Schréder logos technologies
SMARTLUME BEST IN CLASS OPTICS
HIGH PERFORMANCE
SUPERIOR QUALITY-TO-COST RATIO
AESTHETIC CONSISTENCY WITH 4 SIZES
SMART CITY ENABLED
2 SMARTLUME
SmartLume is a low-profile, budget-friendly outdoor lighting solution designed to perform in a wide range of municipal and roadway applications. SmartLume’s high-quality offers sustained lighting and aesthetic appeal for the lifetime of an installation.
SmartLume has been engineered with a superior quality-to-cost ratio. Because of its economical price point, ease of installation in both retrofit or new construction applications, and maintenance savings over the life of an installation, SmartLume offers the fastest ROI in the market for a wide variety of projects.
A new optical package designed specifically for SmartLume provides market-leading optic performance in compliance with IES recommendations for roadway lighting (IES RP-08-14) and parking facilities (IES RP-20-14).
Thanks to an optimised design, SmartLume is built to withstand hot climates all over the world (Ta 131°F / 55°C).
The SmartLume’s adjustable LED optical unit is available in four different sizes to perfectly match the requirements of each application.
SMARTLUME
ECO-DESIGN WITH SUPERIOR PERFORMANCE
3SMARTLUME
RURAL ROADS CITY SQUARES PARKING LOTS
SUPERIOR PERFORMANCE FOR ROAD, SITE AND AREA LIGHTING APPLICATIONS
<45/50W >45/50W
>150W
<150W
HIGHWAYS AND INTERSECTIONS TOLL PLAZAS SITE AND AREA LIGHTING
>400/600W
<250W
OTHER ENVIRONMENTS WHERE SMARTLUME OFFERS KEY CUSTOMER BENEFITS
AIRPORTS AND METROS INDUSTRIAL SITES SHOPPING CENTERS SPORTS ARENAS
NARROW ROADS RESIDENTIAL STREETS URBAN STREETS
SMARTLUME 3
SMARTLUME 1 SMARTLUME 2
SMARTLUME 4
4 SMARTLUME
> Cost-effective and efficient lighting solution
> Accelerated return on investment
> Superior efficiency with an average of 130lm/W in neutral white
> Easy and fast installation in retrofit or new construction: thanks to its light weight, only one person is required to install the luminaire
> IES-compliant, market leading optics for roadway lighting (IES RP-08-14) and parking facilities (IES RP-20-14)
> Operating temperature range -40°F to 131°F, -40°C to 55°C
> Dark sky compliant: ULOR = 0, no up-light
> 4 sizes for aesthetic consistency in all applications
> Standard mast-arm mounting: 1 ¼” to 2” pipes (42-60mm) with inclination from -10° to +5° in steps of 2.5°
> 3G rated, ANSI standard C136-31
> Surge protection 20kV / 10kA
> 7-pin receptacle included (shorting cap optional)
> Optional control solutions: photocell and/or Owlet® control systems
SMAR
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KEY ADVANTAGES
SMARTLUME 4
SMARTLUME 3
SMARTLUME 2
SMARTLUME 1
5SMARTLUME
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SINERGYFLEXTM: MAXIMISING THE LUMEN OUTPUT
The SmartLume range of luminaires is equipped with the latest generation SinergyFlexTM photometric engine to provide significant energy savings while guaranteeing performance with a long lifespan to create safe and welcoming landscapes.
SinergyFlexTM is a specific module of 12 LEDs. The lens protector is made of silicon for high performance and is contained within a plastic frame. The LEDs and lens protector create a complete module with a high tightness level (IP 66) and high impact resistance (IK 10) for long lasting performance.
Lenses in mouldable and optical-grade silicon offer a superior transparency and a great photothermal stability to withstand high driving currents and deliver maximized lumen output over time. Silicon optics were first developed for headlights in the automotive industry, as they provide proven superior performance, resistance to damage, high IP protection, and high UV protection.
The SinergyFlexTM LED engine is based upon the addition principle of photometric distribution. Each LED is associated with a specific lens that generates the complete photometric distribution of the luminaire. It is the number of LED modules and the driving current that determine the intensity level of the light distribution.
