Building Control That Makes Sense.
Building Control That Makes Sense.
Building control comes down to awareness and response. When lighting, HVAC, access, and power operate as isolated systems, visibility breaks down and control becomes reactive. Data exists, but it does not drive action.
Summit Electric Supply helps you select Leviton control platforms and infrastructure used to support coordinated building control strategies. With networked controllers, sensors, and control infrastructure, building systems can be configured to respond consistently and remain manageable as facilities expand.
Navigate Leviton Smart Building Controls:
Leviton Smart Building Controls Benefits
Leviton Smart Building Controls Benefits
- Active Control – Building systems operate based on schedules, conditions, and inputs rather than manual intervention. Active control is supported through select controllers and platforms used for lighting and related building systems.
- Distributed Control – Control logic operates at the room or zone level rather than relying on a single centralized point. This approach is characteristic of distributed control architectures designed for scalability and resilience.
- System Coordination – Signals from lighting and other building systems can be shared to support coordinated responses across spaces. Coordination depends on the selected control platforms and supported integration methods.
- Networked Controllers – Controllers communicate across structured control networks to exchange status and commands. This capability is provided through designated controller and gateway families designed for predictable communication.
- Automated Scheduling – Time-based scheduling defines when systems operate or change states. Scheduling capability is available through select system-level controllers and centralized control platforms.
- System Monitoring – Operational status and feedback provide visibility into system behavior. Monitoring capability depends on the sensors, controllers, and control platforms selected.
- Sensor Integration – Sensors provide real-time input used to drive automated responses. Sensor integration is supported through specific sensor and controller families designed for occupancy, environmental, and status feedback.
- Scalable Architecture – Control systems are designed to expand by adding zones, devices, or interfaces rather than replacing core components. Scalability is characteristic of select control platforms.
- Control Infrastructure – Dedicated low-voltage networks and pathways support reliable control communication. Control infrastructure is delivered through designated cabling and network solutions.
- Long-Term Stability – Durable hardware and clear system boundaries support extended service life. Long-term stability is characteristic of control architectures designed to remain in place as systems evolve.
Featured Leviton Smart Building Control Product Families
Featured Leviton Smart Building Control Product Families
Sensors and Field Devices
Inputs that drive control
Sensors and Field Devices
Inputs that drive control
Built for: occupancy detection, environmental feedback, system status
Includes: Smart Ceiling Mount Sensors (CMS) with occupancy/vacancy sensing and daylight harvesting, wall switch sensors (PIR, ultrasonic, multi-technology), low voltage input devices for GreenMAX® integration
- Provides real-time input for automated control decisions
- Supports automated responses based on occupancy, environmental conditions, and system status
- Designed for continuous operation in commercial environments
Room and Zone Controllers
Control at the space level
Room and Zone Controllers
Control at the space level
Built for: lighting zones, HVAC zones, localized system control
Includes: Smart Ceiling Mount Sensors (CMS) with integrated sensing, 0–10 V dimming output, and Smart Sensor App setup
- Smart Ceiling Mount Sensors (CMS) combine occupancy/vacancy sensing, 0–10 V dimming, and daylighting in a single ceiling‑mount device, configurable via the Smart Sensor App
- Keeps control logic close to the space
- Supports distributed control strategies
- Reduces reliance on centralized adjustments
System Controllers and Gateways
Coordinate building systems
System Controllers and Gateways
Coordinate building systems
Built for: multi-system control, building-level coordination
Includes: GreenMAX® Command Modules (processor, power supply, low voltage inputs), BACnet/IP gateways, LumaCAN network interfaces
- GreenMAX® systems use LumaCAN room networks and BACnet/IP gateways to integrate with BMS over standard Ethernet, minimizing extra interface hardware.
- Manages communication between control layers
- Supports coordination between lighting systems and other building systems where interfaces are required
- Supports scalable control architectures
Control Networks and Infrastructure
The backbone for control traffic
Control Networks and Infrastructure
The backbone for control traffic
Built for: control communication, system reliability
Includes: Control cabling systems, low voltage control networks, dedicated control pathways
- Supports reliable device-to-device communication
- Maintains separation from power systems
- Designed for long-term stability
Building Automation Platforms
Control at scale
Building Automation Platforms
Control at scale
Built for: coordinated building operation, system-wide automation
Includes: GreenMAX® relay and room control platforms with centralized scheduling and control, plus VerifEye Building Manager Online (BMO) web‑based software for energy data aggregation and reporting
- GreenMAX® systems can be programmed via Handheld Display Unit (HDU) from anywhere in the facility
- Centralizes scheduling, monitoring, and automation
- Supports centralized scheduling and monitoring across connected building systems
- Designed to adapt as facilities change
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FAQs
Frequently asked questions about Leviton Smaert Building and Controls.
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What is smart building control?
Smart building control refers to systems that actively monitor and automate building functions such as lighting, HVAC, access, and power through networked controllers and sensors.
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How is building control different from lighting control?
Lighting control focuses on managing lighting behavior within individual spaces or zones. Building control uses shared inputs, scheduling, and interfaces to coordinate lighting with other building systems where required.
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What building systems can be controlled?
Common systems include lighting and power monitoring, with HVAC, access, and other systems integrated where supported by the selected control architecture.
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Is this software or hardware based?
Building control relies on physical hardware such as controllers, sensors, and control networks. Software is used to configure and monitor those systems.
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Can building control systems scale over time?
Yes. Well designed control architectures allow additional zones, devices, and systems to be added without replacing existing hardware.
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Do building controls require a centralized controller?
Some systems use centralized controllers, while others distribute control across rooms and zones. Many architectures use a combination of both.
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How do sensors fit into building control?
Sensors provide real-time input that drives automated system response. They are critical for occupancy, environmental feedback, and status monitoring.
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Can building control systems support HVAC coordination?
HVAC systems can integrate with occupancy and scheduling logic through supported interfaces, depending on system design and platform compatibility.
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Does Leviton building control integrate with third-party BMS?
Yes. GreenMAX® lighting control systems include native BACnet/IP support, allowing integration with building management systems without additional hardware. VerifEye submetering data can also be shared with BMS via the A8810 Hub's BACnet interface.
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Are access systems part of smart building control?
Access events can be used as inputs for other building systems when integration is supported and appropriate for the application.
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How does scheduling work in building control systems?
Schedules define when systems operate or change states. They reduce the need for manual oversight.
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Is building control only for new construction?
No. Many systems support retrofit and phased deployment in existing buildings.
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How does control infrastructure differ from IT networks?
Control networks are designed for predictable communication and system reliability. They are built specifically for building system traffic.
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What makes a control system stable long term?
Hardware durability, scalable architecture, and clear system boundaries all contribute to long-term stability.
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Can building controls reduce manual intervention?
Automation and coordinated control can reduce routine manual adjustments by handling schedules, occupancy response, and system status automatically.
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How does Summit Electric Supply support building control projects?
Summit Electric Supply helps you plan and source Leviton control platforms and infrastructure so building control strategies align with how facilities operate over time.