TE Connectivity Sliver Interconnects for SFF-TA-1002
TE Connectivity's (TE) Sliver Interconnects for SFF-TA-1002 are vertical, right-angle connectors and cable solutions with high design flexibility. These interconnects support high speeds through PCIe Gen 5, with a roadmap to PCIe Gen 6 and PCIe Gen 7/128Gbps. The SFF-TA-1002 standard defines vertical, right angle, straddle mount, and orthogonal connectors for servers and storage devices. The SFF-TA-1002 pinout supports EDSFF, PCIe, OCP NIC, and other standards. The series features standardized designs that enable easy designing and multi-sourcing by consolidating fragmented pinouts and speeds. TE Sliver Interconnects for SFF-TA-1002 support present and future bandwidth needs without requiring requalification and redesign. Applications include internal cabled solutions, PCB card edge (BTB) solutions, networking equipment, servers, switches, routers, high-performance computing (HPC), wireless base stations, and radios.
Features
- Cable assemblies in vertical and horizontal mounting ear designs for design flexibility
- Supports high speed and density for next-gen silicon
- Standardized cost-effective designs
- Supports Ethernet, PCIe, SAS, SATA, InfiniBand, and other custom protocols
- High-performing card edge connector for SFF-TA-1002
- Cable assemblies with push-button and pull-tab features
Applications
- Data center and networking equipment
- Servers
- Switches
- Routers
- HPC
- Storage devices
- Wireless base stations and radios
- Internal cabled solutions
- Chip to chip
- Chip to I/O
- Chip to backplane
- Board to board
- BTB solutions
Specifications
- 20mV voltage rating
- 100mA DC maximum current rating
- -55°C to +105°C operating temperature range
- Mating and unmating force of rate 25.4mm/min maximum
Videos
Design Flexibility
Sliver Power Module
The Sliver power module can be used with any SFF-TA-1002 vertical connector. This follows the same interface as EDSFF and can be used with a card edge or cable receptacle.
Overview
Paskelbta: 2023-01-09
| Atnaujinta: 2025-10-16