Transmission System Solution

With the rapid expansion of long-distance optical cable transmission and local network scale, centralized maintenance methods are objectively required. It is necessary to know the operation situation of the optical cable network, find the deterioration trend and prevent it. And when fiber breakage occurs, the system should respond quickly, locate the fault point accurately and shorten the fault duration.

Optical Line Protection,OLP Fiber Optic Line Protection

Optical Line Protection,OLP Fiber Optic Line Protection OLP-Optical Line Protection (OLP-Optical Line Protection) equipment is a product applied to the protection of network transmission lines. This product can realize optical power monitoring and optical path automatic switching.

In the optical communication network, the OLP monitors the optical power of the working optical fiber and the standby optical fiber in real time. When the optical power value on the current working optical fiber is detected to be lower than the set switching threshold, an alarm notification is issued and the optical fiber is automatically switched to the standby optical fiber. Realize the protection of the optical transmission system circuit.

Introduction of GLSUN

GLSUN Group, own-patents, 3rd party ROHS tests, ISO 9001 and 14001 certified manufacturer, with factory area of 30000+m2, focus on Datacom, Telecom, RFoG, Medical Field and Petroleum Exploration etc. With a broad product portfolio and tremendous production capacity, our products include: Various kinds of Optical Switches (Relay, MEMS, Magnet, Mini type), Free Space Isolators, VOA, Splitters, WDMs, CWDMs, DWDMs, and Optical Line Protection (OLP), Optical Bypass Protection (OBP) equipment, Customization Active & Passive equipment design etc.

Glsun New Product Launched: Magneto-optical Switch

         Recently, Glsun makes breakthrough in magneto-optical technology and launches magneto-optical switches series.

        Based on Faraday rotation effect, the change of magnetic field affects the magneto-optical crystal and then changes the incident angle of polarized light, so that the light route switching is achieved. No mechanical movement during light route switching gives magneto-optical switch outstanding competitiveness against mechanical optical switch in switching time, repeatability and durability. Magneto-optical switch are switching time ≤100us, durability ≥30 billion times, repeatability ≤±0.01dB, while mechanical and MEMS optical switches are switching time ≤20ms, durability ≤100 million times and repeatability ≤±0.05dB. Besides, Glsun magneto-optical switch possesses unique advantages in stability, power and mute. The design makes optical path reversible without switching state changed, which is an innovative breakthrough in Faraday rotation effect irreversibility. The compact structure, single / double-ended, single / bipolar design take full consideration of users’ different needs. Glsun magneto-optical switches overcome bottlenecks that channels are limited in small confined, and realize multi-channels and multi-matrixes. Based on product characteristics, magneto-optical switches are suitable for applications which require long durability, high switching frequency, high response speed, long uninterrupted switching, and accurate repeatability. Magneto-optical switches are the first choice for optical fiber sensing, security monitoring, high-speed optical path protection, aerospace and military field. Currently, Glsun magneto-optical switches series is mass production available.

        Glsun R&D team achieves innovation not only in magneto-optical switches, but also in MEMS and mechanical optical switches. After 10 years research and produce, mechanical optical switches are well improved. Mini type, single ended type, multi-channel series have been launched. While MEMS optical switches have new 1xN, MxN series products with high compact, low insertion and wide working temperature range.

        Glsun started with optical component processing. Now, it is an optoelectronic communications enterprise specializing in the R&D, producing, and marketing of optical communication products, such as MEMS IC design and package, FSI optical isolators, DWDM system devices and modules, EDFA optical passive devices, optical switch protection modules and optical intelligent test system. And it also provided FTTH engineering and technical services. Glsun is changing the simple impression of ‘Made in China’ with Chinese wisdom and technology.

Make your optic network easy, Glsun PON Monitoring System

News【Brocade Revenue Down, IP Networking Slumps】

    Brocade reported quarterly revenue down 4% year-over-year, to $523 million, reflecting declines in both its IP networking business and the traditional storage networking lines that make up the bulk of its sales.Results were down 9% sequentially, with non-GAAP diluted earnings per share of $0.22, flat year-over-year and down from $0.29 sequentially.IP networking product revenue was $132 million, down 9% year-over-year, below outlook range, primarily due to lower router sales, down 33%, partly offset by stronger Ethernet sales, up 9% year-over-year. Reduced service provider and US federal sales drove the decline. Sequentially, IP Networking product revenue decreased 2% primarily due to lower Ethernet switch sales. That sequential revenue decline was primarily due to lower sales to enterprise customers as both the service providers and US federal revenue grew sequentially.