6 SMARTLUME
SMAR
TLUM
E
KEY CHARACTERISTICS
(*) The initial flux and power consumption of the luminaire are indicative values and valid for 25°C ambient temperature. The real flux output of the luminaire depends on environmental conditions (e.g. temperature) and may vary with specific configurations. Communicated values are subject to tolerances in technology. To check if this document refers to the latest information available, please visit www.schreder.com(**) according to IEC - EN 60598 – (***) according to IEC - EN 62262
SmartLume 1 SmartLume 2 SmartLume 3 SmartLume 4
L 19.2” | 487mm 23.9” | 607mm 28.6” | 727mm 33.4” | 849mm
H1 5.2” | 131mm 5.2” | 131mm 5.2” | 131mm 5.2” | 131mm
H2 6.4” | 162mm 6.4” | 162mm 6.4” | 162mm 6.4” | 162mm
I 13” | 330mm 13” | 330mm 13” | 330mm 13” | 330mm
14.3lbs | 6.5kg 16.5lbs | 7.5kg 18.7lbs | 8.5kg 22.5lbs | 10.2kg
POST-TOP ADAPTER
DIMENSIONS | WEIGHT
SmartLume 1 SmartLume 2 SmartLume 3 SmartLume 4
Typical luminaire outputflux (range) (*)
3,000 to 5,500lm
4,900 to 18,900lm
12,600 to 30,900lm
29,900 to 41,800lm
Power consumption (W) (*) 27 to 48W 54 to 153W 141 to 232W 297 to 332W
Lifetime residual flux @ tq 25°C @100,000h
· 95% with driving current up to 700mA· 90% with driving current from 701mA to 1A
· 85% with driving current from 1.001A to 1.5A
Colour temperature Warm (3000K) or neutral (4000K) white
Optical compartment tightness level IP 66 (**)
Control gear tightness level IP 54 (**)
Impact resistance (glass) IK 10 (***)
Nominal voltage 120 – 277V – 50 – 60 Hz347 – 480V – 50 – 60 Hz
Electrical class US Class 1
Installation height 13.1’ to 65.5’ / 4m to 20m
Materials
Body High-pressure die-cast aluminium
Protector Silicone
Colour RAL 7040T Any other RAL colour upon request
l
L
H2
H1 l
L
H2
H1
5°
5°
5°
10°
7.9” / 200mm
7.9” / 200mm
175mm
7.3”185mm
Ø 1.7”42mm
Ø 2.4”60mm
Ø 1.25-2” / 42-60mm
Ø 3” / 76mm
7”
5.0 +2.50
2.5
-5.07.510
5.0 +2.50
2.5
-5.07.510
5°
5°
5°
10°
7.9” / 200mm
7.9” / 200mm
175mm
7.3”185mm
Ø 1.7”42mm
Ø 2.4”60mm
Ø 1.25-2” / 42-60mm
Ø 3” / 76mm
7”
TILT SETTINGS
7SMARTLUME
OWLET CLOUDOR LOCAL SERVER
Consult the SmartLume web page for more technical information: www.schreder.com
SMART CITY ENABLED
SmartLume comes with a standard NEMA 7-pin receptacle included, ensuring an easy transition into the new era of digital lighting control and monitoring.
SMARTLUME + OWLET IoT: THE PERFECT MATCH FOR THE HIGHEST SAVINGS
Installing a Luco P7 CM controller into SmartLume’s NEMA 7-pin receptacle makes it fully controllable with the smartest and most user-friendly remote lighting control system: Owlet IoT.
Owlet IoT offers numerous key advantages compared to more basic systems:
> Easy set-up with instant GPS location and auto-commissioning
> Smart hybrid architecture for seamless communication
> Complete compatibility with various sensors for adaptive lighting scenarios
> Efficient asset management with precise data (highest metering accuracy on the market)
> Safe fallback scenarios with an integrated astronomical clock and a built-in photocell
> Based on open standards for a smooth integration with 3rd party systems (rd en exposant)
> Web-based application and flexible user interface to provide the most versatile and user-friendly remote control system
LUCO P7 CM
www.schreder.com
SMAR
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Teceo
Lighting in an efficient and sustainable manner
Teceo is a market benchmark recognised by independant bodies. This very successful luminaire already enables thousands of towns and cities to improve lighting levels, generate energy savings and reduce their ecological footprint. With the new S version particularly suited for low-height applications, the Teceo range offers more than ever optimised photometrical performance with a minimum total cost of ownership.
Thanks to its broad range of lumen packages, its impressive scope of light distributions and its various control options, Teceo provides a tailor-made solution for numerous applications: from bike paths, squares and car parks to residential streets, urban roads, large avenues and motorways.
Designed for a versatile mounting with the same universal piece allowing both side-entry and post-top fixation on a spigot, Teceo is easy to combine with standard poles, refined brackets or wall brackets.
Design : Michel Tortel
IP 66 IK 09 IK 08
10kV
ROAD
URBAN &RESIDENTIAL
STREETS
LARGE AREASROADS & MOTORWAYS
BIKE & PEDESTRIAN
PATHS
SQUARES & PEDESTRIAN
AREAS
CAR PARKS BRIDGES RAILWAY STATIONS &
METROS
Copyright © Schréder SA - August 2018. All rights reserved. Specifications are of an indicative nature and subject to change without notice. Teceo | 2
Concept
The Teceo is composed of three different parts in high-pressure die-cast aluminium, with a top opening. The hinges of the top cover open 120° to provide access to the gear compartment.
The Teceo can be fitted with LensoFlex®2 and LensoFlex®3 photometric engines, protected by a tempered glass.
The Teceo range offers optimised photometrical performance with a minimum total cost of ownership. This highly efficient luminaires is available in three sizes to offer towns and cities the ideal tool to improve lighting levels, generate energy savings and reduce their ecological footprint.
The Teceo S, for up to 24 LEDs, has been designed for low-height applications such as residential streets, car parks and bike paths. The Teceo 1 for up to 48 LEDs is ideally suited to lighting urban roads and squares while the Teceo 2 for up to 144 LEDs is perfect for large roads, avenues and motorways.
The complete range is available with three different universal fixation parts adapted for post-top and side-entry mounting on various spigots (Ø32mm with adaptator, Ø42-48mm, Ø60mm and Ø76mm). The inclination angle can be adjusted on-site for both post-top (10°) and side-entry (15°) configurations.
