SFP-10G-SR= Cisco 10GBPS SFP+ Multi-Mode Fiber 850nm Refurbished

Data Acquisition and Control

The SFP-10G-SR= Cisco 10Gbps SFP+ Multi-Mode Fiber 850nm Transceiver is a networking device that provides high-speed data transfer capabilities over fiber optic cables. To fully understand the data acquisition and control of this device, we need to break it down into its constituent parts.

Data Acquisition Data acquisition refers to the process of collecting and analyzing data from different sources. In the case of the SFP-10G-SR= Cisco 10Gbps SFP+ Multi-Mode Fiber 850nm Transceiver, data acquisition involves the collection of data from the fiber optic cable that connects the transceiver to other network devices. The data collected includes information about the transmitted data packets, such as their size, source, destination, and error status.

Control The control of the SFP-10G-SR= Cisco 10Gbps SFP+ Multi-Mode Fiber 850nm Transceiver involves managing the device's operation and ensuring that it operates optimally. The control mechanism includes several aspects, such as:

• Transmitter control: This controls the operation of the device's transmitter, including the laser diode and the modulator. The control ensures that the laser diode operates within safe power limits, and the modulator generates a signal that is compatible with the receiving device.
• Receiver control: This controls the operation of the device's receiver, including the photodiode and the amplifier. The control ensures that the photodiode detects the transmitted signal and that the amplifier amplifies the received signal to an appropriate level for processing.
• Temperature control: This manages the device's operating temperature, ensuring that it operates within a safe range.
• Power control: This manages the device's power consumption, ensuring that it operates within the specified power range.

Comparing different transceiver module technologies with Multi-Mode Fiber Transceiver

Transceiver modules are used in networking systems to convert electrical signals to optical signals and vice versa. There are different types of transceiver modules available in the market, including copper, fiber, and wireless. In this context, we will compare different transceiver module technologies with the SFP-10G-SR= Cisco 10GBPS SFP+ Multi-Mode Fiber 850nm Transceiver.

The SFP-10G-SR= Cisco 10GBPS SFP+ Multi-Mode Fiber 850nm Transceiver is a popular and widely used transceiver module in the networking industry. It is designed for use with multi-mode fiber optic cables and operates at a speed of 10Gbps. The module uses 850nm wavelength for transmitting and receiving data and has a range of up to 300 meters.

Comparing with Copper Transceiver Modules

Copper transceiver modules are used for short distance communication within a network. They are typically used for connecting devices in the same rack or room. Copper transceivers use electrical signals to transmit data, and they have a lower cost than fiber transceivers. However, copper transceivers have limitations in terms of distance and bandwidth.

When comparing the SFP-10G-SR= Cisco 10GBPS SFP+ Multi-Mode Fiber 850nm Transceiver with copper transceiver modules, the latter has a limited range of up to 100 meters, while the former can transmit data up to 300 meters. Also, copper transceiver modules have lower bandwidth and are more prone to interference and signal loss. In contrast, fiber transceiver modules have a higher bandwidth and are less susceptible to electromagnetic interference.

Comparing with Wireless Transceiver Modules

Wireless transceiver modules are used for long-distance communication between devices within a network. They use radio frequency signals to transmit and receive data, and they are commonly used for outdoor communication, such as in cellular networks. Wireless transceiver modules have the advantage of being able to transmit data over long distances, but they have limitations in terms of bandwidth and interference.

When comparing the SFP-10G-SR= Cisco 10GBPS SFP+ Multi-Mode Fiber 850nm Transceiver with wireless transceiver modules, the former has a higher bandwidth and is less prone to interference. Also, fiber transceiver modules are more secure than wireless transceivers, as they are not susceptible to interception and hacking.

Comparing with Single-Mode Fiber Transceiver Modules

Single-mode fiber transceiver modules are used for long-distance communication between devices within a network. They use a single mode of light to transmit data and can transmit data up to several kilometers. Single-mode fiber transceiver modules have a higher bandwidth and are less prone to interference than multi-mode fiber transceivers.

When comparing the SFP-10G-SR= Cisco 10GBPS SFP+ Multi-Mode Fiber 850nm Transceiver with single-mode fiber transceiver modules, the latter has a longer range and higher bandwidth. However, single-mode fiber transceiver modules are more expensive than multi-mode fiber transceivers and require more sophisticated networking equipment.

The Importance of Quality Assurance

The SFP-10G-SR= Cisco 10Gbps SFP+ Multi-Mode Fiber 850nm Transceiver is an essential component in networking infrastructure that enables high-speed data transfer between switches, routers, and other network devices over multi-mode fiber optic cables. Quality assurance plays a critical role in ensuring that this component performs optimally and reliably.

