Panels built to install,
not to rework.
UL 508A listed control panels — designed, fabricated, tested, and documented by the same team that programs the controllers inside them.
Panels that arrive needing rework. Mislabeled wiring, missing components, and drawings that don't match.
- —Handwritten labels and unmarked wires
- —No functional test before shipping
- —Drawings don't match as-built
Tested, documented, and ready to install. Power up, terminate field wiring, commission.
- Printed labels and ferrule terminations
- Full functional test with documented results
- As-built drawings in the documentation package
Not just a box,
the foundation of your system.
A control panel is the physical foundation of your automation system. Every PLC, every drive, every relay, every terminal block lives inside an enclosure that someone designed, wired, and tested. When that panel is engineered properly, it arrives on your floor ready to install — power it up, terminate the field wiring, and commission.
We design, fabricate, and test UL 508A listed control panels as an integrated panel shop and controls engineering firm. The same engineers who design the control logic design the panel that houses it. That means the I/O layout makes sense for the wire routing, the drive placement accounts for heat dissipation, and the terminal block arrangement follows the physical layout of the field devices.
This isn't a sideline to our controls engineering work. It's an integrated part of it.
From schematics
to shipped panel.
Electrical Schematics and Design
Complete electrical design packages in AutoCAD Electrical or EPLAN. Power distribution, control circuits, I/O wiring, motor starters, drive circuits, safety circuits, and network connectivity — drawn to a standard that your maintenance team and future integrators can follow. Bill of materials, wire schedules, terminal block layouts, and panel layout drawings. Every component specified with manufacturer and part number.
Every enclosure,
engineered for its purpose.
From single-PLC machine panels to multi-drive motor control centers — designed, built, and tested under one roof.
PLC and Control Panels
Panels housing PLC processors, I/O modules, communication switches, and power supplies. Designed for the specific controller platform with appropriate rack space, power budgeting, and network connectivity.
Motor Control and Drive Panels
VFD enclosures with proper line reactors, output filters, dynamic braking resistors, and ventilation. Multi-drive panels with shared DC bus configurations. Contactor-based motor starters with overload protection.
Safety and E-Stop Panels
Safety relay and safety PLC panels for machine safeguarding. E-stop circuits, safety interlock wiring, and safety-rated I/O — designed to the safety requirements established by the risk assessment.
Operator Interface Panels
Enclosures with HMI touchscreens, push buttons, selector switches, and pilot lights. Panel cutout dimensions verified against device specs. NEMA-rated operator stations for harsh environments.
Remote I/O and Junction Boxes
Distributed I/O enclosures positioned close to field devices to reduce field wiring runs. Terminal block junction boxes for marshalling field signals. Designed to reduce installation labor and simplify troubleshooting.
Power Distribution Panels
Main disconnects, distribution breakers, branch circuit protection, UPS integration, and power monitoring. Designed for the full electrical architecture from incoming power through branch circuits.
From engineering
to your floor.
Engineering.
Electrical design, component specification, enclosure selection, and layout. Schematics reviewed with your team before fabrication begins. SCCR calculations and UL 508A compliance verified at the design stage.
Procurement.
Components ordered against a confirmed BOM. Lead times tracked and managed. Substitutions — when required by availability — approved by engineering before they're made.
Fabrication.
Enclosure preparation, DIN rail and wire duct installation, component mounting, and wiring. Work follows the engineering drawings. Deviations are documented and reflected in as-built drawings.
Test.
Point-to-point verification, power circuit testing, I/O checkout, and functional test. Test results documented and included in the panel documentation package.
Ship or install.
Panels crated and shipped to your site, or installed by our field team as part of a commissioning scope. Field termination support available if your electricians are handling the connection and want engineering support on-site.
What we build with.
Components specified by engineering requirements and your facility's standardization preferences — not habit or vendor incentive.
Integrated engineering,
not assembly-line fabrication.
Designed and built by the same team that programs them.
Most panel shops build to a drawing someone else created. We design the electrical, lay out the panel, build it, wire it, load the PLC program, and test the complete system before it ships. The engineer who designed the I/O architecture is the same person who verified the wiring in the panel.
Panels that install clean.
We design terminal block layouts to match the physical arrangement of field devices — not the order they appear on the I/O module. Your electricians land field wires in a logical sequence without crossing conductors or hunting for terminal numbers. Wire duct is sized for the actual wire fill plus expansion room.
Documentation that's actually accurate.
Every panel ships with as-built drawings that match what's inside the enclosure — not the original design that changed four times during fabrication. When your maintenance team opens that panel five years from now, the drawings tell them what they're looking at.
Wiring that reflects engineering discipline.
Bundled and routed wire duct, consistent color coding, ferrule terminations, and labeled wiring throughout. Power wiring and signal wiring separated. Analog signals routed away from VFD power cables. No wire-nut splices, no unmarked conductors, no overfilled wire duct.
Straight answers.
Yes. If you have established panel layout standards, wiring practices, labeling conventions, or approved component lists, we design and build to your spec. If you don't have standards and want to establish them, we can help you develop a panel standard that provides consistency across your facility.
It depends on panel complexity, component availability, and our current shop load. Simple panels (single PLC, limited I/O): 4–6 weeks from approved drawings. Complex panels (multi-drive, large I/O count, extensive safety): 8–12 weeks. We provide a schedule commitment at proposal and communicate proactively if anything changes.
Yes. We provide field installation services including panel mounting, conduit termination, field wiring, and integration with existing electrical infrastructure. We also support installations where your electricians handle the physical work and our engineers provide on-site oversight and termination verification.
Yes. We assess existing panels, design modifications, and either perform the work in our shop (if the panel can be removed) or on-site. We update the drawings to reflect the as-modified condition so the documentation stays current.
We design panels for Class I Division 2 and Zone 2 environments using appropriate enclosures, sealing, and component ratings. For Class I Division 1 / Zone 1 applications, we specify explosion-proof or intrinsically safe solutions based on the area classification and the devices involved.
Yes. We build repeat panel designs for OEMs with standardized drawings, BOMs, and build procedures that ensure consistency across multiple units. Version-controlled documentation so panel revisions are tracked as your machine platform evolves. Volume pricing for recurring builds.
Need a panel built right?
Whether it's a new build, a replacement, or a panel standard you want to establish — tell us what you need.