Key advantages
• A market benchmark recognised byindependant bodies
• Maximised savings in energy andmaintenance costs
• LensoFlex®2 and LensoFlex®3technologies offering high performancephotometry, comfort and safety
• 3 sizes to provide the most accuratesolutions for numerous road and urbanapplications
• Universal fixation adapted for side-entry and post-top mounting
• IoT ready: optional 7-pin NEMA socket
Types of application
• Roads and motorways
• Urban and residential streets
• Bike and pedestrian paths
• Squares and pedestrian areas
• Car parks
• Bridges
• Large areas
• Railway stations and metros
The top hood provides access to the gear compartment for cabling and maintenance.
Teceo is available with a wide range of LensoFlex®2 and LensoFlex®3 photometries.
As an option, Teceo can be equipped with a PIR sensor for light-on-demand scenarios.
The Teceo range offers universal fixations for spigots ranging from Ø32 to Ø76mm.
Teceo | SUMMARY
Copyright © Schréder SA - August 2018. All rights reserved. Specifications are of an indicative nature and subject to change without notice. Teceo | 3
LensoFlex®2 is based upon the addition principle of photometric distribution. Each LED is associated with a specific PMMA lens that generates the complete photometric distribution of the luminaire. The number of LEDs in combination with the driving current determines the intensity level of the light distribution.
The proven LensoFlex®2 concept includes a glass protector to seal the LEDs and lenses into the luminaire body.
LensoFlex®3 uses lenses made of mouldable and optical-grade silicon offering superior transparency and excellent photothermal stability. This withstands high driving currents and delivers maximised lumen output over time.
As silicon offers a higher thermal resistance compared to PMMA, temperature is not as critical for LensoFlex®3 engines. This offers two distinct advantages; LensoFlex®3 ensures enhanced performance in warm climates and enables a high driving current to be used to increase the lumen output and a higher lm/kg ratio. It also does not suffer from yellowing over time.
LensoFlex®2 LensoFlex®3
As an option, the LensoFlex®2 modules can be equipped with a Back Light control system.
This additional feature minimises light spill from the back of the luminaire to avoid intrusive light towards buildings.
Back Light control
A. Without Back Light control | B. With Back Light control
A B
Teceo | PHOTOMETRY
Copyright © Schréder SA - August 2018. All rights reserved. Specifications are of an indicative nature and subject to change without notice. Teceo | 4
Constant Light Output (CLO)
This system compensates for the depreciation of luminous flux to avoid excess lighting at the beginning of the installation’s service life. Luminous depreciation over time must be taken into account to ensure a predefined lighting level during the luminaire’s useful life. Without a CLO feature, this simply means increasing the initial power upon installation in order to make up for luminous depreciation. By precisely controlling the luminous flux, the energy needed to reach the required level can be maintained throughout the luminaire’s life.
KWH
100,000 h
1
2
3. Energy savings2. LED lighting consumption with CLO B. Time1. Standard lighting level A. Performance
3
100 %
80 %
60%
17 21 23 01 03 05 07
40 %
20 %
A
B
Custom dimming profile
Intelligent luminaire drivers can be programmed with complex dimming profiles. Up to five combinations of time intervals and light levels are possible. This feature does not require any extra wiring. The period between switching on and switching off is used to activate the preset dimming profile. The customised dimming system generates maximum energy savings while respecting the required lighting levels and uniformity throughout the night.
Daylight sensor / photocell
Photocell or daylight sensors switch the luminaire on as soon natural light falls to a certain level. It can be programmed to switch on during a storm, on a cloudy day (in critical areas) or only at night fall so as to provide safety and comfort in public spaces.
PIR sensor: motion detection
In places with little nocturnal activity, lighting can be dimmed to a minimum most of the time. By using passive infrared (PIR) sensors, the level of light can be raised as soon as a pedestrian or a slow vehicle is detected in the area. Each luminaire level can be configured individually with several parametres such as minimum and maximum light output, delay period and ON/OFF duration time. PIR sensors can be used in an autonomous or interoperable network.
Teceo | CONTROL SYSTEMS
LIGHT OUTPUT
Copyright © Schréder SA - August 2018. All rights reserved. Specifications are of an indicative nature and subject to change without notice. Teceo | 5
Owlet IoT remotely controls luminaires in a lighting network, creating opportunities for improved efficiency, accurate real-time data and energy savings of up to 85%.
Plugging the LUCO P7 CM controller onto the 7-pin NEMA socket
All-in-oneThe LUCO P7 CM controller includes the most advanced features for optimised asset management. It also provides an integrated photocell and operates with an astronomical clock for seasonal dimming profile adaptations.
Easy to deployThanks to wireless communication, no cabling is needed. The network is not subject to physical constraints or limitations.From a single control unit to an unlimited network, you can expand your lighting scheme at any time. With real-time geolocation and automatic detection of luminaire features, commissioning is quick and easy.
User-friendlyOnce a controller is installed on a luminaire, the luminaire automatically appears with its GPS coordinates on a web-based map. An easy-to-use dashboard enables each user to organise and customise screens, statistics and reports. Users can gain relevant, real-time insights. The Owlet IoT web application can be accessed at all times from anywhere in the world with a device connected to the Internet. The application adapts to the device to offer an intuitive and user-friendly experience. Real-time notifications can be pre-programmed to monitor the most important elements of the lighting scheme.
