Single Fiber Bidirectional EDFA Amplifier models include a Red and a blue port designed for single fiber DWDM Solution. The design of these models is used for single-fiber DWDM transmission systems.
C-band optical signal overall amplification
Covering the wavelength range of 1528 ~ 1561nm
Support systems to achieve different cross-section radio repeater transmission
Operating wavelength range:
Blue: 1528nm~1543nm
Red: 1547nm~1561nm
Low noise figure: typ 5dB
Excellent gain flatness
Multiple operating modes:
AGC adjustable Gain
APC output is adjustable
ACC voltage adjustable
Mid-stage access for DCM or OADM
Offset the insertion loss introduced by DCM
Reduce the additional degradation of system OSNR
Flexible insertion of DCMs at different distances
Optional OSC channel for remote management
MON port, on-line monitoring optical power and OSNR
Single fiber bidirectional EDFA amplifier include an Red and blue port,
Red optical amplifier include an blue out port and blue in port, Red optical amplifier Amplify red optical signal, blue out port and blue in port are used to access the amplifier to amplify the blue optical signal.
Blue optical amplifier include an red out port and red in port, Blue optical amplifier Amplify blue optical signal, red out port and red in port are used to access the amplifier to amplify the red optical signal, Blue: 1528nm~1543nm. Red: 1547nm~1561nm.
With the application of long-distance systems becoming more and more extensive, our company's self-developed middle stage access (MSA) EDFA, middle stage access (MSA) EDFA can effectively solve the insertion loss caused by DCM and OADM, offset the DCM and OADM bands. The resulting insertion loss reduces the additional degradation of the system OSNR.
C-band optical signal overall amplification
Covering the wavelength range of 1528 ~ 1565nm
Support systems to achieve different cross-section radio repeater transmission
Wide operating wavelength range:1528nm~1565nm
Low noise figure: typ 5dB
Excellent gain flatness
Multiple operating modes:
AGC adjustable Gain
APC output is adjustable
ACC voltage adjustable
Mid-stage access for DCM or OADM
Offset the insertion loss introduced by DCM
Reduce the additional degradation of system OSNR
Optional OSC channel for remote management
MON port, on-line monitoring optical power and OSNR
Middle stage access (MSA) EDFA models include an additional mid-stage port designed for insertion of a Dispersion Compensation Management (DCM) unit without its inherent insertion loss.
The design of these models maximizes the DCM benefits to increase deployment flexibility.New placement options require fewer amplifiers in the link, and they can open the door to applications that were not possible with older technology.
EDFA optical amplifier module provide multi-function, low noise, Erbium-Doped Fiber Amplifier (EDFA) solutions, The amplifier module can be operated at constant gain (Automatic Gain Control AGC), constant output power (Automatic Power Control, APC). This is a highly integrated EDFA, and the large module supports Dual amplifier with two independent gain units .
Wide operating wavelength range:1528nm~1565nm
Dual amplifier contains two independent gain units
Low noise figure: typ 5dB
Excellent gain flatness
Multiple operating modes:
AGC adjustable Gain
APC output is adjustable
Optional OSC channel for remote management
MON port, on-line monitoring optical power and OSNR
EDFA optical amplifier module provide multi-function, low noise, Erbium-Doped Fiber Amplifier (EDFA) solutions, The amplifier module can be operated at constant gain (Automatic Gain Control AGC), constant output power (Automatic Power Control, APC). This is a highly integrated EDFA, and the large module supports Dual amplifier with two independent gain units .
Wide operating wavelength range:1528nm~1565nm
Dual amplifier contains two independent gain units
Low noise figure: typ 5dB
Excellent gain flatness
Multiple operating modes:
AGC adjustable Gain
APC output is adjustable
Optional OSC channel for remote management
MON port, on-line monitoring optical power and OSNR
HTF launched SOA series optical amplifier products can be 1290nm ~1320nm wavelength range to achieve amplification. It can be easily used in 100G transmission system, the maximum can support 160G/s rate. SOA optical amplifier can be used for booster amplification, pre-amplification and other occasions.
