Starview International manufactures and distributes optical transceivers and networking solutions. They offer a wide range of transceiver products including SFP, SFP+, GBIC, XFP, and QSFP modules that are compatible with major networking equipment vendors. Starview's transceivers feature digital diagnostics monitoring and comply with various industry standards. They provide reliable products, dedicated after-sales support, and competitive pricing to customers in the telecom, enterprise, and industrial sectors.
The document provides specifications for Sub10's Liberator wireless Ethernet bridges, which operate at 60GHz frequencies and can transmit data at speeds up to 1Gbps over distances up to 1km. The bridges are compact at 182x182x60mm and lightweight at 2.5kg. They use PoE for power and have an IP67 outdoor rating. Common applications include wireless backhauling, leased line replacement, LAN connectivity between buildings, and use in mobile networks and broadcast applications.
The document describes Cisco ASR 9000 Series Ethernet Line Cards, which are carrier-grade networking components. The line cards deliver scalable, high-availability Ethernet and IP services to enable profitable business, residential, and mobile services. They provide dense QoS and support both Layer 2 and 3 services, allowing operators to reduce costs and quickly deploy new services. Key features include high port densities, support for various interface types and distances, extensive Layer 2 and 3 capabilities, carrier-class OAM functions, and timing synchronization.
StarView International is a manufacturer and distributor of optical components and transceiver modules. It offers products such as transceivers, optical multiplexers, network taps, and accessories. StarView also provides maintenance and support services to help customers with deployment, commissioning, and troubleshooting of networking equipment.
Internet2 will be aggressive in its deployment of its Innovation Platform in order to allow its members to capitalize on the groundswell of support for high-speed software defined networking - summer of networking, Chris Robb, Indiana University/Internet2
Next Generation Fiber Structured Cabling and Migration to 40/100gPanduit
The new high speed Ethernet standards, 40GBASE-SR4 and 100GBASE-SR10, will require a change in the fiber cable plant. Here we examine the media and connectivity solutions needed to ease the migration for 10 Gigabit Ethernet to 40 and 100 Gigabit Ethernet.
The document describes SFP transceiver modules provided by Fibercasa. It discusses duplex and single port modules for various applications including Ethernet, Fibre Channel, SDH/SONET, and CWDM. It provides technical details on supported speeds, wavelengths, transmission distances and temperature ranges. Example module models and specifications are listed for different form factors and wavelength combinations.
DWDM & Packet Optical Fundamentals by Dion Leung [APRICOT 2015]APNIC
This document provides an overview of optical networking fundamentals and components for designing DWDM networks. It discusses:
- Key components used to build optical networks including fiber, transceivers, muxponders, amplifiers, and dispersion compensation modules.
- Design considerations for point-to-point and multi-node linear DWDM networks such as length, number of fiber strands, fiber type and condition, transmission capacity needs, and calculating power budgets.
- The roles of optical amplifiers and dispersion compensation in extending transmission reach over long distances and high bitrates.
- A quick summary of the essential "lego blocks" used to construct metro and regional optical networks.
The document provides an overview of wavelength division multiplexing (WDM) technology and Juniper's packet optical solutions. It discusses key optical transmission challenges like attenuation, dispersion, and nonlinearities. It also covers topics such as receive power, multiple wavelengths, amplifiers, ROADMs, transponders, and Juniper's integrated and disaggregated product portfolio including the MX series and BTI7000/7800 series. The training is intended to provide a high-level introduction to DWDM 101 and Juniper's end-to-end packet optical solutions.
The document provides specifications for Sub10's Liberator wireless Ethernet bridges, which operate at 60GHz frequencies and can transmit data at speeds up to 1Gbps over distances up to 1km. The bridges are compact at 182x182x60mm and lightweight at 2.5kg. They use PoE for power and have an IP67 outdoor rating. Common applications include wireless backhauling, leased line replacement, LAN connectivity between buildings, and use in mobile networks and broadcast applications.
The document describes Cisco ASR 9000 Series Ethernet Line Cards, which are carrier-grade networking components. The line cards deliver scalable, high-availability Ethernet and IP services to enable profitable business, residential, and mobile services. They provide dense QoS and support both Layer 2 and 3 services, allowing operators to reduce costs and quickly deploy new services. Key features include high port densities, support for various interface types and distances, extensive Layer 2 and 3 capabilities, carrier-class OAM functions, and timing synchronization.
StarView International is a manufacturer and distributor of optical components and transceiver modules. It offers products such as transceivers, optical multiplexers, network taps, and accessories. StarView also provides maintenance and support services to help customers with deployment, commissioning, and troubleshooting of networking equipment.
Internet2 will be aggressive in its deployment of its Innovation Platform in order to allow its members to capitalize on the groundswell of support for high-speed software defined networking - summer of networking, Chris Robb, Indiana University/Internet2
Next Generation Fiber Structured Cabling and Migration to 40/100gPanduit
The new high speed Ethernet standards, 40GBASE-SR4 and 100GBASE-SR10, will require a change in the fiber cable plant. Here we examine the media and connectivity solutions needed to ease the migration for 10 Gigabit Ethernet to 40 and 100 Gigabit Ethernet.
The document describes SFP transceiver modules provided by Fibercasa. It discusses duplex and single port modules for various applications including Ethernet, Fibre Channel, SDH/SONET, and CWDM. It provides technical details on supported speeds, wavelengths, transmission distances and temperature ranges. Example module models and specifications are listed for different form factors and wavelength combinations.
DWDM & Packet Optical Fundamentals by Dion Leung [APRICOT 2015]APNIC
This document provides an overview of optical networking fundamentals and components for designing DWDM networks. It discusses:
- Key components used to build optical networks including fiber, transceivers, muxponders, amplifiers, and dispersion compensation modules.
- Design considerations for point-to-point and multi-node linear DWDM networks such as length, number of fiber strands, fiber type and condition, transmission capacity needs, and calculating power budgets.
- The roles of optical amplifiers and dispersion compensation in extending transmission reach over long distances and high bitrates.
- A quick summary of the essential "lego blocks" used to construct metro and regional optical networks.
The document provides an overview of wavelength division multiplexing (WDM) technology and Juniper's packet optical solutions. It discusses key optical transmission challenges like attenuation, dispersion, and nonlinearities. It also covers topics such as receive power, multiple wavelengths, amplifiers, ROADMs, transponders, and Juniper's integrated and disaggregated product portfolio including the MX series and BTI7000/7800 series. The training is intended to provide a high-level introduction to DWDM 101 and Juniper's end-to-end packet optical solutions.
New technologies options include WDM-PON, VDLS2 bonding, G.fast, and more. In addition, there are new compression techniques and noise mitigation that extend the life of existing networks.
Which approaches are practical, necessary and beneficial and what factors determine the best path to take?
This document provides product specifications for a Commscope-Andrew PX2F-52-NXA 0.6 m dual-polarized parabolic antenna. It lists technical details like frequency band, gain, return loss, mechanical dimensions, regulatory compliance, and more. It also provides information on how to purchase the antenna from Launch 3 Telecom, including payment options and same-day shipping.
10G SFP+ Fiber Optic Transceivers and SFP+ DAC Data SheetAlice Gui
This document provides information on 10G SFP+ fiber optic transceivers and direct attach cables that FS.COM offers. It includes specifications for various 10G SFP+ transceiver models for Ethernet, SONET/SDH, and Fibre Channel that support different wavelengths, transmission distances and fiber types. It also lists compatible 10G SFP+ direct attach cable models. The document contains detailed specifications to help customers select the appropriate transceiver for their needs.
Get Inspired By Beijer's Wireless Solution - Wireless Brochure 2016Jiunn-Jer Sun
This document provides information on various wireless networking products from Beijer Electronics, including WiFi access points and routers. It lists the key features and specifications of different models, such as the number of radios, supported frequency bands, maximum data rates, outdoor protection ratings, and antenna options. Application scenarios for each product are also described, such as creating wireless backbones, point-to-point links, and networks for mobile or industrial environments.
The document introduces the Liberator-V320/1000 millimeter wave wireless system from Sub10 Systems. It provides an overview of the company and product range, including specifications for the Liberator-V320 and Liberator-V1000 models. It discusses key concepts like millimeter wave spectrum, narrow beam antennas, and security. It also covers link planning considerations, production and warranty support.
This document provides an overview and agenda for a presentation on network design, security analysis, risk assessment, disaster recovery, and business continuity planning. It covers various networking technologies, architecture considerations, outsourcing decisions, security issues, fault tolerance planning, and management responsibilities.
The Liberator-V1000 is a small, fast, reliable wireless Ethernet link operating in the 60GHz band without a license. It provides carrier-grade availability for network operators or individuals as a fiber alternative, LAN extension, or temporary connection. Key features include license-exempt operation, plug and play setup, 1000Mbps Ethernet throughput, small form factor, remote management, inherent security, and quick installation. System specifications list its modulation, range up to 800m, frequency band, antenna gain, transmit power, sensitivity, availability over 99.999%, dimensions, and certifications.
Rec 12 073 Lte Small Cells Presentation ArrowsAdrian Treacy
Telefonica UK conducted LTE trials in 2009 in Slough, UK to test the performance of LTE technology. The trials aimed to understand coverage, capacity, mobility and user experience on LTE. Key results included achieving peak downlink speeds of 135Mbps and average cell throughput of 25Mbps with LTE, compared to 2-3Mbps on HSPA networks. LTE also showed high mobility performance with over 99.9% success between LTE cells and low interruption times. The trials provided learning for Telefonica on LTE network planning, deployment and optimization.
Telefonica UK has been conducting LTE and small cell trials to test and evolve their mobile network. The trials in Slough and London involved deploying LTE equipment from various vendors to test coverage, capacity, mobility and user experience on LTE. Results showed improved coverage and significantly higher throughput compared to 3G, as well as very high LTE to LTE handover success rates. User feedback was also very positive regarding speeds. Telefonica aims to evolve their network using small cell technology to address increasing data demand in dense urban areas.
Nanotronix Co., Ltd. was established in 2000 in Seoul, Korea and focuses on testing and monitoring solutions for cable networks as well as VSAT satellite communication systems. It has launched products such as TDRs and OTDRs for cable fault detection and VSAT systems compliant with DVB-RCS standards. The company has grown significantly since inception and now employs 39 people with worldwide customers and a subsidiary in the United States.
The proliferation of consumer devices, HDTV and internet based services will continue to drive consumer bandwidth demand and Fiber is the only access technology capable of supporting dedicated gigabit Ethernet bandwidths.
This document discusses requirements for next generation optical access systems. NG-PON1 is expected to provide higher bandwidth than G-PON while allowing a gradual migration. Options for NG-PON1 include XG-PON and overlay WDM systems. Requirements include power saving functions and maintaining services during upgrades. NG-PON2 is expected to provide significantly higher customer capacities using technologies like dense WDM and component R&D is needed.
This document discusses the transition from traditional HFC networks to RFoG (Radio Frequency over Glass) fiber optic networks. It describes how RFoG networks use a single optical fiber to deliver both downstream and upstream signals using wavelength division multiplexing. This reduces the number of fibers and equipment needed. RFoG networks also improve signal quality by placing micronodes closer to customers and eliminating amplifiers and taps. The document provides details on RFoG network architecture, components, operation, and performance advantages over traditional HFC networks.
This document discusses commercial transceivers used to implement Ethernet standards like 1GbE and 10GbE and the performance of existing fiber types. It describes the main transceiver form factors like SFP, SFP+, and XFP and their specifications regarding wavelength, fiber type, and connector. It also provides reach distances for different throughput and fiber types, noting that existing multi-mode fiber is limited by modal dispersion but the AROONA solution can transmit 4x10Gb/s over 10km in standard multi-mode fiber.
This document discusses fiber optic installation standards for Malaysia. It covers topics like fiber types used, fusion splicing, indoor and outdoor fiber cable specifications, fiber termination boxes, wall sockets, manholes, ductways and more. Standards are provided for single dwelling units, multi-dwelling units, and different building types. Requirements are outlined for fiber cabling within buildings and premises.
INPOWER - Optic Fiber Products Line Presentation 2015 Ennio Bertolini
AOA Technology Co. Ltd provides high-quality fiber optic products including fiber passive components, active devices, cable management, and FTTH products. It was founded in 2000 in Shenzhen, China and has continually improved product quality while maintaining competitive pricing. The company's products are used worldwide in telecommunications, broadcasting, power, and other industries and comply with various international standards and certifications. AOA offers warranties including one-year replacement, three-year free repair, and lifetime maintenance on its products.
JTOPTICS® presents the 10GBASE SR 300m SFPP optical transceiver, denoted as the 10G SFPP SR (JT 10G SFPP DD SR) SFP+ transceiver. This SFP+ module supports link lengths of up to 400m over OM4 MMF (300m over OM3 MMF) through an LC duplex connector. The transceiver offers digital diagnostics monitoring via a 2-wire serial interface, following the specifications outlined in SFF 8472. Each SFP+ transceiver module undergoes individual testing to ensure compatibility with Cisco switches, routers, servers, network interface cards (NICs), and similar devices.
Key Features:
Full duplex transceiver module for efficient bidirectional communication.
Utilizes a hot-pluggable SFP+ form factor for convenient installation.
Compliant with the SFP+ MSA standard, ensuring interoperability.
Incorporates a VCSEL transmitter and PIN receiver for reliable data transmission.
Supports a data rate of up to 11.3Gbps for high-speed performance.
Compliance with CPRI specifications for specific telecommunication applications.
Maximum link length of 300m, offering flexibility in connectivity.
Low power dissipation for energy-efficient operation.
Operating case temperature range suitable for both commercial and industrial environments.
Operates on a single 3.3V power supply.
RoHS 6 compliant, ensuring adherence to environmental standards by being lead-free.
JTOPTICS® 1Gb/s transceiver module is designed to support link lengths of up to 20km over LC duplex Single-Mode Fiber (SMF). With its low power consumption and hot-swappable capability, this 1G SFP transceiver is well-suited for various applications, including Gigabit Ethernet communication links for Internet Service Providers (ISPs), Enterprise LAN & SAN Networks, Data Center LAN & SAN Networks, and other optical links. Boasting low power consumption and high speed, this 10G SFP+ transceiver is particularly suitable for applications such as data centers, enterprise wiring closets, service provider transport, Radio & Baseband Unit, and more.
JTOPTICS® 1000BASE-SR-500m-SFPP optical transceiver, identified as 1G SFP SR (JT-1G-SFP-DD-SR), is an SFP transceiver designed to support link lengths of up to 500m over OM4 MMF (300m over OM3 MMF) using an LC duplex connector. This SFP transceiver is equipped with a digital diagnostics monitoring feature accessible through a 2-wire serial interface, following the specifications outlined in SFF-8472. Each SFP transceiver module undergoes individual testing to ensure compatibility with a range of Cisco switches, routers, servers, network interface cards (NICs), and similar devices.
The 1GBASE BD LR 20Km SFP optical transceiver, also known as the 1G SFP BD LR (JT 1G SFP BD LR), is a bidirectional SFP transceiver designed primarily for linking high-speed hubs, Ethernet switches, and routers across various wiring closets or buildings, especially for extended cabling runs. This transceiver is developed to facilitate longer distances on fiber backbones. The BIDI (Bidirectional) Transceiver utilizes a single fiber for both transmitting and receiving optical signals. Its applications include routers, media converters, and switched backplane scenarios.