SecureThe Owlet IoT system uses a local wireless mesh communication networks to control the on-site luminaires combined with a remote control system utilising the cloud to ensure smooth data transfers to and from the central management system.
The system uses encrypted IP V6 communication to protect data transmission in both directions. Using a secure APN, Owlet IoT ensures a high level of protection.In the exceptional case of a communication failure, the built-in astronomical clock and photocell will take over to switch the luminaires on and off, thus avoiding a complete blackout at night.
EfficientThanks to sensors and/or pre-programmed settings, lighting scenarios can be easily adapted to cope with live events, providing the right lighting levels at the right time and in the right place.The integrated utility grade meter offers the highest accuracy available on the market today, enabling decisions based on real figures.Accurate real-time feedback and clear reporting ensures that the network operates efficiently and maintenance is optimised.When LED luminaires are switched on, the inrush current can create problems for the electricity grid. Owlet IoT incorporates an algorithm to preserve the grid at all times.
OpenThe LUCO P7 CM controller can be plugged onto the standard 7 pin NEMA socket and operates through either a DALI or 1-10V interface to control the luminaire.Owlet IoT is based on the IPv6 protocol. This method for addressing devices can generate an almost unlimited number of unique combinations to connect non-traditional components to the Internet or computer network.Through open APIs, Owlet IoT can be integrated into existing or future global management systems.
Teceo | CONTROL SYSTEMS
Copyright © Schréder SA - August 2018. All rights reserved. Specifications are of an indicative nature and subject to change without notice. Teceo | 6
GENERAL INFORMATION
Recommended installation height
4m to 12m | 13’ to 40’
FutureProof Easy replacement of the photometric engine and electronic assembly on-site
Driver included Yes
CE mark Yes
ENEC Plus certified Yes
ETL listed Yes
ROHS compliant Yes
Testing standard LM 79-80 (all measurements in ISO17025 accredited laboratory)
HOUSING AND FINISH
Housing High-pressure die-cast aluminium
Optic PMMA (LensoFlex®2)Silicon (LensoFlex®3)
Protector Tempered glass
Housing finish Polyester powder coating
Colour AKZO 150 light grey sanded
Any other RAL or AKZO colour upon request
Tightness level IP 66
Impact resistance IK 09 (Teceo S) - IK 08 (Teceo 1 & 2)
Vibration standard Compliant with ANSI 1.5G and 3G and modified IEC 68-2-6 (0.5G)
Access for maintenance Direct access to the gear compartment by unscrewing 2 screws (1 screw for Teceo S)
DIMENSIONS AND MOUNTING
AxBxC (mm | inch) Teceo S – 450x99x252 | 17.7x3.9x9.9
Teceo 1 – 607x113x318 | 23.9x4.4x12.5
Teceo 2 – 788x119x439 | 31x4.7x17.2
Weight (kg | lbs) Teceo S – 5.1 | 11.2
Teceo 1 – 9.6 | 21.2
Teceo 2 – 17.5 | 38.6
Aerodynamic resistance(CxS)
Teceo S – 0.170
Teceo 1 – 0.135
Teceo 2 – 0.199
Standard mounting Universal fixations: Ø32mm (1.25’’) with accessory, Ø42-48mm (1.6’’-1.8’’), Ø60mm (2’’) and Ø76mm (3’’)
Optional mounting Penetrating fixation with Ø60mm (2’’) tube
ELECTRICAL INFORMATION
Electrical class EU class I or II - US class 1
Nominal voltage 120-277V – 50-60Hz
347V – 50-60Hz
Power factor > 90% at full load
Surge protection 10kV
Electromagnetic compatibility (EMC)
EN 55015 / EN 61000-3-2 / EN 61000-3-3 / EN 61000-4-3 / EN 61000-4-4 / EN 61000-4-5 / EN 61000-4-6 / EN 61000-4-11 / EN 61547
Control options No dimming, custom dimming, CLO, DALI or 0-10V
NEMA socket 7-pin (optional)
Sensor PIR (optional, not available on Teceo S)
OPTICAL INFORMATION
LED colour temperature 3000K (Warm white)
4000K (Neutral white)
Colour rendering index (CRI) > 80 (Warm white)
> 70 (Neutral white)
Upward Light Output Ratio (ULOR)
0%
OPERATING CONDITIONS
Operating temperature range (Ta) -40 °C up to +45 °C (*) -40 ° F up to 113 °F (*)
(*) Depending on the luminaire configuration. For more details, please contact us.
