Request InfoHighland Technology Inc.Highland Technology Inc. has released J724, a low-profile single-channel electrical-to-optical converter. Available in 850-nm multimode and 1310-nm single-mode versions, it enables fast timing and logic-level signals to be transported via fiber optic levels to take advantage of the high speed, attenuation and electromagnetic interference characteristics of optical fiber. The rugged packaging allows the electrical-to-optical transition to be located wherever it is most convenient, and the adjustable inputs are compatible with most common logic levels. Timing link jitter is below 15 ps rms,...See full productRelated content from Photonics MediaWEBINARSPhotonics.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 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...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 10/27/2021Fiber Optic Solutions for Medical DevicesSteve Allen provides a brief overview and examples of procedures that continue to push adoption and proliferation of optical fiber-based medical devices. From cosmetic surgery to cutting-edge sensing...COMPANIESPhotonics Buyers' GuideHighland Technology Inc.Highland Technology provides innovative high-precision analog measurement and signal generation, data acquisition and control instrumentation, pulse and picosecond timing delay generation,...