Compared with traditional analog transmission products and copper-based systems, the third generation digital optical fiber product provides a unique advantage: Performance consistency. No matter how long the optical fiber is used, the baseband video and audio performance will always remain high in the system and provide consistent performance.
Point-to-Point Distribution of AV signals can easily implement digital optical fiber technology. Topology can be complex, simple, or necessary. Since the baseband AV signal is not distributed during processing, there is no distortion in the transmission process, which is shared with the traditional copper-based allocation technology.
The common misunderstanding is that the optical fiber is fragile, but the normal polyvinyl chloride jacket is actually very solid. It has a relatively strict bending radius, which is better than Cat6 and can be used in typical installment installation. Because the optical fiber uses Kevlar as a part of the construction, it can withstand great pressure and will not damage the internal glass fiber.
It usually needs to be converted from multimode to Single-Mode Optical Fiber for transmission. If a digital signal is used, it can be easily transmitted. In a single input and output mode, the optical distribution amplifier can be used to configure the conversion without any baseband signal attenuation during the transmission process.
If you have an existing optical fiber installation that needs to be upgraded, consider replacing all the current transmitters and receiving machines with the new digital multiplexing. With the most advanced products, you can not only improve the transmission quality, but also use a small amount of optical fiber to transmit more signals. The existing optical fiber is available for future application.
When you consider the cost of using optical fiber to allocate AV signals to coaxial cables or copper, take a look at all the installation costs, including the cost of cables, installation labor, line pipes, cable wiring, installation, and the supported time. When you see the real cost of all these hidden factors, you will understand the economic benefits and high-tech benefits of long-distance optical fiber transmission.
The decibel value specified by the hardware manufacturer specification cannot exceed. Calculate the optical loss and determine the maximum distance that can be transmitted through the optical fiber. In almost all AV devices, most of the light loss comes from connectors, connectors, plug-in wires, and panels, rather than from optical fibers. Remember this when designing your system.
The unique feature of optical fiber transmission is anti-interference. Because the optical fiber does not contain metal components, it is different from the antenna. Therefore, transmitting video, audio, and data through optical fibers is not subject to interference from radio transmitters, motors, walkie talkie and other similar devices.
Hope you can easily connect two boxes at the site quickly? The digital optical fiber transmission system can fulfill your wishes. No adjustment is required to compensate for signal levels or different transmission distances. The digital system provides clear video and audio no matter how long the optical fiber is.
One of the biggest enemies of optical fiber transmission is what cannot be found. The dirt and dust of fine particles are located on the optical fiber connection head, just as a window is blocked by light. Before using the optical fiber, the top of the optical fiber connection head is always wiped with alcohol and fabric-free cloth.
If you are installing an optical fiber to a permanent installation project, replace multimode optical fiber with a single-mode optical fiber. Why? The single-mode optical fiber has higher bandwidth and signal carrying capacity, which will help you upgrade in the future. Multimode Optical Fiber may be suitable for today's needs, but the cost of single-mode optical fiber will be worth more over time.
Do you know that optical fiber is the lowest cost cable type in AV applications? Fiber cables are cheaper than CAT-5, 5e, 6, and new twisted pair wires than copper cables. An optical fiber can carry as much information as multiple high-resolution copper-axis cable bundles. Now it is as easy to connect an optical fiber terminal as a copper-axis cable.
Are you considering using optical fiber in the future, but are you worried about connecting to the terminal at the construction site? Today, the optical fiber terminal connector is just as easy to create as the BNCs of the copper axis cable. The new site terminal toolkit does not require grinding, polishing, and epoxy resin. Easy-to-use jigs ensure you are precisely aligned each time.
One of the biggest differences between optical fiber and copper transmission is that it can transmit video, audio, and data in two directions on one core optical fiber. A so-called wavelength division multiplexing (WDM) technology is to use a wavelength of light to transmit signals in one direction, and use different wavelengths to transmit signals in the opposite direction. No, light does not interfere with each other in the optical fiber, and they are easily combined and separated at both ends.
The capability of developing optical fibers is to use a digital multiplexing technology. Here, many of our digital video, audio and/or data signals combine them into a high-speed data stream. The multivariate Optical Fiber circulating over a wavelength is sent. The optical receiver processes the opposite, and the original signal is restored to the user. Compared with copper-based technology, optical fiber has great capacity.
In fiber system design, the Link Loss budget is the most important parameter, but it is often ignored. Measure the maximum amount of optical loss specified in the decibel, transmitter and receiver device manufacturer specification. In AV systems, optical fiber is not the main cause of optical loss. Instead, it's connected to all mechanical and invisible enemies: dirt and dust. Please keep the connection clean!
What is the difference between multimode fiber and single-mode fiber? The cost of a Single-Mode Optical Fiber does not exceed that of a multi-mode optical fiber, and it can bring many benefits, including long-distance transmission of large-capacity signals and greater capabilities. The cost of single-mode optical fiber is high because the core of optical fiber is smaller. However, the use of single-mode optical fiber can provide more use value in permanent installation facilities.
Digital Optical Fiber provides great flexibility when designing signal distribution topology points in professional AV systems. The Chrysanthemum chain uses digital optical fiber to distribute amplifiers at no expensive cost. In addition, no matter how far away from the source, the digital signal quality of each monitor can be ensured.
Optical fiber is lightweight, easy to operate, flexible, and light, making it an ideal product for phased applications. It can be hidden almost anywhere and invisible to the audience. However, optical fibers are not fragile. Regardless of bending, pulling, or pressing, the optical fiber is not affected by its thick package.
Plenum optical fiber is cheaper than Plenum copper: the fire regulations require the use of Plenum-class cables. This usually costs more than the standard coaxial cable and CAT-5 cable. There is no such optical fiber. Plenum-level optical fiber is less than 10% of the standard PVC Cable fee. This is a real savings!
Do you know that one of the main advantages of using digital optical fiber for signal distribution is to maintain signal consistency throughout the transmission process? During short-distance or long-distance transmission, the video, audio, and data signals reach their endpoints to maintain a consistent original quality. Digital Optical Fiber technology eliminates noise, crosstalk, and non-linear distortion. The most important thing is that the cost of doing so is the same or even cheaper than the simulation system used in the past.
The unique performance of optical fiber transmission is its security. The optical fiber does not emit any signal, and its communication transmission mode is different from that of the copper base. Close monitoring will not interfere with adjacent electronic devices. Sensitive military and enterprise applications are now widely used optical fiber, even if the transmission distance is very short.
Low Cost of Optical Fiber: Do you know that optical fiber is the lowest cost cable type in A/V applications? It is cheaper than CAT-5, 5e, 6, and the new "undistorted" UTP, which is cheaper than copper. An optical fiber can carry as much information as multiple high-resolution copper-axis cable bundles. Now it is as easy to connect an optical fiber terminal as a copper-axis cable.