These integrating spheres can be coupled with a sensor to create a spectroradiometer

The flexibility of the integrating sphere is also important. This flexibility allows you to create light measurement system or your own uniform source, or modify an existing system around minutes. A kinds of system calibration choices enable systems to be customized for application specific tasks.

Our General Purpose Spheres provide greater configuration flexibility than ever before. Choose your integrating sphere by selecting reflectance material, ports and size. The addition of a various range of fungible accessories including port reducers, more allows, light sources and assemblies for a continuous number of application solutions. 

Our sphere design features quick-change accessory options, easy access mounting options and steadfast port frames meeting a multitude of requirements. Lab sphere’s dedicated Calibration Lab provides calibration options to ensure your system is customer-built to meet specific application requirements. Both durable and highly stable over time, these coatings ensure optimal integration of light over the lifetime of your sphere.

Integrating sphere is setup to measure transmittance and reflectance of materials. The integrating spheres also provide an ideal method to measure output of laser diodes and high power lasers. Our spheres can also be ideal tools for measuring optical radiation. Designed to spatially integrate radiant flux, these integrating spheres can be coupled with a sensor to create a spectroradiometer, photometer, or radiometer. Such a setup would permit the flux density of an illuminated area or the measurement of total geometric flux emanating from a light source. Spheres are offered with Spectraflect®, Infragold® or Spectralon® coating which combines a highly reflective surface with almost perfect Lambert Ian reflectance. 

Our General Purpose Spheres are available with inner diameters of 6", 4", or 2". The 4" and 6" spheres also feature port and port frame reducers for the introduction of all kinds of monitoring devices and detectors. Each feature three ports oriented along three orthogonal axes: one port located at the north pole of the sphere, plus two ports along the equator of the sphere at 90°and 0°. A baffle between the 90°and 0° ports prevents direct exchange of radiation between them. Each sphere includes port plugs of varying sizes and two SMA adapters.