Multi Mode Fiber Optic Technology
Multi-mode fiber optic technology is a type of optical fiber technology that is commonly used in high-speed networking applications. It is designed to allow the transmission of multiple signals at once over a single optical fiber.
Multi-mode fiber optic cables consist of a core, cladding, and buffer coating. The core is the central part of the fiber where the light signal travels, while the cladding is the outer layer that surrounds the core and helps to keep the light signal contained within the fiber. The buffer coating is an outer layer of protective material that helps to protect the fiber from damage.
The main advantage of multi-mode fiber optic technology is that it can transmit data over longer distances than other types of networking technologies, such as copper-based Ethernet cables. This is because light signals can travel further over fiber optic cables without degrading, whereas electrical signals transmitted over copper cables tend to degrade over long distances.
Another benefit of multi-mode fiber optic technology is its ability to transmit data at very high speeds. This makes it ideal for high-performance networking applications that require fast data transfer rates, such as data centers and enterprise networks.
The 826761-001 HPE Fibre Channel Transceiver Module is designed specifically to work with multi-mode fiber optic cables, providing high-speed connectivity over distances of up to several hundred meters. It utilizes advanced fiber optic technology to transmit data quickly and efficiently, making it well-suited for demanding networking applications.
Multi-mode fiber optic technology provides a reliable and efficient way to transmit data over long distances, making it a popular choice for high-speed networking applications such as data centers, enterprise networks, and telecommunications systems.
Optimize Network Performance
The 826761-001 HPE Fibre Channel Transceiver Module is designed to optimize network performance by providing high-speed connectivity over distances of up to several hundred meters. It achieves this through the use of advanced fiber optic technology, which allows for the transmission of multiple signals over a single optical fiber.
One of the primary ways that the 826761-001 HPE Fibre Channel Transceiver Module optimizes network performance is by reducing latency. Latency is the amount of time it takes for a data packet to travel from one point to another on a network. When latency is high, it can result in slow data transfer rates and decreased network performance.
Because the 826761-001 HPE Fibre Channel Transceiver Module utilizes high-speed fiber optic technology, it is able to transmit data quickly and efficiently, resulting in lower latency and improved network performance. Additionally, the module is designed to work with multi-mode fiber optic cables, which have a higher bandwidth than other types of networking cables. This means that the module is able to transmit data at faster rates, further improving network performance.
Another way that the 826761-001 HPE Fibre Channel Transceiver Module optimizes network performance is by providing a reliable and consistent connection. Fiber optic cables are less susceptible to interference than other types of cables, such as copper-based Ethernet cables. This means that the module is able to maintain a stable connection even in high-interference environments, further improving network performance.
The 826761-001 HPE Fibre Channel Transceiver Module is designed to optimize network performance by providing fast and reliable connectivity over long distances. Its use of advanced fiber optic technology and multi-mode fiber optic cables ensures that data is transmitted quickly and efficiently, resulting in lower latency and improved network performance.
Advantages of Fibre Channel Technology
Fibre Channel technology provides several advantages for high-speed networking applications, such as those supported by the 826761-001 HPE Fibre Channel Transceiver Module. Some of the key advantages of Fibre Channel technology include:
- High speed: Fibre Channel technology is designed to provide high-speed connectivity, making it ideal for high-performance networking applications. It can transfer data at speeds of up to several gigabits per second.
- Low latency: Because Fibre Channel technology is designed specifically for high-speed data transfer, it is able to provide low latency, which is the delay between data being sent and received. This makes it ideal for applications that require fast data transfer rates.
- Scalability: Fibre Channel technology is highly scalable, meaning that it can support large networks with many devices. This makes it well-suited for enterprise-level applications, such as data centers and telecommunications systems.
- Reliability: Fibre Channel technology is highly reliable, with built-in error checking and correction mechanisms to ensure that data is transmitted accurately. Additionally, Fibre Channel networks can be designed with redundancy to ensure that data is not lost in the event of a network failure.
