Pixus Technologies is the "embedded computing group" of Rittal, the largest manufacturer of enclosures in the world. Pixus was founded by former Kaparel/Rittal management, with the design leadership team that developed cutting-edge COTS open standard architecture solutions since the 1990's. Although we are privately owned, the extremely close relationship with Rittal gives Pixus the flexibility and nimble approach of an independent enterprise with the resources of a $ multi-billion company.
The Pixus/Rittal team is able to offer time-tested embedded computing system platforms and electronics enclosures at competitive prices. We leverage the Rittal brand mechanical designs with over 100K components and hundreds of proven enclosure designs to PICMG and VITA open-standard specification for over 30 years. Pixus also provides unsurpassed thermal management solutions, creative design innovations, backplane design and subsystem integration expertise. This powerful combination results in the premier value in the industry for electronics packaging.
This high-speed backplane is formed with high-quality circuit materials and specialized interconnections to achieve speeds more than 28 gigabaud/s across more than a dozen slots...
The chassis supports 40-GbE and PCIe Gen3 signals with optional backplane speeds of up to 100 GbE or more. Other features include removable sidewalls and power-supply options....
Increasing complexity and the need for higher frequencies and bandwidths, multiple channels, low-power operation, and space constraints are placing considerable demands on RF/...
If it's going into a military or industrial application, it'd better be able to take a beating. Here are some of the latest products that fit that description.
In this Media Gallery, we present some of the latest products for the defense industry. All are tough enough to withstand the rigors of temperature extremes, high vibration, and...
Shown here are some of the latest technology advances aimed at the defense industry, where ruggedness and the ability to maintain performance in incredibly harsh conditions are...
