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Fischer Connectors USB 3.2 Gen 2 up to 10 Gbit/s For High-Speed Data Transmission

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To allow interoperability and reliable transfer of ever-increasing amounts of data at ever-higher speeds between ever-increasing numbers of connected devices, hence, the data protocols are vigorously evolving.

Fischer Connectors USB 3.2 Gen 2 up to 10 Gbits For High-Speed Data Transmission the volt post
Fischer Connectors’ high-speed solutions with USB 3.2 Gen 2 up to 10 Gbit/s meet the versatile requirements of a wide variety of applications, from surgical equipment in operating rooms and small computers and peripherals for soldiers, to outdoor test & measurement applications and civil and military drones. From left to right: Fischer Core Series, Fischer MiniMax™ Series, Fischer UltiMate™ Series. (© Conextivity Group 2024)

Now, Fischer Connectors is encompassing its platform capabilities to fulfill the most demanding connectivity requirements for high-speed data transfer using the USB 3.2 Gen 2 protocol up to 10 Gbit/s in order to handle this technological challenge.

In order to meet signal integrity and robust environment requirements for medical, defense, industrial, and instrumentation applications, the Swiss-based company has developed new USB 3.2 connectors and cable assembly solutions in three of its flagship product lines.

Fischer Connectors USB 3.2 Gen 2 up to 10 Gbits For High-Speed Data Transmission the volt post 3
The Fischer MiniMax 9-pin connector is an example of connector designed specifically for high-speed data transfer using a single protocol (USB 3.2). (© Conextivity Group 2024)

The New USB 3.2 connectors and cable assembly solutions Meets  the Need of these Evolving Applications, Like:

• Surgical equipment in the operating room, USB3 cameras in orthopedic surgery or endoscopic devices, and instrumentation applications such as assembly production lines and outdoor inspections in radiation and/or contaminated areas, with the versatile, highly customizable Fischer Core Brass Series – 9 pins in Ø 15.5 mm (‘size 1031’ plug), resistant to chemicals and sterilization processes.

• Applications where SWaP (size, weight and power) is critical, such as miniature body-worn computers and peripherals, high-performance lidars and high-speed intercom boxes, with the ultra-miniature, high-density Fischer MiniMax™ Series – 9 pins in Ø 12.9 mm (‘size 08’ plug) or 12 signal and power pins in Ø 14.9 mm (‘size 10’ plug), including high power up to 8A.

• Civil and military drones equipped with USB3 cameras, and a wide range of military specifications (MIL-SPEC) applications, with the rugged, compact, lightweight Fischer UltiMate™ Series – 9 pins in Ø 18.5 mm (‘size 11’ plug), 360° EMC shielding, resistance to shock, vibration and corrosion up to 1,000 hours of salt mist.

Fischer Connectors USB 3.2 Gen 2 up to 10 Gbits For High-Speed Data Transmission the volt post 2
Entitled “Signal integrity – simply explained”, the educational video available on Fischer Connectors’ website and YouTube channel explains the connectivity challenges of high frequency digital signals in simple terms and visuals. (© Conextivity Group 2024)

Fischer Connectors’ USB 3.2 Connectors and Cable Assembly Solutions Offer:

  • IP68 sealing (IP69 and hermeticity with a resin-sealed contact block for Core and UltiMate),
  • Extreme operating temperatures (MiniMax from -40 °C to +135 °C, Core from -70 °C to +250 °C, UltiMate from -55 °C to +135 °C),
  • High mating cycles (MiniMax up to 5,000, Core and UltiMate up to 10,000),
  • Three locking mechanisms: push-pull and quick-release for the three series,
  • Screw for MiniMax.
  • UltiMate also allows for blind mating with an extremely robust mechanical keying.

High-Quality Cable Assembly To Ensure Signal Integrity Performance

Proficiency in cable assembly, high-performance connectors, and signal integrity simulation, testing, and design are essential for creating high-speed interconnect solutions.

Engineers have to deal with a very complicated set of characteristics throughout the design and characterization phase, including impedance matching, line delay, insertion/return loss, crosstalk, and EMC shielding.

High-quality cable assembly is critical to ensure reliable and efficient data transmission, signal integrity and overall system function. “To achieve successful high-speed data transfer from a device’s transmitter to its receiver, connectors and cables must be cross-optimized and undergo a series of compliance tests at the system level,” explains Ameny Chaabani, Signal Integrity Engineer at Fischer Connectors. “USB 3.2 is a stringent protocol. Connector design, cable length, cable performance (loss), and the controlled and repeatable cable assembly and potting processes above 1 Gbit/s are some of the influencing parameters to consider. We must also study the full physical layer of a link as a whole, what we call system-level testing.”

For Further Information on the Connectivity Challenges Of High Frequency Digital Signals In The Educational Video (4:14) entitled “Signal integrity – simply explained” available on Fischer Connectors’ website and YouTube channel.

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