01 The Problem
The Risk
HV cabinets have complex three-phase busbar routing where wired sensors cannot bridge insulation gaps.
Detection Gap
Conventional thermal imaging requires shutdown — shutdown is itself a loss.
High-Voltage Busbar Wireless Thermal Sensing (MITSU-TECH integration)
HV cabinets have complex three-phase busbar routing where wired sensors cannot bridge insulation gaps.
02 The OctosX Solution
Sensor & Edge
Thermalpas + MITSU-TECH wireless modules (self-powered via energy harvesting).
Cloud Logic & Alerting
Each sensor transmits to a Gateway; OctosX Cloud displays real-time three-phase balance.
03 The Outcome
Field Detection
A mid-sized industrial substation (30 wireless sensors) cost NT$ 600K to deploy — replacing 4 annual shutdown thermal-imaging inspections (NT$ 1.2M each in lost production).
Quantified Impact
Payback within Year 1.
See it in your plant
Could this case be your plant?
Tell us about your facility — busbars, motors, panels, coal blowers, chillers, whatever your highest-risk thermal interface is — and we'll show you what an OctosX deployment would look like.