Gigahertz Optik logotipo

Contacto rápido

Gigahertz Optik GmbH (Sede central)
Teléfono: +49 (0)8193-93700-0
info@gigahertz-optik.de

Gigahertz-Optik, Inc. (Oficina de US)
Teléfono: +1-978-462-1818
info-us@gigahertz-optik.com

Solicitar presupuesto o comparar productos

You can add products to the watchlist and compare them with one another or send us an inquiry. There are watchlist symbols on product pages and product tables for this purpose.

Este producto ya no se fabrica. Es posible que queden existencias. Consulte las alternativas que figuran a continuación en "Productos similares" o póngase en contacto con nosotros directamente.

Productos alternativos para este producto descatalogado:

UPK-100-L

Integrating Spheres with Precise Machined Housings

  • 4 in / 100 mm diameter sphere
  • 5 mm diameter measurement port
  • Detector port
  • 98% synthetic coating
UPK-100-L
The UPK-100-L integrating sphere is one of Gigahertz-Optik’s compact size models with ODM98 coating

The 100 mm diameter integrating sphere with 15 mm diameter measurement port offers high light throughput within the spectral range from 250 nm to 2500 nm. Its unique collar baffle design greatly avoids direct illumination of the detector port from the light input port in a conventional 90° port position sphere design. The baffle also makes it possible to operate up to 4 detectors or fiber light guide connectors on the sphere at the same time. The detector ports provides an interface for direct mounting of Gigahertz-Optik’s PD-11, TD-11 and VL-11 type light detectors and UFC-11 type fiber connectors. Standard sphere is equipped with three detector ports.

Calibration

Gigahertz-Optik’s calibration laboratory offers traceable spectral radiant power sensitivity calibration in the wavelength range from 250 nm to 1800 nm.

Productos similares

UPK-100-L
Integrating Spheres with Precise Mmachined Housing, 50 mm diameter and 10 mm diameter measurement port. ODM98 coating.
UPK-100-L
Integrating Sphere with Precise Machined Housing
UPK-100-L
Integrating Spheres with Precise Machined Housing