Supports 100GBASE-ER BIDI Lane signaling rate 106.25Gb/s with PAM4 Up to 30km transmission on SMF EML laser and APD receiver 4x25.78Gb/s with NRZ electrical interface (CAUI-4) High speed I/O electrical interface I2C interface with integrated Digital Diagnostic monitoring QSFP28 MSA package with simplex LC connector Single +3.3V power supply Maximum power consumption 4.5 W Operating case temperature: 0 to +75 °C Compliant to 802.3cu, SFF-8636&SFF-8679 standard Complies with EU Directive 2015/863/EU
Help you save fiber, only 1 fiber can transmit 100G. Any questions, welcome to contact Ivy from HTF. ivy@htfuture.com
SFP28 Multi-Rate Quad Transponder has 8 SFP28 slots, The device provides a flexible transmission of various protocols, such as 100M/1G /10G/25G Ethernet, SDH STM1/STM4/STM16/STM64, Fiber Channel 1/2/4/8 /10/16/32Gbps, CPRI, etc.
The SFP28 transponder supports multi-rate functionality with optical data rates from 1Gbps up to32Gbps;The wide range of optical infrastructure solutions includes media conversion, signal repeating, lambda conversion.
The main field of application is CWDM and DWDM networks. As an intelligent transponder module, SFP28 Transponder converts a transparent data channel to a corresponding CWDM/DWDM wavelength. The module is also suited for the use as a repeater,The SFP28 transponder models fit HT6000 Series CH04, CH08, CH20 Chassis.
l Multi-rate supports 1Gbps ~ 32Gbps
l Supports ALS, LFP
l Flexible transmission of various protocols
Ø Fiber Channel 1/2/4/8 /10/16/32Gbps
Ø CPRI;2/3/4/5/6/7
Ø 1G/10G/25G Ethernet
Ø SDH STM-4/16/64
More questions, welcome to contact Ivy from HTF. ivy@htfuture.com 18123672396
The 400G Muxponder Transmitter supports four QSFP28 client interface and one CFP2 line-side interface to support single-channel 400Gbps large-grain data transfers. The industry’s most advanced coherent technology and FEC forward error correction coding technology enable high-capacity, long-distance high-performance transmission.
HTF 400G Muxponder includes integrated OTN FEC capability on the transponder, allowing operation over longer distances or in applications requiring ultra-low bit error rates.
The 400G Muxponder from HTF offer a choice of pluggable QSFP28 Client Side Optics and CFP2 -DCO Coherent DWDM Line Side Optics based on distance and capacity requirements.
The Coherent DWDM Optics are the most technologically advanced and offer benefits on dispersion management, signal reach, and other optical properties. Coherent DWDM Optics can greatly increase the capacity and reach of an optical network, The 400G Muxponder models fits for HT6000 series CH04, CH08, CH20 chassis.
If have more question, welcome to contact Ivy from HTF. ivy@htfuture.com www.htfuture.com
The 200G Muxponder Transmitter supports two QSFP28 client interface and one CFP2 line-side interface to support single-channel 200Gbps large-grain data transfers. The industry’s most advanced coherent technology and FEC forward error correction coding technology enable high-capacity, long-distance high-performance transmission.
HTF 200G Muxponder includes integrated OTN FEC capability on the transponder, allowing operation over longer distances or in applications requiring ultra-low bit error rates.
The 200G Muxponder from HTF offer a choice of pluggable QSFP28 Client Side Optics and CFP2 -DCO Coherent DWDM Line Side Optics based on distance and capacity requirements.
The Coherent DWDM Optics are the most technologically advanced and offer benefits on dispersion management, signal reach, and other optical properties. Coherent DWDM Optics can greatly increase the capacity and reach of an optical network, The 200G Muxponder models fits for HT6000 Series CH04, CH08, CH20 Chassis.
If have more question, welcome to contact Ivy from HTF. ivy@htfuture.com www.htfuture.com
The 100G OTN Transmitter supports one QSFP28 client interface and one CFP line-side interface to support single-channel 100Gbps large-grain data transfers. The industry’s most advanced coherent technology and FEC forward error correction coding technology enable high-capacity, long-distance high-performance transmission.
l Media conversion
l Signal repeating
l Lambda conversion
l Support single channel 100Gbps
l Client side: QSFP28 module
l Line side: CFP 100Gbps coherent module;
l Ultra-long-distance transmission: FEC technology can be used to achieve 1500km transmission without regeneration
l Large dispersion tolerance: 40000ps.nm
l Support port loopback test
l Support 80 channel wavelength tunable
HTF 100G Transponder includes integrated OTN FEC capability on the transponder, allowing operation over longer distances or in applications requiring ultra-low bit error rates.
The 100Gbps Transponders from HTF offer a choice of pluggable QSFP28 Client side optics and CFP Coherent DWDM line side optics based on distance and capacity requirements.