Here are some specific reasons why quality assurance is important for the SFP-10G-SR= Cisco 10Gbps SFP+ Multi-Mode Fiber 850nm Transceiver:

• Performance: Quality assurance ensures that the SFP-10G-SR= Cisco 10Gbps SFP+ Multi-Mode Fiber 850nm Transceiver meets the performance standards required for high-speed data transfer. It verifies that the transceiver can transmit and receive data at the specified speeds without errors, and can handle the required data volumes without packet loss or delays.
• Reliability: Quality assurance ensures that the SFP-10G-SR= Cisco 10Gbps SFP+ Multi-Mode Fiber 850nm Transceiver is reliable and can operate continuously without failure or malfunction. This includes testing for factors such as heat dissipation, power consumption, and durability, to ensure that the transceiver can withstand the rigors of continuous operation in a network environment.
• Compatibility: Quality assurance ensures that the SFP-10G-SR= Cisco 10Gbps SFP+ Multi-Mode Fiber 850nm Transceiver is compatible with other network devices, such as switches and routers. This includes testing for interoperability with different vendors' equipment, as well as ensuring that the transceiver can operate in different network topologies and configurations.
• Compliance: Quality assurance ensures that the SFP-10G-SR= Cisco 10Gbps SFP+ Multi-Mode Fiber 850nm Transceiver complies with industry standards and regulations. This includes testing for compliance with standards such as the IEEE 802.3ae and SFF-8472, as well as ensuring that the transceiver meets safety and environmental regulations.
• Cost-effectiveness: Quality assurance ensures that the SFP-10G-SR= Cisco 10Gbps SFP+ Multi-Mode Fiber 850nm Transceiver is cost-effective by minimizing the risk of failure or malfunction, reducing the need for maintenance or replacement, and maximizing the lifespan of the component. This can help to reduce overall network costs and improve the return on investment for network infrastructure.

General Information about this Cisco SFP-10G-SR=

• Manufacturer: Cisco
• Model Number or SKU# SFP-10G-SR=
• Product Type: SFP+ Transceiver
• Transceiver Type: SR

Technical Information of SFP Transceiver

• Application/Usage: Data Networking, Optical Network
• Ethernet Technology: 10 Gigabit Ethernet
• Interfaces/Ports Details: 1 x LC/PC Duplex 10GBase-SR Network
• Media Type Supported: Optical Fiber
• Fiber Optic Cable Standard: 62.5 µm, 50 µm
• Fiber Mode Supported: Multi-mode
• Network Technology: 10GBase-SR
• Form Factor: Hot-Swappable
• DDM: Yes
• Connector Type: Dual-LC

Network & Communication for 10GBPS Transceiver Module

• Cable Type: Ethernet 10GBase-SR
• Compliant Standards: IEEE 802.3ae
• Connectivity Technology: Wired
• Max Transfer Distance: 984 ft
• Optical Wave Length: 850 nm

Power Description of Multi-mode Transceiver

• Transmitter Type: VCSEL
• Receiver Type:: PIN
• Transceiver Power: -7.3~-1dBm
• Receiver Sensitivity: < -11.1dBm
• Powerbudget:3.8dB
• Receiver Overload: 0.5dBm
• Typical Power Consumption: ≤0.6W
• Max Operating Temperature: 158 degree Fahrenheit
• Min Operating Temperature; 32 degree Fahrenheit

Network Management & Protocol System

• IEEE 802.3ae, SFF-8472, SFF-8431, SFF-8432, SFP+ MSA Compliant, CPRI, eCPRI
• Networking Protocol: 10 Gigabit Ethernet

Performance

• Data Transfer Rate: 10GBPS
• Max Data Rate: 10.3125Gbps

Weight & Dimensions

• Height: 0.3 Inch
• Width: 0.5 Inch
• Depth: 2.2 Inch

Compatibility

• Cisco Nexus 5000 Series Switches
• Cisco Nexus 7000 Series Switches
• Knowledge of SFP-10G-SR Compatibility-

When you buy SFP-10G-SR transceivers for your switch, you are told to buy "brand" SFP-10G-SR from your network equipment manufacturer in order to keep your system running properly and safely. The "brand" SFP-10G-SR compatibility may never have any issues and the price is therefore very high, usually several hundred dollars. But since the transceivers are all manufactured based on MSA (Multi-source Agreement), which strictly define the operating characteristics of optical transceivers so that system vendors may implement ports in their devices that allow MSA compliant transceivers produced by name brand, as well a third party vendor, to function properly. Transceivers that manufactured by third party vendors, usually called compatible transceivers, such as compatible Cisco SFP-10G-SR transceivers. Usually, these compatible transceivers are tested on the corresponding switch before selling, therefore, the compatibility can also be ensured. Cisco SFP-10G-SR matrix can be found here.