O-band optical signal overall amplification
Covering the wavelength range of 1290 ~ 1320nm
100G 1310nm signal amplification
Support O-band, 1290 ~ 1320nm band amplification
Output power up to 10dBm
100G 1310nm signal amplification
Support APC
Low noise, high gain
One board supports up to 2 channels of signal amplification
EDFA Optical Amplifier module provide multi-function, low noise, Erbium-Doped Fiber Amplifier (EDFA) solutions, The amplifier module can be operated at constant gain (Automatic Gain Control AGC), constant output power (Automatic Power Control, APC). Integrated VOA can be automatically adjusted to achieve smooth gain spectrum. It can amplify the C-Band signal with or w/o middle stage access (MSA), which brings great flexibility for the network application.
C-band optical signal overall amplification
Covering the wavelength range of 1528 ~ 1565nm
Support systems to achieve different cross-section radio repeater transmission
Wide operating wavelength range:1528nm~1565nm
Three Optical Amplifier C-Band applications:
Booster
ï??n-line
Pre-amplifier
Low noise figure: typical: 5dB
Excellent gain flatness
Multiple operating modes:
AGC adjustable Gain
APC output is adjustable
ACC voltage adjustable
Mid-stage access for DCM or OADM
Optional OSC channel for remote management
MON port, on-line monitoring optical power and OSNR
Many model options serve all the traditional amplifier applications in an extended optical link: booster, in-line, and pre-amplifier.
A booster amplifier operates at the transmission side of the link. It features high input power, high output power, and medium optical Gain . Boosters are designed to amplify aggregated optical input power for reach extension.
An in-line amplifier operates in the middle of an optical link. It features medium to low input power, high output power, high optical Gain , and a low noise figure. In-line amplifiers are designed for optical amplification between two network nodes on the main optical link.
A Pre-amplifier operates at the receiving end of an optical link. It features medium to low input power, medium output power, and medium Gain. Pre-amplifiers are designed for optical amplification to compensate for losses in a demultiplexer located near the optical receiver.
Some EDFA Models include an additional mid-stage port designed for insertion of a Dispersion Compensation Management (DCM) unit without its inherent insertion loss. The design of these models maximizes the DCM benefits to increase deployment flexibility. New placement options require fewer amplifiers in the link, and they can open the door to applications that were not possible with older technology.
Some EDFA Models include a Red and a blue port designed for Single fiber DWDM Solution. The design of these models is used for single-fiber DWDM transmission systems.
Optical Line Protection (OLP) system is a new optical line protection subsystem developed with advanced technology of dynamic and synchronous optical switches. When communication quality is lower or equipment breaks down due to accidental fracture or bigger loss of optical fiber in the optical transmission line, the OLP system can switch the primary line to the secondary line within a short time, to ensure normal operation communication of line, which effectively prevent fiber or equipment fault and shorten the recovery time from hours to milliseconds.
Optical Line Protection switch provides both Manual and Automatic switching mode. In Manual mode, the system switches optical path only based on the commands from user.
In the Automatic mode, the system switches based on the power level detected and the preset threshold. Under automatic mode, the system can be set to be revertive or Non-revertive modes.
Under Revertive mode, the system switches back to the working path automatically after the fault condition is cleared. Under Non-revertive mode, the system does not switch back. The OLP models fit HT6000 Series CH04, CH08, CH20 Chassis.
The Dispersion Compensation Modules are building blocks of the HT6000 Optical Transport System and serve at optical communication nodes to correct the pulse spread phenomenon known as Chromatic Dispersion that reduces the maximal transmission distance of data in optical fibers.
Dispersion compensation in long haul WDM networks
DWDM system dispersion compensation and broadband low residual dispersion
G.652 fiber C-band 100% slope compensation (standard value)
Low insertion loss
Low polarization mode dispersion
Hot swappable
Low power consumption
Support for 10/40/100/200/400Gbps
C-Band Range
HTF optical compensation function with slope dispersion compensation for standard single-mode fiber can DCM (G.652) were dispersion and dispersion slope compensation broad band in the C-band, allowing the system to optimize residual dispersion.
In the dispersion compensation value of 1545nm wavelength dispersion can reach -2070ps /nm.
