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Luxon IoT Node Outdoor
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OEM Design-in Guide
Contents OEM Design Guide
Luxon IoT Node Outdoor
1 General information .................................. 4
8 FCC and ISED Declarations ..................... 18
9 Specsheet Luxon IoT Node Outdoor ....... 19
Luxon IoT Node Outdoor
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OEM Design-in Guide
1 General information
1.1 Introduction
The Luxon IoT Node Outdoor features a cost-effective, brand independent solution to create connected and wirelessly
controllable LED fixtures for outdoor applications. The node differentiates from other products on the market by its
extended functionality, such as performance monitoring and remote diagnostics of LED fixtures by means of a cloud based
light management system. The Luxon IoT Node Outdoor complies with all major LED driver interfaces such as Active DALI,
DALI and 1-10V dim-to-off.
In this OEM design-in guide you will find the information how to design-in the Luxon IoT Node Outdoor into a luminaire and
information about how to do the end-off-line test during manufacturing. For more information or support pls. contact our
OEM Technical Support and Product Manager Richard Hogenkamp at richard.hogenkamp@nedap.com
The Luxon IoT Node Outdoor complies with EMC and safety requirements as stated in the specifications, see chapter 8.
Benefits in a nutshell
- Standardized NEMA ANSI C136.41-2013 base
- Cost-effective solution to create internet connected and wirelessly controlled luminaires
- Compatible with Active DALI, DALI or 1-10V dim-to-off LED drivers
- Control of up to 4 drivers in one luminaire
- DALI power supply integrated to control up to 4 DALI LED drivers
- Large RF range
- Easy to integrate, easy to connect
- Temperature sensor integrated
- Support of Nedap motion sensor 12m and 3rd party motion sensors
- Twilight switch integrated
- Over the air (OTA) programming to upgrade the Luxon new features
Typical applications for the Luxon IoT Node Outdoor are parking lot, parking garages, outdoor area lighting, wall packs and
walkways.
Typical Application: Parking Lot
.
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OEM Design-in Guide
1.2 Warnings and instructions
1.3 Package content
1.4 Shipping and storage
1.5 Waste disposal
- Read the design guide completely before design-in the Luxon IoT Node Outdoor.
- Do not connect mains voltage to the 4 low voltage terminals of the Luxon IoT Node Outdoor.
- Make sure the Luxon IoT Node Outdoor is operated within the technical limitations of the specification, see chapter 8.
- Make sure the IoT node RF antenna is not covered or obstructed by metal for the best RF communication.
- Make sure the NEMA connector is always covered either with a Luxon IoT node Outdoor or protective cap.
- Make sure to perform an end-of-line test during production to test all the functions of the luminaire with integrated Luxon
IoT node Outdoor NEMA. See chapter 6 for more information.
Note: Do not remove any labels from the devices. These labels contain important information.
The minimum order quantity is 1 pc (single packaging)
Luxon IoT Node Outdoor Quick Install Guide
Description Packaging dimensions Packaging weight [kg/lbs] Storage temperature
(h x w x d) [mm/inch]
Luxon IoT Node Outdoor 275 x 510 x 340 / 4.3 / 9.5 20°C to +70°C /
Multiple Packaging (24 pcs) 10.8 x 20.1 x 13.4 -40°F to 158°F
Luxon IoT Node Outdoor 125 x 125 x 110 / 0.18 / 0.39 20°C to +70°C /
Single Packaging (1 pc) 4.92 x 4.92 x 4.33 -40°F to 158°F
- Store the boxes in a dry place
The local government authority must be consulted for instructions regarding waste processing of the Luxon IoT Node
Outdoor.
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OEM Design-in Guide
2 Luxon system overview
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OEM Design-in Guide
3 Product Information
3.1 Product range
3.2 Mechanical dimensions
3.3 NEMA 7-pin base pinning
Description Part number
Luxon IoT Node Outdoor 9987061
In the picture below the dimensions of the Luxon IoT Node Outdoor are shown.
