• Up to 96 differential channels per full rack mainframe
• Constantly monitor input signals for fault conditions
• Flexible configurations for detecting edges, out-of-bounds conditions and measuring pulse widths
• Inputs can be masked, inverted, and combined to produce interrupts
• Can be used as a time stamp module and as a digital I/O
• Programmable debounce circuitry prevents erroneous readings
• 10 V and 100 V input ranges
• On-board memory stores events with IEEE 1588 timestamps
• Synchronize reading of input states with other scanned analog channels

These sensors feature integrated flanges or screw holes for stable mounting on flat surfaces. Designed for rugged environments, they offer consistent performance in industrial, automotive, and automation systems.

High density matrix reed relays are designed for ultra-compact, high-channel-count applications where space efficiency and performance are critical. With footprints as small as 4.35 × 4.35 mm, these relays enable dense relay arrays, up to 1000 relays on a 12” board, ideal for IC wafer testing, functional PCB test systems, and data acquisition platforms. Featuring low power consumption, fast switching speeds, and optional shielding configurations, they offer reliable performance in demanding environments. Their modular design supports vertical and horizontal stacking, making them a versatile solution for high-density signal routing and matrix switching.

General purpose reed relays offer reliable and flexible switching solutions for a wide range of applications across industries such as automated test equipment (ATE), medical devices, industrial systems, and telecommunications. Built around high-quality reed switches capable of billions of operations (load dependent), these relays deliver consistent performance in both low and moderate power environments.

Available in multiple sizes and configurations, including single and multi-switch designs, these relays support SPST, SPDT, and latching contact forms. Popular models feature dual-in-line (DIL/DIP) pin-outs, low-profile options, and high insulation resistance versions up to 10¹³ ohms, making them suitable for compact PCB layouts and high-isolation requirements. Whether you need a single relay or a multi-channel solution, these relays provide dependable switching in versatile formats.

Specialized relays for ultra-high voltage applications exceeding 1.5kV. Ideal for isolation in medical devices, renewable energy systems, and advanced industrial equipment.

The latching / bi-stable (1 Form E) reed switch is a magnetically operated switch designed for ultra-low power applications, particularly in battery-powered and energy-sensitive systems. Unlike traditional reed switches, this bistable variant maintains its contact state, either open or closed, without continuous power, thanks to its dual-magnet latching mechanism.

The switch operates by using two permanent magnets: one partially magnetized to bring the contacts near each other, and a second magnet that controls the contact state by reversing its magnetic field. This design allows the switch to remain in either the normally open (N.O.) or normally closed (N.C.) state until actively changed, making it ideal for applications requiring stable switching with minimal energy consumption.

Designed with Intel‘s IPU E2000 ASIC, the Network Infrastructure Optimization Solution is a secure, configurable network infrastructure acceleration, monitoring, and management platform serve critical applications and services across data centers or at the network edge

• Software-defined, Hardware-accelerated - Accelerate critical applications and services with a single piece of hardware equipped with software that enhances functionality and programmability.
• Network Visibility and Data Analysis - Detect anomalies in network traffic with sub-10 nanosecond precision timestamping while encrypting data packets traveling between devices.
• Enable Streamlined Management - Run multiple workloads in parallel at 200Gbps line rate speeds without interference or resource contention within diverse data environments.

• Complete solution - battery test, simulation & solar array simulator software included
• Highest power density up to 37 kW in 4U rack height (9.25 kW/U)
• Fastest and cleanest power available (fastest transient response and low output ripple and noise)
• Universal 3-Phase AC Input accepts 180 VAC to 528 VAC
• Longest manufacturer-based reliability guarantee: 5-year warranty
• Parallel system power up to 1.2 MW
• Output voltage up to 2,000 V
• Bidirectional output current up to ±150 A, up to ±4,800 A in parallel
• True extended wide-range autoranging output
• Regenerative to 95%
• Color touch panel user interface
• Seamless transition between source and sink
• Built-in islanding detection

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.

Our area lights are engineered for high-intensity illumination and superior uniformity, ensuring consistent and reliable results even in the most demanding environments.