Request InfoHamamatsu CorporationThe S7998 silicon photodiode from Hamamatsu Corp. integrates a low-bias-current preamplifier in a ceramic 13.2 x 7.37-mm package. A metal package also is available for specific design requirements. This device requires 5 V, achieves a peak sensitivity of 0.43 A/W at 880 nm and has a typical dark current of 50 pA. The company says it delivers low noise, high feedback resistance and low current consumption over the 190 to 1100-nm spectral response range. The photodiode is suitable for high-precision photometry applications from the UV to the near-IR.See full productRelated content from Photonics MediaWEBINARSPhotonics.com 7/22/2021STANDARDS UPDATE: Vision Standards: An Overview of Global and A3 DevelopmentsStandards play a key role in the vision and imaging industry by ensuring interoperability of components, increasing market size, and shortening the time it takes to get new products to market. As the...Photonics.com 3/27/2024Precision Planning: Simplified Laser Scanning with Predictive SoftwareConventional controllers for laser scan systems do not allow to predict the actual path of the laser beam on the work piece. A tedious process of testing different parameters and delay settings...Photonics.com 1/9/2023Innovations in Ultrashort-Pulse and RF-Excited CO2 Lasers Expand Materials Processing ApplicationsIndustrial laser materials processing is constantly evolving. Industries as varied as pharmaceutical, consumer electronics, automotive, aerospace, and textiles, among others, have benefited from new...Photonics.com 6/30/2021European Photonics Manufacturing Services Funded by ECThis event is supported by the European initiatives presented and is moderated by EPIC, the European Photonics Industry Consortium. The European Commission is helping companies access the...COMPANIESPhotonics Buyers' GuideHamamatsu CorporationHamamatsu Corporation is the North American subsidiary of Hamamatsu Photonics K.K. (Japan), a leading manufacturer of devices for the generation and measurement of infrared, visible, and ultraviolet...