Molex Brad Micro-Change CAT6A Connector System
Molex Brad Micro-Change CAT6A Connector System withstands harsh and high-vibration applications while delivering speeds of up to 10Gbps Ethernet. These connectors offer superior signal integrity through a 360° shielded X-code interface that allows for blind mating while an anti-scoop proof design prevents pin damage during mating. Receptacle PCB stand-offs attach securely to PCB to prevent connector rotation, and these receptacles can be mounted using through-hole reflow (THR) technology to allow for an automated assembly process. Molex Brad Micro-Change CAT6A Connector System is rated IP67 with external and internal o-ring seals, nickel-plated brass housings and M12 coupling nuts, and 26AWG wire. Ideal applications include military, industrial automation, and commercial vehicles and railways.
Features
- Robust, compact M12 CAT6A X-code connector design
- Transmission performance meets TIA-568 and ISO/IEC 11801 Cat6A specification up to 500Mhz for 10Gbps Ethernet
- Recessed male pins within a diecast-metal X-code shield
- X-code keying alignment allows for blind-mating
- Anti-scoop proof design to prevent pin damage during mating
- Complete 360° shielded design with 4 twisted-cable pairs that are individually shielded and protected with a braided metal shield
- Factory overmolded and tested cable assemblies in 26AWG wire gauge
- Nickel-plated brass housings and coupling nuts
- Uses standard M12 threaded coupling nuts to mate
- External and internal o-ring seals
- Receptacle PCB stand-offs attach securely to PCB to prevent connector rotation
- Receptacles can be mounted using through-hole reflow (THR) technology to allow for an automated assembly process
- IP67 protection from dust and water
- Conforms to IEC 61076-2-10
Applications
- Commercial vehicle
- GPS
- Telematics
- Mobile data acquisition
- Railway data networks
- Video protection systems
- Industrial automation
- Robotic welding
- Food and beverage production
- Military
- Vision systems
- High-speed video communication
- Vehicle open-system architecture
- Mobile data acquisition
- Sensor networks
- Unmanned vehicles
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发布日期: 2012-10-31
| 更新日期: 2022-03-11