Siemon Product Dealers Kenya
Siemon is an industry leader in the design and manufacture of high-quality, high-performance IT infrastructure solutions and services for data centers.
Hubtech limited is a Siemon product dealer in Nairobi, Kenya having partnered with Siemon distributors in Kenya.
We provide Siemon’s products at the best and most affordable prices.
Hubtech limited provides Siemon’s cables, fiber optic cables, and data cabinets.
Siemon Fiber optic cable
Fiber optic cable is an advanced type of network cable. It offers significantly improved performance in terms of both spare capacity and data carrying than traditional metal conductor alternatives.
Fiber optic technology is an effective cabled-based communication system.
Hubtech limited Siemon fiber is reliable, versatile, and widely used in many applications and industries.
Transfer of information uses optical fiber cabling via pulses of light, which pass along one or more transparent plastic or glass pipes. This can be more than several hundred pipes. Each of these strands is a little wider than an average hair.
A sheath made up of several layers of the insulated casing also wrapped around the cladded fibers. This usually comprises a protective wrapper, known as a buffer tube, followed by a final outer jacket designed to protect the entire multi-stranded cable.
Siemon Optical Fibre Cable Uses
They commonly find optic cables in a variety of applications such as the internet and broadband, phone lines, networking, and telecommunications. Additional fiber optic cable uses in the home and workplace include lighting and interior decor.
Hubtech limited Optical fiber cable saves space compared to bulkier traditional cabling. This ability has also made vehicles’ safety and lighting features popular. We widely used optical fiber technologies in many other demanding professional fields too, including in medical applications. We also used it for detailed mechanical inspections and as sensors for monitoring.
How Do Hubtech limited Siemon Fibre Optics Work?
In understanding how optical fibers work, it is important to note that there are multiple components involved in the construction of optical fiber. The glass strands themselves are central to the system, but several other key parts play a role in effective data transfer along optical fibers.
A source of light needed to transmit information pulses along the transparent strands of plastic or glass tubing strands at the cable’s core. A tiny laser usually creates this by an LED source. This receives an input signal coming from the optical transmitter circuitry and converts it to a light pulse before bouncing it along the fiber cores.
Moreso, an additional glass or plastic cladding layer surrounds the glass fibers themselves. This will have a different refractive index for light passing through it than in the core strands. These refractive differences allow the incoming light pulses to bend at particular angles as they travel the length of the cable.
The rays of light remain inside the transparent fiber cable. They move along the cable run’s full length, bouncing in a zig-zag pattern to navigate bends. At various points, they can convert into electrical signals before turning back into light pulses again. We use additional components called repeaters for this and maintain high signal strength for longer cable runs.
After traveling at approximately 70% of the speed of light, the light signals interpret as communications or data signals. Receiving equipment converts them to the desired output.
Hubtech limited Siemon Fibre Optic Cable Specification and Characteristics
Optical fiber cabling has key classifications and characteristics. These directly affect its efficiency regarding line speed, signal strength, and capacity.
Below are several factors that could influence optical cable’s overall performance.
Fibre Optic Cable Transmission Speed
The Fiber optic data transfer rates are usually reliant on several aspects – chiefly the cable mode. Optical fibers are single mode or multi-mode. These arrangements deliver lower or higher standard broadband speeds (measured in Mbps) over certain defined distance ranges.
Fibre Optic Bandwidth
Fiber optic bandwidth is the frequency where the magnitude of the response has decreased to half of its zero-frequency value. This refers to the power transmission frequency and amount of data transferred over a set period.
Similarly to optical fiber speed, bandwidth is also high. This is because data transmit quickly and efficiently, using a range of frequencies without attenuation.
Fibre Optic Cable Connectors
As with all cables, the termination of fiber optic cables needs connectors. Several connector types are available and it is important to choose the right one for a successful fiber optic connection. This will depend primarily on the equipment and optical fiber in use.
Some of the most common types of fiber optic cable connectors include:
SC Connectors
SC connectors are the most widely used variation. They have a 2.5mm ferrule and utilize a straightforward pull-push motion to latch and snap onto the cable.
LC Connectors
LC connectors are small and compact. They have a 1.25mm ferrule and are half the size of the standard SC connector.
Key advantages of our optical fibers include:
Distance – because of their low signal power loss rate, they can carry optical signals over far longer distances than older types of cabling. With the ideal combination of network setup, materials, and wavelength, some single fiber optics are effective at carrying signals over hundreds of kilometers. In comparison, standard copper cables have a limitation of 328 feet for good quality transfer distance.
