Robotics and Automation
When your primary CM is at capacity and your deployment won't wait — you need a partner who plugs into your existing program, not another vendor relationship to manage.
Fixyte Systems is a precision contract manufacturer in Billerica, Massachusetts specializing in sub-module assembly and electro-mechanical integration for robotics and automation OEMs. We work from your existing drawings, BOM, and assembly standards to deliver integration-ready sub-modules for autonomous platforms, robotic systems, and automation capital equipment. Programs run 5–200 units per year under fixed-price SOW with fast onboarding, first article validation, and full build documentation.
Start a ProjectYou've landed a significant order. Your primary CM is at capacity. Your engineering team is stretched across final integration, customer delivery prep, and the next program already entering design. You don't have bandwidth to onboard a new vendor from scratch — to walk them through your assembly standards, re-explain your BOM structure, and supervise their first articles while your deadline gets closer.
What you need is a sub-contractor who operates as an extension of your existing manufacturing operation. One who takes your drawings, understands them without a week of explanation, builds to your standards without reinterpretation, and delivers sub-modules your team can integrate directly without rework
Fixyte Systems approaches robotic system manufacturing with the same precision engineering mindset we apply to all our programs: understanding the tolerance stack, managing assembly sequences, and delivering the consistency that automated production systems require.
We build the sub‑modules that integrate into your larger platform — working from your drawings, BOM, and assembly standards from day one. Electro‑mechanical modules, sensor packages, motion sub‑assemblies, and precision structural components delivered to your integration interface specification — not ours.
Cable harness routing, connector assembly, PCB integration, sensor wiring, and full electro‑mechanical box builds for robotic and automation systems. Built for vibration, thermal, and handling environments your platform operates in — not just test‑bench conditions.
Linear stages, rotary actuators, servo‑integrated sub‑assemblies, and precision motion modules for automation capital equipment. Backlash verification, preload setting, and performance validation completed before delivery — built to the positional accuracy your system requires.
Machined structural components, weldments, and precision mechanical sub‑assemblies for robotic platforms and automation equipment. Dimensional verification, surface‑finish inspection, and integration‑ready delivery provide the structural backbone your system builds on.
No one knows your design better than you do. We know how to build it.
Autonomous platforms — warehouse robots, inspection systems, agricultural automation, and industrial mobile platforms — require sub-modules built to interface specifications that allow final integration without rework. A sub-module that arrives dimensionally correct but wired to a non-standard connector scheme or built to a previous rev of the drawing creates integration delay that cascades through the entire program schedule.
Cable harnesses and sensor packages are where most robotic sub-module quality issues originate — and where most CMs have the least domain-specific knowledge. A harness built for a static environment that gets installed in a dynamic one fails at the flexure points. A sensor package assembled without attention to EMI shielding generates noise that shows up as system instability.
Automation capital equipment is only as accurate as its motion sub-systems. A linear stage with inconsistent preload, a rotary actuator with unverified backlash, or a servo-integrated module built without performance validation creates system-level errors that are expensive to diagnose and fix after final integration.
Robotic systems are fundamentally electro-mechanical — the mechanical structure and the electrical/electronic systems are interdependent, and assembly quality in one domain affects performance in the other. Cable routing that doesn't account for range-of-motion creates harness wear. Connector assemblies built without pull-test verification fail in vibration environments. Sensor integrations built without EMI consideration create signal quality issues that appear intermittently and are hard to trace.
We onboard fast, work from your documentation, and deliver to your integration interface specification. First conversation this week — production within your timeline or we tell you we can't hit it.
Schedule a Program DiscussionRobotics and industrial automation often share similar precision requirements and control systems architecture.
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