LIFETIME OF THE LEDS @ TQ 25°C
Teceo S 100,000h – L95B10
Teceo 1 100,000h – L90B10
Teceo 2 100,000h – L90B10
A
BC
Teceo | CHARACTERISTICS
Copyright © Schréder SA - August 2018. All rights reserved. Specifications are of an indicative nature and subject to change without notice. Teceo | 7
Luminaire output flux (lm)
Warm White (3000K) - CRI 80
Luminaire output flux (lm)
Neutral White (4000K) - CRI 70
Power consumption (W)
Luminaire efficacy (lm/W)
Luminaire Number of LEDs
Current (mA) Min Max Min Max Min Max Up to Photometry
Tece
o S
8 350 800 1000 1000 1200 9.7 9.7 126
8 700 1500 1800 1800 2200 19.1 19.1 117
8 950 1900 2400 2300 2800 27.8 27.8 102
16 200 1000 1200 1200 1400 11 11 134
16 350 1600 2000 1900 2400 18.2 18.2 134
16 600 2700 3300 3100 3800 30.8 30.8 127
16 700 3000 3700 3600 4400 36.2 36.2 122
16 860 3600 4400 4200 5200 45 45 116
24 200 1500 1800 1800 2200 15.4 15.4 144
24 350 2500 3100 2900 3600 26.8 26.8 137
24 600 4000 4900 4700 5800 45.5 45.5 128
24 700 4500 5600 5400 6600 53.5 53.5 124
24 1000 6000 7300 7000 8600 78 78 111
Tolerance on LED flux is ± 7% and on total luminaire power ± 5 %
Teceo | PERFORMANCE
Copyright © Schréder SA - August 2018. All rights reserved. Specifications are of an indicative nature and subject to change without notice. Teceo | 8
Luminaire output flux (lm)
Warm White (3000K) - CRI 80
Luminaire output flux (lm)
Neutral White (4000K) - CRI 70
Power consumption (W)
Luminaire efficacy (lm/W)
Luminaire Number of LEDs
Current (mA) Min Max Min Max Min Max Up to Photometry
Tece
o 1
8 350 800 1000 1000 1200 9.7 9.7 125
8 500 1100 1400 1400 1700 13.6 13.6 125
8 700 1500 1900 1800 2200 19.1 19.1 118
16 350 1600 2000 1900 2400 18.2 18.2 134
16 500 2300 2800 2700 3300 25.7 25.7 129
16 700 3000 3700 3600 4400 36.2 36.2 122
24 350 2500 3000 2900 3600 26.8 26.8 136
24 500 3400 4200 4100 4900 38.1 38.1 131
24 700 4500 5500 5400 6500 53.5 53.5 123
32 350 3300 4100 3900 4800 34.8 34.8 140
32 500 4600 5600 5400 6600 49.5 49.5 135
32 700 6100 7400 7200 8700 70 70 126
40 350 4200 5100 4900 6000 43 43 141
40 500 5700 7000 6800 8200 61.5 61.5 135
40 700 7600 9300 9000 10900 87 87 126
48 350 5000 6100 5900 7200 51.5 51.5 142
48 500 6900 8300 8100 9900 73 73 136
48 700 9000 11000 10600 13000 104 104 125
48 700 10300 11100 12000 12900 105 105 124
48 1000 13700 14700 16000 17100 151 151 114
Tolerance on LED flux is ± 7% and on total luminaire power ± 5 %
Teceo | PERFORMANCE
Copyright © Schréder SA - August 2018. All rights reserved. Specifications are of an indicative nature and subject to change without notice. Teceo | 9
Tolerance on LED flux is ± 7% and on total luminaire power ± 5 %
Luminaire output flux (lm)
Warm White (3000K) - CRI 80
Luminaire output flux (lm)
Neutral White (4000K) - CRI 70
Power consumption (W)
Luminaire efficacy (lm/W)
Luminaire Number of LEDs
Current (mA) Min Max Min Max Min Max Up to Photometry
Tece
o 2
56 350 5900 7000 7000 8300 59.5 59.5 141
56 500 8000 9600 9500 11400 86 86 133
56 700 10700 12800 12600 15100 121 121 125
64 350 6700 8000 8000 9500 67.5 67.5 142
64 500 9200 11000 10900 13000 97 97 134
64 700 12100 14500 14300 17100 138 138 124
72 350 7600 9100 9000 10700 76 76 141
72 500 10300 12400 12200 14600 109 109 134
72 700 13700 16300 16100 19300 154 154 125
80 350 8400 10100 10000 11900 84 84 142
80 500 11500 13700 13600 16200 121 121 134
80 700 14900 17900 17600 21100 175 175 121
88 350 9300 11100 11000 13100 93 93 141
88 500 12600 15100 14900 17800 133 133 134
88 700 16600 19800 19500 23300 192 192 122
96 350 10100 12100 12000 14300 103 103 139
96 500 13800 16500 16300 19500 148 148 132
96 700 18000 21500 21300 25400 208 208 122
Teceo | PERFORMANCE
Copyright © Schréder SA - August 2018. All rights reserved. Specifications are of an indicative nature and subject to change without notice. Teceo | 10
Tolerance on LED flux is ± 7% and on total luminaire power ± 5 %
Luminaire output flux (lm)
Warm White (3000K) - CRI 80
Luminaire output flux (lm)
Neutral White (4000K) - CRI 70
Power consumption (W)
Luminaire efficacy (lm/W)
Luminaire Number of LEDs
Current (mA) Min Max Min Max Min Max Up to Photometry
Tece
o 2
104 350 11000 13100 13000 15500 111 111 140
