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Disordered Office Telephone Wiring Solution.AINOPOL All-Optical Network Carries Office Phones & PC Networks via Single Optical Fiber
2026-07-03 17:26:43 6

Disordered Office Telephone Wiring Solution.AINOPOL All-Optical Network Carries Office Phones & PC Networks via Single Optical Fiber

Traditional enterprises adopt separate wiring for office networks and program-controlled telephones, resulting in messy tangled network cables and telephone lines in weak current rooms. Such wiring brings complicated construction work, difficult troubleshooting in later stages, and requires new cabling whenever new workstations are added.

By adopting photo-electric composite cables and converged optical APs, AINOPOL enables a single optical fiber to transmit computer network data, office phone signals, Wi-Fi wireless signals and monitoring data simultaneously. It cuts wiring workload by 80%, tidies up weak current rooms, and greatly reduces construction and operation & maintenance costs.

I. Multiple Drawbacks Caused by Separated Network & Telephone Wiring

Most office buildings and industrial parks were originally built with copper cabling, forming two independent wiring systems for network and telephone services, which lead to various practical problems.

Excessive cables cause congestion in weak current rooms

Separate network and telephone cables are deployed for each workstation. In a 15-floor office building with 20 workstations per floor, thousands of horizontal cables are laid out, filling weak current shafts and cabinets. Unclear labels make it hard to distinguish data cables from voice cables during troubleshooting. Statistics show that the total weight of cables under traditional copper cabling solutions can reach 3570Kg, occupying massive pipeline space.

Double construction work doubles labor costs

Two separate construction teams are needed to lay cables, crimp crystal connectors and deploy switches as well as program-controlled telephone switches respectively, leading to complex working procedures, difficult team coordination and long construction cycles. Adding new workstations or renovating office areas requires laying two sets of new cables with high renovation expenses.

Numerous power-consuming devices increase machine room energy load

Core switches, aggregation switches and voice switches are deployed simultaneously in machine rooms. Massive high-power devices consume continuous electricity and increase heat dissipation pressure of air conditioners, resulting in high monthly power bills. More equipment also means more potential fault points and higher failure rates.

Difficult troubleshooting lowers maintenance efficiency

When network lag or telephone line failures occur, maintenance staff have to inspect network lines, telephone lines, data switches and voice devices separately, doubling the workload. Unmarked cables also prolong cross-floor fault location procedures.

Inflexible expansion restricts business upgrade

Additional third-party cabling is required to deploy IP broadcasting, access control intercom and other new devices. Insufficient pipeline space often forces reconstruction of weak current shafts, which may interrupt daily office network and telephone communication services during construction.

II. AINOPOL Photo-Electric Converged All-Optical Multi-Service Solution

Adopting dedicated photo-electric composite cables, AINOPOL POL passive all-optical networks integrate optical transmission cores and power supply copper wires into one single cable. Combined with photo-electric converged AP terminals, the solution enables one optical fiber to carry wired network, Wi-Fi wireless network, analog/IP phones, IP broadcasting and access control intercom services, completely eliminating the chaos caused by separated dual wiring systems.

1. Integrated Photo-Electric Cabling Supports Full-Service Transmission

With a slim specification of 3.0*2.0mm, the photo-electric composite cable realizes data transmission and device power supply in one without separate telephone lines or power cords.

Optical signals are distributed from machine room OLTs to each office workstation via optical splitters, eliminating the need for floor aggregation switches.

Desktop and ceiling-mounted photo-electric APs provide wired network ports, Wi-Fi access, analog telephone interfaces and broadcast intercom ports after fiber connection, covering all daily office demands at one single point.

Compared with traditional dual wiring modes, total cable quantity is reduced by 85%. Only 300 optical fibers are needed for horizontal wiring in a 15-floor office building with a total cable weight of merely 135Kg, which drastically saves space inside weak current shafts.

2. Passive Flattened Architecture Reduces Active Devices in Machine Rooms

The whole network adopts a two-layer framework consisting of OLTs and passive optical splitters. Traditional aggregation switches and floor weak current room switches are removed. Power-free passive splitters simplify machine room layout, where only one integrated converged OLT gateway is reserved to integrate network, voice, routing and firewall functions. This cuts machine room equipment quantity and overall energy consumption by 70%.

