We automate the connection of PCBs to textile — enabling mass production of smart garments, medical wearables, and industrial sensing fabrics.
From initial design through to finished product, we cover the full smart textile production pipeline.
We engineer PCBs and garment structures that are purpose-built for automated assembly. Our design process ensures electronics and textile are compatible at every level — materials, layout, and manufacturing.
Our proprietary automated production line connects PCBs to textile with precision and repeatability. We handle the full cycle from incoming components to finished smart textile, at any scale.
Electronic textiles are moving from research labs into everyday products. Here are the sectors leading the way.
Continuous ECG, respiration, and biometric monitoring in comfortable, washable garments. Ideal for patient monitoring, rehabilitation, and remote diagnostics.
Real-time muscle activity, posture, and motion capture embedded directly in sportswear. Used by athletes, physiotherapists, and sports scientists.
Smart PPE that monitors vital signs, environmental hazards, and worker location. Enhances safety in construction, firefighting, and industrial environments.
Interactive garments with embedded lighting, haptic feedback, or environmental sensing. From high fashion to consumer electronics integration.
Soldier monitoring systems, body-worn communications, and mission-critical sensing woven into uniforms. Lightweight, durable, and field-ready.
Structural health monitoring, pressure mapping, and environmental sensing in flexible substrates for aerospace, automotive, and civil engineering.
Smart textile manufacturing fails at the design stage more often than anywhere else. We solve this by building design and manufacturability in parallel from day one.
Our engineers collaborate with your team to develop PCBs and garment constructions that are fully compatible with automated assembly. This means selecting the right substrate materials, defining reliable electrical pathways through the textile, and designing PCB footprints that survive repeated flexing, washing, and wear.
The result is a design package that goes straight to production without costly redesigns.
Miniaturised, flexible-compatible PCBs with optimised pad geometry for automated placement.
Pattern and construction designed around electronics routing and production requirements.
Prototype builds and test cycles to verify performance before committing to production.
Our automated production system connects PCBs to textile substrates with the precision and repeatability needed for reliable, scalable manufacturing.
Unlike manual assembly — which is slow, inconsistent, and expensive — our process uses machine vision and precision automation to place and connect each PCB accurately, every time. Built-in quality control catches defects at the source, not at the end of the line.
Whether you need a short prototype run or high-volume production, the same process delivers the same result.
Machine vision guided placement and connection of PCBs onto textile substrates.
Automated inspection at each stage ensures defects are caught and corrected immediately.
From 10 to 10,000+ units, the same automated process with consistent output quality.
We cover design and production under one roof, so there are no handoff problems between teams.
Our process is built on automation from the start — not manual assembly dressed up with machines.
Electronics designed specifically for textile integration, not adapted from rigid-board processes.
The same process runs your prototype run and your production run — no re-engineering at scale.
Tell us what you're working on. We'll follow up within one business day to discuss whether we're a good fit.
We work with companies across medical, industrial, defence, and consumer sectors. All enquiries are treated confidentially.