The SFPP 10GBASE LR SFP+ transceiver facilitates link lengths of up to 10km over LC duplex single-mode fiber. It incorporates digital diagnostics monitoring accessible through a 2-wire serial interface as per SFF 8472 standards. Every SFP+ transceiver module undergoes individual testing for compatibility with various Cisco switches, routers, servers, network interface cards (NICs), and more. With attributes such as low power consumption and high speed, this 10G SFP+ transceiver is well-suited for applications in data centers, enterprise wiring closets, service provider transport, Radio & Baseband Units, and similar environments.
Features of 1G SFP Optical Transceivers
1. Dual data rate operation at 1.25Gbps/1.063Gbps.
2. Utilizes a 1310nm FP laser and PIN photo detector for a 20km reach.
3. Compliance with SFP MSA and SFF 8472, featuring a duplex LC receptacle.
4. Meets RoHS compliance standards.
5. Designed for a 20km reach with 9/125 µm single-mode fiber (SMF).
6. Hot-pluggable with an SFP footprint.
7. Equipped with a duplex LC connector interface.
8. Operates on a single 3.3V power supply.
9. Adheres to Class 1 FDA and IEC60825-1 laser safety standards.
JTOPTICS® 25GBASE SR 100m SFP28 optical transceiver, designed as a high-performance module for short-range data communication and interconnect applications, operating at 25.78125 Gbps. This module demonstrates optimal performance up to 70 m using OM3 fiber or 100 m using OM4 fiber. Tailored for multimode fiber systems, it utilizes a nominal wavelength of 850nm. With its low power consumption and high-speed capabilities, this 25G transceiver is well-suited for applications in 25G Ethernet, telecommunications, and data centers.
Key Features:
1. Hot-pluggable SFP28 form factor for convenient installation.
2. Supports a 25Gbps data rate, ensuring high-speed data transmission.
3. Maximum link length of 70m over OM3 and 100m over OM4 multimode fiber.
4. Utilizes an 850nm VCSEL laser and PIN photodetector for efficient operation.
5. Internal Clock and Data Recovery (CDR) on both Transmitter and Receiver channels for enhanced performance.
6. Equipped with a duplex LC receptacle for streamlined connectivity.
7. Operates on a single 3.3V power supply for simplified power management.
8. Power dissipation is less than 1W, contributing to energy efficiency.
9. Digital diagnostics functions are accessible via the I2C interface.
10. RoHS 6 compliant, demonstrating adherence to environmental standards.
11. Commercial case temperature range: 0°C to 70°C, suitable for various operating environments.
This document provides information on Amisson Fiberoptic(HK)Ltd, a manufacturer and supplier of fiber optic components and cabling systems since 2008. It lists the products they provide such as fiber optic connectors, adapters, pigtails, patchcords, optical cable, fusion splicers, splicing closures, and testing equipment. It also describes their commitment to integrity, honesty, innovation, and competitive pricing to meet customer needs globally.
The SFP+
transceiver module is a compact
hot-pluggable transceiver that is used for telecommunication.It supports 10 Gbps for the
next generation Gigabit Ethernet applications. These transceivers are an improvement to the
previous SFP cables making them be smaller and thus providing higher density per line
card.The SFP+ modules are ideally suited for the datacom and storage area network
applications that are based on the Fiber Channel Standards. The SFP+ modules support
10GBase Ethernet and the OTU2/OTU2e,Guest Posting and it supports the Digital
Diagnostic Monitor (DDM) function and the provision of the flexibility of interface
choice.There are different kinds of the SFP+ modules such as - SFP+ MM 300m, SFP+ 10
km, SFP+ 40 km, CWDM SFP+, DWDM SFP+ and the BiDi SFP+. Types of
SFP+Transceivers 10G SFP+They are designed for the high performance integrated duplex
data transmission over the single mode optical fiber. The 10G SFP+ transceivers are fully
compliant to the SFP+ MSA and are hot swappable
New technologies options include WDM-PON, VDLS2 bonding, G.fast, and more. In addition, there are new compression techniques and noise mitigation that extend the life of existing networks.
Which approaches are practical, necessary and beneficial and what factors determine the best path to take?
This document provides product specifications for a Commscope-Andrew PX2F-52-NXA 0.6 m dual-polarized parabolic antenna. It lists technical details like frequency band, gain, return loss, mechanical dimensions, regulatory compliance, and more. It also provides information on how to purchase the antenna from Launch 3 Telecom, including payment options and same-day shipping.
10G SFP+ Fiber Optic Transceivers and SFP+ DAC Data SheetAlice Gui
This document provides information on 10G SFP+ fiber optic transceivers and direct attach cables that FS.COM offers. It includes specifications for various 10G SFP+ transceiver models for Ethernet, SONET/SDH, and Fibre Channel that support different wavelengths, transmission distances and fiber types. It also lists compatible 10G SFP+ direct attach cable models. The document contains detailed specifications to help customers select the appropriate transceiver for their needs.
Get Inspired By Beijer's Wireless Solution - Wireless Brochure 2016Jiunn-Jer Sun
This document provides information on various wireless networking products from Beijer Electronics, including WiFi access points and routers. It lists the key features and specifications of different models, such as the number of radios, supported frequency bands, maximum data rates, outdoor protection ratings, and antenna options. Application scenarios for each product are also described, such as creating wireless backbones, point-to-point links, and networks for mobile or industrial environments.
The document introduces the Liberator-V320/1000 millimeter wave wireless system from Sub10 Systems. It provides an overview of the company and product range, including specifications for the Liberator-V320 and Liberator-V1000 models. It discusses key concepts like millimeter wave spectrum, narrow beam antennas, and security. It also covers link planning considerations, production and warranty support.
This document provides an overview and agenda for a presentation on network design, security analysis, risk assessment, disaster recovery, and business continuity planning. It covers various networking technologies, architecture considerations, outsourcing decisions, security issues, fault tolerance planning, and management responsibilities.
The Liberator-V1000 is a small, fast, reliable wireless Ethernet link operating in the 60GHz band without a license. It provides carrier-grade availability for network operators or individuals as a fiber alternative, LAN extension, or temporary connection. Key features include license-exempt operation, plug and play setup, 1000Mbps Ethernet throughput, small form factor, remote management, inherent security, and quick installation. System specifications list its modulation, range up to 800m, frequency band, antenna gain, transmit power, sensitivity, availability over 99.999%, dimensions, and certifications.
Rec 12 073 Lte Small Cells Presentation ArrowsAdrian Treacy
Telefonica UK conducted LTE trials in 2009 in Slough, UK to test the performance of LTE technology. The trials aimed to understand coverage, capacity, mobility and user experience on LTE. Key results included achieving peak downlink speeds of 135Mbps and average cell throughput of 25Mbps with LTE, compared to 2-3Mbps on HSPA networks. LTE also showed high mobility performance with over 99.9% success between LTE cells and low interruption times. The trials provided learning for Telefonica on LTE network planning, deployment and optimization.
Telefonica UK has been conducting LTE and small cell trials to test and evolve their mobile network. The trials in Slough and London involved deploying LTE equipment from various vendors to test coverage, capacity, mobility and user experience on LTE. Results showed improved coverage and significantly higher throughput compared to 3G, as well as very high LTE to LTE handover success rates. User feedback was also very positive regarding speeds. Telefonica aims to evolve their network using small cell technology to address increasing data demand in dense urban areas.
Nanotronix Co., Ltd. was established in 2000 in Seoul, Korea and focuses on testing and monitoring solutions for cable networks as well as VSAT satellite communication systems. It has launched products such as TDRs and OTDRs for cable fault detection and VSAT systems compliant with DVB-RCS standards. The company has grown significantly since inception and now employs 39 people with worldwide customers and a subsidiary in the United States.
The proliferation of consumer devices, HDTV and internet based services will continue to drive consumer bandwidth demand and Fiber is the only access technology capable of supporting dedicated gigabit Ethernet bandwidths.
This document discusses requirements for next generation optical access systems. NG-PON1 is expected to provide higher bandwidth than G-PON while allowing a gradual migration. Options for NG-PON1 include XG-PON and overlay WDM systems. Requirements include power saving functions and maintaining services during upgrades. NG-PON2 is expected to provide significantly higher customer capacities using technologies like dense WDM and component R&D is needed.
This document discusses the transition from traditional HFC networks to RFoG (Radio Frequency over Glass) fiber optic networks. It describes how RFoG networks use a single optical fiber to deliver both downstream and upstream signals using wavelength division multiplexing. This reduces the number of fibers and equipment needed. RFoG networks also improve signal quality by placing micronodes closer to customers and eliminating amplifiers and taps. The document provides details on RFoG network architecture, components, operation, and performance advantages over traditional HFC networks.
This document discusses commercial transceivers used to implement Ethernet standards like 1GbE and 10GbE and the performance of existing fiber types. It describes the main transceiver form factors like SFP, SFP+, and XFP and their specifications regarding wavelength, fiber type, and connector. It also provides reach distances for different throughput and fiber types, noting that existing multi-mode fiber is limited by modal dispersion but the AROONA solution can transmit 4x10Gb/s over 10km in standard multi-mode fiber.
This document discusses fiber optic installation standards for Malaysia. It covers topics like fiber types used, fusion splicing, indoor and outdoor fiber cable specifications, fiber termination boxes, wall sockets, manholes, ductways and more. Standards are provided for single dwelling units, multi-dwelling units, and different building types. Requirements are outlined for fiber cabling within buildings and premises.
INPOWER - Optic Fiber Products Line Presentation 2015 Ennio Bertolini
AOA Technology Co. Ltd provides high-quality fiber optic products including fiber passive components, active devices, cable management, and FTTH products. It was founded in 2000 in Shenzhen, China and has continually improved product quality while maintaining competitive pricing. The company's products are used worldwide in telecommunications, broadcasting, power, and other industries and comply with various international standards and certifications. AOA offers warranties including one-year replacement, three-year free repair, and lifetime maintenance on its products.
JTOPTICS® presents the 10GBASE SR 300m SFPP optical transceiver, denoted as the 10G SFPP SR (JT 10G SFPP DD SR) SFP+ transceiver. This SFP+ module supports link lengths of up to 400m over OM4 MMF (300m over OM3 MMF) through an LC duplex connector. The transceiver offers digital diagnostics monitoring via a 2-wire serial interface, following the specifications outlined in SFF 8472. Each SFP+ transceiver module undergoes individual testing to ensure compatibility with Cisco switches, routers, servers, network interface cards (NICs), and similar devices.
Key Features:
Full duplex transceiver module for efficient bidirectional communication.
Utilizes a hot-pluggable SFP+ form factor for convenient installation.
Compliant with the SFP+ MSA standard, ensuring interoperability.
Incorporates a VCSEL transmitter and PIN receiver for reliable data transmission.
Supports a data rate of up to 11.3Gbps for high-speed performance.
Compliance with CPRI specifications for specific telecommunication applications.
Maximum link length of 300m, offering flexibility in connectivity.
Low power dissipation for energy-efficient operation.
Operating case temperature range suitable for both commercial and industrial environments.
Operates on a single 3.3V power supply.
RoHS 6 compliant, ensuring adherence to environmental standards by being lead-free.
JTOPTICS® 1Gb/s transceiver module is designed to support link lengths of up to 20km over LC duplex Single-Mode Fiber (SMF). With its low power consumption and hot-swappable capability, this 1G SFP transceiver is well-suited for various applications, including Gigabit Ethernet communication links for Internet Service Providers (ISPs), Enterprise LAN & SAN Networks, Data Center LAN & SAN Networks, and other optical links. Boasting low power consumption and high speed, this 10G SFP+ transceiver is particularly suitable for applications such as data centers, enterprise wiring closets, service provider transport, Radio & Baseband Unit, and more.
JTOPTICS® 1000BASE-SR-500m-SFPP optical transceiver, identified as 1G SFP SR (JT-1G-SFP-DD-SR), is an SFP transceiver designed to support link lengths of up to 500m over OM4 MMF (300m over OM3 MMF) using an LC duplex connector. This SFP transceiver is equipped with a digital diagnostics monitoring feature accessible through a 2-wire serial interface, following the specifications outlined in SFF-8472. Each SFP transceiver module undergoes individual testing to ensure compatibility with a range of Cisco switches, routers, servers, network interface cards (NICs), and similar devices.
The 1GBASE BD LR 20Km SFP optical transceiver, also known as the 1G SFP BD LR (JT 1G SFP BD LR), is a bidirectional SFP transceiver designed primarily for linking high-speed hubs, Ethernet switches, and routers across various wiring closets or buildings, especially for extended cabling runs. This transceiver is developed to facilitate longer distances on fiber backbones. The BIDI (Bidirectional) Transceiver utilizes a single fiber for both transmitting and receiving optical signals. Its applications include routers, media converters, and switched backplane scenarios.
The SFPP 10GBASE LR SFP+ transceiver facilitates link lengths of up to 10km over LC duplex single-mode fiber. It incorporates digital diagnostics monitoring accessible through a 2-wire serial interface as per SFF 8472 standards. Every SFP+ transceiver module undergoes individual testing for compatibility with various Cisco switches, routers, servers, network interface cards (NICs), and more. With attributes such as low power consumption and high speed, this 10G SFP+ transceiver is well-suited for applications in data centers, enterprise wiring closets, service provider transport, Radio & Baseband Units, and similar environments.
Features of 1G SFP Optical Transceivers
1. Dual data rate operation at 1.25Gbps/1.063Gbps.
2. Utilizes a 1310nm FP laser and PIN photo detector for a 20km reach.
3. Compliance with SFP MSA and SFF 8472, featuring a duplex LC receptacle.
4. Meets RoHS compliance standards.
5. Designed for a 20km reach with 9/125 µm single-mode fiber (SMF).
6. Hot-pluggable with an SFP footprint.
7. Equipped with a duplex LC connector interface.
8. Operates on a single 3.3V power supply.
9. Adheres to Class 1 FDA and IEC60825-1 laser safety standards.
JTOPTICS® 25GBASE SR 100m SFP28 optical transceiver, designed as a high-performance module for short-range data communication and interconnect applications, operating at 25.78125 Gbps. This module demonstrates optimal performance up to 70 m using OM3 fiber or 100 m using OM4 fiber. Tailored for multimode fiber systems, it utilizes a nominal wavelength of 850nm. With its low power consumption and high-speed capabilities, this 25G transceiver is well-suited for applications in 25G Ethernet, telecommunications, and data centers.
