Emtech is an embedded engineering partner for robotics, automation, and advanced manufacturing, scaling engineering capacity from R&D through full production without the overhead of full-time hires.
Solutions are tailored to customer needs. Each engagement is delivered by specialized teams led by senior engineers who own outcomes.
01 · Solution
Assembly, Testing & Multisite Deployment
Emtech covers the full path (early-stage R&D builds through full production-floor deployment) with complete build, verification, and deployment scaled to each project. A multi-tier technician workforce puts the right hands on every task, from first-article prototypes to live commissioning across multiple sites.
Teams & Contributions
LabSite coordination, IT/network readiness, and general infrastructure support across all deployment locations.
TestingTest planning, data analysis, and technical reporting to validate system performance at every site.
EOATQuality assurance and design adaptation to ensure tooling and hardware meets spec before and during deployment.
DeploymentInstallation, commissioning, and logistics management from point of origin to live handover.
Modern automation runs on precise, high-speed communication between hardware and software. When that layer isn't right, nothing works. Emtech bridges physical machines and the logic that drives them, from low-level firmware and real-time control to full PLC and HMI programming.
Teams & Contributions
ReliabilityEmbedded systems integration, robotics controls development, and real-time communication protocols including CoDesys, EtherCAT, and UDP.
LabIT and network infrastructure support, ensuring control systems have the connectivity and architecture they need to operate reliably.
HardwareTest bed development and physical hardware integration to support controls validation and commissioning.
Retrofit, Adaptation & Prototyping of Existing Designs
Not every problem needs a new system. Often there's more to get out of what already exists: legacy equipment adapted to new applications, components redesigned for performance or manufacturability, and fast prototyping with in-house 3D modeling and printing.
Teams & Contributions
EOATDesign adaptation and SolidWorks 3D modeling to rework existing tooling, fixtures, and end-of-arm hardware.
HardwareMechanical retrofitting, test bed modification, and physical adaptation of existing equipment.
LabRapid prototyping via in-house 3D printing, turning design iterations into testable parts quickly.
When a system underperforms, fails unpredictably, or costs more in downtime than it should, Emtech's reliability engineers dig into why. Embedded systems knowledge, test data, and hands-on hardware experience combine to identify root causes rather than symptoms, then the findings come back clear, with actionable recommendations.
Teams & Contributions
ReliabilityRoot cause analysis, embedded systems diagnostics, and reliability-focused controls review to identify and resolve systemic failure modes.
TestingStructured test planning and data analysis to quantify performance issues and validate fixes after intervention.
HardwarePhysical inspection, test bed setup, and hands-on investigation of hardware-level failure points.
Industrial automation increasingly depends on reliable, well-architected network infrastructure, and most integrators don't have this capability in-house. Emtech does, covering everything from basic site connectivity to the industrial ethernet architecture that high-speed robotics and IIoT systems demand.
Teams & Contributions
LabIT and network support, site coordination, and industrial network architecture for automation and robotics environments.
ReliabilityIntegration of embedded systems and communication protocols, EtherCAT, UDP, and CoDesys, ensuring controls and network layers work together without latency or packet loss.
DeploymentOnsite installation and commissioning of network infrastructure as part of broader system deployment.
Embedded for the outcome. Measured against your KPIs.
The work is measured in delivered results, not billed hours. Mechanical, electrical, firmware, integration, deployment, sustainment. One accountable partner across the full lifecycle.
Tell us where the project stands. The response will come prepared: the
right questions, the right context, and a clear picture of what working
together involves.