The Luxon IoT Node Outdoor has 7 pins connected according to the ANSI standard.
ANSI color code luminaire wiring
Neutral White
Line Black
Load Red
Dim+/DA+ Violet
Dim-/DA- Grey
Bottom View NEMA base +24Vaux Brown
Motion sensor input Orange
Remark: Internally in the node, the Load and Line pins are connected to each other.
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OEM Design-in Guide
Device ID
3.4 LED indicator
3.5 Temperature sensor
3.6 Lux sensor
3.7 Motion sensor input
3.8 Device ID
Below we explain the functionality of the green led before and after commissioning when the Luxon IoT Node Outdoor in
powered up. The Luxon IoT node is factory default not commissioned.
With the Luxon floorplanner the Luxon IoT Node Outdoor need to be commissioned to assign the node to the Luxon Light
Controller (LLC).
Green LED functionality before commissioning
1: Green led quick flashing (10Hz) : Self-test of 1 second
2: Green led slow flashing (0.5Hz): Addressing DALI Drivers; In case of 1-10V drivers, this phase is skipped.
3: Green led on: Driver initialization ready and no failures
Green LED functionality after commissioning
1: Green led quick flashing (10Hz) : Self-test of 1 second
2: Green led on for 1 second and then turns off.
The red LED starts flashing red to indicate a failure. This failure could be:
A: No control mode (Active DALI, DALI or 1-10V dim-to-off) is detected due to incorrect wiring or a defective driver.
B: A driver status error occurred due to defect in driver, driver load or wiring.
C: An overcurrent on the D+/1-10V control line occurred, due to connecting a power supply to the control line.
The Luxon IoT Node Outdoor has a built-in temperature sensor which can be requested the Luxon light management
system. The range of the temperature sensor is -40°C/-40°F to +100°C/+212°F, however in normal operation the maximum
internal temperature is 80°C/176°F.
The Luxon IoT node outdoor has an integrated light sensor to measure lux values from 0 to 1000 lux. The lux sensor will be
used in the future to support twilight switch functionality.
The Luxon IoT Node Outdoor supports motion sensors with a 0-10V, OC (open collector) or potential free contact interface,
see chapter 5.4 for more information and supported sensors.
To communicate to every single device in the mesh network, every Luxon IoT Node Outdoor has an unique device ID.
See the image below where you can find the device ID on the Luxon IoT Node Outdoor.
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OEM Design-in Guide
4 Compatible LED drivers
4.1 LED drivers with an Active DALI interface
4.2 LED drivers with a DALI interface
The Luxon IoT Node Outdoor can control up to 4 drivers within one luminaire. The control interface can be either Active
DALI, DALI or 1-10V dim-to-off mode. The Luxon IoT Node Outdoor determines the interface control mode automatically by
measuring supply voltage and dimming interface voltage of the connected driver(s). For possible drivers see Luxon Portal:
https://portal.nedap-luxon.com
Nedap Light Controls offer a service to evaluate your luminaire after integration of the Luxon IoT Node Outdoor to prove the
compatibility with the Luxon Light Management system. We recommend to make a luminaire available for evaluation.
In Active DALI mode, the Luxon IoT Node Outdoor is powered by the Active DALI driver through the dimming interface.
DALI communication is used to control the driver via the same dimming interface, which is polarity sensitive.
Up to four drivers can be controlled by connecting their DALI ports in parallel.
All Philips/Signify Xitanium SR and Osram DEXAL® drivers are compatible with the Luxon IoT Node Outdoor.