Key Features:
1. Hot-pluggable SFP28 form factor for convenient installation.
2. Supports a 25Gbps data rate, ensuring high-speed data transmission.
3. Maximum link length of 70m over OM3 and 100m over OM4 multimode fiber.
4. Utilizes an 850nm VCSEL laser and PIN photodetector for efficient operation.
5. Internal Clock and Data Recovery (CDR) on both Transmitter and Receiver channels for enhanced performance.
6. Equipped with a duplex LC receptacle for streamlined connectivity.
7. Operates on a single 3.3V power supply for simplified power management.
8. Power dissipation is less than 1W, contributing to energy efficiency.
9. Digital diagnostics functions are accessible via the I2C interface.
10. RoHS 6 compliant, demonstrating adherence to environmental standards.
11. Commercial case temperature range: 0°C to 70°C, suitable for various operating environments.
This document provides information on Amisson Fiberoptic(HK)Ltd, a manufacturer and supplier of fiber optic components and cabling systems since 2008. It lists the products they provide such as fiber optic connectors, adapters, pigtails, patchcords, optical cable, fusion splicers, splicing closures, and testing equipment. It also describes their commitment to integrity, honesty, innovation, and competitive pricing to meet customer needs globally.
The SFP+
transceiver module is a compact
hot-pluggable transceiver that is used for telecommunication.It supports 10 Gbps for the
next generation Gigabit Ethernet applications. These transceivers are an improvement to the
previous SFP cables making them be smaller and thus providing higher density per line
card.The SFP+ modules are ideally suited for the datacom and storage area network
applications that are based on the Fiber Channel Standards. The SFP+ modules support
10GBase Ethernet and the OTU2/OTU2e,Guest Posting and it supports the Digital
Diagnostic Monitor (DDM) function and the provision of the flexibility of interface
choice.There are different kinds of the SFP+ modules such as - SFP+ MM 300m, SFP+ 10
km, SFP+ 40 km, CWDM SFP+, DWDM SFP+ and the BiDi SFP+. Types of
SFP+Transceivers 10G SFP+They are designed for the high performance integrated duplex
data transmission over the single mode optical fiber. The 10G SFP+ transceivers are fully
compliant to the SFP+ MSA and are hot swappable
Closer Look at 400G QSFP-DD Optical Transceiver ModuleSun Telecom
Recent years have seen the evolution towards the 5G, Internet of Things (IoT), and cloud computing, increasing pressure on data centers to ramp up both network capacity to 400G and driving providers to search for new solutions to achieve their 400G Data Center Interconnects (DCIs). 400G QSFP-DD optical transceiver module is becoming one of the most popular cutting-edge 400G DCI solutions. This article will provide a basic understanding of QSFP-DD optical transceiver modules.
A Comprehensive Understanding of SFP Optical TransceiverSun Telecom
SFP optical transceiver is still being used as an industry standard by worldwide manufacturers and providers today. It has been an industry workhorse for over 20 years in many networks such as PON, WDM, Fibre Channel, SONET, and other communications standards. This paper will give you a comprehensive understanding of SFP optical transceivers.
We are offering a comprehensive high speed networking solution which is including 3.2T Co-packaged Optic (CPO), 100G, 200G, 400G & 800G transceivers, DACs, AOCs, ACCs & Loopback modules. We are fulfil your research (R&D) stage product development, DVT/EVT pre-product testing, mass production and also for final application use.
Welcome to contact us for more product info.
The document is a datasheet for the CVR-QSFP-SFP10G, a Cisco QSFP to SFP/SFP+ adapter module that allows 10GbE and 1GbE connectivity between QSFP-only platforms and networks running at lower speeds. It converts a QSFP port into an SFP or SFP+ port so that lower-speed SFP and SFP+ modules can be used. It supports SFP+ and SFP modules for multimode fiber, single-mode fiber up to 80km, and copper connections up to 10 meters. Contact and purchase information is provided at the end.
JTOPTICS® 40G QSFP+ AOC (Active Optical Cables) breakout cables are meticulously designed to facilitate interconnection between network equipment featuring QSFP+ ports and 10G SFP+ ports. Also recognized as QSFP+ splitter AOC or QSFP+ Fan-out AOC cables, this breakout cable configuration encompasses four parallel bi-directional channels, each operating at 10.3125 Gbps. It consists of one 40G QSFP+ module on one end and four 10G SFP+ modules on the other end, all interconnected with fixed-length OM3/OM4 fiber cables. Noteworthy for its lightweight, flexible, and soft attributes, the QSFP+ to 4x SFP+ breakout AOC is well-suited for installations in constrained spaces and over extended distances.
Key Features:
1. Hot-pluggable QSFP+/SFP+ form factor full-duplex AOC assembly for user-friendly installation.
2. Incorporates a 4-channel 850nm VCSEL and PIN photo-detector for reliable data transmission.
3. Data rate up to 10.3125Gbps per channel, ensuring high-speed and efficient performance.
4. Compliant with QSFP+ MSA (SFF-8436) and SFP+ MSA (SFF-8431) standards for industry compatibility.
5. Adheres to SFF-8432 and SFF-8472 standards for performance benchmarks and compatibility.
5. Compliant with IEEE 802.3ba 40GBASE-SR4 and IEEE 802.3ae 10GBASE-SR for versatile applications.
6. Compliant with InfiniBand SDR/DDR/QDR for comprehensive compatibility.
7. MMF cable with customizable length up to 100m (OM3) for flexible connectivity options.
8. 1.5W maximum power dissipation per 40G QSFP+ SR4 module for energy-efficient operation.
9. Operating case temperature range from 0 to 70°C, suitable for various environmental conditions.
10. Operates on a 3.3V power supply voltage for simplified power management.
11. Built-in digital diagnostic functionality for comprehensive monitoring.
12. RoHS compliant (lead-free), aligning with environmental standards.
Active fiber components - tranceivers, media convertersVytas Norkus
All types of fiber optic transceivers:
Wide range of SFP, SFP+, XFP, QSFP+, X2, XENPAK, DAC, AOC, CWDM modules.
Fiber to coper media convertes:
10/100, 10/100/1000, 10G, 40G media converters.
Video converters: fiber to coax video converters with data and ethernet ports.
www.sominetworks.lt
www.sominetworks.com
The document discusses next-generation interconnects, specifically connectors and cables. It provides an overview of common pluggable connectors like SFP, QSFP, and OSFP and the different types of media they support including copper and optical fiber. It then covers the development of 25GbE and 100GbE Ethernet standards and how cable types are an important consideration. Key points discussed include signal modulation techniques like NRZ and PAM4, optical fiber types, and real-world use cases for direct attach copper cables and optical transceivers.
Secure, High Performance Transport Networks Based on WDM TechnologyADVA
The document discusses WDM (wavelength division multiplexing) technology and ADVA Optical Networking's transport solutions based on WDM. It provides an overview of ADVA's history and product portfolio, including their FSP 3000 optical transport system. The FSP 3000 supports a wide range of applications and services. It offers high density transponder and packet aggregation modules with low latency.
For more details on our products and services, please feel free to visit us at Fiber Optic Patch Cable, Cat6 Patch Cables, Fiber Media Converters, QSFP+ Transceiver, SFP+ Transceiver
For more details :- http://cablexa.com/
The Huawei CloudEngine S6730-S24X6Q switch provides 10GbE and 40GbE connectivity. It has 24 10GbE SFP+ ports and 6 40GbE QSFP+ ports. The switch is designed for high-speed access to servers or as a core/aggregation switch on campus networks. It supports various security, QoS, and management features to help build scalable, manageable, reliable, and secure campus and data center networks. The S6730-S24X6Q comes in different part numbers that have minor differences in software versions and heat dissipation methods.
The Huawei CloudEngine S6730-S24X6Q switch provides 10GbE and 40GbE connectivity. It has 24 10GbE SFP+ ports and 6 40GbE QSFP+ ports. The switch is designed for high-speed access to servers or as a core/aggregation switch on campus networks. It supports various security, QoS, and management features to help build scalable, reliable networks. The S6730-S24X6Q comes in different part numbers that have minor differences in software versions and heat dissipation methods.
A fiber optic patch cord is a cable with connectors at each end to rapidly connect optical switches, CATV equipment, and other telecommunications equipment. Patch cords come in single or multi-fiber versions with connectors selected for the interfacing equipment. They are used to flexibly interconnect active and passive optical devices in applications like datacom networks, broadband networks, and CATV networks.
Optifab International is a leading UK fibre optic manufacturer and supplier based in Milton Keynes. They specialize in manufacturing fibre optic communication and networking products for bespoke and general optical applications. Their product range includes passive infrastructure, active categories like FTTH, patch cords, pigtails, MPO/MTP solutions, pre-terminated fibre, cable, panels, closures, splitters, wall boxes, and test equipment. Optifab aims to provide cost-effective and reliable solutions to clients in different industries.
The document describes a 40-channel DWDM multiplexer/demultiplexer module that aggregates 40 DWDM channels onto a single fiber using athermal arrayed waveguide grating (AWG) technology. It is packaged in a 1U rack-mounted chassis for simple installation and modularity. The module offers low loss and high density to add DWDM capability to networks with monitor ports for troubleshooting and specifications that comply with ITU grid standards.
The 40ch Mux Demux is a high density, low loss and standalone passive optical module that provides excellent solution for infrastructure savings by aggregating all 40 DWDM channels at a single site, offering network equipment manufacturers a more scalable and higher-density solution to add DWDM capability to their existing and new networks with simple pluggable interface.
Have you ever been confused by the myriad of choices offered by AWS for hosting a website or an API?
Lambda, Elastic Beanstalk, Lightsail, Amplify, S3 (and more!) can each host websites + APIs. But which one should we choose?
Which one is cheapest? Which one is fastest? Which one will scale to meet our needs?
Join me in this session as we dive into each AWS hosting service to determine which one is best for your scenario and explain why!
Digital Marketing Trends in 2024 | Guide for Staying AheadWask
https://www.wask.co/ebooks/digital-marketing-trends-in-2024
Feeling lost in the digital marketing whirlwind of 2024? Technology is changing, consumer habits are evolving, and staying ahead of the curve feels like a never-ending pursuit. This e-book is your compass. Dive into actionable insights to handle the complexities of modern marketing. From hyper-personalization to the power of user-generated content, learn how to build long-term relationships with your audience and unlock the secrets to success in the ever-shifting digital landscape.
leewayhertz.com-AI in predictive maintenance Use cases technologies benefits ...alexjohnson7307
Predictive maintenance is a proactive approach that anticipates equipment failures before they happen. At the forefront of this innovative strategy is Artificial Intelligence (AI), which brings unprecedented precision and efficiency. AI in predictive maintenance is transforming industries by reducing downtime, minimizing costs, and enhancing productivity.
Taking AI to the Next Level in Manufacturing.pdfssuserfac0301
Read Taking AI to the Next Level in Manufacturing to gain insights on AI adoption in the manufacturing industry, such as:
1. How quickly AI is being implemented in manufacturing.
2. Which barriers stand in the way of AI adoption.
3. How data quality and governance form the backbone of AI.
4. Organizational processes and structures that may inhibit effective AI adoption.
6. Ideas and approaches to help build your organization's AI strategy.
Dive into the realm of operating systems (OS) with Pravash Chandra Das, a seasoned Digital Forensic Analyst, as your guide. 🚀 This comprehensive presentation illuminates the core concepts, types, and evolution of OS, essential for understanding modern computing landscapes.
Beginning with the foundational definition, Das clarifies the pivotal role of OS as system software orchestrating hardware resources, software applications, and user interactions. Through succinct descriptions, he delineates the diverse types of OS, from single-user, single-task environments like early MS-DOS iterations, to multi-user, multi-tasking systems exemplified by modern Linux distributions.
Crucial components like the kernel and shell are dissected, highlighting their indispensable functions in resource management and user interface interaction. Das elucidates how the kernel acts as the central nervous system, orchestrating process scheduling, memory allocation, and device management. Meanwhile, the shell serves as the gateway for user commands, bridging the gap between human input and machine execution. 💻
The narrative then shifts to a captivating exploration of prominent desktop OSs, Windows, macOS, and Linux. Windows, with its globally ubiquitous presence and user-friendly interface, emerges as a cornerstone in personal computing history. macOS, lauded for its sleek design and seamless integration with Apple's ecosystem, stands as a beacon of stability and creativity. Linux, an open-source marvel, offers unparalleled flexibility and security, revolutionizing the computing landscape. 🖥️
Moving to the realm of mobile devices, Das unravels the dominance of Android and iOS. Android's open-source ethos fosters a vibrant ecosystem of customization and innovation, while iOS boasts a seamless user experience and robust security infrastructure. Meanwhile, discontinued platforms like Symbian and Palm OS evoke nostalgia for their pioneering roles in the smartphone revolution.
The journey concludes with a reflection on the ever-evolving landscape of OS, underscored by the emergence of real-time operating systems (RTOS) and the persistent quest for innovation and efficiency. As technology continues to shape our world, understanding the foundations and evolution of operating systems remains paramount. Join Pravash Chandra Das on this illuminating journey through the heart of computing. 🌟
How to Interpret Trends in the Kalyan Rajdhani Mix Chart.pdfChart Kalyan
A Mix Chart displays historical data of numbers in a graphical or tabular form. The Kalyan Rajdhani Mix Chart specifically shows the results of a sequence of numbers over different periods.
Nunit vs XUnit vs MSTest Differences Between These Unit Testing Frameworks.pdfflufftailshop
When it comes to unit testing in the .NET ecosystem, developers have a wide range of options available. Among the most popular choices are NUnit, XUnit, and MSTest. These unit testing frameworks provide essential tools and features to help ensure the quality and reliability of code. However, understanding the differences between these frameworks is crucial for selecting the most suitable one for your projects.
This presentation provides valuable insights into effective cost-saving techniques on AWS. Learn how to optimize your AWS resources by rightsizing, increasing elasticity, picking the right storage class, and choosing the best pricing model. Additionally, discover essential governance mechanisms to ensure continuous cost efficiency. Whether you are new to AWS or an experienced user, this presentation provides clear and practical tips to help you reduce your cloud costs and get the most out of your budget.
Best 20 SEO Techniques To Improve Website Visibility In SERPPixlogix Infotech
Boost your website's visibility with proven SEO techniques! Our latest blog dives into essential strategies to enhance your online presence, increase traffic, and rank higher on search engines. From keyword optimization to quality content creation, learn how to make your site stand out in the crowded digital landscape. Discover actionable tips and expert insights to elevate your SEO game.
Fueling AI with Great Data with Airbyte WebinarZilliz
This talk will focus on how to collect data from a variety of sources, leveraging this data for RAG and other GenAI use cases, and finally charting your course to productionalization.
Generating privacy-protected synthetic data using Secludy and MilvusZilliz
During this demo, the founders of Secludy will demonstrate how their system utilizes Milvus to store and manipulate embeddings for generating privacy-protected synthetic data. Their approach not only maintains the confidentiality of the original data but also enhances the utility and scalability of LLMs under privacy constraints. Attendees, including machine learning engineers, data scientists, and data managers, will witness first-hand how Secludy's integration with Milvus empowers organizations to harness the power of LLMs securely and efficiently.
Skybuffer SAM4U tool for SAP license adoptionTatiana Kojar
Manage and optimize your license adoption and consumption with SAM4U, an SAP free customer software asset management tool.
SAM4U, an SAP complimentary software asset management tool for customers, delivers a detailed and well-structured overview of license inventory and usage with a user-friendly interface. We offer a hosted, cost-effective, and performance-optimized SAM4U setup in the Skybuffer Cloud environment. You retain ownership of the system and data, while we manage the ABAP 7.58 infrastructure, ensuring fixed Total Cost of Ownership (TCO) and exceptional services through the SAP Fiori interface.
