Explore the range of lighting control technologies and sensors we offer. From simple microwave sensors to advanced DMX and Casambi Bluetooth protocols, we detail each option’s features and functions. Learn how these technologies detect motion, adjust lighting, incorporate daylight sensing, and more. It is here to help you choose the perfect lighting control solution for your specific needs, ensuring smart, efficient illumination management.
Lighting Control Systems
We offer both wired and wireless lighting control solutions, with the added benefit of remote monitoring. Functionality ranges from occupancy and daylight sensing to full analytics of a facility’s operation including emergency testing and reporting. Our systems can reduce your energy costs with the use of presence detectors, photocells and timed control.
Wired
Designpath (Emergency Testing)
- Schedule tests at any time/date.
- Can connect to building network.
- Push e-mail reports.
- No engineering costs.
DesignPath+
- Manage/monitor sites remotely.
- Immediate problem identification.
- Manage energy consumption.
- Mobile app for easy maintenance.
Wireless
DesignMesh (Emergency Testing)
- Meet your regulatory obligations.
- Ideal for new/retrofit applications.
- Reduces number of site visits.
- Remote access capability.
DesignMesh+
- Secure, scalable and flexible wireless DALI-2 lighting control.
- Manage multiple sites from any location.
- Can integrate to other building systems utilising an API interface.
- Mobile app for easy maintenance.
Lighting Controls Guide
If you require more information on the type of lighting control systems we offer, ranging from wired or wireless emergency testing through to a full wired or wireless lighting controls interface, please download a copy of our brochure by clicking the button below.
Microwave Sensor Controls
Microwave sensor (MWS) controls detect movement to switch on or control luminaries.
The microwave sensor is mounted inside the luminaire to prevent tampering or vandalism.
Microwave Sensor – Basic Control (-M1)
Upon detection of movement the luminaire is switched on at 100% output and remains on all the time movement is detected. When no further movement is detected the luminaire remains on for an adjustable delay time before switching off completely.
Microwave Sensor, Corridor Function (-CF-M1)
The luminaire is on at 10% output. Upon detection of movement the luminaire switches to 100% output and remains at 100% all the time movement is detected. When no further movement is detected the luminaire remains on at 100% for an adjustable delay time before switching down to 10%. The luminaire never switches off completely.
Microwave Sensor – Advanced Control (-M2)
Upon detection of movement the luminaire is switched on at 100% output and remains at 100% all the time movement is detected. When no further movement is detected the luminaire remains on for an adjustable delay time before switching down to 10%. If there is still no movement detected the luminaire will switch off completely after a second adjustable delay time.
Microwave Sensor – Basic with Daylight Sensor (-M4)
The microwave sensor incorporates a photocell that monitors the ambient daylight to prevent the luminaire from coming on during the day.
At night, upon detection of movement the luminaire is switched on at 100% output and remains on all the time movement is detected. When no further movement is detected the luminaire remains on for a set delay time before switching off completely. The luminaire will automatically switch off at dawn.
Microwave Sensor – Intelligent (Basic) Control (-M5)
The microwave sensor incorporates an advanced photocell that monitors the ambient daylight to prevent the luminaire from coming on during the day, and to automatically switch the luminaire on at dusk.
At night, upon detection of movement the luminaire is switched on at 100% output and remains on all the time movement is detected. When no further movement is detected the luminaire remains on for an adjustable delay time before switching off completely. The luminaire will automatically switch off at dawn, and the daylight threshold is adjustable.
Microwave Sensor – Intelligent (Advanced) Control (-M7)
The microwave sensor incorporates an advanced photocell that monitors the ambient daylight to prevent the luminaire from coming on during the day, and to automatically switch the luminaire on at dusk.
At night, upon detection of movement the luminaire is switched on at 100% output and remains at 100% all the time movement is detected. When no further movement is detected the luminaire remains on for an adjustable delay time before switching down to 10%. If there is still no movement detected the luminaire will switch off completely after a second adjustable delay time. The luminaire will automatically switch off at dawn, and the daylight threshold is adjustable.
In addition, the microwave sensor can be programmed and operated using a hand held remote control.
