ASSMANN WSW Components is a leading provider of high-quality electronic components and interconnect solutions for various industries. With over 45 years of experience, the company offers a wide range of products including connectors, cable assemblies, heat sinks, and switches, serving applications in automotive, industrial, telecommunications, and consumer electronics. ASSMANN WSW Components' products are designed to meet the specific needs of each industry, providing superior performance, reliability, and durability. The company's focus on innovation and technology has resulted in numerous patents and industry awards, solidifying its reputation as a trusted partner for businesses seeking cutting-edge solutions. ASSMANN WSW Components' experienced team of engineers and technicians work closely with clients to understand their unique requirements and develop customized solutions that ensure optimal performance and reliability. The company places a strong emphasis on quality, adhering to stringent manufacturing processes and certifications such as ISO 9001 and ISO 14001 to guarantee the highest levels of safety and environmental responsibility. Additionally, ASSMANN WSW Components is committed to sustainability and social responsibility, implementing eco-friendly practices throughout its operations and supporting local communities. With a focus on customer satisfaction, the company offers exceptional service and technical support, ensuring that clients receive the best possible solutions for their needs. As a leader in the industry, ASSMANN WSW Components continues to innovate and provide high-quality, reliable electronic components and interconnect solutions that drive success across industries.
Pluggable cable products are a family of connectorized cable assemblies that are specifically designed to meet industry standard specifications. These cable assemblies play a crucial role in interconnecting various computer hardware and data network infrastructure components.
The pluggable cable family encompasses a wide range of products, including both electrical and optical interconnections. Some commonly used pluggable cables include SATA (Serial ATA) cables, eSATA (External Serial ATA) cables, SFP (Small Form-Factor Pluggable) cables, SFP+ cables, micro SFP+ cables, PCIe (Peripheral Component Interconnect Express) cables, QSFP (Quad Small Form-Factor Pluggable) cables, among others.
SATA cables are widely used for connecting storage devices, such as hard disk drives and solid-state drives, to motherboards or host controllers. eSATA cables, on the other hand, provide external connectivity for high-speed data transfer between external storage devices and computers.
SFP and SFP+ cables are utilized for high-speed data transmission in networking applications. These hot-pluggable cables are commonly used in switches, routers, and network interface cards to establish reliable and high-bandwidth connections.
Micro SFP+ cables offer a smaller form factor than standard SFP+ cables, making them suitable for space-constrained environments while maintaining high-speed data transmission capabilities.
PCIe cables are primarily used for connecting peripheral devices, such as graphics cards and RAID controllers, to motherboards or other expansion slots.
QSFP cables are designed for high-speed data transfer in data centers and enterprise networks. They enable faster transmission rates and higher bandwidth, making them ideal for applications that require substantial data throughput.
These pluggable cables adhere to industry standards, ensuring compatibility and interoperability across different manufacturers' hardware. They provide reliable and efficient connectivity solutions for computer systems, data centers, and network infrastructures.
In summary, pluggable cable products offer a diverse range of connectorized cable assemblies that are essential for interconnecting computer hardware and data network components. They enable seamless communication and data transfer in various applications, meeting the demands of modern computing and networking environments.