The DCMs offer a high dispersion compensation level and a very low insertion loss penalty. They provide negative dispersion compensation over the full C-Band with possible distance extensions of up to 80 kilometers.
The 40G&100G Muxponder supports 4x10G 40G or 4x25G 100G electrical layer multiplexing/demultiplexing, and converts the multiplexed/demultiplexed optical signals into DWDM standard wavelength optical signals. ith DWDM MUX/DEMUX, multi-channel 100G or 40G services are transmitted in the DWDM system. 40G&100G Muxponder is the lowest cost solution for 100G metropolitan area network DWDM transmission.
Support: 4x25G 100G/100G 4x25G
Client side: 100G QSFP28 module
Line side: 4xSFP28 module(Four 25G ports)
Support one 100G service de-multiplexed into four 25G rate WDM standard wavelength optical signals
Support port loopback test
40G&100G Transponder incorporates QSFP28-based access interfaces that can accommodate various types of QSFP28, e.g. Multimode Single mode, The 4SFP port is 4x 10Gbps /4x25G ,permitting flexible connectivity options between the muxponders either in a WDM system, Compared with the 100G coherent solution, the 40G&100G Transponder DWDM solution significantly reduces costs and is the most cost-effective metropolitan area network and big data center expansion solution. The TMUX8 fit HT6000 Series CH04, CH08, CH20 Chassis.
Up to 11.3Gb/s data links
CWDM EML transmitter and APD receiver
Up to 80km on 9/125µm SMF
Hot-pluggable SFP+ footprint
Duplex LC/UPC type pluggable optical interface
Metal enclosure, for lower EMI
RoHS compliant and lead-free
Support Digital Diagnostic Monitoring interface
Single +3.3V power supply
Maximum power consumption 1.5W
Compliant with SFF+MSA and SFF8472
Case operating temperature
Commercial: 0 ~ +70oC
Extended: -10 ~ +80oC
Industrial: -40 ~ +85oC
Features
Up to 11.3Gb/s data links
DWDM EML transmitter and PIN receiver
50 GHz ITU channel spacing with integrated wavelength locker
Up to 40km on 9/125µm SMF
Hot-pluggable SFP+ footprint
Duplex LC/UPC type pluggable optical interface
Metal enclosure, for lower EMI
RoHS compliant and lead-free
Support Digital Diagnostic Monitoring interface
Single +3.3V power supply
Maximum power consumption 1.5W
Compliant with SFF+MSA and SFF8472
Case operating temperature
Commercial: 0 ~ +70oC
Extended: -10 ~ +80oC
Industrial: -40 ~ +85oC
Applications
10GBASE-ER/EW & 10G Ethernet
SDH STM64
Other Optical Links
Features
Up to 11.3Gb/s data links
DWDM EML transmitter and APD receiver
50 GHz ITU channel spacing with integrated wavelength locker
Up to 80km on 9/125µm SMF
Hot-pluggable SFP+ footprint
Duplex LC/UPC type pluggable optical interface
Metal enclosure, for lower EMI
RoHS compliant and lead-free
Support Digital Diagnostic Monitoring interface
Single +3.3V power supply
Maximum power consumption 1.5W
Compliant with SFF+MSA and SFF8472
Case operating temperature
Commercial: 0 ~+70oC
Extended: -10 ~ +80oC
Industrial: -40 ~ +85oC
Applications
10GBASE-ZR/ZW & 10G Ethernet
SDH STM64
Other Optical Links
Features
Up to 11.1Gb/s data rate
1270nm DFB laser and PIN receiver for HXSX-AL6843x
1330nm DFB laser and PIN receiver for HXSX-AL8643x
2-wire interface with integrated Digital Diagnostic monitoring
Up to 40km transmission on SMF
BIDI LC optical connector
Single +3.3V power supply
Metal enclosure, for lower EMI
Maximum power consumption 1.5W
RoHS-6 compliant and lead-free
SFF-8472 MSA compliant &SFF-8431
Operating case temperature
Commercial: 0 ~ 70oC
Applications
Back to Back
10GBASE-ER/EW
10G Ethernet
Features
Up to 11.1Gb/s data rate