Driving Business Innovation: Latest Generative AI Advancements & Success StorySafe Software
Are you ready to revolutionize how you handle data? Join us for a webinar where we’ll bring you up to speed with the latest advancements in Generative AI technology and discover how leveraging FME with tools from giants like Google Gemini, Amazon, and Microsoft OpenAI can supercharge your workflow efficiency.
During the hour, we’ll take you through:
Guest Speaker Segment with Hannah Barrington: Dive into the world of dynamic real estate marketing with Hannah, the Marketing Manager at Workspace Group. Hear firsthand how their team generates engaging descriptions for thousands of office units by integrating diverse data sources—from PDF floorplans to web pages—using FME transformers, like OpenAIVisionConnector and AnthropicVisionConnector. This use case will show you how GenAI can streamline content creation for marketing across the board.
Ollama Use Case: Learn how Scenario Specialist Dmitri Bagh has utilized Ollama within FME to input data, create custom models, and enhance security protocols. This segment will include demos to illustrate the full capabilities of FME in AI-driven processes.
Custom AI Models: Discover how to leverage FME to build personalized AI models using your data. Whether it’s populating a model with local data for added security or integrating public AI tools, find out how FME facilitates a versatile and secure approach to AI.
We’ll wrap up with a live Q&A session where you can engage with our experts on your specific use cases, and learn more about optimizing your data workflows with AI.
This webinar is ideal for professionals seeking to harness the power of AI within their data management systems while ensuring high levels of customization and security. Whether you're a novice or an expert, gain actionable insights and strategies to elevate your data processes. Join us to see how FME and AI can revolutionize how you work with data!
Ivanti’s Patch Tuesday breakdown goes beyond patching your applications and brings you the intelligence and guidance needed to prioritize where to focus your attention first. Catch early analysis on our Ivanti blog, then join industry expert Chris Goettl for the Patch Tuesday Webinar Event. There we’ll do a deep dive into each of the bulletins and give guidance on the risks associated with the newly-identified vulnerabilities.
Introduction of Cybersecurity with OSS at Code Europe 2024Hiroshi SHIBATA
I develop the Ruby programming language, RubyGems, and Bundler, which are package managers for Ruby. Today, I will introduce how to enhance the security of your application using open-source software (OSS) examples from Ruby and RubyGems.
The first topic is CVE (Common Vulnerabilities and Exposures). I have published CVEs many times. But what exactly is a CVE? I'll provide a basic understanding of CVEs and explain how to detect and handle vulnerabilities in OSS.
Next, let's discuss package managers. Package managers play a critical role in the OSS ecosystem. I'll explain how to manage library dependencies in your application.
I'll share insights into how the Ruby and RubyGems core team works to keep our ecosystem safe. By the end of this talk, you'll have a better understanding of how to safeguard your code.
Ocean lotus Threat actors project by John Sitima 2024 (1).pptxSitimaJohn
Ocean Lotus cyber threat actors represent a sophisticated, persistent, and politically motivated group that poses a significant risk to organizations and individuals in the Southeast Asian region. Their continuous evolution and adaptability underscore the need for robust cybersecurity measures and international cooperation to identify and mitigate the threats posed by such advanced persistent threat groups.
Ocean lotus Threat actors project by John Sitima 2024 (1).pptx
Catalog transceivers v4 Gbic
1. 1
For enquires please email to sales@starviewint.com
www.starviewint.com
www.starviewint.com>
Transceivers
2. 2
For enquires please email to sales@starviewint.com
www.starviewint.com
Starview International Private Limited (SVI), a Singapore based
company, is a regional distributor of Optical + Ethernet (O+E)
solutions in the Transmission and Access networks. SVI works
closely with resellers to provide networking solutions to Service
Providers, Enterprises and Industrial Customers.
Starview Product
SVI manufactures her own range of Starview branded products
such as Optical Transceivers, Optical Splitters and Optical acces-
sories. SVI optical transceiver modules complies to MSA and
are re-programmable to work with various leading equipment
vendors. SVI products help customers to provide an efficient and
effective networking solution altogether.
For sales and enquires,Please email to
sales@starviewint.com
For technical support,Please email to
support@starviewint.com
We look forward to hear from you.
Starview International Pte Ltd
Singapore: 60 Kaki Bukit Place
#05-19 Eunos Techpark
Singapore 415979
Tel: +65 3157 5338
Fax: +65 6836 0294
Copyright @ Starview International.All Rights Reserved 201019134E
Ver2014
To know more about our products
and services, please contact
starview or visit our website at:
www.starviewint.com
About
Starview International
Value-Added Resellers
3. 3
For enquires please email to sales@starviewint.com
www.starviewint.com
SVI has created its own recipe to provide customers with a reliable and quality product which
had undergone stringent inspection according to industry standard specifications . Our very own
Optical Transceiver Pluggable Modules possess a superb strength of compatability and excellent
performance. Despite competitive pricing, we do not compromise on the quality of our product
with the stringent quality control from our in-house quality management team. With customer
friendly order handling process and on-time delivery, we ensure satisfaction and confidence from
our customers
Transceivers for Datacom and Telecom Applications
Starview’s broad product selection and innovative technology have made us the optical module manufacturer of choice for all major
networking equipment vendors worldwide. We have taken a leading role in transforming the datacommunications and telecommunica-
tions equipment market from utilizing discrete optical components to leveraging the design and pay-as-you-grow flexibility offered by
pluggable modules. Our products are fully compliant with Ethernet, Fibre Channel, SONET/SDH/OTN and PON standards and operate at
data rates up to 100 Gb/s. They are capable of distances ranging from very short reach within a datacenter to campus, access, metro,
and long-haul reaches. They feature outstanding performance over extended voltage and temperature ranges, while minimizing jitter,
electromagnetic interference (EMI) and power dissipation.
Starview’s Digital Diagnostics Monotoring
Starview’s XFP, X2, XENPAK, SFP, SFP+, GBIC,QSFP and CFP transceivers feature a microprocessor and diagnostics interface that pro-
vides performance information on the data link. Users can remotely monitor -in real-time- received optical power, transmitted optical
power, laser bias current, transceiver input voltage and transceiver temperature of starview transceiver in the network. These digital diag-
nostic functions provide network managers with a highly accurate, cost-effective tool for implementing reliable performance monitoring.
Transceivers
PRODUCTS SUMMARY
DESCRIPTION
PRODUCTS SUMMARY
SFP
-Copper SFP Modules
-Dual Fiber Strands SFP Modules
-CWDM Dual Fiber Strands SFP Modules
-DWDM Dual Fiber Strands SFP Modules
-Single Fiber Strand SFP Modules
-SGMII SFP Modules
SFP+
-Copper SFP+ Modules
-Dual Fiber Strands SFP+ Modules
-Single Fiber Strand SFP+ Modules
-CWDM Dual Fiber Strands SFP+ Modules
-DWDM Dual Fiber Strands SFP+ Modules
GBIC
-Copper GBICModules
-Dual Fiber Strands GBICModules
-CWDM Dual Fiber Strands GBICModules
-Single Fiber Strand GBICModules
X2
-Dual Fiber StrandsX2 Modules
-CWDM Dual Fiber StrandsX2 Modules
-DWDM Dual Fiber StrandsX2 Modules
XENPAK
-Dual Fiber StrandsXENPAK Modules
-CWDM Dual Fiber StrandsXENPAK Modules
-DWDM Dual Fiber StrandsXENPAK Modules
XFP
-Dual Fiber StrandsXFP Modules
-CWDM Dual Fiber StrandsXFP Modules
-DWDM Dual Fiber StrandsXFP Modules
-Single Fiber StrandXFP Modules
QSFP
-Copper QSFP+ Modules
-Dual Fiber Strands QSFP Modules
CFP
-Fiber CFP Modules
Backbone
Metro
Access
LAN
Backbone
Coast to Coast
All over fiber at 40 Gbps & above
City to City - Town to Town
All cover Fiber at 1 Gbps to 10 Gbps
to the Optically Fibered World
“First Mile / Last Mile” 100 Mbps to 10 Gbps
Desktop to Desktop - Floor to Floor
10 Mbps to 1 Gbps
4. 4
For enquires please email to sales@starviewint.com
www.starviewint.com
Equipment where Starview Transceiver Modules have deployed
- CISCO
- Juniper
- Alcatel Lucent
- Extreme Networks
- Force 10
- Huawei
- HP
- H3C
- Arista Networks
- Transition Networks
- ADVA Optical Networking
- BTI
- Intel
- EXFO
- JDSU
- ATI
- Tellabs
- Nortel Networks
- Netscout
- Adtran
- Brocade
- Ericsson
- RAD
- and many more...
Transceivers
PRODUCTS SUMMARY
PRODUCTS SUMMARY
SFP
-Copper SFP Modules
-Dual Fiber Strands SFP Modules
-CWDM Dual Fiber Strands SFP Modules
-DWDM Dual Fiber Strands SFP Modules
-Single Fiber Strand SFP Modules
-SGMII SFP Modules
SFP+
-Copper SFP+ Modules
-Dual Fiber Strands SFP+ Modules
-Single Fiber Strand SFP+ Modules
-CWDM Dual Fiber Strands SFP+ Modules
-DWDM Dual Fiber Strands SFP+ Modules
GBIC
-Copper GBICModules
-Dual Fiber Strands GBICModules
-CWDM Dual Fiber Strands GBICModules
-Single Fiber Strand GBICModules
X2
-Dual Fiber StrandsX2 Modules
-CWDM Dual Fiber StrandsX2 Modules
-DWDM Dual Fiber StrandsX2 Modules
XENPAK
-Dual Fiber StrandsXENPAK Modules
-CWDM Dual Fiber StrandsXENPAK Modules
-DWDM Dual Fiber StrandsXENPAK Modules
XFP
-Dual Fiber StrandsXFP Modules
-CWDM Dual Fiber StrandsXFP Modules
-DWDM Dual Fiber StrandsXFP Modules
-Single Fiber StrandXFP Modules
QSFP
-Copper QSFP+ Modules
-Dual Fiber Strands QSFP Modules
CFP
-Fiber CFP Modules
Starview Advantages
Online Transceiver Compatible Tool
Online Tool to help select an equivalent Starview Transceiver part number
Simply enter the original manufacturer part number
Equivalent Starview Part number will appear
Order via email and pay via paypal
Please visit our website at: http://starviewint.com/starview/index.php
ReliableReliable
Dedicated
After-Sales
Service
Dedicated
After-Sales
Service
Multi-Vendor
Support
Multi-Vendor
Support
Fast
Lead Time
Fast
Lead Time
Competitive
Competitive
5. 5
For enquires please email to sales@starviewint.com
www.starviewint.com
SFP
-Copper SFP Modules
-Dual Fiber Strands SFP Modules
-CWDM Dual Fiber Strands SFP Modules
-DWDM Dual Fiber Strands SFP Modules
-Single Fiber Strand SFP Modules
-SGMII SFP Modules
SFP (small form factor pluggable) transceivers are hot-swappable in industry-standard cages and connectors, and offer high-speed
performance in a compact package. SFP is used for data rates up to 4 Gb/s and DWDM.
• Hot-Pluggable SFP Footprint
• Duplex/ Simplex LC Optical Transceiver
• Digital Diagnostic Function (optional)
• Class 1 Laser International Safety
• Standard IEC-60825 Compliant
• Compatible with SFP Multi-Sourcing Agreement (MSA)
• Copper SFP Modules
• Dual Fiber Strands SFP Modules
• CWDM Dual Fiber Strands SFP Modules
• C and L Band DWDM Dual Fiber Strands SFP Modules
• Single Fiber Strand (Bi-Di) SFP Modules
• Gigabit Ethernet Switches and Routers
• Metro Edge Switching
• 100Base-FX Ethernet
• ESCON
• 1G/ 2G/ 4G/ 8G Fiber channel
• FICON
• OC-3 to OC-48
Transceivers
SFP
DESCRIPTION
FEATURES
SPECIFICATIONS
FEATURES
PRODUCTS
TECHNICAL DATA
REFERENCE SUMMARY
PRODUCTS CATEGORY
Dual Fiber Strands SFP Modules Single Fiber Strand SFP Modules Copper SFP Modules
Stap 1 Stap 2
Standards
Dimensions
Power
Power Consumption
Connector Type
Environment
Compliance
Warranty
IEEE 802.3 2003; ANSI X3.297-1997
Width: 0.52” [13 mm] Depth: 2.18” [55 mm] Height: 0.33” [8 mm]
3.3V
0.66 Watts (fiber) 1.0 Watts (copper)
LC
SFP -40°C – 85°C; 0°C – 70°C
IEC-60825; FDA 21;CFR 1040.10 and 1040.11
2 year
SPECIFICATIONS
Stap 1 : Open the bale clasp on the SFP module with your index finger in a downward direction
Stap 2 : Grasp the SFP module between your thumb and index finger, and carefully remove it
from the switching module port
6. 6
For enquires please email to sales@starviewint.com
www.starviewint.com
Transceivers
SFP
•Copper SFP Modules
•Dual Fiber Strands SFP
Modules
•Single Fiber Strand SFP
Modules
•CWDM Dual Fiber Strands
SFP Modules
•C and L Band DWDM Dual
Fiber Strands SFP Modules
DateRate Part Number Type Wavelength Distance
(km)
TX Power
(dBm)
RX Sens.
(dBm)
Fiber Budget
(dB)
SV-SFP-OC3T1
SV-SFP-OC3T2
SV-SFP-T1
SV-SFP-T2
10/100Mb/s
100Mb/s
10/100/1000Mb/s
1000Mb/s
0.1
0.1
0.1
0.1
Copper SFP Modules
DateRate Part Number Type Wavelength Distance
(km)
TX Power
(dBm)
RX Sens.
(dBm)
Fiber Budget
(dB)
SV-SFP-OC3M8D
SV-SFP-OC3MD
SV-SFP-OC3SD2
SV-SFP-OC3SD4
SV-SFP-OC3SD8
SV-SFP-OC3SD12
SV-SFP-OC3SD16
SV-SFP-OC12SD2
SV-SFP-OC12SD4
SV-SFP-OC12SD8
SV-SFP-OC12SD12
SV-SFP-SXD
SV-SFP-LXD1
SV-SFP-LXD2
SV-SFP-LXD4
SV-SFP-ZXD6
SV-SFP-ZXD8
SV-SFP-ZXD12
100Mb/s
(FE / STM-1 / OC-3)
622 Mb/s
(STM-4 / OC-12)
1.25 Gb/s
(Gbe / FC)
Available with options of Industrial temperature and / or No DDM
-10 to -4
-20 to -14
-14 to -8
-5 to 0
-5 to 0
0 to 5
1 to 5
-15 to -8
-3 to 2
-3 to 2
0 to 5
-9.5 to -3.5
-9 to -3
-9 to -3
-5 to 0
0 to 5
0 to 5
0 to 5
-25 to -3
-31 to -3
-32 to -3
-34 to -3
-34 to -3
-34 to -9
-37 to -10
-28 to -3
-28 to -8
-28 to -3
-31 to -9
-18 to 0
-23 to -3
-23 to -3
-23 to -3
-23 to -3
-23 to -3
-31 to -9
12
8
18
29
29
34
36
13
25
25
31
5.5
14
14
17
23
23
31
850nm
1310nm
1310nm
1310nm
1550nm
1550nm
1550nm
1310nm
1310nm
1550nm
1550nm
850nm
1310nm
1310nm
1310nm
1550nm
1550nm
1550nm
2
2
20
40
80
120
160
20
40
80
120
0.22
10
20
40
60
80
120
MM
MM
SM
SM
SM
SM
SM
SM
SM
SM
SM
MM
SM
SM
SM
SM
SM
SM
Dual Fiber Strands SFP Modules
7. 7
For enquires please email to sales@starviewint.com
www.starviewint.com
•Copper SFP Modules
•Dual Fiber Strands SFP
Modules
•Single Fiber Strand SFP
Modules
•CWDM Dual Fiber Strands
SFP Modules
•C and L Band DWDM Dual
Fiber Strands SFP Modules
Transceivers
SFP
Available with options of Industrial temperature and / or No DDM
DateRate Part Number Type Wavelength Distance
(km)
TX Power
(dBm)
RX Sens.
