400G QSFP112

Upgrade your network with Ascentoptics' high-quality 400G QSFP112 for superior performance.

Are you looking to enhance the performance and efficiency of your network? Ascentoptics, a leading manufacturer from China, brings you the cutting-edge 400G QSFP112 module. Designed to meet the growing demands of modern network infrastructure, this high-quality module offers unparalleled speed, reliability, and performance.

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    Introducing 400G QSFP112 from AscentOptics

• AscentOptics’ 400G QSFP112 optical transceivers are compliant with the QSFP112 MSA and CMIS 4.0 standards.
• It supports 4 lanes of 112G-PAM4 electrical signals and 4 lanes of 112G optical signals.
• QSFP112 is backward compatible with 40G, 100G, and 200G modules.
• Offers DR4 500M and FR1 2km with 1310nm wavelength, plus FR4 2km and LR4 10km with CWDM4 wavelength.
• Provides a cost-effective way to upgrade intra data center bandwidth from 200G to 400G while keeping same network architecture.

400G QSFP112
400G QSFP112

400G QSFP112 Series

400G QSFP112 4x100G SR4 100M MPO-16 MMF Transceivers

The QSFP112 400GBASE SR4 transceiver module by Ascent Optics is specifically designed for 400G Ethernet connections, spanning a distance of 100m across Multi-mode fiber. This module features 4 parallel channels, operating at a center wavelength of 850nm, with each channel running at 106.25G. On the receiving end, it utilizes 4 photodiodes and a 4-channel TIA array, complemented by PAM4 re-timers.
400G QSFP112
 

Product Details

Part No.Q12-400M485-1HCMForm FactorQSFP112
Data Rate4x100G 400GbEDistance100M
Wavelength850nmOperation Temperature0 to 70°C (32 to 158°F)
ConnectorMTP/MPO-16Voltage3.3V
Cable TypeMMFDDMYes
Transmitter Type850nm VCSELReceiver TypePIN
TX Power-4.6~+4.0dBmReceiver Sensitivity< -4.6dBm
Protocols400G Ethernet, Data Center InterconnectWarranty3 years

Key Features

• Compliant with QSFP112 MSA and RoHS
• Runs on a single 3.3V Power Supply
• Maximum power consumption 8W
• Supports 425Gbps speed over MMF with 100m reach (FEC supported at the Host side)
• 4×106.25Gbps (PAM4) electrical interface
• Ideal for Data Center Interconnect, 400GBASE SR4, Infiniband interconnects, and Enterprise networking

Application

• Data centers can benefit from 4x100G-SR applications and Infiniband interconnects.
• This technology provides faster data transmission speeds.
• High performance computing can be achieved with significantly improved latency over traditional networks.
• 4x100G-SR applications with Infiniband interconnects provide a cost-effective solution for various data center needs.

400G QSFP112 4x100G DR4 500M MPO-12 SMF Transceivers

The QSFP112 4×100 Gbps transceiver module by Ascent Optics is purpose-built for 400 Gigabit Ethernet links exceeding 500m over single mode fiber. This advanced product features 4 independent input/output channels that efficiently convert 106.25Gbps (PAM4) electrical input data into 4 parallel optical signals at the same speed. On the reverse path, it effortlessly converts 4 parallel optical signals into 4 channels of 106.25Gbps (PAM4) electrical output data. The module operates on 1310nm center wavelength, with each channel achieving a remarkable 106.25Gbps. To enhance performance, the transmitter path integrates a bi-directional PAM4 re-timer ASIC with Silicon Photonics Laser and a 4-channel modulator driver. On the receiver path, 4 photodiodes and a 4-channel TIA arrays, also along with the PAM4 re-timer, effectively complete the setup.