Master/Secondary Control
The luminaire housing the MWS control has additional output terminals to allow a secondary luminaire to be wired into it, allowing both luminaires to operate together off the one sensor.
Corridor Function only (-CF)
Introducing RGBW colour control is now being requested more than ever for decorative or specialist lighting. RGBW colour control has many different uses for a variety of sector applications.
Photo Electronic Cell Control (-PE)
A photocell control is fitted in the body of the luminaire to automatically switch the luminaire on at dusk and off at dawn. The standard photocell switches on at 70lux and off at 105lux, however other settings are available to order.
Night Dim 6% for Tunnels, Underpasses etc (-DN)
An external Photocell control or Solar Time Clock with 230V switched output (supplied and installed by others) is connected to the luminaire. The luminaire remains on at 100% output during the day. When the photocell / time clock switches on at dusk the light output decreases to 6% (to meet the maintained lighting level requirement of BS5489-1). The light remains on at 6% all night and returns to 100% output at dawn. The luminaire never switches off completely.
Switch Dimming (-DI)
Switchdim luminaires incorporate a Switchdim DALI driver and require a permanent 230V supply. An additional 230V switch line is taken from the same supply to the luminaire via a 230V rated push-to-make retractive switch. Briefly pressing the switch brings the light on. Briefly pressing again turns the light off. Pressing and holding the switch dims or brightens the light. Additional push-to-make retractive switches can be wired in parallel to allow control from more than one location.
Future Proof Your Lighting
Lighting controls enable the creation of energy-efficient and versatile environments. By directing light precisely where it’s needed, at the right time, and in the ideal amount, they enhance illumination quality while reducing electricity consumption.
DALI-2 Dimming / Monitoring (-DA)
DALI-2 stands for “Digital Addressable Lighting Interface 2” and is an interface protocol for digital communication between electronic lighting components, including LED drivers, occupancy sensors, keypads and input devices. DALI-2 is an open standard and all DALI-2 products are interoperable.
A DALI-2 control system will communicate with each device on the network and can be programmed to provide scene setting, daylight control and presence activation.
The control system can also provide full monitoring and reporting of all devices and initiate function and duration testing for full compliance of DALI emergency luminaires.
DMX Control (-DX)
DMX is a digital communication protocol that is commonly used within the entertainment sector for control of fast-moving, dynamic lighting effects.
The DMX 512 standard defines the maximum number nodes in a ‘universe’, (512 nodes), and more than one ‘universe’ can be linked together. For example in a Theatre application a node may be a moving stage light which could have up to 16 channels to control various movements such as pan and tilt, shutter, fade speed etc.
DMX control desks are used to synchronize the luminaires with sound for concert applications.
For general lighting DMX LED drivers can be utilized for RGBW control where the requirements for control and effects may not be easily achieved by DALI.
Casambi Bluetooth Control (-DW)
A proprietary (Casambi) wireless Bluetooth method of controlling luminaires.
Casambi interfaces communicate directly with DALI/DMX drivers and have a number of profiles that can be used for dimming, switching, scene settings and color mixing. The devices are set up using an App on a mobile phone or tablet.
Presence Detection
Lights automatically turn on when someone enters the room and remain on all the time movement is detected. When the room is empty the lights turn off after an adjustable delay time.
Absence Detection
Lights need to be manually switched on from a wall switch or remote control and remain on all the time movement is detected. When the room is empty the lights turn off automatically after an adjustable delay time.
Separate Circuit (-SE)
The luminaire incorporates two or more separate sets of LEDs and Drivers and associated input terminals, to allow the output of each set of LEDs to be switched independently.
Fade to Off
Luminaires can be set to dim over a period of time before switching off completely. The length of time it takes to fade to off can be pre-set.
Daylight Harvesting
Dimmable luminaires are connected to daylight sensors within a room or area to dim or brighten the luminaires according to the amount of ambient external light available from widows, rooflights etc, in order that the design illumination level is maintained throughout the day.
Constant Light Output
The LED driver is pre-programmed to gradually increase its output over a period of time (typically 5-6 years) to compensate for the natural decline in output from the LEDs over time, in order that the design illumination level is maintained throughout the life of the LEDs. This can provide energy savings over the life of the luminaire due to the reduced power consumption in the early years of the CLO cycle.
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