We design, install, and support the full spectrum of low-voltage and building technology systems. Serving commercial, industrial, education, healthcare, senior living, and enterprise facilities nationwide.
Single-mode and multimode fiber optic backbone installations — fusion spliced, OTDR certified, and documented for commercial campuses, high-rise buildings, and data centers across the Southeast.
Fiber optic infrastructure is the high-bandwidth backbone of modern commercial networks — connecting IDF closets, linking campus buildings, feeding data center core switching, and providing the backbone paths for surveillance, fire alarm, and IP communications systems. A poorly installed fiber plant — with excess loss from bad splices, improper bend radius, or untested connectors — degrades performance across every system running on it.
JB Technologies designs and installs OS2 single-mode and OM4 multimode fiber optic systems for commercial buildings, multi-building campuses, and data centers throughout Georgia, Tennessee, Alabama, Florida, and the Carolinas. Every fiber link is fusion spliced where performance demands it, OTDR tested to verify insertion loss, and documented with as-built records.
Fusion splicing delivers the lowest insertion loss of any fiber joining method. Our technicians use industry-grade fusion splicers for inter-building campus runs, long backbone links, and high-density data center applications where connector loss budgets are tight.
For applications where connectorized terminations are appropriate, we install pre-polished or field-polished connectors on LC, SC, and ST interfaces. Every connector end-face is inspected with an IEC 61300-3-35-compliant scope before installation.
Every fiber link is tested with an OTDR to verify splice loss, connector loss, and end-to-end insertion loss against the design budget. OLTS power meter testing provides the link loss measurement required for TIA certification. Test results are delivered as part of project closeout.
We install fiber enclosures, LIUs, and splice trays in telecom rooms and equipment spaces. Pigtails are properly coiled and labeled in splice trays, slack storage is provided at each end, and patch panels are organized for long-term maintainability.
Fiber optic requirements vary by building size, span length, and the systems that depend on the backbone. JB Technologies has experience across a wide range of commercial and institutional facility types.
Vertical riser fiber connecting IDF closets floor-by-floor, with MDF termination in the main telecom room and spare strands for future network expansion.
Inter-building single-mode fiber runs between campus buildings in conduit or direct-buried pathways, with outdoor-rated cable and proper moisture protection at building entries.
High-density data center fiber in pre-terminated MPO/MTP harness assemblies and structured fiber management systems for top-of-rack to core switching connectivity.
Healthcare campus fiber backbone connecting clinical buildings, data center, and satellite facilities with redundant paths and protected routing for mission-critical uptime.
Industrial fiber runs in harsh environments using armored cable rated for temperature extremes, rodent exposure, and mechanical stress in manufacturing and distribution facilities.
University and K-12 campus fiber infrastructure supporting network, IP cameras, access control, and mass notification systems connected across multiple buildings.
Single-mode fiber for long-distance campus runs and data center backbone where maximum bandwidth and minimum loss are required. Installed and tested per TIA-568 single-mode requirements.
OM4 multimode fiber for intra-building backbone links supporting 40G and 100G applications over short to medium distances in commercial office and data center environments.
Outdoor-rated armored fiber cable for direct-buried inter-building runs where conduit is not available, and indoor/outdoor rated cable for building entry transitions.
Factory-terminated MPO/MTP fiber assemblies for high-density data center applications — installed faster, tested at the factory, and documented with end-face inspection reports.
Emergency fiber repair and splicing services for cut or damaged fiber runs affecting network or life safety system connectivity.
Fiber run schedules, splice loss records, OTDR traces, and OLTS test reports delivered at project closeout — fully documenting every strand for long-term maintenance.
Every fiber optic installation is engineered to meet the applicable transmission performance and installation standards.
Optical Fiber Cabling Standard — governing fiber type specifications, connector types, insertion loss budgets, and test requirements for single-mode and multimode installations.
Fiber optic connector end-face inspection standard — used to pass/fail connector end-faces before installation to prevent contamination-related insertion loss.
BICSI Telecommunications Distribution Methods Manual — governing fiber routing, bend radius, slack storage, and splice enclosure installation best practices.
Campus backbone, high-rise riser, or data center fiber — we'll design and install a system that performs to spec and is fully documented.
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