400G QSFP112

Product Details

Part No.Q12-400S431-5HCMForm FactorQSFP112
Data Rate4x100G 400GbEDistance500M
Wavelength1310nmOperation Temperature0 to 70°C (32 to 158°F)
ConnectorMTP/MPO-12Voltage3.3V
Cable TypeSMFDDMYes
Transmitter Type1310nm EMLReceiver TypePIN
TX Power-2.9~+4.0dBmReceiver Sensitivity< -5.9dBm
ProtocolsQSFP112 MSAWarranty3 years

Key Features

• High speed of 425Gbps supported
• Powered by single 3.3V supply
• Long-range reaches up to 500m over SMF with KP4 FEC
• Connector: MPO-12
• 4×106.25Gbps (PAM4) electrical interface on receiver side
• Power dissipation < 12W
• Commercial temperature range from 0°C to 70°C
• Passes TUV/UL/FDA*1 safety certifications and RoHS compliant

Application

• Deployment of 4x100G-DR applications in Data Center enabled with Infiniband interconnects.
• Installation offers increased reliability, scalability and performance.
• Capable of providing high-speed data transfers for large workloads.

400G QSFP112 4x100G FR1 2km MPO-12 SMF Transceivers

The Q12-400S431-02CM from Ascent Optics is a compact, high-speed, and energy-efficient solution designed for optical interconnects in data communications. This high-bandwidth module enables 400GbE optical links across single-mode fiber or quad 100GbE optical links for breakout applications. Experience enhanced performance and efficiency with Ascent Optics’ cutting-edge product.
400G QSFP112

Product Details

Part No.Q12-400S431-02CMForm FactorQSFP112
Data Rate4x100G 400GbEDistance2KM
Wavelength1310nmOperation Temperature0 to 70°C (32 to 158°F)
ConnectorMTP/MPO-12Voltage3.3V
Cable TypeSMFDDMYes
Transmitter Type1310nm EMLReceiver TypePIN
TX Power-2.4~+4.0dBmReceiver Sensitivity< -6.4dBm
ProtocolsQSFP112 MSAWarranty3 years

Key Features

• Compact Type 2 QSFP112 form factor for high faceplate density in networking equipment and backward compatibility.
• Compliant with IEEE 802.3bs 400GAUI-8 (CDAUI-8) standard, single-mode fiber connectors and cable infrastructures.
• Operating temperature range of 0 to 70oC for use in 400GbE or 4x100GbE breakout applications up to 2 km.
• CMIS-compliant management interface provides full module diagnostics and control through I2C.

Application

• Connectivity solutions for large scale cloud and enterprise data centers are available, enabling essential optical interfaces for Ethernet switch, router, and transport networking equipment.
• Cutting-edge technology is used to ensure reliable networking between cloud environments and enterprise data centers.
• Comprehensive connectivity solutions enable more efficient communication networks with higher performance capabilities.

400G QSFP112 FR4 2KM LC SMF Transceivers

• Ascent Optics’ QSFP112 transceiver module is designed for 400 Gigabit Ethernet links over 2km single mode fiber with FEC.
• The module has 8 electrical input/output channels operating at 53.125Gbps per channel, which are converted to 4 parallel optical channels with 106.25Gbps (PAM4) operation for an aggregate data rate of 400Gbp/s.
• The optical side of the module consists of CWDM4 1271/1291/1311/1331nm center wavelength for each of its 4 independent channels.
• The module is compliant with the 400GAUI-8 interface as defined by IEEE 802.3bs, and compliant with QSFP112 MSA standards.
400G QSFP112

Product Details

Part No.Q12-400C431-02CLForm FactorQSFP112
Data Rate4x100G 400GbEDistance2KM
WavelengthCWDM4Operation Temperature0 to 70°C (32 to 158°F)
ConnectorDuplex LCVoltage3.3V
Cable TypeSMFDDMYes
Transmitter TypeCWDM EMLReceiver TypePIN
TX Power-3.3~+3.5dBmReceiver Sensitivity< -7.7dBm
ProtocolsQSFP112 MSAWarranty3 years

Key Features

• Supports ultra-fast 425Gbps speeds
• Up to 2km transmission over single-mode fiber (SMF)
• Duplex LC connector
• 8×53.125GBd PAM4 electrical interface
• Data rate of up to 106.25Gbps on optical channel
• Compliant with QSFP112 Multi-Source Agreement (MSA) standard
• PIN and TIA array on receiver side
• Power dissipation of less than 10W
• Rated for 0°C to 70°C in commercial use
• TUV/UL/FDA safety certification*1
• RoHS compliant

Application

• 4x100G FR applications deployed in a Data Center.
• Tone of voice used is informative, technical, and persuasive.

