Best Fiber Optic Cabling Service
SOLO SOFT is the ultimate destination for all your optic fiber cable testing, termination needs, and services.
Our expert technicians use world-class equipment to provide accurate measurements for your fiber optic connection.
The tests we offer provide accurate, extensive, and in-depth reports for your optical fiber cable, and data cable connection so that you may meet the ISP requirements as early as possible.
With SOLO SOFT on your side, you can be more confident in your next step.
Fiber Optic Optical time-domain reflectometers (OTDR) Testing
Typically, a long outside cable would have a lot of splices, connections, and terminations. OTDRs ensure that the cable splices made during ex-tension or maintenance have not compromised the cable.
Using a return signal from fiber backscatter and reflections from joints and bends, OTDRs “trace” information about the fiber connection. Tracing allows for calculating fiber length, signal attenuation, and joint loss.
A “trace” can be made after the installation and archived to be compared later to newer measurements. This comparison helps quickly identify the location of any cable breaks due to dig-ups or faulty maintenance.
Fiber Optic Inspection Service
Fiber Cable Inspection Service is commonly required for manual termination as it is more prone to signal loss due to human error.
Fiber optic cable connectors are easily contaminated by natural processes or poor handling. Some cleaning processes may cause problems if done incorrectly.
Therefore we use a microscope to inspect for issues in the connector. Surface dirt, scratching of the fiber, oil from fingerprints, and improper termination can cause connector loss.
Once identified, we can fix the problem using precise cleaning techniques to ensure minimal loss.
Optic Fiber Power Meter Test and Report
OFPM is used to measure signal power, thereby enabling the calculation of signal/power loss upon transmission from source to target as it traverses through the connection cables. It accurately measures the strength of the optical signal through the fiber. The device will calculate the Power loss and Show it on dis-play.
SOLO SOFT can offer the best service in optical meter testing and fiber power provide comprehensive reports.
Fiber Optic Power Meter Identifier
Manually identifying a live optic fiber line from a bunch of core fiber optic cables is impossible. Hence, we use a piece of equipment called the power meter identifier to see if the fiber is live.
Power meter identifier is also used to determine transmission direction and relative core power in standard and bend-insensitive fibers. SOLO SOFT can quickly resolve this challenging issue.
Fiber Optic Fusion Splicing
Connecting two fiber optic cables is called splicing. Splicing is necessary when the required length of the network is too long for a single fiber cable or when different types of cables need to be joined.
We use fiber optic pigtails to terminate fiber optic cables via fusion splicing. A fiber optic pigtail is an | optic cable terminated with a factory-installed connector on one end, and the other end should be fusion spliced. The terminated end can easily be connected to user devices.
Fiber Optic Mechanical Splicing & Termination
Fiber Optic termination is joining two optic fiber cables with the help of a fusion splicing machine. It is challenging to use splicing machines for critical areas and off-shore connections. So in these situations, we opt for manual splicing and termination.
Fusion splicing is more efficient than manual splicing. Therefore, more expected data loss would occur with mechanical splicing. We only recommend me-chanical splicing when it is impossible to avoid using splicing machines.
Our Clients
Passive Optical Networks
A Passive Optical Network (PON) is a point-to-multipoint optical access solution. Its main characteristic is the use of passive optical splitters in the fiber distribution network, enabling one single feeding fiber from the provider’s central office to serve multiple homes and small businesses.
Passive Optical Networks use passive components and architectures. PONs are called passive because, other than at the CO and subscriber endpoints, there are no active electronics within the access network. PONs use point to multipoint physical topology and their shared infrastructure result in lower cost per customer. PONs are based on ITU-T’s recommendation G.982. This recommendation generally addresses all types of PONs; however, GPONs are based on G.984
Blown Fiber Solutions
Air Blown Fiber was conceived by British Telecom with the objective to establish a fiber cabling system that once installed, could then be upgraded, extended and even replaced without the expense of re-laying cable, disturbing the fabric of a building or digging-up the roads. The technology is a versatile and truly future proof for many application areas, such as fibre to the desk / home, Backbone, Horizontal, Campus, Access, Metro and Data Centre applications.
Benefits of Air Blown Fiber Solutions are:
For Integrators, the clear advantage of blown fiber is that it reduces the number of optical fiber splices in a network. Thus, optical attenuation losses are significantly reduced.
In a new build, the protected micro ducts can be installed early on in a project and the blown fiber introduced once the building project has progressed
For the owner of a network or a commercial premise, the advantages of blown fiber are very tangible when the potential savings are considered against the whole life cycle and associated costs of both premises cabling and conventional sheathed cable systems