Independent weak current rooms on each floor are no longer necessary, and only compact optical sockets are needed in corridors, saving construction space and costs. Renovation of old factories and office buildings does not require additional machine room construction.

3. Pre-Connected Cables Boost Construction Efficiency by 6 Times

Matched finished pre-connected photo-electric composite cables and standard SC photo-electric connectors eliminate on-site fiber splicing, cold connection and crystal crimping work. Construction staff only need to plug in both ends to finish deployment.

The installation time for a single workstation is shortened from 35 minutes to 6 minutes. General logistics staff can complete deployment without professional fiber splicing skills. Renovation projects avoid large-scale slotting and wiring, and slim composite cables can be laid through original pipelines without damaging interior decoration.

4. Unified Platform Enables One-Stop Network & Telephone Troubleshooting

All network and voice devices are connected to the EAAS cloud management platform. The visualized topology clearly displays fiber backbones, photo-electric APs, telephone extensions and computer terminals. Unified alerts are triggered for network disconnection, telephone line faults and Wi-Fi malfunctions. The platform automatically identifies faults among fiber lines, terminal devices and voice gateways without separate inspection on two independent systems.

Remote configuration of extension short numbers, network bandwidth and internet access permissions is supported, realizing full network and voice management via one single backend system.

5. Seamless Upgrade Supports Flexible Multi-Service Expansion

Fiber backbones support smooth upgrade from GPON to 10G/40G/100G PON. Bandwidth expansion and new deployment of broadcasting, access control and monitoring services only require OLT replacement instead of recabling. Photo-electric APs are equipped with abundant interfaces for flexible connection of new telephones, PCs and printers, bringing zero wiring pressure for workstation expansion.

III. Core Advantages of the Solution

Simplified wiring saves labor costs: One single line carries network, telephone, wireless and broadcasting services, cutting construction cycles and lowering labor expenses by over 60%.

Lightweight low-energy machine room layout: Power-free passive optical devices reduce active equipment quantity and overall network power consumption by 70%, saving long-term electricity expenditure.

Higher maintenance efficiency: Unified cloud management realizes integrated fault alerts and one-click positioning, reducing manpower investment in separate network and voice troubleshooting.

User-friendly renovation with high compatibility: Existing analog telephones, PCs and surveillance cameras can be reused. Phased renovation ensures uninterrupted daily office work.

Lower long-term TCO: Optical fibers feature a 30-year service life for long-term stable usage after one-time deployment. No extra cabling is needed for future expansion, cutting the overall total cost of ownership by 52.57% compared with traditional wiring schemes.

The traditional separated network and telephone wiring mode causes various problems including messy cables, high construction costs, excessive machine room power consumption and complicated maintenance work. Featuring photo-electric composite cabling technology, the AINOPOL all-optical converged solution simplifies wiring layout, reduces machine room equipment volume and cuts construction & maintenance expenses. It is widely applicable to office buildings, factories, industrial parks, campuses and other corporate scenarios, thoroughly solving wiring disorder issues and realizing simplified integrated deployment of network and voice systems.

FAQ

Q: Can this single-fiber solution be applied to old parks already equipped with network and telephone cables?

A: Yes. Phased regional renovation is available without full-scale replacement. Priority can be given to renovating meeting rooms, manager offices and open office areas, while original lines can be reserved as backups without affecting normal operation of unrenovated zones.

Q: Will voice traffic occupy internet bandwidth and cause network lag when network and telephone services run on one fiber?

A: Voice traffic is assigned the highest priority with intelligent bandwidth scheduling by gateways. Voice data packets are forwarded preferentially without affecting internet access and video conferences. Packet loss compensation technology is also adopted to ensure clear and stable call quality.

Q: How many computers and telephones can one photo-electric AP support at most?

A: The desktop F886 photo-electric converged AP supports 8 network terminals and 8 analog telephone lines, while emitting stable Wi-Fi6 wireless signals to meet daily office demands of an 8-person workstation.