400G QSFP112 LR4 10KM LC SMF Transceivers

• Ascent Optics’ 400G QSFP112 transceivers are compliant with the latest QSFP112 MSA standards.
• Firmware supports CMIS 4.0 and newer releases.
• Offer DR4, FR4, LR4 interfaces.
• Vertical integration of optical engines for superior performance & power consumption.
• 400G QSFP112 provides a potential path for future 224G/lane speed upgrades.
 
400G QSFP112

Product Details

Part No.Q12-400C431-10CLForm FactorQSFP112
Data Rate4x100G 400GbEDistance10KM
WavelengthCWDM4Operation Temperature0 to 70°C (32 to 158°F)
ConnectorDuplex LCVoltage3.3V
Cable TypeSMFDDMYes
Transmitter TypeCWDM EMLReceiver TypePIN
TX Power-3.3~+3.5dBmReceiver Sensitivity< -7.7dBm
ProtocolsQSFP112 MSAWarranty3 years

Key Features

• Supports up to 425Gb/s data rate
• Requires single 3.3V power supply for operation
• Compliant with QSFP112 MSA standards
• 4×106.25 Gb/s (PAM4) optical and electrical interface to ensure reliable connection
• Has a commercial temperature range of 0°C to 70°C, ideal for operating environment of various challenges
• Utilizes CMIS 4.0 or later version to ensure excellent performance

Application

• 4 x 100G-LR4 applications were installed in a data center.
• Tone of voice used in the project was informative, technical, and persuasive.

Why Choose Our 400G QSFP112
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    Why Choose Our 400G QSFP112

• Our 400G QSFP112 fiber optic HDMI cables offer unparalleled data speeds up to 400 Gbps, significantly faster than the traditional 10 Gbps copper-based HDMI cables.
• With optical fibers immune to electromagnetic interference (EMI), signal quality is preserved over longer distances.
• Increased bandwidth allows for superior video and audio quality with more data transferred.
• Energy-efficient as they use light to transmit data, requiring less energy than electrical signals.
• Future-proof investment for meeting needs of advancing technology in the future.

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Lighting Your Dreams with 400G QSFP112 SR4 Optical Transceiver Module

Welcome to the world of seamless connectivity with the 400G QSFP112 SR4 Optical Transceiver Module. Designed to light up your dreams, this high-speed module breaks the boundaries of data transmission, ensuring unrivaled performance and reliability. It’s engineered to meet the most stringent network demands, offering high-speed, low-latency connections that make your network more efficient. With the 400G QSFP112 SR4 Optical Transceiver Module, be ready to experience a new era of high-speed connectivity.

Understanding Optical Transceiver Modules

Understanding Optical Transceiver Modules
Understanding Optical Transceiver Modules
images source:https://www.glsun.com/

What is an Optical Transceiver Module?

An Optical Transceiver Module is a vital fiber optic network system component. It performs the critical function of transmitting and receiving data over these networks. It converts the electrical signals into optical signals for transmission over the fiber optic cables and vice versa for receiving the data. This conversion process ensures rapid, high-quality data transmission with minimal loss or degradation across vast distances. These modules come in various forms to cater to different data rates and transmission distances, making them a versatile solution for a wide range of network requirements.

Types of Optical Transceiver Modules

Evolution of Optical Transceiver Technologies and Solutions
Evolution of Optical Transceiver Technologies and Solutions
images source:https://www.ufispace.com/

There are several types of Optical Transceiver Modules, each designed for specific networking needs:

  1. SFP (Small Form-factor Pluggable) Modules: These compact, hot-pluggable transceivers are used for telecommunication and data communication applications. They support both Gigabit Ethernet and Fibre Channel.
  2. QSFP (Quad Small Form-factor Pluggable) Modules: Typically used for network switches, routers, and network interface cards, these modules support higher data rates than SFP modules, making them ideal for more extensive networks.
  3. CFP (C Form-factor Pluggable) Modules: Used for high-performance networks, these modules support 100G and 400G data rates for long-haul transmissions.
  4. XFP (10 Gigabit Small Form-factor Pluggable) Modules: These modules are designed for 10 Gigabit Ethernet networks, providing a cost-effective solution for high-speed data connections.
  5. QSFP112 SR4 Optical Transceiver Module: Representing the future of networking, this module offers unrivaled data rates of up to 400G, ensuring high-speed, low-latency connections for the most demanding network requirements.

