VisiMap assigns unique encoded light signatures to every fiber port simultaneously. A far end decoder identifies each strand without physical contact — all on a single mating cycle.
From system architecture to detailed specifications to competitive positioning — everything you need to evaluate VisiMap for your operation.
Two-device system overview: Fiber Control Modules assign encoded light signatures at the transmit end. Far end decoders identify each strand by camera — no contact, no dust cap removal. Modular expansion via plug-in CCM, OLS, and OTDR modules.
Datasheet-equivalent specifications for the complete VisiMap product suite. FCM configurations, operating wavelengths, far end decoder variants, and plug-in module capabilities — all verified against production hardware.
Side-by-side comparison of VFL, tone/identifier, OTDR-only, and VisiMap approaches. See where legacy methods fall short at multi-strand scale — and why VisiMap was purpose-built for parallel identification.
Every design decision in VisiMap traces back to three outcomes that matter on the job site.
Parallel identification of 6 or 12 strands per cycle replaces sequential one-at-a-time testing. A 96-strand cable takes 8 cycles instead of 96.
Encoded light signatures are machine-decoded — not visually interpreted. Results are documented automatically via WiFi, Bluetooth, and cloud connectivity.
Indirect viewing via screen and audible announcement eliminates direct laser exposure. Non-contact decoding means no dust cap removal and zero contamination risk.
VisiMap technology is protected by two granted US patents (8,467,041 B2 and 8,823,925 B2) and a family of pending applications. Built by a team with 90+ combined years of telecom experience.