Installing the connected motor control, Zigbee®
Signal range
The point-to-point indoor range is ± 10 m. In open spaces, the RF range reaches 30 m. The meshing capability of 230 V powered Zigbee® devices can extend the RF range.
For more information see Zigbee® network principle.
The maximum point-to-point RF range of the connected motor control to a Zigbee® receiver depends on:
- The materials used in the building or room,
- The indoor position of the connected motor control, Zigbee®, and
- Sources of interference.
Materials and obstructions
Radio waves can be attenuated by materials inside a building or room.
Wood, plaster, uncoated, without metal | Brick, concrete | Ferroconcrete, lightweight hollow walls filled with insulating wool on metal foil, metallic heating insulation sheets, metallic surfaces, glass with a metal coating, floor heating systems, metal faceplates | Confined metal space |
Loss: 5-20% | Loss: 20-40% | Loss: 40-90% | Loss: 90-100% |
A human body can obstruct the Zigbee® radio path since its operating frequency band (2.4 GHz) resonates well with water particles. The Zigbee® meshing capability will generally remain intact after a radio path distortion, but take caution when a lot of people, or an object containing large volumes of water (e.g. an aquarium), are located in a room.
Position
Avoid installing the Zigbee® device:
- In a narrow room with thick walls,
- On the same wall as another Zigbee® repeating or receiving node,
- Close to the ground (the recommended mounting height is 110 cm),
- On a metal or moist surface or in a damp environment, or
- In so-called 'dead spots', caused by radio reflections from nearby conductive materials or obstacles such as, metal cupboards, doors with a metallic foil or items containing water (e.g. aquariums).
Sources of interference
A Zigbee® connected motor control is generally not disrupted by low-power electronic devices (e.g. DECT telephones, smartphones, WLAN routers, analogue radios, electronic ballasts, controllers, TVs, videos, computers, remote controls), and vice versa. Zigbee® is a robust and reliable RF technology thanks to its meshing capability and ability to capture radio telegrams from noisy environments.
Mind that a high-power electronic device in a room may interfere with the radio telegrams of a connected motor control. Should this occur, identify the interfering source and remove it. If removal is not possible, consider relocating the connected motor control or add a Zigbee® repeating node (e.g. connected switching socket outlet, Zigbee® (170-3xx05) or another 230 V powered Niko Zigbee® device).
Wiring scheme
Switch off the mains.
Manual use | Connected use |
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Do not connect 3-wire motors in parallel |
The connected motor control cannot be wired to extension switches.
Also respect a minimum distance of 2 m between a Zigbee device (including the smart hub) and another RF transmitter (for example a Wi-Fi device) or devices such as motors, pumps, electronic LED transformers, solar panel inverters, home battery storage ...
Installation of the connected motor control
Note that the installation of a flush-mounting box and the electrical wiring is required prior to installing the connected Zigbee® device. For more information, check the Specifications on Connected motor control, Zigbee®, 3 A.
To install the connected motor control, proceed as follows:
Switch off the mains.
Step | Action |
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Attach the central plate in the desired colour | |
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Press the faceplate evenly until a click is heard |
- Claws can be removed with a screwdriver without removing the screws.
- The connected motor control only switches the L-wire towards its pole contact. The N-wire will not be switched