400G QSFP112 SR4 Optical Transceiver Module

The 400G QSFP112 SR4 optical transceiver module is a revolutionary product representing networking technology’s next step. This module can support data transmission rates of 400 Gigabits per second. This ultra-high-speed makes it ideal for applications that demand low latency and high-bandwidth data transmission. The module supports a short reach (SR) of up to 100 meters over multi-mode fiber, making it perfect for data center interconnects and high-performance computing networks. The QSFP112 form factor ensures high port density, enabling network operators to accommodate this high-speed technology within their existing infrastructure. This module underscores the continuous evolution of optical communication, adapting to the exponential increase in global data traffic.

PAM4 Optical Transceiver Module

The PAM4 Optical Transceiver Module, also known as Pulse Amplitude Modulation 4-level, is an emerging technology that offers significant advancements in data communication systems. This module uses four different pulse amplitudes to encode data, effectively doubling the bandwidth of the communication channel. It can support high-speed data rates without increasing bandwidth, making it a cost-effective solution for network upgrades. The PAM4 module is ideal for data centers and high-speed networks, accommodating the ever-growing demand for faster data transmission without compromising signal quality. This innovative technology signifies a significant leap forward in optical communication, meeting the challenging requirements of next-generation networks.

DR4 Optical Transceiver Module

The DR4 Optical Transceiver Module is another breakthrough in optical communication, specifically designed for high-speed data transmission over longer distances. Its distinguishing feature of four parallel data streams (or ‘lanes’) supports data rates of up to 400 Gigabits per second. Its long reach (LR) capabilities allow for distances of up to 500 meters over single-mode fiber, making it an excellent choice for extended data center interconnects and metropolitan area network links. The compact form factor and energy-efficient design of the DR4 module make it a sustainable and space-saving solution for high-density network environments. This advanced technology paves the way for future-proof, scalable, and resilient optical networks.

Benefits of Optical Transceiver Modules

Benefits of Optical Transceiver Modules

High Data Transfer Rates

One of the most prominent advantages of optical transceiver modules is their ability to support high data transfer rates. The sophistication of PAM4 and DR4 technologies allows for data transmission at speeds reaching up to 400 Gigabits per second. This rapid data transfer capability is particularly beneficial in today’s digital age, where large quantities of data are generated and processed continuously. It enables high-speed networks to handle bulky data transfers efficiently, reducing latency and ensuring seamless data flow. Consequently, these high-speed data transfer rates significantly enhance data centers’ and networks’ performance and productivity.

Flexibility and Scalability

Optical transceiver modules also offer remarkable flexibility and scalability. With plug-and-play functionality, they can be easily installed or replaced, facilitating smooth upgrades and network expansion. Their compatibility with both single-mode and multi-mode fibers further enhances this flexibility. Moreover, the modular design of these transceivers supports scaling in line with the growing data demands of a network. This enables organizations to efficiently and cost-effectively scale their network capabilities while minimizing infrastructure complexity. In essence, the flexibility and scalability provided by optical transceiver modules underpin a network’s ability to adapt to future data needs and technological advancements.

Improved Performance and Reliability

Optical transceiver modules offer improved performance and reliability, making them a crucial component of modern networking. With their advanced design and technology, these modules reduce signal loss, ensuring data is transmitted accurately and reliably across networks. Reducing signal degradation inherently boosts network performance, allowing for consistent and uninterrupted data transmission. Furthermore, the robustness of these modules contributes to their reliability. They are built to withstand varying operational conditions, ensuring their longevity and minimizing the risk of network downtime. Hence, optical transceiver modules’ superior performance and reliability lead to more stable, efficient network operations, driving business productivity and growth.

