Reliable standalone power requires more than simply installing panels and batteries. Every remote or hybrid energy system must be properly sized, integrated, and protected to ensure long-term performance in demanding environments.

What We Design

Our system design services include:

  • Solar array sizing and layout optimization
  • Wind turbine integration where appropriate
  • Hybrid solar and wind configurations
  • Battery storage system sizing and chemistry selection
  • Charge controller and MPPT allocation
  • Inverter and inverter-charger selection
  • DC and AC distribution planning
  • Backup generator integration
  • System monitoring and remote telemetry integration
  • Protection, disconnects, and safety considerations

Each system is engineered around actual load requirements, not generic assumptions.

We design complete off-grid and hybrid solar, wind, and battery systems for commercial, remote, and industrial applications where utility power is unavailable, unreliable, or cost-prohibitive.

Recent Project

We designed and supplied a hybrid power system for Aluma Tower's portable telescopic tower platform, integrating lithium storage, solar generation, and inverter-based power distribution into a compact mobile deployment package. The upgrade combines an Epoch lithium battery bank with Victron inverter/charger and MPPT control hardware, supported by a roof-mounted Meyer Burger solar panel to extend runtime and reduce generator dependence.

The result is a cleaner, more efficient system that enables quieter standby operation, improved fuel efficiency, and reliable performance in rapid-deployment field environments.

Engineered for Real-World Conditions

Remote systems face unique challenges:

  • Variable weather and seasonal production
  • Critical equipment loads
  • Harsh environmental exposure
  • Limited service access
  • Communication and monitoring requirements

We design systems that account for these realities, balancing generation, storage, and load demand to deliver dependable operation year-round.

Applications

Our off-grid and hybrid power systems are suitable for:

  • Remote telecom and communications infrastructure
  • Monitoring and data acquisition stations
  • Light towers and temporary site infrastructure
  • Industrial process equipment
  • Oil and gas field instrumentation
  • Mining and railroad applications
  • Remote facilities and standalone structures

If your application requires reliable autonomous power, we design systems that prioritize uptime and durability.

Landmark Installation

We supplied and installed three vertical-axis wind turbines at Mills Pond Park in Fort Lauderdale, integrating them into a clean-energy demonstration site designed for long-term outdoor reliability and public visibility. The project included system configuration, mounting integration, and electrical coordination to support continuous operation in a waterfront environment with variable wind conditions.

These helical turbines provide quiet, multi-directional wind capture while complementing the park’s sustainability goals with a durable, low-maintenance renewable energy installation suited for urban deployment.

Hybrid System Strategy

Many remote installations benefit from hybrid configurations that combine solar, wind, battery storage, and generator support. Proper integration ensures:

  • Optimized energy harvest
  • Reduced generator runtime
  • Lower fuel consumption
  • Extended battery life
  • System redundancy

We evaluate seasonal production patterns and load variability to determine the most efficient generation mix.

Built for Performance and Longevity

We focus on durability, efficiency, and maintainability. Components are selected for compatibility, environmental resilience, and long service life.

The result is a power system engineered to operate reliably in remote and demanding environments, not just under ideal laboratory conditions.

High-Rise Installation

We supplied and installed a rooftop renewable energy system at Beach House Fort Lauderdale, a Hilton Resort, integrating multiple vertical-axis wind turbines into an existing solar platform to support on-site generation in a coastal urban environment. The project included structural mounting coordination, electrical integration, and system configuration to ensure reliable operation under variable wind conditions typical of waterfront high-rise installations.

The result is a durable hybrid wind and solar installation that improves on-site energy resilience while demonstrating practical renewable energy integration in a coastal high-rise environment.

Design Documentation

Our design packages can include:

  • System block diagrams
  • Component specifications and part lists
  • Battery configuration layouts
  • Solar and wind integration plans
  • Wire sizing recommendations
  • Protection and breaker guidance
  • Installation and commissioning notes

This provides a structured blueprint for implementation and long-term serviceability.

Start Your Project

If you are planning a remote or hybrid solar, wind, and battery installation, contact us to discuss your load requirements, environmental conditions, and operational goals.

Proper system design is the foundation of reliable off-grid power.