(dBm)
Fiber Budget
(dB)
SV-SFP-2FCDSX
SV-SFP-2FCLX1D
SV-SFP-2FCLX2D
SV-SFP-2FCLX4D
SV-SFP-2FCLX8D
SV-SFP-OC48SXD
SV-SFP-OC48LXD2
SV-SFP-OC48LXD4
SV-SFP-OC48ZXD4
SV-SFP-OC48ZXD8
SV-SFP-2GSXD
SV-SFP-2GLXD1
SV-SFP-2GLXD2
SV-SFP-2GZXD4
SV-SFP-2GZXD8
SV-SFP-4GSXD
SV-SFP-4GESXD
SV-SFP-4GLXD1
SV-SFP-4GLXD2
SV-SFP-4GLXD4
SV-SFP-4GLXD5
SV-SFP-4GLXD8
Multi-rate
100Mb/s to
2.488 Gb/s
Multi-rate
100Mb/s to
4.25Gb/s
-10 to -3
-10 to -3
-5 to 0
-2 to 3
-2 to 3
-9 to -3
-5 to 0
-2 to 3
-2 to 3
-2 to 3
-10 to -3
-5 to 0
-5 to 0
-2 to 3
-2 to 3
-9 to -2.5
-8 to 0
-8 to 0
0 to 5
0 to 5
0 to 5
2 to 5
-18 to -3
-18 to -3
-18 to -3
-28 to -9
-28 to -9
-18 to -3
-18 to -3
-28 to -9
-28 to -9
-28 to -9
-18 to -3
-18 to -3
-18 to -3
-18 to -3
-28 to -9
-15 to 0
-28 to -18
-28 to -18
-28 to -18
-28 to -18
-28 to -18
-35 to -25
5
8
13
26
26
5
1
26
26
26
15
13
13
16
26
3
7
20
28
28
28
37
850nm
1310nm
1310nm
1310nm
1550nm
850nm
1310nm
1310nm
1550nm
1550nm
1550nm
1310nm
1310nm
1310nm
1550nm
850nm
1300nm
1310nm
1310nm
1550nm
1550nm
1550nm
0.3
10
20
40
80
0.3
20
40
40
80
2
10
20
40
80
0.55
2
10
20
40
50
80
MM
SM
SM
SM
SM
MM
SM
SM
SM
SM
MM
SM
SM
SM
SM
MM
MM
MM
SM
SM
SM
SM
Dual Fiber Strands SFP Modules
2.125Gb/s
(2FC)
2.5 Gb/s
(STM-16 / OC-48)
8. 8
For enquires please email to sales@starviewint.com
www.starviewint.com
TransceiversTransceivers
SFP
DateRate Part Number Type Wavelength Distance
(km)
TX Power
(dBm)
RX Sens.
(dBm)
Fiber Budget
(dB)
SV-SFP-OC3SD21
SV-SFP-OC3SD22
SV-SFP-OC3SD41
SV-SFP-OC3SD42
SV-SFP-OC3SD61
SV-SFP-OC3SD62
SV-SFP-OC3SD81
SV-SFP-OC3SD82
SV-SFP-OC3SD153
SV-SFP-OC3SD154
SV-SFP-ESXD1
SV-SFP-ESXD2
SV-SFP-LXD11
SV-SFP-LXD12
SV-SFP-LXD13
SV-SFP-LXD14
SV-SFP-LXD21
SV-SFP-LXD22
SV-SFP-LXD23
SV-SFP-LXD24
SV-SFP-LXD41
SV-SFP-LXD42
SV-SFP-LXD43
SV-SFP-LXD44
SV-SFP-LXD85
SV-SFP-LXD86
SV-SFP-LXD125
SV-SFP-LXD126
SV-SFP-LXD145
SV-SFP-LXD146
1.25 Gb/s
(Gbe)
-14 to -8
-14 to -8
-5 to 0
-5 to 0
-3 to +3
-3 to +3
-5 to 0
-5 to 0
0 to 5
0 to 5
-10 to -4
-10 to -4
-9 to 3
-9 to 3
-9 to 3
-9 to 3
-9 to 3
-9 to 3
-9 to 3
-9 to 3
-5 to 0
-5 to 0
-5 to 0
-5 to 0
-2 to 3
-2 to 3
0 to 5
0 to 5
0 to 5
0 to 5
-32 to -3
-32 to -3
-32 to -3
-32 to -3
-32 to -3
-32 to -3
-32 to -3
-32 to -3
-32 to -3
-32 to -3
-22 to -3
-22 to -3
-23 to -3
-23 to -3
-23 to -3
-23 to -3
-23 to -3
-23 to -3
-23 to -3
-23 to -3
-23 to -3
-23 to -3
-23 to -3
-23 to -3
-25 to -3
-25 to -3
-30 to -9
-30 to -9
-30 to -9
-30 to -9
20
20
27
27
29
29
27
27
32
32
9
9
14
14
14
14
14
14
14
14
19
19
19
19
23
23
30
30
30
30
1310 TX 1550 RX
1550 TX 1310 RX
1310 TX 1550 RX
1550 TX 1310 RX
1310 TX 1550 RX
1550 TX 1310 RX
1490 TX 1550 RX
1550 TX 1490 RX
1490 TX 1550 RX
1550 TX 1490 RX
1310 TX 1550 RX
1550 TX 1310 RX
1310 TX 1550 RX
1550 TX 1310 RX
1310 TX 1490 RX
1490 TX 1310 RX
1310 TX 1550 RX
1550 TX 1310 RX
1310 TX 1490 RX
1490 TX 1310 RX
1310 TX 1550 RX
1550 TX 1310 RX
1310 TX 1490 RX
1490 TX 1310 RX
1550 TX 1490 RX
1490 TX 1550 RX
1550 TX 1490 RX
1490 TX 1550 RX
1550 TX 1490 RX
1490 TX 1550 RX
20
20
40
40
60
60
80
80
150
150
2
2
10
10
10
10
20
20
20
20
40
40
40
40
80
80
120
120
140
140
SM
SM
SM
SM
SM
SM
SM
SM
SM
SM
MM
MM
SM
SM
SM
SM
SM
SM
SM
SM
SM
SM
SM
SM
SM
SM
SM
SM
SM
SM
Single Fiber Strand SFP Modules
100Mb/s
(FE / STM-1 / OC-3)
•Copper SFP Modules
•Dual Fiber Strands SFP
Modules
•Single Fiber Strand SFP
Modules
•CWDM Dual Fiber Strands
SFP Modules
•C and L Band DWDM Dual
Fiber Strands SFP Modules
9. 9
For enquires please email to sales@starviewint.com
www.starviewint.com
TransceiversTransceivers
SFP
DateRate Part Number Type Wavelength Distance
(km)
TX Power
(dBm)
RX Sens.
(dBm)
Fiber Budget
(dB)
SV-SFP-1GLXD41
SV-SFP-1GLXD42
SV-SFP-1GLXD81
SV-SFP-1GLXD82
SV-SFP-2GLXD21
SV-SFP-2GLXD22
SV-SFP-2GLXD25
SV-SFP-2GLXD26
SV-SFP-2GLXD41
SV-SFP-2GLXD42
SV-SFP-2GLXD45
SV-SFP-2GLXD46
SV-SFP-2GLXD83
SV-SFP-2GLXD84
SV-SFP-2GLXD85
SV-SFP-2GLXD86
0 to -5
0 to -5
0 to 5
0 to 5
-5 to 0
-5 to 0
-3 to +3
-5 to 0
-2 to 3
-2 to 3
-2 to 3
-2 to 3
0 to 5
0 to 5
0 to 5
0 to 5
-23 to -3
-23 to -3
-28 to -9
-37 to -10
-18 to -3
-18 to -3
-18 to -3
-18 to -3
-18 to 0
-18 to 0
-18 to 0
-18 to 0
-28 to -9
-28 to -9
-28 to -9
-28 to -9
23
23
28
28
13
13
13
13
16
16
16
16
28
28
28
28
1310 TX 1550 RX
1550 TX 1310 RX
1310 TX 1550 RX
1550 TX 1310 RX
1310 TX 1550 RX
1550 TX 1310 RX
1550 TX 1490 RX
1490 TX 1550 RX
1310 TX 1550 RX
1550 TX 1310 RX
1550 TX 1490 RX
1490 TX 1550 RX
1490 TX 1550 RX
1550 TX 1490 RX
1490 TX 1550 RX
1550 TX 1490 RX
40
40
80
80
20
20
20
20
40
40
40
40
80
80
80
80
SM
SM
SM
SM
SM
SM
SM
SM
SM
SM
SM
SM
SM
SM
SM
SM
Single Fiber Strand SFP Modules
Multi-rate
100Mb/s to 1.25Gb/s
Multi-rate
100Mb/s to 2.67Gb/s
DateRate Part Number Type Wavelength Distance
(km)
TX Power
(dBm)
RX Sens.
(dBm)
Fiber Budget
(dB)
SV-SFP-OC3SD12C##
SV-SFP-OC3SD16C##
SV-SFP-ZXD4C##
SV-SFP-ZXD8C##
SV-SFP-ZXD12C##
SV-SFP-1GZX8CD##
SV-SFP-2GZX4CD##
SV-SFP-2GZX8CD##
SV-SFP-4GZXD4C##
SV-SFP-4GZXD8C##
100Mb/s
(FE / STM-1 / OC-3)
1.25 Gb/s
(Gbe / FC)
Multi-rate
100Mb/s~1.25 Gb/s
Multi-rate
100Mb/s~2.488 Gb/s
Multi-rate
100Mb/s~4.25Gb/s
120
160
40
80
120
80
40
80
40
80
CWDM Dual Fiber Strands SFP Modules
0 to 5
1 to 5
-5 to 0
0 to 5
0 to 5
0 to 5
-5 to 2
0 to 5
0 to 5
2 to 5
-25 to -3
-31 to -3
-24 to -3
-23 to -3
-31 to -9
-24 to -3
-28 to -3
-30 to -9
-28 to -18
-28 to -18
12
8
19
23
31
24
23
30
28
30
1450nm ~ 1610nm
1450nm ~ 1610nm
1270nm ~ 1610nm
1450nm ~ 1610nm
1450nm ~ 1610nm
1470nm ~ 1610nm
1270nm ~ 1610nm
1470nm ~ 1610nm
1470nm ~ 1610nm
1270nm ~ 1610nm
SM
SM
SM
SM
SM
SM
SM
SM
SM
SM
Available with option of No DDM ## denotes wavelength range from 1270~1610nm.
27 = 1270nm, 29=1290nm, 31=1310nm, 33=1330nm, 35=1350nm, 37=1370nm, 39=1390nm, 41=1410nm, 43=1430nm,
45=1450nm, 47=1470nm, 49=1490nm, 51=1510nm, 53=1530nm, 55=1550nm,57=1570nm, 59=1590nm, 61=1610nm
•Copper SFP Modules
•Dual Fiber Strands SFP
Modules
•Single Fiber Strand SFP
Modules
•CWDM Dual Fiber
Strands SFP Modules
•C and L Band DWDM Dual
Fiber Strands SFP Modules
11. 11
For enquires please email to sales@starviewint.com
www.starviewint.com
SFP+(Enhanced SFP) is a standardized form factor for fiber optic transceivers and is used in datacom and telecom optical links, offering
a smaller footprint and lower power consumption than XFP transceivers. Initial standard applications focused on 8G Fibre Channel, 10G
Ethernet and 10G Fibre Channel, where the electrical interface to the host board is a standardized serial interface called SFI. The ap-
plications have expanded to include SONET OC-192, SDH STM-64, OTN G.709, CPRI wireless, 16G Fibre Channel, and the emerging
32G Fibre Channel application.
• Hot-Pluggable SFP+ Footprint
• Duplex/ Simplex LC Optical Transceiver
• Digital Diagnostic Function
• Class 1 Laser International Safety
• Standard IEC-60825 Compliant
• Compatible with SFP+ Multi-Sourcing Agreement (MSA)
• Dual Fiber Strands SFP+ Modules
• CWDM Dual Strands SFP+ Modules
• C Band DWDM Dual Fiber Strands SFP+ Modules
• Single Fiber Strand (Bi-Di) SFP+ Modules
• OC192/ STM64, 9.953Gbps
• 10G Ethernet, 10.312Gbps
• 1000 Base-LX Ethernet
• 8XFC at 8.5Gbps
• 4XFC at 4.25Gpbs
• 2XFC at 2.125Gpbs
• 1xFC at 1.0625Gbps
• Other optical links
Transceivers
SFP+
DESCRIPTION
FEATURES
SPECIFICATIONS
APPLICATIONS
PRODUCTS
TECHNICAL DATA
REFERENCE SUMMARY
PRODUCTS CATEGORY
Stap 1 Stap 2
Standards
Dimensions
Power
Power Consumption
Connector Type
Environment
Compliance
Warranty
IEEE 802.3 2003; ANSI X3.297-1997
Width: 0.52” [13 mm] Depth: 2.18” [55 mm] Height: 0.33” [8 mm]
3.3V
0.66 Watts (fiber) 1.0 Watts (copper)
LC
SFP+ -40°C – 85°C; 0°C – 70°C
IEC-60825; FDA 21;CFR 1040.10 and 1040.11
2 year
SPECIFICATIONS
Stap 1 : Open the bale clasp on the SFP module with your index finger in a downward direction
Stap 2 : Grasp the SFP module between your thumb and index finger, and carefully remove it
from the switching module port
SFP+
-Copper SFP+ Modules
-Dual Fiber Strands SFP+ Modules
-Single Fiber Strand SFP+ Modules
-CWDM Dual Fiber Strands SFP+ Modules
-DWDM Dual Fiber Strands SFP+ Modules
Dual Fiber Strands SFP Modules Single Fiber Strand SFP Modules Copper SFP+ Modules
12. 12
For enquires please email to sales@starviewint.com
www.starviewint.com
TransceiversTransceivers
SFP+
DateRate
DateRate
Part Number
Part Number
Type
Type
Wavelength
Wavelength
Length
(m)
Distance
(km)
TX Power
(dBm)
TX Power
(dBm)
RX Sens.