1270nm DFB laser and PIN receiver for HTSX-B273396Lx
1330nm DFB laser and PIN receiver for HTSX-B332796Lx
2-wire interface with integrated Digital Diagnostic monitoring
Up to 10km transmission on SMF
BIDI LC optical connector
Single +3.3V power supply
Metal enclosure, for lower EMI
Maximum power consumption 1.5W
RoHS-6 compliant and lead-free
SFF-8472 MSA compliant &SFF-8431
Operating case temperature
Commercial: 0 ~ 70oC
Applications
Back to Back
10GBASE-LR/LW
10G Ethernet
Features
Up to 11.1Gb/s data rate
1490nm DFB laser and APD receiver for HTSX-B495596Zx
1550nm DFB laser and APD receiver for HTSX-B554996Zx
2-wire interface with integrated Digital Diagnostic monitoring
Up to 80km transmission on SMF
BIDI LC optical connector
Single +3.3V power supply
Metal enclosure, for lower EMI
Maximum power consumption 1.8W
RoHS-6 compliant and lead-free
SFF-8472 MSA compliant &SFF-8431
Operating case temperature
Commercial: 0 ~ +70oC
Extended: -10 ~ +80oC
Industrial: -40 ~ +85oC
Applications
Back to Back
10GBASE-ZR/ZW
10G Ethernet
Features
Up to 11.3Gb/s data links
1310nm DFB transmitter and PIN receiver
with CDR supported 9.95 to 11.3Gb/s reference-free
Up to 10km on 9/125µm SMF
Hot-pluggable SFP+ footprint
Duplex LC/UPC type pluggable optical interface
Metal enclosure, for lower EMI
RoHS compliant and lead-free
Support Digital Diagnostic Monitoring interface
Single +3.3V power supply
Maximum power consumption 1.5W
Compliant with SFF+MSA and SFF8472
Case operating temperature
Commercial: 0 ~ +70oC
Extended: -10 ~ +80oC
Industrial: -40 ~ +85oC
Applications
10GBASE-LR/LW & 10G Ethernet
SDH STM64
Other Optical Links
Up to 11.3Gb/s data links
CWDM EML transmitter and APD receiver
Up to 80km on 9/125µm SMF
Hot-pluggable SFP+ footprint
Duplex LC/UPC type pluggable optical interface
Metal enclosure, for lower EMI
RoHS compliant and lead-free
Support Digital Diagnostic Monitoring interface
Single +3.3V power supply
Maximum power consumption 1.5W
Compliant with SFF+MSA and SFF8472
Case operating temperature
Commercial: 0 ~ +70oC
Extended: -10 ~ +80oC
Industrial: -40 ~ +85oC
Up to 11.3Gb/s data links
CWDM EML transmitter and APD receiver
Up to 80km on 9/125µm SMF
Hot-pluggable SFP+ footprint
Duplex LC/UPC type pluggable optical interface
Metal enclosure, for lower EMI
RoHS compliant and lead-free
Support Digital Diagnostic Monitoring interface
Single +3.3V power supply
Maximum power consumption 1.5W
Compliant with SFF+MSA and SFF8472
Case operating temperature
Commercial: 0 ~ +70oC
Extended: -10 ~ +80oC
Industrial: -40 ~ +85oC
Features
Up to 11.3Gb/s data links
DWDM EML transmitter and PIN receiver
100 GHz ITU channel spacing with integrated wavelength locker
Up to 40km on 9/125µm SMF
Hot-pluggable SFP+ footprint
Duplex LC/UPC type pluggable optical interface
Metal enclosure, for lower EMI
RoHS compliant and lead-free
Support Digital Diagnostic Monitoring interface
Single +3.3V power supply
Maximum power consumption 1.5W
Compliant with SFF+MSA and SFF8472
Case operating temperature
Commercial: 0 ~ +70 oC
Extended: -10 ~ +80 oC
Industrial: -40 ~ +85 oC
Applications
10GBASE-ER/EW & 10G Ethernet
SDH STM64
Other Optical Links
Features
Up to 11.3Gb/s data links
DWDM EML transmitter and APD receiver
100 GHz ITU channel spacing with integrated wavelength locker
Up to 80km on 9/125µm SMF
Hot-pluggable SFP+ footprint
Duplex LC/UPC type pluggable optical interface
Metal enclosure, for lower EMI
RoHS compliant and lead-free
Support Digital Diagnostic Monitoring interface
Single +3.3V power supply
Maximum power consumption 1.5W
