Crisp technical photography of an OTDR trace graph on a dark dashboard screen, glowing amber waveform, high contrast, low-key server room lighting, 35mm
Crisp technical photography of an OTDR trace graph on a dark dashboard screen, glowing amber waveform, high contrast, low-key server room lighting, 35mm
Physical Layer

OTDR Fiber Diagnostics

Inject high-powered laser pulses to measure backscatter attenuation and map optical physical-layer integrity. Pinpoint micro-bends, splices, and physical cable breaks instantly with precise distance-to-fault telemetry.

Reflectometry Analysis

Fresnel Waveform Analysis

Analyze returning backscatter data and Fresnel reflections to characterize fiber links from end to end. Identify splice loss, connector degradation, and cable strain before your support desk receives a single call.

Pulse Injection

Reflective Events

Specialized laser diodes transmit high-powered light pulses. The system measures returning backscatter to calculate exact decibel attenuation across the entire span.

Sudden refractive index changes trigger Fresnel reflections. Our algorithms calculate the precise time-of-flight to map connectors, mechanical splices, and macro-bends.

Macro close-up of a yellow fiber optic patch cable plugged into a server rack, glowing green and amber status LEDs, dark technical environment, 35mm
Macro close-up of a yellow fiber optic patch cable plugged into a server rack, glowing green and amber status LEDs, dark technical environment, 35mm
Distance-To-Fault Telemetry

Pinpoint Fiber Breaks

When physical fiber spans degrade, CorePlane maps the exact meter mark of the fault. Technicians dispatch with precise coordinates, cutting mean-time-to-repair from hours to minutes without manual tracing.

We located a micro-bend at meter 1,402 within seconds of the splice failure.

Lead OSP Engineer

Deploy CorePlane Telemetry

Unify physical OTDR traces, OSPF logical maps, and subscriber billing in one terminal. Request a customized sandbox deployment for your network.