- Security: Fibre Channel technology provides advanced security features to protect data as it is transmitted across a network. This includes built-in encryption and authentication mechanisms to prevent unauthorized access to data.
The advantages of Fibre Channel technology make it well-suited for high-performance networking applications, such as those supported by the 826761-001 HPE Fibre Channel Transceiver Module. Its high speed, low latency, scalability, reliability, and security features make it a popular choice for data centers, enterprise networks, and telecommunications systems.
Main Specifications about this HPE 826761-001
- Manufacture: HPE
- Model Number or SKU# 826761-001
- Product Type: Transceiver Module
Technical Information for Transceiver Module
- Connectivity Technology : Wired
- Cabling Type : 40Gbase-sr4
- Data Link Protocol : 40 Gigabit Transceiver
- Data Transfer Rate : 40 GBPS
- Optical Wave Length : 850 Nm
- Max Transfer Distance : 492 Ft
- Features : Full Duplex Mode
Expansion / Connectivity 40 Gigabit Transceiver
- 1 X Ethernet 40gbase-sr4 - Mpo Multi-mode
About Refurbished Products
Building a fibre-optic network calls for a lot of planning and consideration of many factors. Transceivers are part of the many devices used to build optical fibre systems. A transceiver serves the combined roles of a transmitter and a receiver in that it transmits and receives signals. They are most common in communication equipment such as cellular phones, cordless telephone sets, and radios. Small form factors are required as networks become dense and space is limited, which sees transceivers included in chipsets.
In local area networks (LAN), a transceiver is used to connect a computer to printers and other devices on the network. Usually, the transceiver is integrated into the Network Interface Card (NIC)
Typical Roles of a Transceiver
- Used to convert frequencies from IF to RF.
- Widespread use in wireless communication to transmit data – voice, data, and video.
- RF transceivers are used in communication devices to support radio and TV signal transmission, digital signals transmission, and satellite communication.
- Collision detection – detection of simultaneous signals on the network.
- Transceivers can be deployed to provide a jabber function to interrupt the transmission of long data stream outputs.
Look no further for all types of transceivers including fibre optic transceivers, wireless transceivers, Ethernet transceivers, and RF transceivers. All these transceivers have different characteristics and support full-duplex communication, but the principle behind their work remains the same. Different types of transceivers will have varying numbers of ports used in the transceiver networking connections.
RF Transceivers: these devices are used to transmit video or voice data over a wireless medium. Commonly used for satellite communication, radio transmission, and ITE/WiMax/WLAN networks. The radio transceiver works by silencing the receiver when it is transmitting. There is an electronic switch that facilitates the connection of both the receiver and transmitter on the same antenna. The switch protects the receiver from damage that may be caused by the transmitter output.
Fiber Optic Transceivers: Also referred to as optical modules or fibre optical transceivers. Used to transmit data in fibre optic technology. The network must also have electronic components to encode or decode data into light signals.
Ethernet Transceivers: Basically used to connect electronic devices in a network so that they are able to transmit and receive data. It is also referred to as a media access unit (MAU). The best application of these transceivers is in the specification of IEEE 802.3 and Ethernet. Ethernet transceivers will detect a collision, provide Ethernet interface processing, convert digital data, and provide access to the network.
Wireless Transceivers: Wireless transceivers are a fundamental component necessary for data delivery in wireless networks. These transceivers have two layers. The physical layer has a baseband processor and RF front end. The processor converts a bitstream to a collection symbol flow for data transmission. The second layer is a MAC layer for link traffic control in contacting wireless links, improving data throughput, and preventing collisions.
We guarantee our customers high quality and reliability for all our transceiver networking solutions, irrespective of the type and size of your network.
Here, you can check more available conditions of your desired product 826761-001 at a competitive price. We are trying our best to meet your needs on the enterprise-level computer, server, data centre, and networking hardware. You are welcome to ask our live chat or get live representative support over the phone.
Other Available Conditions for this Part
Other Available Categories For - Networking - Transceiver
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