104 500 14900 17800 17600 21100 160 160 132
104 700 19500 23300 23000 27500 225 225 122
112 350 11800 14100 14000 16700 119 119 141
112 500 16100 19200 19000 22700 171 171 133
112 700 21000 25100 24800 29600 241 241 123
120 350 12700 15100 15000 17900 127 127 141
120 500 17200 20600 20300 24300 183 183 133
120 700 22400 26800 26500 31600 258 258 123
128 350 13500 16100 16000 19100 135 135 142
128 500 18400 22000 21700 25900 195 195 133
128 700 23900 28600 28300 33800 275 275 123
136 350 14400 17200 17000 20300 143 143 142
136 500 19500 23300 23100 27500 207 207 133
136 500 22900 23800 26700 27700 207 207 134
144 350 15200 18200 18000 21500 152 152 141
144 500 20700 24700 24400 29200 219 219 133
144 500 24300 25200 28300 29400 219 219 134
Teceo | PERFORMANCE
Copyright © Schréder SA - August 2018. All rights reserved. Specifications are of an indicative nature and subject to change without notice. Teceo | 11
5068 ASY 5096 ASY 5098 ASY
5112 ASY | BACKLIGHT5112 ASY 5117 ASY
5117 ASY | BACKLIGHT 5119 ASY 5119 ASY | BACKLIGHT
Teceo | LIGHT DISTRIBUTIONS
Copyright © Schréder SA - August 2018. All rights reserved. Specifications are of an indicative nature and subject to change without notice. Teceo | 12
5120 ASY 5121 ASY5120 ASY | BACKLIGHT
5121 ASY | BACKLIGHT 5139 ASY 5139 ASY | BACKLIGHT
5140 ASY 5140 ASY | BACKLIGHT 5141 ASY
Teceo | LIGHT DISTRIBUTIONS
Copyright © Schréder SA - August 2018. All rights reserved. Specifications are of an indicative nature and subject to change without notice. Teceo | 13
5144 ASY
5145 ASY 5147 ASY
5162 ASY 5163 ASY
5141 ASY | BACKLIGHT 5144 ASY | BACKLIGHT
5145 ASY | BACKLIGHT
5164 ASY
Teceo | LIGHT DISTRIBUTIONS
Copyright © Schréder SA - August 2018. All rights reserved. Specifications are of an indicative nature and subject to change without notice. Teceo | 14
5245 ASY 5246 ASY
5247 ASY 5248 ASY 5249 ASY
5244 ASY
5250 ASY
Teceo | LIGHT DISTRIBUTIONS
Applications The LUCO P7 CM controls LED drivers and ballasts as per the wiring diagrams (A). It is designed to replace a standard NEMA photocell (on a 5 or 7 pin socket) for use in outdoor luminaires for residential, road and urban applications.
General operation The LUCO P7 CM is designed to execute Plug and Play commissioning with instant connectivity over the existing cellular infrastructure without any need for an additional gateway or IT structure.
Each controller can communicate in two independent ways, cellular and RF-Mesh, offering instant, robust, reliable and flexible connectivity.
Communication between the luminaires, for exchanging sensor information for example, is done through a fast IPv6 based self- forming RF mesh net, where one controller in the mesh also acts as a router module for the neighbouring controllers through the Central Management System.
Asset-managementAn ID reader reads out the asset information stored in the lumi-naire tag for further use in the Central Management System asset application.
Owlet IoT Wireless Outdoor Luminaire Controller LUCO P7 CM (cellular-mesh)Datasheet
Luminaire Controller LUCO P7 CM
© Schréder 2016 | Data subject to change | www.schreder.com
89.2 mm / 3.51“
61.
20 m
m /
2.4
1“
A
Streetlight controls for smart cities based on IoT Technology
The LUCO P7 CM Luminaire Controller is a smart control module that monitors and controls LED or HID luminaires. It is designed for easy installation and Plug and Play commissioning. Twist and lock the LUCO P7 CM onto the 5 or 7 pin NEMA socket and your system is ready to go, providing:
• Auto-commissioning• Auto-connectivity• GPS-location• Sensors enabled• Asset management• DALI and 1-10V driver support• Integrated power meter with 1% accuracy (0-100% Dimming)
NEMA Socket is not supplied with LUCO P7 CM
+ DIMMING, + DALI
NEMA Twist lock (top view)ANSI C 136.41
SENSOR POWER SUPPLY
SENSOR INPUTGROUND( - DIMMING, - DALI, - SENSOR)
N
NEUTRAL (WHITE)LIVE (BLACK)
LOAD (RED)
A
S_DS
_LuC
o-P7
CM_3
.428
.10.
002
LUCO P7 CM Auto-CommissioningDue to its built-in GPS and cellular module the LUCO P7 CM supports auto-commissioning and auto-connectivity. Owlet controllers with GPS will automatically be imported and located in the Owlet IoT user interface.
