Request InfoBerkeley Nucleonics CorporationBerkeley Nucleonics Corp. offers model 565, a digital delay-pulse generator that provides up to eight outputs synchronized with a coherence of 250 ps. Each channel in the apparatus can be selectively gated and enabled or disabled, can be timed with another or with the zero delay point in 500-ps steps, and can be converted into a subchannel of any other channel. It features burst, duty cycle, divide by N, gate and combination modes, and can produce timing delays of 0 to 1000 s and widths of 10 ns to 1000 s with 500-ps resolution.See full productRelated content from Photonics MediaWEBINARSPhotonics.com 7/20/2023Motorized and Calibrated Lenses for Machine Vision ApplicationsMany applications have benefited from motorized varifocal lenses that allow automatic or remote adjustment of focus distance and field of view. Applications may need to change the focal length or...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 1/12/2023A Proven, Portable, and PIC-Based Methodology for Cultivating a Next-Generation WorkforceWith the passage of the CHIPS and Science Act and growing demand for photonic integrated circuit technology, the semiconductor industry is once again gaining momentum. But even as the U.S. rebuilds...Photonics.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...COMPANIESPhotonics Buyers' GuideBerkeley Nucleonics CorporationBerkeley Nucleonics Corporation (BNC) is a leading manufacturer of precision electronic instrumentation for test and measurement, radiation detection, nuclear research, and RF/microwave. From signal...