(dBm)
RX Sens.
(dBm)
Fiber Budget
(dB)
SV-SFPP-10GT1-T1-1M
SV-SFPP-10GT1-T1-3M
SV-SFPP-10GT1-T1-5M
SV-SFPP-10GT1-T1-7M
SV-SFPP-10GT1-T1-10M
SV-SFPP-8GSR
SV-SFPP-8GESR
SV-SFPP-8GLR1
SV-SFPP-8GLR2
SV-SFPP-8GER4
SV-SFPP-8GZR8
SV-SFPP-10GSR
SV-SFPP-10GESR
SV-SFPP-10GLR
SV-SFPP-10GLR1
SV-SFPP-10GLR2
SV-SFPP-10GERD4
SV-SFPP-10GERD8
-6.5 to -1
-10.6 to 0.5
-8.4 to 0.5
-6 to 0.5
0 to 3
0 to 4
-6.5 to -1
-6.5 to -0.5
-8.2 to 0.5
-8.2 to 0.5
-9.5 to -3.5
0 to 4
0 to 3
-11.5 to -1
-18 to -0.5
-15 to 0.5
-14.4 to -1
-15 to 0.5
-24 to 0.5
-11.1 to -1
-11 to -1
-14.4 to 0.5
-14.4 to 0.5
-14.4 to 0.5
-21 to -8
-24 to -8
850nm
1300nm
1310nm
1310nm
1550nm
1550nm
850nm
1300nm
1310nm
1310nm
1310nm
1550nm
1550nm
1
3
5
7
10
0.15
2
10
20
40
80
0.3
0.22
2
10
20
40
80
MM
MM
SM
SM
SM
SM
MM
MM
SM
SM
SM
SM
SM
Copper SFP+ Modules
Dual Fiber Strands SFP+ Modules
Fiber Channel
1/ 2/ 4/ 8 (FC)
1/10 GbE
1/ 2/ 4/ 8 (FC)
1/10 GbE
1/ 2/ 4/ 8 (FC)
•Copper SFP+ Modules
•Dual Fiber Strands SFP+
Modules
•Single Fiber Strand SFP+
Modules
•CWDM Dual Fiber Strands
SFP+ Modules
•C and L Band DWDM Dual
Fiber Strands SFP+ Modules
Available with options of Industrial temperature and / or No DDM
13. 13
For enquires please email to sales@starviewint.com
www.starviewint.com
DateRate Part Number Type Wavelength Distance
(km)
TX Power
(dBm)
RX Sens.
(dBm)
Fiber Budget
(dB)
SV-SFPP-10GLR11
SV-SFPP-10GLR12
SV-SFPP-10GLR21
SV-SFPP-10GLR22
SV-SFPP-10GLR41
SV-SFPP-10GLR42
SV-SFPP-10GLR51
SV-SFPP-10GLR52
-8.2 to 0.5
-8.2 to 0.5
-2 to 2
-2 to 2
1 to 5
1 to 5
1 to 5
1 to 5
-14.1 to 0.5
-14.1 to 0.5
-14.1 to 0.5
-14.1 to 0.5
-20 to -7
-20 to -7
-20 to -7
-20 to -7
5.9
5.9
12.5
12.5
19
19
24
24
1270 TX 1330 RX
1330 TX 1270 RX
1270 TX 1330 RX
1330 TX 1270 RX
1270 DFB TX/ 1330 RX
1330 DFB TX/ 1270 RX
1270 DFB TX 1330 APD RX
1330 DFB TX 1270 APD RX
10
10
20
20
40
40
50
50
SM
SM
SM
SM
SM
SM
SM
SM
Single Fiber Strand SFP+ Modules
1/10 GbE
1/ 2/ 4/ 8 (FC)
Available with options of Industrial temperature and / or No DDM
TransceiversTransceivers
SFP+
DateRate
DateRate
Part Number
Part Number
Type
Type
Wavelength
Wavelength
Distance
(km)
Distance
(km)
TX Power
(dBm)
TX Power
(dBm)
RX Sens.
(dBm)
RX Sens.
(dBm)
Fiber Budget
(dB)
Fiber Budget
(dB)
SV-SFPP-8GERD4C##
SV-SFPP-8GERD8C##
SV-SFPP-10GERD4C##
SV-SFPP-10GERD8C##
SV-SFPP-10GERD4D##
SV-SFPP-10GERD8D##
-1 to 2
0 to 3
-1 to 2
0 to 3
-1 to 3
-1 to 3
-15.8 to -1
-24.5 to -7
-14.1 to -1
-24.5 to -7
-14.1 to -1
-14.1 to -1
14.8
24.5
13.1
24.5
13.1
23
1450nm ~ 1610nm
1450nm ~ 1610nm
1270nm ~ 1610nm
1450nm ~ 1610nm
DWDM Wavelength
DWDM Wavelength
40
80
40
80
40
80
SM
SM
SM
SM
SM
SM
CWDM Dual Fiber Strands SFP+ Modules
C and L Band DWDM Dual Fiber Strands SFP+ Modules
1 / 10GbE
1/ 2/ 4/ 8 (FC)
1 / 10GbE
1/ 2/ 4/ 8 (FC)
•Copper SFP+ Modules
•Dual Fiber Strands SFP+
Modules
•Single Fiber Strand SFP+
Modules
•CWDM Dual Fiber Strands
SFP+ Modules
•C and L Band DWDM
Dual Fiber Strands SFP+
Modules
Available with option of No DDM ## denotes wavelength range from 1270~1610nm.
27 = 1270nm, 29=1290nm, 31=1310nm, 33=1330nm, 35=1350nm, 37=1370nm, 39=1390nm, 41=1410nm, 43=1430nm,
45=1450nm, 47=1470nm, 49=1490nm, 51=1510nm, 53=1530nm, 55=1550nm,57=1570nm, 59=1590nm, 61=1610nm
## denotes DWDM Wavelength Guide on page 23
Fiber Channel
1/ 2/ 4/ 8 (FC)
14. 14
For enquires please email to sales@starviewint.com
www.starviewint.com
A gigabit interface converter (GBIC) is a standard for transceivers, commonly used with Gigabit Ethernet and fibre channel in the 2000s.
By offering a standard, hot swappable electrical interface, one gigabit port can support a wide range of physical media, from copper to
long-wave single-mode optical fiber, at lengths of tens of kilometers.
• Laser Class 1 Product
• Compliant with 802.3z 1000BASE-SX;
• 1000BASE-LX
• Plug-and-Play module
• Hot-swappable
• TTL Logic Interface
• Copper GBIC Modules
• Dual Fiber Strands GBIC Modules
• CWDM Dual Fiber Strands GBIC Modules
• Single Fiber Strand (Bi-Di) GBIC Modules
• Gigabit Ethernet
• 1G Fiber channel
Transceivers
GBIC
DESCRIPTION
FEATURES
SPECIFICATIONS
APPLICATIONS
PRODUCTS
TECHNICAL DATA
REFERENCE SUMMARY
PRODUCTS CATEGORY
Standards
Dimensions
Power
Power Consumption
Connector Type
Environment
Compliance
Warranty
IEEE 802.3z 1000BASE-SX; 1000BASE-LX
Width: 1.2” [30 mm] Depth: 2.6” [65 mm] Height: 0.40” [10 mm]
5V, no external power required
0.8 Watts
SC
0°C – 70°C
UL Registered, CSA, IEC 60825-1 and IEC 60825-2, CE Mark
2 year
SPECIFICATIONS
1 2 3 4 5
Optical bore dust plug1
2
3
Receive optical bore
Transmit optical bore
Spring clip4
5
--
Alignment groove
--------------------------------
GBIC
-Copper GBICModules
-Dual Fiber Strands GBICModules
-CWDM Dual Fiber Strands GBICModules
-Single Fiber Strand GBICModules
15. 15
For enquires please email to sales@starviewint.com
www.starviewint.com
TransceiversTransceivers
GBIC
DateRate
DateRate
DateRate
DateRate
Part Number
Part Number
Part Number
Part Number
Type
Type
Type
Type
Wavelength
Wavelength
Wavelength
Wavelength
Distance
(km)
Distance
(km)
Distance
(km)
Distance
(km)
TX Power
(dBm)
TX Power
(dBm)
TX Power
(dBm)
TX Power
(dBm)
RX Sens.
(dBm)
RX Sens.
(dBm)
RX Sens.
(dBm)
RX Sens.
(dBm)
Fiber Budget
(dB)
Fiber Budget
(dB)
Fiber Budget
(dB)
Fiber Budget
(dB)
SV-GB-T2
SV-GB-ESX1
SV-GB-ESX2
SV-GB-LX21
SV-GB-LX22
SV-GB-LX23
SV-GB-LX24
SV-GB-LX41
SV-GB-LX42
SV-GB-LX43
SV-GB-LX44
SV-GB-SX
SV-GB-LX1
SV-GB-LX2
SV-GB-LX4
SV-GB-LX8
SV-GB-LX4C##
SV-GB-LX8C##
-9 to 0
-9 to 0
-9 to 0
-9 to 0
-9 to 0
-9 to 0
-5 to 0
-5 to 5
-9 to 0
-9 to 0
-9 to -3
-9 to -3
-9 to -3
-5 to 0
0 to 5
-5 to 0
0 to 5
-23 to -3
-23 to -3
-23 to -3
-23 to -3
-23 to -3
-23 to -3
-23 to -3
-23 to -3
-23 to -3
-23 to -3
-18 to -3
-22 to -3
-22 to -3
-22 to -3
-22 to -3
-23 to -3
-23 to -3
9
9
14
14
14
14
18
18
14
14
9
13
13
17
22
18
23
1310 TX 1550 RX
1550 TX 1310 RX
1310 TX 1550 RX4
1550 TX 1310 RX
1310 TX 1490 RX
1490 TX 1310 RX
1310 TX 1550 RX4
1550 TX 1310 RX
1310 TX 1490 RX
1490 TX 1310 RX
850nm
1310nm
1310nm
1310nm
1550nm
1270nm ~ 1610nm
1270nm ~ 1610nm
0.1
2
2
20
20
20
20
40
40
40
40
0.55
10
20
40
80
40
80
MM
MM
SM
SM
SM
SM
SM
SM
SM
SM
MM
SM
SM
SM
SM
SM
SM
Copper GBIC Modules
Single Fiber Strand GBIC Modules
Dual Fiber Strands GBIC Modules
CWDM Dual Fiber Strands GBIC Modules
1Gb/s
1Gb/s
1Gb/s
1Gb/s
•Copper GBIC Modules
•Dual Fiber Strands GBIC
Modules
•CWDM Dual Fiber Strands
GBIC Modules
•Single Fiber Strand GBIC
Modules
Available with option of No DDM ## denotes wavelength range from 1270~1610nm.
27 = 1270nm, 29=1290nm, 31=1310nm, 33=1330nm, 35=1350nm, 37=1370nm, 39=1390nm, 41=1410nm, 43=1430nm,
45=1450nm, 47=1470nm, 49=1490nm, 51=1510nm, 53=1530nm, 55=1550nm,57=1570nm, 59=1590nm, 61=1610nm
16. 16
For enquires please email to sales@starviewint.com
www.starviewint.com
X2 is a standardized form factor for 10 Gb/s fiber optics transponders. X2 transponders are used in datacom optical links, primarily 10G
Ethernet.
• Data Rates: 10Gbps
• Compatible with X2 MSA Rev2.0b
• Compliant with 802.3ae 10GBASE-LR at 10.3125Gbps
• Hot Pluggable 70-PIN Connector with XAUI Electrical Interface
• Management and control via MDIO 2-wire interface
• Power Supply:+3.3V,APS(+1.2V)
• Diagnostic Optics Monitoring
• Temperature Range:0~70°C
• Dual Fiber Strands X2 Modules
• CWDM Dual Strands X2 Modules
• C Band DWDM Dual Fiber Strands X2 Module
• Supports 10G Ethernet 10.312Gbps application
• Other 10Gbps Ethernet Transmission System
Transceivers
X2
DESCRIPTION
FEATURES
SPECIFICATIONS
APPLICATIONS
PRODUCTS
TECHNICAL DATA
REFERENCE SUMMARY
PRODUCTS CATEGORY
Standards
Dimensions
Power
Power Consumption
Connector Type
Environment
Compliance
Warranty
IEEE 802.3z 1000BASE-SX; 1000BASE-LX
1.4” [36 mm] Depth: 3.5” [91 mm] Height: 0.50” [13 mm]
5V
0.8 Watts
SC
0°C – 70°C
UL Registered, CSA, IEC 60825-1 and IEC
2 year
SPECIFICATIONS
1 2 53 4 6
Transmit optical bore1
2
3
Receive optical bore
Latching sleeve
EMI gasket flange4
5
6
Latch
Transceiver heat sink
X2
-Dual Fiber StrandsX2 Modules
-CWDM Dual Fiber StrandsX2 Modules
-DWDM Dual Fiber StrandsX2 Modules
17. 17
For enquires please email to sales@starviewint.com
www.starviewint.com
TransceiversTransceivers
X2
DateRate
DateRate
DateRate
Part Number
Part Number
Part Number
Type
Type
Type
Wavelength
Wavelength
Wavelength
Distance
(km)
Distance
(km)
Distance
(km)
TX Power
(dBm)
TX Power
(dBm)
TX Power
(dBm)
RX Sens.
(dBm)
RX Sens.
(dBm)
RX Sens.
(dBm)
Fiber Budget
(dB)
Fiber Budget
(dB)
Fiber Budget
(dB)
SV-X2-SR
SV-X2-ESR
SV-X2-LR1
SV-X2-ER4
SV-X2-ZR8
SV-X2-ER4C##
SV-X2-ZR8C##
SV-X2-ER4D##
SV-X2-ER8D##
-6.5 to -1
-4.5 to 1.5
-8.2 to 0.5
1 to 2
0 to 4
-1 to 2
0 to 4
-1 to 2
0 to 4
-9.9 to -1
-6.5 to 1.5
-12.6 to 0.5
-15.8 to -1
-27 to -7
-15.8 to -1
-24 to -7
-15.8 to -1
-24 to -7
3.4
2
4.4
14.8
27
12
24
14.8
24
850nm
1300nm
1310nm
1550nm
1550nm
1470nm ~ 1610nm
1470nm ~ 1610nm
DWDM Wavelength
DWDM Wavelength
0.3
0.2
10
40
80
40
80
40
80
MM
MM
SM
SM
SM
SM
SM
SM
SM
Dual Fiber Strands X2 Modules
CWDM Dual Fiber Strands X2 Modules
C-Band DWDM Dual Fiber Strands X2 Modules
10 Gb/s
10 Gb/s
10 Gb/s
•Dual Fiber Strands X2
Module
•CWDM Dual Fiber Strands
X2 Module
•C-Band DWDM Dual
Fiber Strands X2 Module
Available with option of No DDM ## denotes wavelength range from 1270~1610nm.