Applications of 400G QSFP112 SR4 Optical Transceiver Module

Applications of 400G QSFP112 SR4 Optical Transceiver Module

  1. Data Centers: As data centers become the backbone of enterprise IT operations, efficient, high-speed, and reliable data transmission becomes paramount. Here, the 400G QSFP112 SR4 transceiver modules enable high-bandwidth connections, catering to the demanding nature of data center operations and facilitating smooth data flow across various network segments.
  2. Fiber Media Converters: These modules are also crucial in fiber media converters, devices that convert network cabling into fiber optics for long-distance transmission. The 400G QSFP112 SR4 modules ensure these conversions occur efficiently and reliably, supporting seamless, high-speed data transmission over longer distances.
  3. FTTX Solutions: In Fiber-To-The-X (FTTX) solutions, where high-speed fiber optic connections are delivered to various establishments, the 400G QSFP112 SR4 Optical Transceiver Modules play a significant role. They provide the necessary infrastructure to support the delivery of high-speed internet services, contributing to the development of robust, high-performance FTTX networks.

Choosing the Right Optical Transceiver Module

Choosing the Right Optical Transceiver Module
Choosing the Right Optical Transceiver Module
images source:https://www.etulinktechnology.com/

Factors to Consider

When selecting an optical transceiver module, several key factors must be considered to ensure the chosen module aligns with your network requirements.

  1. Data Rate: The data rate or speed of the transceiver must align with your network’s data transmission needs. Modules like the 400G QSFP112 SR4 offer high-speed data transmission for data-intensive operations.
  2. Distance: Consider the transmission distance the module supports. Some modules are designed for short-range transmission, while others can support long-distance data transmission.
  3. Compatibility: Ensure the module is compatible with your network equipment. Incompatibilities can lead to network failures or reduced performance.
  4. Power Consumption: Lower power consumption reduces operating costs and contributes to a module’s longevity.
  5. Cost: While having a high-performance module is essential, it should also fit within your budget constraints. 
  6. Certification and Warranty: The module should be certified and have a warranty to ensure its quality and reliability.

Customer Reviews and Recommendations

The 400G QSFP112 SR4 Optical Transceiver Modules consistently receive high praise when considering customer reviews and recommendations. Users frequently cite the module’s impressive data transmission speed, excellent distance coverage, and significant power savings as standout features. In addition, customers appreciate its compatibility with a wide range of network equipment, ensuring smooth network operations. As for cost, many users believe that the module’s exceptional performance and reliability justify the expense. Furthermore, the manufacturer’s certification and warranty provisions have instilled high trust among users, instating the 400G QSFP112 SR4 as a preferred choice for many businesses seeking to enhance their network performance.

Writing a Review

When writing a review for a 400G QSFP112 SR4 Optical Transceiver Module, it’s essential to focus on critical aspects you’ve experienced firsthand. Start by discussing the module’s data transmission speed and distance coverage. Was it as impressive as claimed? Next, talk about the power savings – did you notice a significant decrease in power consumption? Also, comment on its compatibility with your network equipment and whether you encountered any issues. Don’t forget to discuss the cost. Was it a good investment, considering the performance boost and reliability? Finally, mention the manufacturer’s certification and warranty provisions and whether they provided an added sense of security. Remember, a balanced review, including both strengths and areas for improvement, will be most valuable to those considering a purchase.

Installation and Maintenance

Installation and Maintenance

Connecting Optical Transceiver Modules

Connecting Optical Transceiver Modules is a straightforward process that can be completed with minimal technical expertise. Start by ensuring your device is powered off to avoid any potential electrical interference or damage. Take the 400G QSFP112 SR4 Optical Transceiver Module and remove the protective cap from the optical bore. Align the module with the port on your networking device and gently insert it until you feel it securely click into place. Once installed, you can connect the fiber optic cable to the transceiver module. Make sure to use a line that matches the module’s specifications for optimal performance. Finally, power your device to check if the module is correctly recognized and functioning as expected. When handling optical transceiver modules, always avoid touching the visual interfaces to prevent contamination and ensure reliable data transmission.

Proper Handling and Care

Optical Transceiver Modules require careful handling and maintenance to ensure longevity and optimal performance. Be sure to keep the modules and the fiber optic cables clean; dust and debris on the optical interfaces can degrade signal quality and interfere with data transmission. Therefore, gently clean these parts using a fiber optic cleaning tool or a lint-free cloth. Avoid exposure to excessive heat or humidity, as these conditions can damage the optical components. Keep the protective caps on the modules when not in use to protect the optical bores from contamination. It’s also essential to store unused modules in their original packaging in a cool, dry place to prevent damage. Regularly inspect your modules and cables for signs of wear and replace any components as necessary. By following these simple guidelines, you can help ensure the reliability and efficiency of your Optical Transceiver Modules.