Wiring diagram 1: Active DALI application with Luxon IoT Node Outdoor
Note: Each Active DALI driver provides approximately 50mA of current on the DALI bus. It is recommended to turn on
only two DALI power supplies to ensure proper communication of up to 4 LED drivers in parallel. To turn off the DALI power
supply, use the appropriate programmer. (See Philips/Signify or Osram Digital Systems website)
In DALI mode, power the Luxon IoT outdoor by a 24Vdc supply voltage. The Luxon IoT Node Outdoor provides the DALI bus
voltage and communication through the dimming port to DALI drivers. The DALI output is polarity sensitive although most
drivers do not have a polarity sensitive DALI port. Up to four drivers can be controlled by connecting the dimming ports in
parallel.
DALI driver requirements:
- All IEC 62386 compliant DALI drivers are compatible with the Luxon IoT Node Outdoor. One driver or auxiliary
power supply needs to supply 24V to the Luxon IoT Node Outdoor; (Power consumption IoT node: 250mW) See
also chapter 5.5 about auxiliary power supplies.
- Note that driver manufacturers do not always implement all DALI commands i.e. query status.
- Please make sure the 24V supply voltage remains available in the 'OFF' status
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OEM Design-in Guide
4.3 LED drivers with a 1-10V interface
Wiring diagram 2: DALI application with Luxon IoT Node Outdoor
In 1-10V mode, the dimming voltage range is from 1 to 10V, the output can be set to 0V to switch the LED driver off. The
LED driver need to support dim-to-off functionality for this feature. The IoT node supply voltage must be 12Vdc or 24Vdc.
All 1-10V drivers according to the IEC 60929 / ANSI C82.11 annex A standard with internal or external 12Vdc or 24Vdc
auxiliary supply and dim-to-off functionality (see required threshold level in the specification) shall be compatible with the
Luxon IoT Node Outdoor.
- One driver needs to supply 12V or 24V to the Luxon IoT Node Outdoor; (Power consumption IoT node: 250mW)
- Please make sure the auxiliary voltage remains available in the 'OFF' status
- All drivers needs to have dim-to-off functionality.
Note:
- For some drivers the control wires have to be considered as basic isolated signals.
- If the 1-10V driver does not support an auxiliary voltage, an auxiliary power supply can be used. See chapter 5.5.
Luxon IoT Node Outdoor
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OEM Design-in Guide
5 Design-in considerations
TE connectivity part number
7 position
(4 dimming / signal)
with 150° C wires
with 105°C wires
2213362-2
2213362-4
5.1 Receptacle mounting
TE connectivity is one of the suppliers of the NEMA ANSI C136.41-2013 receptacle. Below you will find the basic
information out of the application specification of TE connectivity.
TE gasket: 2213626-1
5.1.1 Receptacle Mounting
To provide water-tight mounting, it is highly recommended that the TE gasket (p/n 2213626-1) be used to seal surfaces
between receptacle assembly and luminaire housing. The receptacle housing has two mounting holes which accept #8 size
flat-head recessed screws with 82° bevel heads. When using the TE Gasket, a screw torque of 1.0 to 2.0 N-m is
recommended. Do NOT exceed 3.0 N-m.
Source: TE Connectivity
5.1.2 Mounting Hole Pattern
Source: TE Connectivity
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OEM Design-in Guide
5.1.3 Sealing Cap
In case the IoT node is not mounted during luminaire installation, make sure a sealing cap of TE connectivity will be used to
maintain the IP rating of the luminaire.
For more detailed information of the NEMA ANSI C136.41-2013 receptacle, see application specification 114-32148 of TE
connectivity on the website:
The RF radiation pattern of the Luxon IoT Node Outdoor is directed mainly in one direction as showed is the picture below.
Requirements to give the antenna the best possible free 360° RF communication performance:
- Avoid metal parts close to the antenna.
- Avoid large horizontal oriented metal parts within 75mm or 3” measured from the center of the antenna.
The Luxon IoT Node Outdoor sensor input is a universal sensor input for the Nedap motion sensor and several third party
motion sensors.