27 = 1270nm, 29=1290nm, 31=1310nm, 33=1330nm, 35=1350nm, 37=1370nm, 39=1390nm, 41=1410nm, 43=1430nm,
45=1450nm, 47=1470nm, 49=1490nm, 51=1510nm, 53=1530nm, 55=1550nm,57=1570nm, 59=1590nm, 61=1610nm
## denotes DWDM Wavelength Guide on page 23
18. 18
For enquires please email to sales@starviewint.com
www.starviewint.com
XENPAK is a standardized form factor for 10 Gb/s fiber optics transponders. XENPAK transponders are used in datacom optical links,
primarily 10G Ethernet.
• Data Rates: 10Gbps
• Compatible with XENPAK MSA Rev3.0
• Support of IEEE 802.3ae 10GBASE-LR
• Plug-and-Play module
• Hot Pluggable 70-PIN Connector with XAUI
• Electrical Interface
• Management and control via MDIO 2-wire interface
• Adaptable Power Supply (APS:+1.2V)
• SC duplex Optical connector
• Dual Fiber Strands XENPAK Modules
• CWDM Dual Strands XENPAK Modules
• C Band DWDM Dual Fiber Strands XENPAK Modules
• Supports 10G Ethernet 10.312Gbps application
Transceivers
XENPAK
DESCRIPTION
FEATURES
SPECIFICATIONS
APPLICATIONS
PRODUCTS
TECHNICAL DATA
REFERENCE SUMMARY
PRODUCTS CATEGORY
Standards
Dimensions
Power
Power Consumption
Connector Type
Environment
Compliance
Warranty
IEEE 802.3z 1000BASE-SX; 1000BASE-LX
1.42” [36 mm] Depth: 4.76” [121 mm] Height: 0.47” [18 mm]
5V
0.8 Watts
SC
0°C – 70°C
UL Registered, CSA, IEC 60825-1 and IEC 60825-2, CE Mark
2 year
SPECIFICATIONS
Transmit optical bore1
2
3
Receive optical bore
Latching sleeve
EMI gasket flange4
5
6
Latch
Transceiver heat sink
1 2 3
XENPAK
-Dual Fiber StrandsXENPAK Modules
-CWDM Dual Fiber StrandsXENPAK Modules
-DWDM Dual Fiber StrandsXENPAK Modules
19. 19
For enquires please email to sales@starviewint.com
www.starviewint.com
TransceiversTransceivers
XENPAK
DateRate
DateRate
DateRate
Part Number
Part Number
Part Number
Type
Type
Type
Wavelength
Wavelength
Wavelength
Distance
(km)
Distance
(km)
Distance
(km)
TX Power
(dBm)
TX Power
(dBm)
TX Power
(dBm)
RX Sens.
(dBm)
RX Sens.
(dBm)
RX Sens.
(dBm)
Fiber Budget
(dB)
Fiber Budget
(dB)
Fiber Budget
(dB)
SV-XENPAK-SR
SV-XENPAK-ESR
SV-XENPAK-LR1
SV-XENPAK-ER4
SV-XENPAK-ZR8
SV-XENPAK-ER4C##
SV-XENPAK-ZR8C##
SV-XENPAK-ER4D##
SV-XENPAK-ER8D##
-6.5 to -1
-4.5 to 1.5
-8.2 to 0.5
1 to 2
0 to 4
-1 to 2
0 to 4
-1 to 2
0 to 4
-11 to -1
-6.5 to 1.5
-12.6 to 0.5
-15.8 to -1
-27 to -7
-15.8 to -1
-24 to -7
-15.8 to -1
-24 to -7
5.5
2
4.4
14.8
27
14.8
24
14.8
24
850nm
1300nm
1310nm
1550nm
1550nm
1470nm ~ 1610nm
1470nm ~ 1610nm
DWDM Wavelength
DWDM Wavelength
0.3
0.2
10
40
80
40
80
40
80
MM
MM
SM
SM
SM
SM
SM
SM
SM
Dual Fiber Strands XENPAK Modules
CWDM Dual Fiber Strands XENPAK Modules
C-Band DWDM Dual Fiber Strands XENPAK Modules
10 Gb/s
10 Gb/s
10 Gb/s
•Dual Fiber Strands XEN-
PAK Modules
•CWDM Dual Fiber Strands
XENPAK Modules
•C-Band DWDM Dual
Fiber Strands XENPAK
Modules
Available with option of No DDM ## denotes wavelength range from 1270~1610nm.
27 = 1270nm, 29=1290nm, 31=1310nm, 33=1330nm, 35=1350nm, 37=1370nm, 39=1390nm, 41=1410nm, 43=1430nm,
45=1450nm, 47=1470nm, 49=1490nm, 51=1510nm, 53=1530nm, 55=1550nm,57=1570nm, 59=1590nm, 61=1610nm
## denotes DWDM Wavelength Guide - C-Band Wavelength on page 23
20. 20
For enquires please email to sales@starviewint.com
www.starviewint.com
XFP is a standardized form factor for serial 10 Gb/s fiber optic transceivers. It is protocol-independent and fully compliant to the following
standards: 10G Ethernet, 10G Fibre Channel, SONET OC-192, SDH STM-64 and OTN G.709, supporting bit rate from 9.95G through
11.3G. XFP transceivers are used in datacom and telecom optical links and offer a smaller footprint and lower power consumption than
other 10 Gb/s transponders.
• Hot-Pluggable XFP Footprint LC Optical Transceiver
• Digital Diagnostic Function
• Class 1 Laser International Safety Standard IEC-60825 Compliant
• Compatible with XFP Multi-Sourcing Agreement (MSA)
• XFP Optical Transceiver with duplex LC connector
• 10G small Form-Factor Pluggable(XFP) MSA compatible
• INF-8077i Digital Diagnostic Function(DMI)
• Maximum Link Length of 80km
• Single +3.3 V Power Supply
• Low Power Dissipation < 2W
• RoHS Compliant (all models)
• Metro Edge Switching
• OC192/ STM64, 9.953Gbps
• 10G Ethernet, 10.312Gbps
• 10G Fiber Channel, 10.52Gbps
• OC192 with G.709 FEC, 10.709Gbps
• 10G Ethernet with G.709 FEC, 11.09Gbps
Transceivers
XFP
DESCRIPTION
FEATURES
SPECIFICATIONS
APPLICATIONS
PRODUCTS
TECHNICAL DATA
REFERENCE SUMMARY
PRODUCTS CATEGORY
Stap 1 Stap 2
Standards
Dimensions
Power
Power Consumption
Connector Type
Environment
Compliance
Warranty
IEEE 802.3 2003
Width: 0.71” [18 mm] Depth: 3.07” [78 mm] Height: 0.33” [8 mm]
3.3V
0.66 Watts
LC
0°C – 70°C
IEC-60825; FDA 21;CFR 1040.10 and 1040.11
2 year
SPECIFICATIONS
Stap 1 : Pivot the XFP transceiver bail clasp up to release the XFP transceiver from the socket.
Stap 2 : Slide the XFP transceiver out of the socket.
Installing the 10-Gigabit XFP Transceiver Module
XFP
-Dual Fiber StrandsXFP Modules
-CWDM Dual Fiber StrandsXFP Modules
-DWDM Dual Fiber StrandsXFP Modules
-Single Fiber StrandXFP Modules
21. 21
For enquires please email to sales@starviewint.com
www.starviewint.com
TransceiversTransceivers
XFP
DateRate Part Number Type Wavelength Distance
(km)
TX Power
(dBm)
RX Sens.
(dBm)
Fiber Budget
(dB)
SV-XFP-SR
SV-XFP-ESR
SV-XFP-LR1
SV-XFP-LR2
SV-XFP-ER4
SV-XFP-ZR8
SV-XFP-ZR12
-7.3 to -1
-6.5 to 0.5
-6.5 to 0.5
-5 to 1
-1 to 2
0 to 4
0 to 4
-11 to -7.5
-14.5 to 0.5
-15 to 0.5
-15 to 0.5
-16 to -1
-24 to -7
-24 to -7
2
5
8.5
10
15
24
24
850nm
1300nm
1310nm
1310nm
1550nm
1550nm
1550nm
0.3
2
10
20
40
80
120
MM
MM
SM
SM
SM
SM
SM
Dual Fiber Strands XFP Modules
9.95Gb/s to
11.1Gb/s
•Dual Fiber Strands XFP
Modules
•CWDM Dual Fiber Strands
XFP Modules
•C-Band DWDM Dual Fib-
er Strands XFP Modules
•Single Fiber Strand XFP
Modules
DateRate Part Number Type Wavelength Distance
(km)
TX Power
(dBm)
RX Sens.
(dBm)
Fiber Budget
(dB)
SV-XFP-LR11
SV-XFP-LR12
SV-XFP-LR21
SV-XFP-LR22
SV-XFP-LR41
SV-XFP-LR42
SV-XFP-LR51
SV-XFP-LR52
-5 to 0
-5 to 0
-2 to 2
-2 to 2
0 to 4
0 to 4
2 to 7
2 to 7
-14.5 to 0.5
-14.5 to 0.5
-14.5 to 0.5
-14.5 to 0.5
-14.5 to 0.5
-14.5 to 0.5
-18 to -7
-18 to -7
9.5
9.5
12.5
12.5
14.5
14.5
16
16
1270 TX 1310 RX
1310 TX 1270 RX
1270 TX 1310 RX
1310 TX 1270 RX
1270 TX 1310 RX
1310 TX 1270 RX
1270 TX 1310 RX
1310 TX 1270 RX
10
10
20
20
40
40
50
50
SM
SM
SM
SM
SM
SM
SM
SM
Single Fiber Strand XFP Modules
9.95Gb/s to
11.1Gb/s
DateRate Part Number Type Wavelength Distance
(km)
TX Power
(dBm)
RX Sens.
(dBm)
Fiber Budget
(dB)
SV-XFP-10GER4C##
SV-XFP-10GZR8C##
-1 to 2
0 to 3
-16 to -1
-24 to -7
15
24
1270nm ~ 1610nm
1270nm ~ 1610nm
40
80
SM
SM
CWDM Dual Fiber Strands XFP Modules
9.95Gb/s to
11.1Gb/s
Available with option of No DDM ## denotes wavelength range from 1270~1610nm.
27 = 1270nm, 29=1290nm, 31=1310nm, 33=1330nm, 35=1350nm, 37=1370nm, 39=1390nm, 41=1410nm, 43=1430nm,
45=1450nm, 47=1470nm, 49=1490nm, 51=1510nm, 53=1530nm, 55=1550nm,57=1570nm, 59=1590nm, 61=1610nm
DateRate Part Number Type Wavelength Distance
(km)
TX Power
(dBm)
RX Sens.
(dBm)
Fiber Budget
(dB)
SV-XFP-10GER4D##
SV-XFP-10GER8D##
-1 to 2
-1 to 3
-15
-24
14
23
DWDM Wavelength
DWDM Wavelength
40
80
SM
SM
C-Band DWDM Dual Fiber Strands XFP Modules
## denotes DWDM Wavelength Guide - C-Band Wavelength on page 23
9.95Gb/s to
11.1Gb/s
22. 22
For enquires please email to sales@starviewint.com
www.starviewint.com
QSFP+ is a hot-pluggable high-density transceiver which provides 4 channels of traffic in each direction (Tx and Rx). QSFP+ supports up
to 10.5 Gb/s per channel for applications such as 40G Ethernet and InfiniBand 4xQDR.
•Transmission data rate up to 10.5Gbps per channel
•4 channels Transmitter
•4 channels Receiver
•Low power consumption
•Hot Pluggable module
•Hot Pluggable module
•Single MPO connector receptacle
•Built-in digital diagnostic functions
•Operating case temperature 0°C to +70°C
•3.3V power supply voltage
•RoHS 6 compliant(lead free)
•10G/40G LAN
•Infiniband SDR, DDR, QDR
•2.5G/5G PCI Express
•2/4/8/10Gbps FC
Transceivers
QSFP
DESCRIPTION
FEATURES
SPECIFICATIONS
APPLICATIONS
PRODUCTS
TECHNICAL DATA
REFERENCE SUMMARY
PRODUCTS CATEGORY
Standards
Dimensions
Power
Power Consumption
Connector Type
Environment
Compliance
Warranty
IEEE 802.3 2003
Width: 0.71” [18 mm] Depth: 2.80” [71 mm] Height: 0.33” [11 mm]
3.3V
0.66 Watts
MPO
0°C – 70°C
IEC-60825; FDA 21;CFR 1040.10 and 1040.11
2 year
SPECIFICATIONS
QSFP
-Copper QSFP+ Modules
-Dual Fiber Strands QSFP Modules
Dual Fiber Strands QSFP Modules Copper QSFP+ Modules
23. 23
For enquires please email to sales@starviewint.com
www.starviewint.com
Transceivers
QSFP
DateRate
DateRate
Part Number
Part Number
Type
Type
Wavelength
Wavelength
Distance
(km)
Length
(m)
TX Power
(dBm)
TX Power
(dBm)
RX Sens.
(dBm)
RX Sens.
(dBm)
Fiber Budget
(dB)
Fiber Budget
(dB)
SV-QSFP-40GE-SR4
SV-QSFP-40GE-CSR4
SV-QSFP-40GE-LR4
SV-QSFP-40GT1T4-1M
SV-QSFP-40GT1T1-10M
SV-QSFP-40GT1T1-15M
SV-QSFP-40GT1T1-20M
SV-QSFP-40GT1T1-30M
SV-QSFP-40GT1T4-1M
SV-QSFP-40GT1T4-3M
SV-QSFP-40GT1T4-5M
-7.5 to 2.5
-7.5 to 2.5
-7 to 2.3
-7.5 to 2.5
-9.5 to 2.4
-9.5 to 2.4
-13.7 to 2.3
-9.5 to 2.4
2
2.4
6.7
2
850nm
850nm
1310nm
850nm
0.1
0.3
10
0.1
10
15
20
30
1
3
5
MM
MM
SM
SM
Dual Fiber Strands QSFP Modules
Copper QSFP+ Modules
40Gb/s
40Gb/s
56Gb/s
4 x 10.3125Gb/s
•Copper QSFP+ Modules
•Dual Fiber Strands QSFP
Modules
24. 24
For enquires please email to sales@starviewint.com
www.starviewint.com
CFP is a hot-pluggable transceiver that supports a wide range of 40 and 100 Gb/s applications such as 40G and 100G Ethernet, OC-
768/STM-256, OTU3, and OTU4. Different versions of CFP modules can support various link distances over either multimode or single
mode fiber optics. The CFP module includes numerous innovative features like advanced thermal management, EMI management and
enhanced signal integrity design, as well as an MDIO-based management interface.
•CFP MSA compliant
•Comply to CFP MSA Management Interface Specification, Draft 1.4
•Comply to IEEE 802.3ba specification
•Transmission data rate up to 11.2Gbit/s per channel
•Up to 11.2Gbps per channel bandwidth,
•OTU4 compatible
•10 channels Transmitter
•10 channels Receiver
•MDIO digital diagnostic functions and control capabilities.