Compliant with SFF+MSA and SFF8472
Case operating temperature
Commercial: 0 ~ +70 oC
Extended: -10 ~ +80 oC
Applications
10GBASE-ZR/ZW & 10G Ethernet
SDH STM64
Other Optical Links
Features
Up to 11.1Gb/s data rate
1270nm DFB laser and APD receiver for HTSX-B273396Kx
1330nm DFB laser and APD receiver for HTSX-B332796Kx
2-wire interface with integrated Digital Diagnostic monitoring
Up to 60km transmission on SMF
BIDI LC optical connector
Single +3.3V power supply
Metal enclosure, for lower EMI
Maximum power consumption 1.5W
RoHS-6 compliant and lead-free
SFF-8472 MSA compliant &SFF-8431
Operating case temperature
Commercial: 0 ~ 70oC
Applications
Back to Back
10GBASE-ER/EW
10G Ethernet
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.
Support single channel 100Gbps
Client side: QSFP28 module
Line side: CFP 100Gbps coherent module;
Ultra-long-distance transmission: FEC technology can be used to achieve 1500km transmission without regeneration
Large dispersion tolerance: 40000ps.nm
Support port loopback test
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.
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.
40G/100G Transponder supports three 40G or 100G service access. The wide range of optical infrastructure solutions includes media conversion, signal repeating, lambda conversion.
Support single channel 40Gbps/100Gbps large particle transmission
Client side interface: support 3xQSFP28 module
Line side interface: support 3xQSFP28 module
Support DDM digital diagnosis
Support ALS function
Support LFP function
40G&100G Transponder supports three 40G or 100G service signals are relayed and amplified, and can be converted into three WDM standard wavelength optical signals, so that the multiplex unit can perform wavelength division multiplexing demultiplexing on optical signals of different wavelengths. A metropolitan wavelength division short-range transmission scheme suitable for 40G or 100G rates.
SFP28 Multi-Rate Quad Transponder
125Mbps~32 Gbps Repeater/Converter/Transponder
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.
Multi-rate supports 1Gbps ~ 32Gbps
Supports ALS, LFP
Flexible transmission of various protocols
Fiber Channel 1/2/4/8 /10/16/32Gbps
CPRI;2/3/4/5/6/7
1G/10G/25G Ethernet
SDH STM-4/16/64
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.
SFP+ Multi-Rate Quad Transponder
10Gbps Repeater/Converter/Transponder
SFP+ Multi-Rate Quad Transponder has 8 SFP+ slots, The device provides a flexible transmission of various protocols, such as 1G/10G Ethernet, SDH STM16/STM64, OTU1/OTU1e/OTU2/OTU2e, Fiber Channel 1/2/4/8/10, CPRI, etc. The SFP+ transponder supports multi-rate functionality with optical data rates from 1Gbps up to 10Gbps; The wide range of optical infrastructure solutions includes media conversion, signal repeating, lambda conversion.
Media conversion
Signal repeating
Lambda conversion
3R signal regeneration
Re-transmission
Re-shaping
Re-timing
Multi-rate supports 1Gbps ~ 10Gbps
Supports Loopback Test
Supports ALS, LFP
Flexible transmission of various protocols
Fiber Channel 1/2/4/8 /10Gbps
CPRI: 2/3/4/5/6/7
1G/10G Ethernet
SDH STM-4/16/64
The main field of application is CWDM and DWDM networks. As an intelligent transponder module, SFP+ Transponder converts a transparent data channel to a corresponding CWDM/DWDM wavelength.
By means of the implemented 3R functionality (re-amplification, re-shaping, re-timing) for signal processing, the module is also suited for the use as a repeater, The SFP+ transponder models fit HT6000 Series CH04, CH08, CH20 Chassis.
