Electrical systems should be invisible when they function and obvious when they fail. Our electrical team effectively space plans and designs cost effective distribution systems that protect both people and equipment that is resilient and simple to operate. From load forecasting and calculations to renewable and co-generation integration, we deliver systems that work on paper and perform in the field.
Evaluates projected electrical demand and utility service capabilities, establishing a realistic baseline for infrastructure and phasing.
Identifies all systems tied to code or emergency response including fire alarm, smoke control, elevator shunt-trip, and first responder communications.
Models load by building and phase for campus-style developments, forecasting substation sizing, feeder design, and connection timing.
System modeling to confirm that overcurrent protective devices isolate faults correctly without upstream nuisance trips.
Define maintenance and safety requirements for electrical equipment for safety and liability insurance requirements. Labels are printed in-house and applied during field verification.
Portable meters capture waveforms to identify harmonics, imbalance, and transient conditions before they damage equipment.
Plans and dashboards that help owners monitor energy use, identify anomalies, and optimize operation.
Starting with data ensures the design aligns with utility constraints, code requirements, and the building’s operational intent from day one.
Service entrance, switchboards, feeders, and panels sized for present and future loads with selective coordination and voltage drop under control.
Generator, ATS, UPS, and inverter designs tailored to the building’s risk profile. Load shedding limits stress during startup and enables right-sized redundancy.
Integrated fire alarm, smoke control, and distributed antenna systems keep first responders connected and occupants safe.
Isolated grounding and bonding strategies that protect sensitive equipment from electrical noise and transient faults.
3D modeled routing that ensures efficient pathways and proper separation between high and low voltage systems.
Solar photovoltaic layout and modeling with shading, tilt and climate considerations. Battery storage systems to allow for off-grid functionality and energy savings. cogeneration design implementing for electrical and mechanical energy efficiencies. PV layout and modeling for shading, tilt, and climate considerations. Battery storage and rapid-shutdown solutions integrated for safety and performance.
Circuit tracing, load verification, metering, building scanning, and documentation updates for renovations or legacy systems with limited as-built records.
Verifies that materials, layouts, grounding, and devices match approved submittals before concealment.
Aligns verification with the construction schedule to avoid delays and missed inspection milestones.
Witnesses equipment startup and testing to confirm sequencing, redundancy, and life-safety integration.
Witnesses equipment startup and testing to confirm sequencing, redundancy, and life-safety integration.
Every layout and circuit is modeled with the installer and inspector in mind, reducing RFIs, minimizing rework, and delivering systems that work as intended.
Identifying issues early turns potential change orders into quick corrections, protecting time, cost, and trust.
Short circuit, coordination, arc flash studies, and supplemental system verification in one combined modeling scope.
3D routing and coordination of feeders, trays, and device layouts with custom created quality control and design automation tools
Solar performance modeling for accurate renewable energy forecasting.
Metering and waveform capture tools for commissioning and troubleshooting.
Modeling accuracy matters, but expertise matters more. We combine both to deliver decisions you can build on.
From the main switchboard to the smallest circuit, our electrical systems are designed for reliability, safety, and constructability. Every design is coordinated across disciplines, built on accurate assumptions, and ready for real-world operation.