•TX input and RX output CDR retiming
•Hot pluggable electrical interface
•Power class 1 (<8W max)
•Operating case temperature 0°C to +70°C
•3.3V power supply
•RoHS 6 compliant(lead free)
•40G LAN, 100G LAN or OTU4 100Gbps
Transceivers
CFP
DESCRIPTION
FEATURES
SPECIFICATIONS
ORDERING INFORMATION
APPLICATIONS
PRODUCTS
TECHNICAL DATA
REFERENCE SUMMARY
PRODUCTS CATEGORY
ORDERING INFORMATION
Standards
Dimensions
Power
Power Consumption
Connector Type
Environment
Compliance
Warranty
IEEE 802.3 2003
Width: 3.2” [82 mm] Depth: 5.70” [144.8 mm] Height: 0.53” [13.6 mm]
3.3V
0.66 Watts
LC
0°C – 70°C
IEC-60825; FDA 21;CFR 1040.10 and 1040.11
2 year
SPECIFICATIONS
CFP
DateRate Part Number Type Wavelength Distance
(km)
TX Power
(dBm)
RX Sens.
(dBm)
Fiber Budget
(dB)
SV-CFP-40GE-4SR
SV-CFP-40GE-4CSR
SV-CFP-40GE-4LR1
SV-CFP-100GE-4SR
SV-CFP-100GE-4CSR
-7.5 to 2.5
-7.5 to 2.5
-7 to 2.3
-8 to 1
-8 to 1
-9.9 to -5.4
-9.9 to -5.4
-13.7 to 2.3
-9.9 to -5.4
-9.9 to -5.4
24
24
6.7
1.9
1.9
850nm
850nm
1310nm
850nm
850nm
0.1
0.3
20
0.1
0.3
MM
MM
SM
MM
MM
Fiber CFP modules
40Gb/s
100Gb/s
CFP
-Fiber CFP Modules
25. 25
For enquires please email to sales@starviewint.com
www.starviewint.com
Starview Maintenance package for transceiver modules provide value added RMA and advance replacement services to assist the customer’s service oper-
ation, improve operational efficiency , and reduce the CAPEX and OPEX. We provide:
· Repair and Return(R&R)Service
· 24X7 spare parts replacement
· Logistical service for replacement
Starview maintenance package Repair & Return(R&R) process:
· Module will be one to one replaced on site or in starview office.
· Check the existing module performance characteristics.
· Ensure module performance within manufacturer’s specifications.
· Replace module with Starview part if it is confirmed defective.
· Starview module warrant 2 years against manufacturing defect.
· Clean module TX/RX lenses if module is not defective.
· Return customer’s module on the next two(2) business day.
· Starview warrants its replacement module to work with major equipment vendor
Maintenance Package for Transceiver Modules
25
For enquires please email to sales@starviewint.com
C-Band Wavelength L-Band Wavelength
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
1563.86
1563.05
1562.23
1561.42
1560.61
1559.79
1558.98
1558.17
1557.36
1556.55
1555.75
1554.94
1554.13
1553.33
1552.52
1551.72
1550.92
1550.12
1549.32
1548.51
1547.72
1546.92
1546.12
191.7
191.8
191.9
192.0
192.1
192.2
192.3
192.4
192.5
192.6
192.7
192.8
192.9
193.0
193.1
193.2
193.3
193.4
193.5
193.6
193.7
193.8
193.9
## ITU
Channel
## ITU
Channel
## ITU
Channel
## ITU
Channel
## ITU
Channel
Wavelength Wavelength Wavelength Wavelength WavelengthFrequency
(THz)
Frequency
(THz)
Frequency
(THz)
Frequency
(THz)
Frequency
(THz)
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
1545.32
1544.53
1543.73
1542.94
1542.14
1541.35
1540.56
1539.77
1538.98
1538.19
1537.4
1536.61
1535.82
1535.04
1534.25
1533.47
1532.68
1531.90
1531.12
1530.33
1529.55
1528.77
194.0
194.1
194.2
194.3
194.4
194.5
194.6
194.7
194.8
194.9
195.0
195.1
195.2
195.3
195.4
195.5
195.6
195.7
195.8
195.9
196.0
196.1
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
89
90
91
92
93
94
95
96
97
98
00
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
16
1610.06
1609.19
1608.33
1607.47
1606.61
1605.74
1604.88
1604.03
1603.17
1602.31
1601.46
1600.60
1599.75
1598.89
1598.04
1597.19
1596.34
1595.49
1594.64
1593.79
1592.95
1592.10
1591.26
1587.04
1586.20
1585.36
1584.53
1583.69
1582.85
1582.02
1580.18
1580.35
1579.52
1578.69
1577.86
1577.03
1576.20
1575.37
1574.54
1573.71
1572.06
1571.24
1570.42
1569.59
1568.77
1567.95
1567.13
1566.31
1565.50
1564.68
186.2
186.3
186.4
186.5
186.6
186.7
186.8
186.9
187.0
187.1
187.2
187.3
187.4
187.5
187.6
187.7
187.8
187.9
188.0
188.1
188.2
188.3
188.4
188.9
189.0
189.1
189.2
189.3
189.4
189.5
189.6
189.7
189.8
190.0
190.1
190.2
190.3
190.4
190.5
190.6
190.7
190.8
190.9
191.0
191.1
191.2
191.3
191.4
191.5
191.6
DWDM ITU-T Wavelength Guide
26. 26
For enquires please email to sales@starviewint.com
www.starviewint.com
1. What is the difference between Starview International SFP and Original Vendor SFP?
In reality, there is no difference. Original vendor SFP are much higher in cost as they claim to be of much better quality. Most if not all, network equipment vendors do not
produce their own SFP modules. These productions are outsourced to contract manufacturer and then labeled as their specific brand
2. Is it true that key equipment vendors, such as Cisco and Alcatel, only allow their SFP ports to be used by their in-house modules?
No, vendors are supposed to allow third party SFP to be used on their equipment as the SFP transceiver is specified by a multi-source agreement (MSA) between competing
vendors. MSA specifies the physical dimensions, connectors, and signaling used in the SFP module so that multiple vendors can build compatible products at competitive costs.
All Starview International SFP are produced with high precision in conjunction to the MSA and are compatible to use on equipments specified as a SFP port.
See the SFF committee’s INF-8074i specification Rev 1.0 for details. Please note that Starview International SFP is not the vendor’s OEM brand SFP modules.
3. How do we define a good quality SFP?
It is a misconception that SFP depends only on optical budget. Stability and reliability is an important aspect. The performance of the optical specifications changes with tem-
perature and aging due to time. During production, it is possible for manufacturers to increase the optical budget by purposely adjusting the optical transmit power during the
calibration process. This cause the TOSA to over-perform and will have a significant impact on the stated SFP lifespan.
Our factory produces all individual components required in the SFP modules, including the TOSA and ROSA. Every stage of the SFP assembly undergoes strict quality assurance
policy with uncompromising standards. Design considerations of each SFP modules are done by experienced R&D engineers in this field. We are able to provide full detailed
test reports, for each product part number, with optical budget measurement, digital eye diagrams, MTBF and thermal chamber test.
4. Why some third-party SFP “refuse” to work on the equipment when the original SFP from the same equipment vendors work fine?
SFP enjoys such a huge popularity success in the industry that certain equipment vendors attempt to prevent their customers from making choices. The firmware in the
equipment will check for an identifying data in the SFP’s memory, and if the data does not belong to the equipment vendor, the equipment refuses to enable that slot. Most
vendor explanation for this “feature” is that it represents a symbol of product quality and ensures that the transceiver module is certified and tested by the original vendors.
The original idea of having “ID” in the SFF-8472 was actually meant for network management software to ‘inventory’ the pluggable modules. However some vendors used this
to lock out all other third party. This allows vendor to monopolize the transceivers for their equipment and charge at premium prices for “better” quality products.
5. Can end-user re-use Starview International SFP on other equipment vendor after first using the SFP on a particular equipment vendor?
Yes. As Starview International is the original SFP manufacturer, we have the equipment and technical know-how to reprogram the data in the SFP, if necessary, to be compat-
ible with a new equipment vendor. This can be performed for a nominal sum of fee. Please contact our sales staff for more information on this.
Please note that Starview International SFP is not the vendor’s OEM brand SFP modules.
6. Does using Starview International SFP voids the warranty of the equipment it is used on?
No. If the equipment is defective, the vendors are obliged to fulfill the terms of the warranty because Starview International SFP are fully compliant to MSA, unless it can be
verified that it is the use of Starview International SFP that damaged the equipment.
It is unlikely that SFP will induce damages to the slot on equipment by itself because:
· SFP converts electrical data from the equipment to optical signal. There is no incoming power surge from optical ports to damage the equipment.
· SFP draws voltage/power from the equipment and it is more likely that the equipment damaged the SFP. All current and voltage required are as per MSA and the equip-
ment should be able to support the power requirements for each SFP ports.
· SFP size will fit accordingly to any MSA compliant device without damaging the electrical circuitry on the equipment.
· If installations of SFP modules are handled by personnel who are properly grounded, there is no electrostatic damage to the equipment circuitry.
Some vendor does try to protect the sales revenue of their SFP by denying support if the serial number does not match their record. In this case, Starview International will
offer tech support if it is a physical layer 1 problem. If the problem is not on the physical layer but exists on a higher protocol layer, it is your right as a customer to demand
support from the equipment vendor.
7. What is the warranty coverage for using Starview International SFP?
Starview International SFP offers standard 2 year warranty. Extended warranty and maintenance services are available. It may be interesting to note that some vendors such
as Cisco offers only 90days warranty on their SFP.
8. Why should customers consider using Starview International?
Key advantages that Starview International can bring to our customers are price competitiveness, quality/reliable, fast response, compatibility, large range of optical transceivers,
quick lead time and maintenance services.
In addition, as most network equipment vendors do not produce the SFP themselves, the range of optics options they are able to produce are limited. Cisco offers only 8
CWDM wavelengths instead of 16. Cisco also does not have single fiber solution for more than 10km. Starview International offers much more complete optics options for
project needs.
Transceivers FAQ
26
For enquires please email to sales@starviewint.com
27. 27
For enquires please email to sales@starviewint.com
www.starviewint.com
9. Why Starview International can offer Starview International SFPs at much lower cost than the original hardware vendors?
In reality, most if not all, network equipment vendors do not produce their own SFP modules. The productions are outsource to contract vendors and labeled as their specific
brand. Hence, these SFP are higher in cost because of additional margins at each party.
Starview International is an in-house product for Starview International with our production house in China. This allows end-user to bypass the in-between parties and allow
customer to purchase straight from the production source. We also have a large customer base and are able to mass produce at a cost-effective level.
10. Why are there some SFP suppliers on the market who are able to provide at more competitive prices?
In general, these suppliers with ultra-low cost SFP have low regards for quality as they take their SFP from sources that provide the lowest price. The specifications for their
SFP may keep varying as to what is stated as the source of their SFP depends on price and they have 2-3 suppliers for the same product. Some possible sources of ultra-low
cost SFP comes below.
· Some factory source low-grade components from different parties and only performs assemblies. The finished products are of varying quality and have no strict quality
control as they lack necessary test tools.
· Contract manufacturers tend to over produce the required amount during production to replace out the low quality yields. Some customer may also return rejected
batches which failed to meet their expectations. The “leftover” pieces are consolidated and released to companies with low budgets.
· Purchase of stocks that are kept over an extended period of time.
· Refurnished/RMA products that are repackaged and sold as brand-new
These suppliers also have unusual huge amount of stocks and are able to deliver at any time. In truth, manufacturers produce on demands or forecast and keep only limited
stocks on fast-moving products.
11. Other than SFP, what other form factors does Starview International offers?
Starview International provides form factors modules such as GBIC, SFP, SFP plus, Xenpak, X2 and XFP. QSFP for 40G data-rate are also available.
In addition, we can offer a wide range of transceivers supporting protocols such as FE/GE, Fiber-Channels, SDH/SONET, 10GE and 40G. Optics options include single-fiber,
SGMII, PON, CWDM/ DWDM.
12. What is the typical lead-time for Starview International SFP?
7-14 days depending on the requested items and quantities. We are also able to produce and keep in stock if there is a committed forecast from the customer.
13. How do I choose a SFP for my application?
Basic key considerations when selecting an SFP are as followings:
· Protocol/data rate used on the equipment
· Optical transmitting wavelength preference
· Optical transmission distance. Note: 60km and above, we recommend user to specify the optical budget required for the link instead.
· Type of fiber used: Singlemode /Multimode, Dual Fiber/Single Fiber
· Form Factor: GBIC, SFP*, SFP+,XFP, etc
· DDM preference
For other unique application, please contact our sales staff.
* Please note that SFP is also commonly known as mini-gbic.
14. What is Digital Diagnostic Monitoring (DDM) feature?
DDM is also known as digital optical monitoring (DOM) or Digital Monitoring Interface (DMI). Modern optical SFP support DDM functions according to the industry-standard
SFF-8472. The SFP MSA defines a memory map describing the transceiver’s capabilities, standard interfaces, vendor, and other information. This feature gives the end user
the ability to monitor real-time parameters of the SFP, such as optical output power, optical input power, temperature, laser bias current, and transceiver supply voltage.
15. Is a SFP module hot swappable?
Yes, Starview International SFP is hot swappable, however, the equipment SFP port must be specified as hot-swappable as well. Please note that some equipment such as
Cisco takes some time enable the physical port after inserting a new module. Also, when the physical module is removed, the equipment may enter a error disable state for a
configurable period of time ranging from 30sec to 24hours. During the error disable period, even when the fault is recovered, the data link cannot be established. The results
are the same even if you use the original vendor version of SFP.
27
For enquires please email to sales@starviewint.com
28. 28
For enquires please email to sales@starviewint.com
www.starviewint.com
16. Is SFP protocol transparent?
SFP are totally transparent to Ethernet/IP protocols and have no constraint on the transmission frame size. All Starview International SFP supports wire-rate data transmission
at full-duplex mode. Higher layer level protocol issues are restricted to the equipment itself.
The reason is because SFP connects to the electrical circuitry of the equipment and only converts electrical data to an optical signal with no modifications in the protocol/frames.
Hence, SFPs are operating solely on physical layer translation but the SFP in use must match the data-rate of the protocol specified on the equipment SFP port.
However, the use of poor quality SFP does induces additional transmission errors on the optical port such as CRC, frame slip, jitter, bit-error, etc. This is exceptional true on
long distance transmission.
17. How do you reprogram the CISCO switches?
The following procedure is offered on a trial basis and is not guaranteed to work successfully on all CISCO switches and firmware revisions. It is recommended that you update
the firmware on the switch first to make sure the latest revision is installed, increasing the likelihood of success with this procedure. The switch model tested are 2960, 2970G,
3560, 3560G, 3750.
a. Connect to the switch console port and log on in “enabled” mode to allow privileged commands
b. Once enabled, enter “config t” to allow configuration from the terminal
c. Specify which port you would like to configure by entering the command “Interface Gigabit ?/?” where ?/? is the unit and port number you are trying to re-configure
d. After entering that information, enter “service unsupported-transceiver”
e. Enter “Shutdown”. The switch will respond with a message stating that the port is administratively down.
f. Enter “no shutdown”. You may get a warning(s) about using “Unsupported Transceivers”, but once the messages are done, the port will come online and function normally
with the Starview international SFP.
28
For enquires please email to sales@starviewint.com
29. 29
For enquires please email to sales@starviewint.com
www.starviewint.com
www.starviewint.com