Owlet IoT Wireless Outdoor Luminaire Controller LUCO P7 CM (cellular-mesh)Datasheet
© Schréder 2016 | Data subject to change | www.schreder.com
HousingMaterial PC, UV stabilized
Colour RAL 7042 translucent light grey
Protection classIP 66(installed condition for controller only in combination with TE PN: 2213362)
Radio FrequencyProtocol IPv6
Frequency band 2.4 GHz ( 2400,0…2483,5 MHz)
Non-operating conditions
Temperature -40°C to +80°C-40°F to 175 °F
Relative humidity 5% to 90%
Mains connectionMains voltage 110-277VAC ±10%
Mains frequency 50/60 Hz ± 5%
Maximum load current 5 A
Maximum power at 5A600VA@120V, 1.2kVA@240V, 1.38kVA@277V
Required external fuse ≤ 10A
Power consumptionStand-by wattage < 1.0W
Operating wattage < 2.7W
Integrated powermeter accuracy 1% and better(between 0% and 100% dimming)
DALI output InterfaceDALI Compliant to IEC62386 part 101, 102, 201, 203, 207
Load capacity 8 DALI drivers
Protection Interface is short circuit protected
DALI voltage 12.0 to 20.5Vdc
DALI supply current max. 16 mA
1-10V interfaceCompliant to 1-10VDC IEC60929 (Annex E)
Load capacity 8 1-10V drivers
Load current Interface is current sinking, max. 16mA
Operating conditions
Ambient temperature (ta) -40°C to +65°C -40°F to 149°F
Relative humidity 10% to 90%
Standards & Legislation
ApprovalsR&TTE directive 1999/5/ECEMC directive 2004/108/ECLV directive 2006/95/ECRoHS directive 2002/95/EC
EMC
EN 301 489-1 V1.9.2:2011-09EN 301 489-3 V1.6.1:2013-08EN 301 489-7 V1.3.1:2005-11EN 301 489-17 V2.2.1:2012-09EN 301 489-24 V1.5.1:2010-10FCC/IC part 15B, ICES-003 (ANSI/IEEE C63.4:2014)
Cellular
EN 301 511 V9.0.2:2003-03 EN 301 908-1 V7.1.1 2015-03 FCC/IC RSS-132, Issue 3, January 2013FCC/IC RSS-133, Issue 6, January 2013 FCC/IC RSS-139, Issue 3, July 2015 FCC/IC RSS-247, Issue 1, May 2015 FCC/IC 47 CFR Part 22 Subpart HFCC/IC 47 CFR Part 24 Subpart E FCC/IC 47 CFR Part 27 Subpart C
RadioEN 300 328 V1.9.1:2015-02EN 300 440-2 V1.4.1:2010-08FCC/IC 47 CFR Part 15 Subpart C §15.247;
GPS EN 300 330-2 V1.6.1:2015-03
RF-IDFCC/IC 47 CFR Part 15 Subpart C §15.225 FCC/IC RSS-210, Issue 8, December 2010 + Amendment 1, February 2015
Safety
IEC 61347-1 :2008+A1:2011+A2:2013IEC 61347-2-11EN 60950-22:2006+AC:2008EN 60529:1991+A1:2000+AC:1993+A2:2013EN 62311:2008 UL 773 (E359906)C22.2 No. 182.2-M1987CSA C22.2 No. 205-12 FCC/IC 47 CFR Part 2 Subpart J §2.1091FCC/IC RSS-102, Issue 5, March 2015( FCC ID: 2AIOB-LCP7CM, IC. 21585-LCP7CM)
Connector ANSI C136.41, ANSI C136.10
Sensor Power Supply12 Vdc ± 0.5 V, 2 mA max.
GPS CapabilitiesSupports GPS system (L1C/A signals provided at 1575.42 MHz)
Supports SBAS, Satellite Based Assist System
Position accuracy upto 2.5m/ 8 ft (with > 6 satellites)
S_DS
_LuC
o-P7
CM_3
.428
.10.
002
E359906FCC ID: 2AIOB-LCP7CM
IC. 21585-LCP7CM
Applications The LUCO P7 CM HV controls LED drivers and ballasts as per the wiring diagrams (A). It is designed to replace a standard NEMA photocell (on a 5 or 7 pin socket) for use in outdoor luminaires for residential, road and urban applications.
General operation The LUCO P7 CM HV is designed to execute Plug and Play commissioning with instant connectivity over the existing cellular infrastructure without any need for an additional gateway or IT structure.
Each controller can communicate in two independent ways, cellular and RF-Mesh, offering instant, robust, reliable and flexible connectivity.
Communication between the luminaires, for exchanging sensor information for example, is done through a fast IPv6 based self- forming RF mesh net, where one controller in the mesh also acts as a router module for the neighbouring controllers through the Central Management System.
Asset-managementAn ID reader reads out the asset information stored in the lumi-naire tag for further use in the Central Management System asset application.
Owlet IoT Wireless Outdoor Luminaire Controller LUCO P7 CM HV (347V-480V)Datasheet
Luminaire Controller LUCO P7 CM HV
© Schréder 2017 | Data subject to change | www.schreder.com
89.2 mm / 3.51“
61.
