses
Optical Mirrors
Optical Prisms
Optical Filters
Optical Beamsplitters
Optical Waveplates
Optical Polarizers
Optical Etalons
Quartz Glasswares Alumina Tube
Optomechanics
Fiber Passive Components
Fiber Optical Attenuators
Fiber Amplifiers
Fiber Frequency Shifter
Fiber Optics Tooling Packaging
Lasers Systems Accessories
Light Sources
Imaging Components
Photodetectors
Photomask Reticle
Optical Power Meters
Optical Modulators Drivers
Instrument Accessories
Optical Grating
Hotline:    +65-6316-6370
                  +65-6316-2142
Email:      sales@optics.sg
photonik@singnet.com.sg

Location of SG Optics Shop
Search on Google Maps

Location: Main > Lasers Systems Accessories > Laser Safety Goggles > PLG-05-1064
Name: Laser Safety Goggles (Reflective) 1064nm
P/N: PLG-05-1064
Keywords:OD>6@1064nm,Coated,T>85%@Visible band
Unit Price: S$260.00/pc
Available: Call us
Request: Add to Request List
Introduction:
Eyewear is rated for optical density (OD), which is the base-10 logarithm of the attenuation factor by which the optical filter reduces beam power. For example, eyewear with OD 3 will reduce the beam power in the specified wavelength range by a factor of 1,000. In addition to an optical density sufficient to reduce beam power to below the maximum permissible exposure (see above), laser eyewear used where direct beam exposure is possible should be able to withstand a direct hit from the laser beam without breaking. The protective specifications (wavelengths and optical densities) are usually printed on the goggles, generally near the top of the unit.
These laser safety goggles use reflective laser protective glasses.
 Workable Laser Types
 Nd:YAG Laser
 Infrared Laser
 Optical Density(O.D):
 1064nm, 6+
 Transmission @ Visible Light Band
 > 85%
 Response Time
 < 1ns