We are excited to announce two new product releases:
1. MEMS-based MultiGBASE-T1 Fault Insertion Units (FIUs) - Our highest bandwidth fault insertion units to date incorporate MEMS switches for fast, high-quality switching & long life.
2. 12-Slot LXI/USB Chassis - Delivering the highest PXI slot density and lowest cost-per-slot, enabling more compact and affordable test platforms.
Learn more about the product features in the press release and videos below.
Our MEMS-based MultiGBASE-T1 FIUs are designed to ramp up test system bandwidth, throughput & operational life.
This is a major new addition to our extensive range of PXI FIU (fault insertion unit) switch modules. Available in a compact single-slot form factor, models 40-205 (PXI) and 42-205 (PXIe) are part of our two-wire serial interface fault insertion switching family. The modules are designed primarily for automotive HIL (hardware-in-the-loop) simulation applications, specifically for design verification of the latest high-bandwidth MultiGBASE-T1 Ethernet networking components, such as ADAS (advanced driver-assistance systems) controllers, with networking data speeds currently reaching up to 10 Gbps.
For a deeper dive into accelerating validation for multi-gig automotive Ethernet, check out our White Paperand Blog Article.
Our 12-slot LXI/USB chassisenables more compact and affordable test platforms.
The 60-107-001 compact 12-Slot LXI/USB Modular Chassis has the highest PXI slot density chassis for PXI and PXIe modules. It provides 12 hybrid-compatible slots in a 2U form factor and can be controlled via either USB or LXI (Ethernet)—eliminating the need for a dedicated PXI controller or an embedded PC.
It offers simplified serviceability with its field-replaceable power supply and embedded controller. Additionally, an optional model is available with built-in scan list sequencing and triggering, which significantly reduces system latency in repetitive measurement operations.
This chassis provides engineers with the flexibility to build high-density systems without the overhead of traditional PXI controllers—all in a form factor that fits benchtop environments and maximizes the efficient use of valuable rack space.