The sensor input is compatible with sensors which have an analog 1-10V interface, an open collector output or potential
free low current relay contacts. The sensor input has an ON/OFF programmable current source of 2mA maximum.
5.3.1 Luxon motion sensor
The Luxon motion sensor is an PIR high bay 12m / 39ft motion sensor which can be easily connected to the Luxon IoT Node
Outdoor without an auxiliary supply. This sensor is IP65 and can be universally used indoor and outdoor.
A masking set can be ordered separately.
Description Part number
Luxon Motion Sensor 12m/39ft universal mount 9984526
Lens Mask Set 4605675
The Luxon Motion Sensor shall be connected as shown in diagram A by using appropriate wire connectors.
The Luxon Motion Sensor cable shall not be lengthened.
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OEM Design-in Guide
Diagram A: Connecting a Luxon motion sensor
The white wire of the Luxon Motion Sensor is connected to the sensor input “Sens” of the Luxon IoT Node Outdoor.
And the brown wire to the “Dim-“ wire of the Luxon IoT Node Outdoor.
Signal wire S = white
Luxon Motion sensor color coding:
0V wire = brown
5.3.2 Third party motion sensors
Third party motion sensors shall be connected as shown in diagram B. Note that third party sensor requires a 12V or 24V
external supply voltage, either from the LED driver or from an auxiliary power supply, see chapter 5.5. In case of a sensor
with programmable time delay settings make sure they are set to the lowest value, either by factory default (preferred) or
by hand or using a programming device. Also disable the sensor light dependent switch if applicable.
Diagram B: Connecting a third party motion sensor
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OEM Design-in Guide
Sensor interface output requirements
1: Is case of an open collector output or potential free relay low current contact.
Figure 1: Sensor output switching to 0V. Figure 2: Sensor output switching to 12 to 24Vdc
Maximum IoT node current: 2mA max.
2: In case of an analog 0-10V sensor output voltage.
- Maximum Luxon IoT node sensor input voltage: +28Vdc
If the sensor is supplied from mains directly, the sensor signal output shall be SELV or Basic isolated.
Released compatible sensors
For an overview of compatible sensors and wiring diagrams and settings, please refer to portal.nedap-luxon.com.
When you are using other sensors we recommend a final compatibility check by Nedap Light Controls with a sample
provided to Nedap Light Controls in Groenlo Holland.
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OEM Design-in Guide
Control
Interface
Voltage (V)
Min. operating
Current (mA)
Max. operating
Current (mA)
Inrush
Current (mA)
1-10V
12 or 24V ± 10%
6
20
50
DALI
24V ± 10%
6
20
50
5.4 Auxiliary Power Supply
5.5 Product responsibility
To power the Luxon IoT Node Outdoor and / or third party sensors, an auxiliary power supply can be used in cases that the
LED driver has no auxiliary power supply available or has no active DALI port like Philips SR or Osram Dexal.
In this chapter , the Luxon IoT Node Outdoor power supply requirements are shown followed by additional requirements for
auxiliary power supplies and location of compatible 24V power supplies.
Requirements Power Supply
In the table below the power supply requirements for the Luxon IoT node Outdoor are specified.
Additional Requirements Auxiliary Power Supply
In case the IoT node is used without sensor, the table above shall be used to find the power supply output specification. In
case an additional sensor is used:
- its operating voltage range shall correspond with the chosen value for the Luxon IoT Node Outdoor (12 or 24V)
- its current shall be added to the current for the IoT node to obtain the total operating supply current
Other supply requirements to be considered:
-minimum load specification of 6mA or less
-the maximum Ta or Tc shall not be exceeded
-evaluate if output derating is required in case of high operating temperature
-the supply lifetime shall match the luminaire lifetime
-the mains surge protection level shall match the luminaire protection level
-some power supplies require a mains fuse
-the input mains voltage range shall match
Compatible 24V Auxiliary Power Supplies
For an overview of electrical compatible auxiliary power supplies, please refer to portal.nedap-luxon.com.