The Coherent DWDM Optics are the most technologically advanced and offer benefits on dispersion management, signal reach, and other optical properties. Coherent DWDM Optics can greatly increase the capacity and reach of an optical network, The 100G Transponder models fit for HT6000 Series CH04, CH08, CH20 Chassis.
If have more question, welcome to contact Ivy from HTF. ivy@htfuture.com www.htfuture.com
If you are about to deploy an OTN network by yourself or get a customized OTN solution from solution suppliers, there are some details and requirements that you should know in advance.
How many spans do you have, and how far between each of the spans? The specific distance your network transports will determine the fundamental equipment needed in the OTN system. Specifically, the transmission distance between each span will indicate whether the Dispersion Compensation Module (DCM) would be needed to compensate in the fiber optical link.
What’s your fiber type and the link loss (typical 0.25dB/KM)? OTN solutions offered by solution suppliers can be tailored to both dual and single fiber types. And link loss is necessary for collocating the most appropriate optical transceivers and some active components such as EDFA amplifiers.
What’s the data rate between each span? And how many businesses do you plan to transmit? To make clear the data rate and capacity for each span in your network are conducive to choosing the most practical types of MUX or OADM for your current OTN infrastructure. And a good acquisition of the number of businesses you are to deploy can pave the way for future network expansion.
WDM MUX/DEMUX, Optical Add/Drop multiplexer (OADM), EDFA, WDM transponder/muxponder, optical line protection (OLP) card, variable optical attenuator (VOA), etc. are the products used in OTN networks. For different network requirements of every individual network task, the equipment deployed in an OTN network can be various. Following list of some common OTN-based products as well as their functions.
The following Item and Function: WDM MUX/DEMUX Provide high-performance signal division and multiplex
OADM Add/drop the selected wavelengths in one or multiple channels EDFA Extend the power budget over long distances WDM Transponder/Muxponder Provide functions such as electrical and optical signals conversions and wavelength conversion/additional functionality of multiplexing
OLP Optical line protection for optical power monitoring and automatic switching VOA Variable optical attenuator for optical power management
OTN network combines the advantages of optical transmission and electrical processing to provide end-to-end, transparent pipe connections, increased spectral efficiency, and large-capacity transmission capabilities for long-haul transmissions. The primary benefits of the OTN network are presented as follows.
Standard Hierarchy — OTN standards include a standard multiplexing hierarchy, defining exactly how the lower-rate signals ascend into the higher-rate payloads. This allows the WDM platform to shift lower-rate services within 10Gbps, 40Gbps, or 100Gbps wavelengths, without the need for external wavelength demultiplexing and manual interconnects.
Transport Capacity Expansion — OTN networks provide the underlying high-capacity infrastructure for core interoffice, metropolitan interoffice, and broadband business-access networks. Carriers deploy OTN to support the greatest number of services on the least amount of infrastructure.
Reduced Cost — With multiple clients transported on a single wavelength and their specific requirements preserved, the OTN network reduces the overall cost of transport and ensures efficient bandwidth utilization.
Transport Flexibility — Network operators can employ the technologies needed to support current transport demands, while also enabling future adoption of new technologies as business needs dictate. It can easily scale to ring networks, end-to-end networks, and mesh networks.
Timing Transparency — Timing transparency is important for offering wholesale services to third-party providers. The transparency of OTN enables the networks to carry any service, including Ethernet, storage, and digital video, as well as SONET/SDH without interfering with the client timing.
With the explosion of digital traffic and the ever-growing array of bandwidth-hungry applications,Optical Transport Network(OTN) evolves frompoint-to-point DWDMremedies to scalable and robust optical networking applications that cater to a wide variety of client signals with equally-varied service requirements. Carriers are also placing a particular emphasis on OTN in the Metro area, where it is shifted rapidly from SONET/SDH to wavelength-division multiplexing (WDM). With the goal of boosting bandwidth and increasing network functionality, OTN provides a way to support different traffic types in a more cost-effective manner than by using SONET/SDH networks.
What Is OTN Network? Defined by the ITU Telecommunication Standardization Sector (ITU-T), OTN is a digital wrapper technology that provides an efficient and globally accepted way to multiplex different services onto optical light paths. The OTN technology or digital wrapper technology provides a network-wide framework that adds SONET/SDH-like features to WDM equipment. It creates a transparent, hierarchical network designed for use on both WDM and TDM devices. (More information about WDM and TDM systems is available in Optical Wavelength Bands Evolution.)
OTN integrates functions of transporting, multiplexing, routing, management, and supervision, and builds OTN client (e.g. SONET/SDH, IP, ATM) connections in the Metro and Core networks. Nowadays, it is widely deployed in the metro, regional, and long-haul DWDM packet-optical transport networks.
If need more information, welcome to contact HTF team, HTF team is ready and happy to assist you. ivy@htfuture.com +8618123672396
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