Bandwidth and data transfer – copper data cables offer quite limited bandwidth as opposed to fiber optics.
Speed–They enjoy a significant speed advantage because they use light pulses as the primary information conveyance source. In this regard, fiber typically outstrips the expected performance of even high-grade copper cables such as Cat5 and Cat6.
Interference – much more protection provided against interference and cross-talk by fiber optics than metal cables. This is because fiber does not carry a physical, or electrical signal.
Reliability and safety – although optical fiber cables are usually a lot lighter and thinner, they are also sturdier. This means that they can withstand far greater forces and therefore the chances of incurring breakage or damage across long runs are less likely. Moisture, poor weather, or extreme temperatures nearly as much as copper-based wiring does not influence fiber. Additionally, as glass fibers do not carry current, they have not fired hazards even if they are aging or damaged.
Hubtech limited Siemon Fibre Cable Types
Siemon Glass Fibre Cable
In terms of bend and flex, glass optical fiber is more delicate than its plastic counterparts. This also means that it is more susceptible to damage – especially if it has to loop tightly or moved continually over its run length. It is not suitable for applications with high levels of flexibility.
Despite this, they are sturdy and durable in terms of both mechanical strength and overall resistance to chemicals, moisture, fluctuating temperatures, and extreme environments. This makes it well-suited to longer-distance applications where we submerge cables or bury them. Due to the many fittings, adapters, and configurations available, we also noted it for its versatility.
We regularly used glass fiber in challenging and longer-distance applications. It often costs more to purchase and install, which also boasts greater flexibility and ease of use for most non-specialized applications.
Single-Mode Cables
Single-mode and multi-mode optical fibers are varying cable configuration types. They deliver different potential performance levels at distance.
Single-mode fiber optic cables comprise one glass fiber strand with a fairly slim core diameter. Far less internal reflection involves as light rays pass through it, therefore reducing attenuation and allowing for far higher speed data transfer over longer distances. We typically use this configuration for long-distance signal transmission.
Multi-mode Cables
Conversely, multi-mode cables feature larger cores that guide many modes simultaneously. multi-mode fiber cabling significantly increases reflection. This results in higher attenuation and dispersion rates, therefore increasing capacity delivery over short distances.
Siemon network cabinet
A network cabinet is a combination of hardware structures designed to accommodate technical equipment. It is also possible to understand the network cabinet as a bracket that allows keeping the server. It also keeps many important devices attached in a firm, fixed position, contributing to ensuring stable operation. Network cabinets are often used by businesses that own servers located in data centers or communication centers.
How do distribute the cables to the network cabinet?
Cable distribution in the network cabinet is together with cable management and distribution box. As we know, the network cabinet installs switches and other equipment. Because the network cabinet space is large, the installation of more equipment and the number of cables in the network cabinet will be accordingly. Considering the vertical and horizontal cable fixed, we can always use the network cabinet wiring in conjunction with the vertical/horizontal cable management. If applied in the network cabinet space, the number of cables in the network cabinet will be large.
40G/100G network environment, we can use it with an ultra-high density fiber distribution box. In addition, in order to facilitate the management of cables in the network cabinet, we can use the cable tie-in belt to bind and fix the cables.
Benefits of Siemon network cabinets
- Optimize the structure of a server system: The network cabinet is usually a frame containing a tall, spacious, breathable structure. Also, it can accommodate a variety of different devices in the same place. This helps keep the server system’s hardware devices organized in an organized manner, thereby maximizing the use of floor space.
- Better cabling management: someone will preferably design a good quality network cabinet to make cabling system management easier and more efficient. You can set up hundreds of power cables, networks, and more through these brackets while maintaining a secure, neat, and organized way.
- Delivers efficient cooling: network cabinets are a device designed to support this task.
- Security support (physical): Network cabinets are usually made of hard metal and have a lock to limit unauthorized acts on the internal hardware equipment system. Besides, the closed network cabinet has a door that also helps prevent accidental or intentional collision with the power button or cable.
Ensuring the safety of network cabinets
Ensuring safety for equipment in the data center and network cabinets, in particular, is always a factor. There are several methods to help you improve the security of your network cabinets and devices in your data center. Below:
- Note that you should buy all types of cabinets with locks both in front and behind the doors.
- Install environmental controls to proactively understand the state of the environment inside the cabinet.
- Data center managers should closely monitor the amperage on each circuit, temperature, humidity, and other changes.
- Install several sensors on the cabinet door, which help identify and can alert managers when a cabinet door opens or is not closed properly.
- Pay special attention to fire prevention and fighting in data centers.