The Luxon IoT Node Outdoor is designed for Luminaires with a NEMA ANSI C136.41-2013 receptacle. Safe and reliable
operation requires that the end-product complies with the relevant standards and regulations. The manufacturer of the endproduct remains responsible for the quality and performance of the luminaire with the Luxon IoT Node Outdoor in
compliance with the contents of this OEM Design Guide as well as for the total system in the market. The ratings in the
specifications of the Luxon IoT Node Outdoor shall not be exceeded when it is used in the actual operating conditions.
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OEM Design-in Guide
6 Luminaire End-Of-Line test
6.1 Luxon Wireless Control Tool
6.2 Luxon Wireless OEM Test Unit
To test a luminaire with the integrated Luxon IoT Node Outdoor, Nedap can supply two different test tools.
If you do not have a computer available you will need to use the “Luxon wireless OEM test unit” otherwise you can test your
luminaire with the “Luxon wireless control tool”.
In case you want to test an integrated motion sensor, use the “Luxon wireless control tool”.
With the Luxon Wireless Control Tool you can test and demonstrate the functionality of your luminaire with integrated Luxon
IoT Node Outdoor plugged on. You can select a luminaire and switch it on and off and dim to a level between 10% and
100%.
You can also retrieve luminaire information about the operation mode (Active DALI, DALI, 1-10V dim-to-off), internal
temperature, operating hours and more. You need a Windows based laptop and Luxon wireless USB key to use this tool. See
our partner portal to download the software and user manual.
Ordering information Luxon Wireless USB key
Part number: 8014990
With the Luxon Wireless OEM test unit you can check the wireless communication and the correct wiring of the mains and
control wires of the luminaires in your production line.
You can control (switch on/off and dim) the luminaire manually by simply connect and operate with two switches. The
control interface can also be connected to your automated production test tool.
You only need this test unit (no laptop or other peripherals needed) to control a luminaire. See the manual delivered
together with the test unit how to connect it and control your luminaire. Required switches are not included.
Ordering information Luxon Wireless OEM test unit
Part number: 9984968
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OEM Design-in Guide
7 Compatible Luxon Software
Software
Version
Floorplanner
4.9.0 or higher
Luxon Light Controller (LLC)
2.17.3.3620 or higher
In case your software version is lower than indicated above, contact Nedap customer support at:
EUROPE: support-europe@nedap-luxon.com
AMERICAS: support-americas@nedap-luxon.com
8 FCC and ISED Declarations
Compliance statement (part 15.19)
This device complies with part 15 of the FCC Rules and to RSS210 of Industry Canada.
Operation is subject to the following two conditions:
(1) this device may not cause harmful interference, and
(2) this device must accept any interference received, including interference that may cause undesired operation.
Déclaration Conformité
Cet appareil se conforme aux normes RSS exemptés de license du Industry Canada.
L’opération est soumis aux deux conditions suivantes
(1) cet appareil ne doit causer aucune interférence, et
(2) cet appareil doit accepter n’importe quelle interférence, y inclus interférence qui peut causer une opération non pas
voulu de cet appareil.
Warning (part 15.21)
Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to
operate the equipment.
RF Exposure (OET Bulletin 65)
To comply with FCC RF exposure requirements for mobile transmitting devices, this transmitter should only be used or
installed at locations where there is at least 20cm separation distance between the antenna and all persons.
Luxon IoT Node Outdoor
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OEM Design-in Guide
9 Specsheet Luxon IoT Node Outdoor
Luxon IoT Node Outdoor
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OEM Design-in Guide
Subject to change without notice (RH20190502)
Luxon
Connected Light Management
Nedap N.V. T +31 (0)544 471 1 11
Parallelweg 2 info@neda p-luxon.com
7141 DC Groenlo www.nedap-luxon.com
The Netherlands
Luxon IoT Node Outdoor
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