The Key to Optical Network: Optical Switch Technology and Application

With the application of DWDM systems and the development of optical communication technology, optical networking has become the trend of network development. The realization of optical network technology depends on optical devices such as optical switches, erbium-doped fiber amplifiers (EDFA) and wavelength division multiplexer (WDM), and the improvement of optical technology. DWDM (Dense Wavelength Division Multiplexing) technology is the key factor promoting all optical network development, while optical network put great opportunity and challenge in front of equipment manufacturers and telecom operators.

Optical switch is the key in all-optical switching that can achieve routing switching, wavelength selection, OXC and self-healing protection in the all-optical layer. At present, optical switch main applications are:

OXC (optical cross connect). Composed of optical switches arrays, OXC can realize dynamic optical path management, optical network fault protection and flexible new business addition. OXC requires low insertion loss, low crosstalk, short switching time and non-blocking operation. Currently, MEMS technology is put into use.

Realizing network automatic protection switching by optical switch. When fiber breaks or transmission fails, optical switch, like 1x2 optical switch, can change the transmission path to achieve business protection.

Network monitoring by 1xN optical switch. At the optical fiber test points of distal end, 1xN optical switch connects several fibers with OTDR (optical time-domain reflectometer) so as to achieve monitoring of all fibers. Or use the network analyzer to achieve network on-line analysis.

Optical fiber communication device testing. When testing optical device, fiber cable and system product, optical switch is able to test several devices so that thus simplifies the test and increases the efficiency.

OADM. It is mainly used in circular MAN, to achieve a single wavelength and a plurality of wavelengths transmitted in the optical path up and down freely. Optical switch OADM can control any dynamic wavelength up and down by software to boost the flexibility of network configuration.

Conventional optical switching technology mainly uses two technologies: solid state waveguide and optomechanical. Because of high crosstalk and power loss, solid state waveguide is limited in a switches array, not suitable to expansion in a large-scale switch array. While optomechanical has low insert loss and crosstalk, it is also not suitable to large-scale switch array for its large equipment and ordinary expansibility. So far, a lot of new technologies have emerged, mainly including MEMS, Inkjet bubble optical switch, the liquid crystal optical switch, thermo-optic effect switch, acousto-optic switches, holographic switches and so on.

The following specifications are used to examine an optical switch: switching time, array size, insert loss, reliability, expansibility and so forth. The developments of different technologies vary with the different applications. The following is a summary on the major optical switches types and their applications.

MEMS (micro-electromechanical system) optical switches. MEMS is likely to be one of the mainstreams of the core optical switch devices, because it is less affected by the format, wavelength, protocols, modulation, polarization and optical signal transmission direction, but performs better than other types in loss and scalability, which is consistent with the trend of the future development of optical network. The principle is to switch the light route by static electricity or other controls driving the movable micro mirror rotate. In spite of complicated production process, MEMS used IC technology to achieve mass-produces and decrease the individual cost.

Magneto-optic switches. As technology developing fast and expanding its horizon to wider fields, magneto-optic switches emerge as the times require. Magneto-optic switches boast higher switching speed, better durability, higher reliability, low voltage drive, and fail-safe latching. The sophisticated micro-technique is a push to high-technology industry. The applications are promising in high-end science, such as aerospace, military, fire monitoring, oil field detection, medical science and so on. Thus, a manufacture’s strength is reflected in whether it masters the magneto-optic switch technology and is able to produce it.

PON. Optical switches are widely used in PON monitoring system to build up all optical networks nowadays. PON is necessary to fulfill FTTx. With zero natural environment influence like thunder and lightning, PON is the best choice to meet the need of present networking. PON is composed of OLT, ONU, ONT and ODN, while optical switches integrated in these devices play great role to transmit mass data and monitor the networking in case of fault and ensure signal transmission.

Multi-channel optical switches. Optical switches can be integrated into a module or an equipment as multi-channel optical switches featured wide wavelength range, low crosstalk, high stability, high reliability and modularized design. At present, there are 1x4, 1x8, 1x16, 4x4, 1xN, MxN and module-type multi-channel optical switches.

Micro optical switches. It is the fundamental and widely used optical component, including 1x1, 1x2, 2x2, 2x2, D1x2,D1x2B, D2x2, 2x2F and so on. Micro optical switch is famous for its high performance, low insertion loss and compact dimension. It is an ideal component for OADM, OXC, system monitoring and protection. With compact package, it can be easily integrated into a high density optical communication system.

With the popularization of optical networking concept, optical switch technology has become the key to the future all optical network. This article briefly introduces the optical switch technology and application to help understand what is in the optical networking.

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