Lighting System
Engineered Lighting for Maximum Plant Performance
Inside every Produce Now Pod, lighting isn’t basic — it’s engineered for optimized plant growth, crop uniformity, and energy efficiency.
Our lighting systems are custom-built to deliver full-spectrum wavelengths tuned specifically for vegetative growth, flowering, and fruiting phases.
We eliminate the guesswork.
We deliver consistent, high-yield crop cycles, regardless of season or external weather.
Key Lighting System Features
Full-Spectrum LED Arrays
Red, blue, and far-red wavelength optimization
Adjustable spectrum settings based on crop type and stage
Mimics ideal natural sunlight conditions without outside variability
✅ Supports photosynthesis, chlorophyll production, and plant hormone development at every growth phase
High-Efficiency Diode Technology
Uses advanced LED diodes with >2.8 µmol/J efficacy
Lower energy consumption compared to traditional HPS or fluorescent setups
Longer operational lifespan with minimal degradation over time
✅ Reduces operational costs
✅ Maintains light intensity and quality for years
Uniform Light Distribution
Rack-mounted lighting ensures even PPFD (Photosynthetic Photon Flux Density) across every growing surface
Eliminates hot spots and shadow areas
Optimizes canopy penetration for multi-layered growing systems
✅ Ensures uniform plant development
✅ Reduces variability across harvests
Programmable Photoperiod Scheduling
Customizable light cycles (hours on/off) to match crop growth needs
Automated sunrise/sunset simulation options available
CO₂ integration to boost growth during lighting hours
✅ Maximizes plant energy efficiency
✅ Shortens time to harvest without sacrificing quality
"Proper lighting isn’t optional — it’s the foundation for controlled agriculture success."
Why Lighting Matters
Industrial agriculture depends on natural light and chemicals to make up the difference when nature falls short.
Produce Now Pods deliver consistent, measurable light — day after day, cycle after cycle — without relying on external factors or chemicals.
This results in:
Faster growth cycles
Stronger plant structures
Higher nutrient concentrations
Lower operational risks
