Littelfuse, Inc. has introduced the SP3051-04HTG Transient Voltage Suppression (TVS) Diode Array (SPA® Diode), the latest addition to the lightning surge devices in the company’s TVS Diode Array line.

Mouser Electronics, Inc. announced the availability of Littelfuse’s TVS diode arrays. It features an integrated low capacitance steering diodes and high surge capacitance ideal for protection against ...

CHICAGO--(BUSINESS WIRE)-- Littelfuse, Inc., the global leader in circuit protection, today announced its new series of TVS Diode Arrays (SPA ® Devices) optimized for protecting telecommunication ...

Researchers at the Lawrence Livermore National Laboratory have created the world’s highest peak-power laser diode array, capable of creating up to 3.2 megawatts. The new device will be used in ...

Chicago, IL. Littelfuse Inc. today introduced 80-A discrete bidirectional TVS diode arrays as the latest addition to its SP11xx Series. SP1103C Series 80-A discrete bidirectional TVS diodes offer ...

Littelfuse, Inc. announced its new series of TVS Diode Arrays (SPA ® Devices) optimized for protecting telecommunication interfaces such as VDSL and VDSL2 from damage. Each SR70 Series TVS Diode Array ...

Lawrence Livermore National Laboratory (LLNL; Livermore, CA) has the highest-peak-power laser-diode arrays in the world, which in total produce a peak power of 3.2 MW. The diode arrays, which were ...

These diode arrays are available in the following screened version industry standards: M, MA, MXL and MX. The devices have been exposed to various levels of testing to ensure they meet the aircraft ...

Littelfuse has introduced 80A discrete bidirectional transient voltage suppression (TVS) diode arrays as the latest addition to its SP11xx series TVS diode arrays. The SP1103C series is said to offer ...

Intense is developing a laser module which will have the capability of printing text and bar codes on fresh fruit produce labels. The speed and the scale of the printing is achieved by the use of a ...

Intense's QWI technology will be used to boost efficiency at 808 nm to record levels for applications in space. An R&D contract between Intense and the European Space Agency will lead to the ...