TMS-DR10-31DIR 125M/1.25G SGMII Transceiver Module,10km,1310nm,-40℃~85℃ with DDMI,
The Serial-Gigabit-Medium-Interface-Transceiver (SGMII Transceiver) is a high performance, hot-pluggable transceiver module designed for duplex LC connector interface and Serial-Gigabit-Medium-Interface-Transceiver (SGMII) interface, offering data rates up to 1.25Gbps. It is compliant with IEEE 802.3 and is designed to operate across wide temperature range of -40℃~80℃. The SGMII Transceiver module supports both full-duplex and half-duplex operations, and is compliant with both the SGMII and 1000BASE-X standards. It is designed to provide reliable and cost-effective data transmission in high speed communication systems.
The SGMII Transceiver module provides a reliable, low-cost solution for high-speed data transmission, enabling systems to reach data rates of up to 1.25Gbps. The module is hot-pluggable, allowing for easy installation and maintenance. The module is compliant with IEEE 802.3 and is designed to operate across a wide temperature range. It supports both full-duplex and half-duplex operations, and is compliant with both the SGMII and 1000BASE-X standards.
The SGMII Transceiver module is ideal for applications requiring high-speed data transmission, such as 10G Ethernet, Fibre Channel, Storage Area Networks (SANs), and other high-speed communication systems. The module is designed to provide reliable and cost-effective data transmission, meeting the needs of a wide variety of applications.
Parameters | Description |
---|---|
Interface Type | SGMII Interface |
Product Name | 125M/1.25G SGMII Transceiver |
Data Rate | 125M/1.25G |
Distance | 10km |
Hot Pluggable | Yes |
Connector Interface | Duplex LC |
Operating Temperature | -40℃~85℃ |
Compliant | Compliant With MSA SFP Specification SFF-8472 |
TMS-DR10-31D(N)CR (1310nm, 10km, FP-LD, PINTIA)
Parameter | Symbol | Min | Typ. | Max | Unit | Note | ||
Transmitter | ||||||||
Centre Wavelength | λc | 1280 | 1310 | 1340 | nm | |||
Spectral Width*Note4 | ∆λ | 4 | nm | FP-LD | ||||
Average Output Power | 100BASE | POUT | -15 | -8 | dBm | |||
1000BASE | -9 | -3 | dBm | |||||
Extinction Ratio | ER | 9 | dB | |||||
Average Power of OFF Transmitter | POFF | -45 | dBm | |||||
Output Optical Eye | Compliant with IEEE 802.3ah-2004 | |||||||
Receiver | ||||||||
Centre Wavelength | λc | 1200 | 1600 | nm | ||||
Sensitivity*Note5 | 100BASE | PIN | -28 | dBm | ||||
1000BASE | -22 | dBm | ||||||
Receiver Overload | Overload | -3 | dBm | |||||
Optical Return Loss | 12 | dB | ||||||
LOS Assert | 100BASE | LOSA | -45 | dBm |
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1000BASE | -35 | |||||||
LOS De-Assert | 100BASE | LOSD | -30 | dBm |
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1000BASE | -25 | |||||||
LOS Hysteresis | 0.5 | 4 | dB |
Industrial Automation: The module can be used in industrial automation systems to enable communication between different devices and components. It allows for the exchange of data between sensors, actuators, controllers, and other equipment, facilitating efficient and synchronized operation of the automation system.
Remote Monitoring and Control: In industrial settings, there may be a need to monitor and control remote equipment or processes. The TMS-DR10-31DIR module can be used to establish communication links over long distances, enabling real-time monitoring and control of remote devices such as pumps, valves, motors, and generators.
SCADA Systems: SCADA (Supervisory Control and Data Acquisition) systems are commonly used in industries like oil and gas, water treatment, and power generation. The transceiver module can be employed in SCADA networks to transmit critical data, such as sensor readings, control commands, and alarms, between remote sites and central control centers.
Industrial Ethernet Networks: The module can be used in industrial Ethernet networks to provide high-speed connectivity between different network nodes. It enables the transfer of large amounts of data, such as video streams, sensor data, and control signals, within an industrial network infrastructure.
Smart Grid Applications: The transceiver module can be utilized in smart grid applications to facilitate communication between various components of the power grid, including smart meters, substations, distribution automation devices, and energy management systems. It enables the exchange of real-time data for monitoring, control, and optimization of power distribution.
Transportation and Infrastructure: The module can be deployed in transportation and infrastructure systems, such as railways, highways, and airports, to enable communication between different subsystems. It can facilitate data transmission for traffic management, surveillance, passenger information systems, and other critical applications.
Data Rate: The data rate refers to the speed at which data is transmitted and received by the transceiver module. Depending on your application needs, the module's data rate can be customized to support different speeds, ranging from lower speeds like 100Mbps to higher speeds like 10Gbps or beyond.
Transmission Distance: The transmission distance defines the maximum distance over which the transceiver can reliably transmit data. It can be customized based on your specific requirements, whether you need shorter-range modules for intra-rack communication or longer-range modules for inter-building or campus-wide deployments.
Wavelength: The wavelength of the transceiver module determines the specific frequency of light used for data transmission. Different wavelengths are used for different types of fiber optic cables. Customization can involve selecting a specific wavelength, such as 850nm for multimode fiber or 1310nm/1550nm for single-mode fiber, depending on your fiber infrastructure.
Temperature Range: The temperature range specifies the ambient temperature within which the transceiver module can operate reliably. Customization can involve expanding or narrowing the temperature range to suit the environmental conditions of your application, whether it requires extended temperature tolerance or specific temperature restrictions.
Power Consumption: Power consumption is an important consideration, especially for applications with limited power budgets or stringent energy efficiency requirements. Customization can involve optimizing the transceiver module's power consumption to meet specific power constraints and minimize energy usage.
DDMI Functionality: Digital Diagnostic Monitoring Interface (DDMI) provides real-time monitoring and reporting of various parameters of the transceiver module, such as temperature, voltage, and optical power levels. Customization can include the inclusion or exclusion of DDMI functionality based on your monitoring and diagnostic needs.
The SGMII Transceiver provides technical support and services for customers. Our support team is available 24/7 to answer any questions and provide assistance with installation, configuration, and troubleshooting. We also offer on-site training and consultations to ensure that customers are able to use the product to its fullest potential. Additionally, we provide regular software and firmware updates to ensure the product is always up to date. If customers ever encounter any issues, our team is available to help resolve them quickly and efficiently.
The SGMII Transceiver will be packaged and shipped in a manner that is safe and secure for the product. Packaging materials will include bubble wrap, foam, and cardboard boxes. The transceiver will be placed in an anti-static bag for extra protection. The product will then be placed in a box and sealed with tape. A shipping label will be placed on the box that includes the customer's address and contact information.
The box will then be placed in a larger box or container for shipping. The container will be filled with cushioning material to protect the product during transit. The container will be sealed with tape and a shipping label will be placed on it. The package will then be ready to be shipped to the customer.
Reference Datasheet File code: DS060008