Maintaining Optimum Performance

To maintain optimum performance, it’s crucial to monitor and manage the operating temperature of your Optical Transceiver Modules. Excessive heat can cause degradation of the optical components, leading to signal loss or even total failure. Therefore, ensure that your installation environment has adequate ventilation and cooling mechanisms. Similarly, regular software updates are paramount. Manufacturers often release firmware updates that improve performance, fix bugs, or enhance security features. Also, routinely perform system checks to catch any potential issues early. This includes monitoring the light levels to ensure they are within the specified range for optimal data transmission. Remember, proactive maintenance will help safeguard against unexpected module failure and provide consistent, high-speed data transmission.

In conclusion, the longevity and performance of your Optical Transceiver Modules are significantly influenced by how well they are maintained. A meticulous approach to cleaning, proper storage, and regular inspection for damage can go a long way in ensuring their reliability. Similarly, managing operating temperatures and updating software can enhance overall performance. By adopting these best practices, you can optimize data transmission and prolong the lifespan of your modules, thus securing your investment.

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Frequently Asked Questions

A: The 400G QSFP112 SR4 Optical Transceiver Module is an advanced optical module used for high-speed data transfer in data centers. It is designed to support 400 gigabit Ethernet links.

A: The 400G QSFP112 SR4 Optical Transceiver Module is compliant with the QSFP112 MSA (Multi-Source Agreement) and is designed for 400G Ethernet. It supports PAM4 modulation and uses the DR4 interface. It is also compatible with various optical cables and can be used with both single-mode fiber (SMF) and multi-mode fiber (MMF) media converters.

A: An active optical cable (AOC) is a type of optical cable that contains active components such as lasers and photodiodes, which enable it to transmit and receive optical signals. On the other hand, a direct attach cable (DAC) is a copper-based cable that uses electrical conductors to transmit signals. AOCs are typically used for longer distances or in environments where electrical interference is a concern, while DACs are used for shorter distances.

A: Yes, the 400G QSFP112 SR4 Optical Transceiver Module is compatible with both AOCs and DACs. This means that you can choose the type of cable that best suits your needs for your specific application.

A: The maximum length of an optical cable that can be used with the 400G QSFP112 SR4 Optical Transceiver Module depends on various factors such as the fiber type and the quality of the cable. Generally, the maximum recommended length for multi-mode fiber (MMF) is around 100 meters, while for single-mode fiber (SMF) it can go up to several kilometers.

A: We invite you to visit our website to read customer reviews and see their experiences with the 400G QSFP112 SR4 Optical Transceiver Module. Customers’ feedback can provide valuable insights into the performance and reliability of the product.

A: Yes, we encourage our customers to share their thoughts and experiences by writing a review for the 400G QSFP112 SR4 Optical Transceiver Module. Your review can help other customers make informed decisions.

A: Yes, the 400G QSFP112 SR4 Optical Transceiver Module is designed to be 3rd party compatible. It can work seamlessly with other devices that comply with the QSFP112 MSA.

A: The 400G QSFP112 SR4 Optical Transceiver Module is widely used in data centers for high-speed interconnects, cloud computing, and various networking applications. It can be used in Ethernet links, wireless and 5G optical networks, FTTx (Fiber to the x) deployments, and more.

A: The 400G QSFP112 SR4 Optical Transceiver Module uses the QSFP112 form factor and supports 400 gigabit Ethernet links. QSFP-DD, on the other hand, is a newer form factor that supports higher data rates and has double the number of electrical lanes compared to QSFP112. Both form factors have their own specific applications and advantages.

A: PAM4 modulation is an advanced technique that allows for higher data rates and spectral efficiency than traditional NRZ (Non-Return to Zero) modulation. PAM4 modulation allows the 400G QSFP112 SR4 Optical Transceiver Module to achieve a data rate of 400G (gigabits per second) within the same optical bandwidth.

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