20 m
m /
2.4
1“
A
Streetlight controls for smart cities based on IoT Technology
The LUCO P7 CM HV Luminaire Controller is a smart control module that monitors and controls LED or HID luminaires. It is designed for easy installation and plug and play commissioning. Twist and lock the LUCO P7 CM HV onto the 5 or 7 pin NEMA socket and your system is ready to go:
• Auto-commissioning• Auto-connectivity• GPS-location• Sensors enabled• Asset management• DALI and 1-10V Driver Support• Integrated powermeter with 1% accuracy (0-100% Dimming)
NEMA Socket is not supplied with LUCO P7 CM
+ DIMMING, + DALI
NEMA Twist lock (top view)ANSI C 136.41
SENSOR POWER SUPPLY
SENSOR INPUTGROUND( - DIMMING, - DALI, - SENSOR)
N
NEUTRAL (WHITE)LIVE (BLACK)
LOAD (RED)
A
S_DS
_LuC
o-P7
CMHV
_3.4
28.1
0.00
2
LUCO P7 CM HV Auto-CommissioningDue to its built-in GPS and cellular module the LUCO P7 CM HV supports auto-commissioning and auto-connectivity. Owlet controllers with GPS will automatically be imported and located in the Owlet IoT user interface.
Owlet IoT Wireless Outdoor Luminaire Controller LUCO P7 CM HVDatasheet
© Schréder 2017 | Data subject to change | www.schreder.com
HousingMaterial PC, UV stabilized
Colour RAL 7042 translucent light grey
Protection class IP 66 (installed condition for controller only in combination with TE PN: 2213362)
Radio FrequencyProtocol IPv6
Frequency band 2.4 GHz ( 2400,0…2483,5 MHz)
Non-operating conditions
Temperature -40°C to +80°C-40°F to 175 °F
Relative humidity 5% to 90%
Mains connectionMains voltage 347-480VAC +/-10%
Mains frequency 50/60 Hz ± 5%
Maximum load current 2 A
Maximum power at 2 A 347V-2A / 700VA480V-2A / 960VA
Required external fuse ≤ 10A
Power consumptionStand-by wattage < 1.0W
Operating wattage < 2.7W
Integrated powermeter accuracy 1% and better(between 0% and 100% dimming)
DALI output InterfaceDALI Compliant to IEC62386 part 101, 102, 201, 203, 207
Load capacity 8 DALI drivers
Protection Interface is short circuit protected
DALI voltage 12.0 to 20.5Vdc
DALI supply current max. 16 mA
1-10V interfaceCompliant to 1-10VDC IEC60929 (Annex E)
Load capacity 8 1-10V drivers
Load current Interface is current sinking, max. 16mA
Operating conditions
Ambient temperature (ta) -40°C to +70°C -40°F to 158°F
Relative humidity 10% to 90%
Standards & Legislation
ApprovalsR&TTE directive 1999/5/ECEMC directive 2004/108/ECLV directive 2006/95/ECRoHS directive 2002/95/EC
EMC
EN 301 489-1 V1.9.2:2011-09EN 301 489-3 V1.6.1:2013-08EN 301 489-7 V1.3.1:2005-11EN 301 489-17 V2.2.1:2012-09EN 301 489-24 V1.5.1:2010-10FCC/IC part 15B, ICES-003 (ANSI/IEEE C63.4:2014)
Cellular
EN 301 511 V9.0.2:2003-03 EN 301 908-1 V7.1.1 2015-03 FCC/IC RSS-132, Issue 3, January 2013FCC/IC RSS-133, Issue 6, January 2013 FCC/IC RSS-139, Issue 3, July 2015 FCC/IC RSS-247, Issue 1, May 2015 FCC/IC 47 CFR Part 22 Subpart HFCC/IC 47 CFR Part 24 Subpart E FCC/IC 47 CFR Part 27 Subpart C
RadioEN 300 328 V1.9.1:2015-02EN 300 440-2 V1.4.1:2010-08FCC/IC 47 CFR Part 15 Subpart C §15.247;
GPS EN 300 330-2 V1.6.1:2015-03
RF-IDFCC/IC 47 CFR Part 15 Subpart C §15.225 FCC/IC RSS-210, Issue 8, December 2010 + Amendment 1, February 2015
Safety
IEC 61347-1 :2008+A1:2011+A2:2013IEC 61347-2-11EN 60950-22:2006+AC:2008EN 60529:1991+A1:2000+AC:1993+A2:2013EN 62311:2008 UL 773 (E359906)C22.2 No. 182.2-M1987CSA C22.2 No. 205-12
FCC/IC 47 CFR Part 2 Subpart J §2.1091FCC/IC RSS-102, Issue 5, March 2015( FCC ID: 2AIOB-LCP7CM, IC. 21585-LCP7CM)
This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harm-ful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.
Cet appareil est conforme à la partie 15 des règles de la FCC. Le fonctionnement est soumis aux deux conditions suivantes:(1) ce dispositif ne peut pas causer d‘interférences nuisibles et (2) cet appareil doit accepter toute interférence reçue, y compris les interférences qui peuvent causer un mauvais fonctionnement.
Connector ANSI C136.41, ANSI C136.10
Sensor Power Supply12 Vdc ± 0.5 V, 2 mA max.
GPS CapabilitiesSupports GPS system (L1C/A signals provided at 1575.42 MHz)
Supports SBAS, Satellite Based Assist System
Position accuracy upto 2.5m/ 8 ft (with > 6 satellites)
S_DS
_LuC
o-P7
CMHV
_3.4
28.1
0.00
2
E359906FCC ID: 2AIOB-LCP7CM
IC. 21585-LCP7CM
Mounting
Push +/- 55 N (12.5 Lb.)
Rotation 4.5 Nm (3.3 Lb.ft)