Spectral Curve
Studio Light with a Sun-Like
Designed by
01
7 LED type architecture
FullBandRGB uses a seven-LED-type architecture designed to eliminate the spectral gaps of standard RGB/RGBW fixtures. The result is stable, camera-accurate illumination with a smoother, more continuous spectral curve.
Sensor-accurate light output
In Virtual Production, the primary observer is the camera, not the human eye.
FullBandRGB is designed to output a spectrum that fully matches camera sensor sensitivity curves, including the regions where standard LEDs have gaps. As a result, when FullBandRGB recreates sunlight, the camera responds to the light as if it were real sunlight — both in spectrum and in captured photons.
FullBandRGB is designed to output a spectrum that fully matches camera sensor sensitivity curves, including the regions where standard LEDs have gaps. As a result, when FullBandRGB recreates sunlight, the camera responds to the light as if it were real sunlight — both in spectrum and in captured photons.
Predictable color output
FullBandRGB uses seven types of LEDs, but the fixture is controlled with standard RGB values.
The internal firmware automatically translates each RGB command into the correct combination of LED types, ensuring the same color output every time.This makes FullBandRGB easy to use with any existing lighting control system, while still delivering the improved spectral quality of its multi-LED design.
The internal firmware automatically translates each RGB command into the correct combination of LED types, ensuring the same color output every time.This makes FullBandRGB easy to use with any existing lighting control system, while still delivering the improved spectral quality of its multi-LED design.
02
Purpose-built for VP studios
FullBandRGB is engineered specifically for indoor studio use. We removed everything unnecessary for Virtual Production lighting — weather sealing, rugged housings, and heavy enclosures, and focused on the core requirements of VP.
Lightweight design
The entire fixture, including its integrated power module, weighs just 3.2 kg, achieved through a structural design where every component contributes to rigidity and heat dissipation. This low mass allows a single person to mount and reposition the light without any lifting equipment, reduces load on trusses, and enables placing more fixtures on the same rig.
Flexible mounting and rigging options
The housing includes standard mounting points compatible with clamps, stands, and common studio hardware. For Antilatency lightweight trusses (40×40 mm), we offer a smart mounting system that enables quick, precise attachment without adapters or complex rigging components.
Custom designed lighting grid
We can design a complete lighting setup tailored to your studio needs — including FullBandRGB fixtures, lightweight truss systems, and optimized fixture placement.Our layouts ensure clean cabling, efficient load distribution, and consistent lighting performance across your VP environment.
03
One single mode — no physical dials
FullBandRGB is designed for computer-only control, ideal for studios where fixtures are mounted high and physical access is limited. The light operates in a stateless mode: every fixture is always in a known state defined by the network commands you send.
This eliminates situations where one unit behaves differently because someone changed a physical mode days earlier — a common problem with conventional fixtures that require manual verification on trusses or lifts. With FullBandRGB, all fixtures behave consistently and predictably, controlled from a single interface.
This eliminates situations where one unit behaves differently because someone changed a physical mode days earlier — a common problem with conventional fixtures that require manual verification on trusses or lifts. With FullBandRGB, all fixtures behave consistently and predictably, controlled from a single interface.
Modern network protocol with real-time feedback
Traditional DMX provides no feedback - you can’t know whether a command was received, applied, or if a fixture is even connected. FullBandRGB uses Art-Net with bidirectional communication, so you can always see the real-time status of every device: online/offline, applied commands, and control source. Art-Net also supports high-refresh operation with refresh rates up to XXXXX updates per second per fixture, enabling smooth transitions and real-time effects without DMX latency or its 44 fps update limit. This ensures reliable behavior during critical VP production moments.
Simplified wiring for deployments of any scale
The housing includes standard mounting points compatible with clamps, stands, and common studio hardware. For Antilatency lightweight trusses (40×40 mm), we offer a smart mounting system that enables quick, precise attachment without adapters or complex rigging components.
Linear control for predictable results
FullBandRGB is engineered for a fully linear response across the entire control range.
A brightness value that is twice as high produces exactly twice the light output, with no hidden curves or compensation layers.This predictable behavior is critical for cinematographers, gaffers, and automated VP lighting systems that rely on mathematically accurate control.
A brightness value that is twice as high produces exactly twice the light output, with no hidden curves or compensation layers.This predictable behavior is critical for cinematographers, gaffers, and automated VP lighting systems that rely on mathematically accurate control.
04
Energy efficiency through dielectric mirrors
FullBandRGB achieves significantly higher efficiency by using dielectric mirror coatings on all internal surfaces.These coatings reflect up to 98% of internal light back into the optical chamber, allowing the fixture to reuse nearly all photons that would otherwise be lost inside a standard LED housing. As a result, FullBandRGB delivers up to 35% higher luminous output per watt compared to conventional studio fixtures — without increasing power consumption.
Large emitting surface
FullBandRGB uses a large emitting surface, producing naturally soft and diffuse illumination.
A wide-area source reduces glare, creates smoother shadow transitions, and provides an overall more comfortable lighting environment for actors and crew.
With mirror accessories attached, the effective surface area becomes even larger, improving softness and uniformity.
A wide-area source reduces glare, creates smoother shadow transitions, and provides an overall more comfortable lighting environment for actors and crew.
With mirror accessories attached, the effective surface area becomes even larger, improving softness and uniformity.
Directed light control with mirror panels
FullBandRGB supports optional mirror accessories designed to redirect and concentrate light output.Instead of letting light scatter in all directions, these panels reflect and shape the beam — allowing you to utilize 100% of emitted photons with precise control over direction and intensity.
Flat mirror panels
Flat mirrors are mounted along the edges of the fixture to reflect side-emitted light back into the scene. This approach ensures that nearly 100% of the light output contributes to useful illumination — no spill into ceilings or unintended areas. Depending on the mirror configuration (1–3 sides), the beam shape can be narrowed or redirected, helping to fill shadows, avoid green spill, and maximize lighting efficiency near actors or walls. This design turns light otherwise lost into usable light — no extra fixtures, no extra power.
Trapezoidal mirror panels
Trapezoidal mirrors form a reflective housing around the fixture that captures and redirects side-emitted light into a forward, tighter beam. Instead of scattering light across a wide area, these panels ensure that more of the fixture’s total output is directed exactly where it’s needed — increasing efficiency and reducing unwanted spill.