Redundant Dual Rate Transponder
10 Gbps Repeater/Converter/Transponder
This transponder is a 10G fiber to fiber 3R converter repeater and transponder. This transponder supports SFP+ to SFP+ or XFP to XFP fiber connections. 1+1 Automatic optical line Protection Switching is supported for the Line ports. The transponder is protocol transparent, providing 3R (Re-amplification, Re-shaping and Re-clocking) between these different optical module types.
The modules enable an extremely wide range of optical infrastructure solutions including media conversion, signal repeating, lambda conversion, and Wave Division Multiplexing(WDM). Especially suitable for DWDM ring network protection. The redundant multi-rate dual transponder fit HT6000 Series CH04, CH08, CH20 Chassis.
The HT6000-OD/OM16 from HTF is a combined passive Sixteen-Channel 100GHz DWDM multiplexer or de-multiplexer (MUX or DEMUX), It combines standard 100GHZ DWDM ITU grid channels 21 through 60, and applies to 1U chassis ,2U chassis and 5U chassis,occupying one service slots.
The HT6000-OD/OM16 is ideal for increasing the fiber capacity between two sites without the need for installing or leasing additional fibers. The complete passive solution requires no power cabling and no configuration; it is a true plug and play solution.
The Mux/Demux enables separation of the active equipment from wavelength multiplexing components. It may be used in conjunction with active optical devices from HTF or from another DWDM-compliant manufacturers.
DWDM Optical Add/Drop Multiplexer (OADM) is a passive optical device used in WDM networks for adding and dropping one/multiple 100 GHz DWDM channels in the C-band into one or two fibers, while letting the rest of the wavelengths bypass to the needed destination. Using the DWDM technology can add effectively WDM capability to their existing and new networks, and extend the optical signals transmission distance.
DWDM OADM modules are available in single-side (East or West) and dual-side (East and West) configurations. With matching MUX/DEMUX units placed at each end of an optical link, multiple data channels can be combined and transmitted over a single-mode fiber trunk. The passive OADM modules can add or drop 2, 4, 8 data channels at any point along the trunk.
Traditional OLP protection requires four valuable core resources. However, in many places, due to insufficient fiber resources, it is impossible to provide excess fiber resources and optical line redundancy protection.
Can we use OLP in single fiber solution
In view of the shortage of optical fiber resources and need to optical line redundancy protection, our company has developed BIDI OLP equipment to solve the problem of optical line protection in the case of insufficient optical cable resources.
OLP-BIDI only needs two fibers to realize the optical line protection function. When the main circuit fiber fails, the receiving end automatically switches to the standby fiber receiving, ensuring communication without blocking operation, improving communication system stability and reliability. It also saves fiber resources.
Traditional OLP protection requires four valuable core resources. However, in many places, due to insufficient fiber resources, it is impossible to provide excess fiber resources and optical line redundancy protection.
In view of the shortage of optical fiber resources and need to optical line redundancy protection, our company has developed BIDI OLP equipment to solve the problem of optical line protection in the case of insufficient optical cable resources.
OLP-BIDI only needs two fibers to realize the optical line protection function. When the main circuit fiber fails, the receiving end automatically switches to the standby fiber receiving, ensuring communication without blocking operation, improving communication system stability and reliability. It also saves fiber resources.
Optical line protection switch provides both Manual and Automatic switching mode. In Manual mode, the system switches optical path only based on the commands from user. In the Automatic mode, the system switches based on the power level detected and the preset threshold. Under automatic mode, the system can be set to be revertive or Non-revertive modes. Under Revertive mode, the system switches back to the working path automatically after the fault condition is cleared. Under Non-revertive mode, the system does not switch back.The OLP models fit HT6000 Series CH04, CH08, CH20 Chassis.
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.
Support single channel 200Gbps
Client Side: 2x QSFP28 module
Line Side: CFP2 200Gbps coherent module
Ultra-long-distance transmission: FEC technology can be used to achieve 1500km transmission without regeneration
Large dispersion tolerance: 40000ps.nm
Support port loopback test
Support 80 channel wavelength tunable
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.
