The TEM horn antenna is an antenna used for conducting close proximity radiation immunity evaluation test (near electromagnetic field immunity test) of electromagnetic waves radiated from various wireless transmitters such as mobile devices.  In the future, close proximity radiation immunity evaluation test using the TEM horn antenna is expected to expand to various product standards such as medical equipment (IEC 60601-1-2) and multimedia equipment (CISPR 35).NoiseKen's TEM horn antenna has a wide band, low VSWR, and wide electric field uniformity offering an ideal solution for an efficient close proximity radiation immunity test. 

Thin plate broadband antenna has been developed for efficient immunity testing against hand-held transmitters and cellular phones. Many pieces of spot frequency antennas had to be used in turn thus fur. This new Thin-plate Broadband Antenna is a single antenna solution eliminating the need for antenna changes and dramatically reducing the test time. Furthermore, this antenna with its small-size and lightweight properties and a flexible handle is suitable for testing in narrow spaces.

ProPhotonix offers laser diodes with a wide range of wavelengths and power outputs with many laser diodes in stock.

ProPhotonix designs and manufactures easy to use, plug and play laser diode modules for a wide range of laser applications including uniform laser lines and DOE patterns for machine vision and rugged laser modules for industrial alignment applications. ProPhotonix also partners with leading manufacturers to develop laser modules for life science applications, scientific instrumentation, particle measurement, 3D printing and more.

ProPhotonix offers a versatile range of LED Area Lights designed to deliver exceptional performance across diverse applications. The SpecBright™ LED Area Lights standout for their unparalleled uniformity and impressive brightness, achieved through advanced Chip-on-Board LED technology. The UVC-Pro Area Light provides a groundbreaking solution with its stackable 265nm light, ideal for machine vision, fluorescence detection, and disinfection.

ProPhotonix designs and manufactures a wide range of LED Line Lights configurable to suit almost any application. All of our line lights offer high intensity illumination and excellent uniformity ensuring that the system performs consistently and reliably in even the most challenging of applications. Our LED Line Lights are ideally suited to line scan and web inspection of a host of materials and products, including paper, foil, metal, road surfaces, PCBs and semiconductors.

Extremely bright, compact and reliable Chip-on-board technology Superior uniformity Seamless integration and mounting ProPhotonix SpecBright™ LED Ring lights are the brightest LED illuminators in their class. These LED Lights are designed and manufactured with a high LED packing density and excellent thermal management for optimum brightness and uniformity.

Extremely bright, compact and reliable Chip-on-board LED technology Seamless integration and mounting SpecBright Spot Lights utilize Chip-on-Board LED arrays to provide extremely bright, uniform light from a compact form factor. These lights are designed for easy installation and the many options available make them an ideal solution for many applications.

UV curing is a photopolymerization process in which UV energy is used to solidify liquids. UV LED curing systems are now the technology of choice across a wide range of applications including printing, 3D printing, coatings, and adhesives due to the inherent value of an LED solution. They offer vastly improved lifetimes, reduced maintenance costs, significant energy savings, and with no ozone emissions or mercury content, offer more benefits than traditional technologies. In addition, the “cold cure” offered by LED-based systems is ideal for heat-sensitive substrates or thin films.

UVC-based disinfection, often called, Ultraviolet germicidal irradiation (UVGI), is the use of ultraviolet (UV) light to kill or inactivate viral, bacterial, and fungal species. When UV-C light is incident upon the target, the incident photons are absorbed by DNA or RNA, causing inactivation of the DNA or RNA double helix strands through the formation of molecular lesions. When enough of these lesions are created, the replication process is disrupted, and the cell cannot replicate. Absorption by proteins can lead to the breakdown of the organism’s cell walls causing the cell to die. For most commercial applications, replication prevention is sufficient.

ARES (formerly IRIS) from Safran Defense & Space, Inc. (formerly Safran Data Systems, Inc.) represents the next-gen in transportable antenna systems. Packed in portable cases for easy handling, ARES can be shipped using standard methods and be fully operational in under an hour in the field, standing by to support satellites. Utilizing a reliable pedestal design and a dual-band concentric feed, ARES antenna ensures pinpoint accuracy and top-notch antenna performance. Crafted from standard (LRU) parts, it’s a breeze to maintain and service on-site, guaranteeing maximum uptime for all satellite missions.

The B.SAFE is a crash-survivable flight data recording for board defense aviation aircraft and helicopters. B.SAFE is designed to capture audio, video, and data on a Crash Survivable Memory stored in a rugged and highly compact chassis. You can easily replay the recorded data in a standard PC/Windows® environment using post-mission analysis software.