Schréder - Solar lighting designs

From design to results: the complete guide to solar lighting applications.

Solar lighting Sun-powered and eco-friendly applications

Content

Why solar? 04

Beneath the sun: key

technical choices 05

Design methodology

Designing a solar lighting system 06

Tailored solution for your applications

12 ..........................M4 road 90 km/h 16 .......................M5 street 50 km/h 20 ......................M5 street 30 km/h 24 .................................. Roundabout 28 ....................Pedestrian crossing 32 ................................PRM pathway 36 .....................................Cycle path 40 .........................................Walkway 44 .......................Recreation ground 48 ...........................Multisport court 52 .............................Car park type 1 56 ............................Car park type 2 60 ............................Car park type 3

Solutions for your applications

A few of our projects

A whole product portfolio 64

A few of our projects 68

Edouard Warnier Solar Business Manager Schréder

Today, communities face an urgent need to reduce emissions, cut costs and build resilient infrastructure. That’s where solar lighting comes in. I have seen first-hand how solar lighting is transforming public spaces. From remote bus stops to bustling campuses, it is bringing light where it’s needed - without relying on the grid. It is not just about lighting, it’s about freedom. Freedom from energy bills, freedom from cables and freedom from carbon. At Schréder, we believe in sustainable progress. By combining smart design with solar innovation, we help cities and businesses light spaces efficiently, independently and responsibly. Solar lighting is not just a solution. It is a statement. And it is shaping a brighter, cleaner future today. Lighting the future, powered by the sun

Key facts and figures Why solar? A proven solution for sustainable, resilient lighting

173,000 TWh/day That’s how much solar energy hits Earth daily. More than 10,000x the global energy demand. Solar is not scarce. It’s untapped. Source: International Energy Agency (IEA)

€0.015 /kWh

€0.035 /kWh

Solar PV is now the cheapest source of electricity ever. In 2020, new solar projects delivered energy at €0.015– €0.035/kWh. Cost-efficiency is no longer a barrier. Source: World Energy Outlook 2020

2.3-5.0 kWh/m²/day

From Oslo (avg. 2.7 kWh/m²/day) to Paris (3.8) or Madrid (5.0), solar works everywhere, if properly

dimensioned. Source: EU PVGIS

€0

Zero grid. Zero trenching. Zero bills. Solar lighting avoids electrical connections, civil works and energy bills. Save up to 80% on installation costs in off-grid areas. Source: IRENA (Off-grid renewables, 2022)

The EU wants to cut emissions fast: -55% by 2030. Solar lighting reduces OPEX and decarbonises public spaces without waiting. Source: European Commission – Green Deal

-55 %

Want great solar lighting?

Not all systems are equal. For reliable performance, you need more than just a panel and a pole. • Efficient solar panels – High conversion rates to capture maximum energy, even in cloudy conditions. • Long-life batteries – Durable, protected, and dimensioned for worst-case scenarios. • Smart energy management – Intelligent control to optimise consumption and avoid blackouts. • Precise light distribution – Designed for real applications, ensuring safety and visibility. • Robust mechanics – Wind-resistant, vandal-proof, and built to last in any environment.

Design methodology A true commitment to excellence in solar lighting

We take solar lighting seriously. Every project is a mission to deliver reliable, standards-compliant, future-proof solutions.

Our promise: no guesswork. Just reliable solar lighting based on facts, forecasts and a passion for getting it right.

DATA-DRIVEN ACCURACY • Site-specific solar analysis using historical PVGIS data • Calculated for worst-case scenarios: longest nights, minimum solar radiation • Safety margin added to ensure reliability in all conditions STANDARDS & COMPLIANCE • Lighting design compliant with EN 13201 and CIE 140 • Ensures safety, uniformity, and regulatory alignment

PRECISION IN EVERY COMPONENT • Solar panels: sized, tilted and orientated for maximum efficiency • Battery capacity: designed for required autonomy without oversizing • Lighting dimming strategies: smart use of energy with or without sensors DESIGNED FOR THE REAL WORLD • Mechanical structures: well-dimensioned poles, wind resistant, EN40 certified • Mounting methods adapted to site conditions and customer preferences

Guaranteed performance. All year round.

Our experts design every solar installation with the toughest day of the year in mind: 21 December. That’s the benchmark we use to deliver dependable lighting, day in and day out.

Why such precision? Because solar output can vary up to eightfold between summer and winter . Even in low light and low irradiance, performance must never drop.

Every detail is fine-tuned: • Battery capacity

• Total panel surface • Number of modules • Orientation and tilt for winter efficiency The result? Reliable lighting, 365 days a year. No compromises.

21 Dec.

Months

WHY VERTICAL SOLAR PANELS?

Vertical panels are better positioned to capture this shallow-angle light , especially in the early morning and late afternoon. It is the ideal setup for less sunny regions, where every watt matters. With a 22% efficiency rate - above industry standards - our panels maximise output, even in tough conditions. And in winter, this configuration brings two extra benefits: • Snow naturally slides off vertical panels • They harness the albedo effect—reflected light from snow or light surfaces boosts energy capture

Your practical guide to solar lighting

Real-world setups to guide your decisions The following pages showcase a selection of typical configurations , each based on realistic scenarios and detailed technical data : local solar exposure, site constraints, regulations, and performance expectations. These aren’t just theoretical models. They’re practical references, offering a clear view of how solar solutions perform in different contexts.

This guide is designed to help you: • Compare different approaches • Understand key design parameters • Make confident, informed technical choices

From site layout and irradiance levels to autonomy and dimming profiles, each configuration highlights the value of precise system sizing for lighting that’s fully autonomous, reliable, and standards-compliant .

ROAD

Secondary road 90km/h M4 road lighting solutions

Application

EN 13201

• Road with medium-speed traffic • Moderate to high traffic volume • Presence of intersections, exits, or urban edges • Two-lane road/road on the outskirts of cities

AVERAGE LUMINANCE (L AVE )

0.75cd/m 2

OVERALL UNIFORMITY (U o )

40%

LONGITUDINAL UNIFORMITY (U i )

60%

THRESHOLD INCREMENT (TI)

15%

ENERGY INDICATOR FOR ROAD (EIR)

0.30W/(lx.m 2 )

M4 road (90 km/h)

Two-lane road

Road configuration

2x3.5m

Road width

26m 36m

Spacing between poles

Mounting height

4,080lm 6,450lm

Source flux

7147

Optic

23W

41W

Luminaire power

Results of the lighting study

0.77cd/m 2

24 LEDS 3000K ULR 0% Compliant with French Law

Average luminance (L AVE )

46% 63%

64%

Overall uniformity (U o )

61%

Longitudinal uniformity (U i )

14%

11%

Threshold Increment (TI)

0.30

0.43

Energy Indicator for Road (EIR)

Wide spacing (26m) with VERTICALIS 600+

Wide spacing (36m) with VERTICALIS 600+

Solar tilt panel angle : vertical Dimming profile : V4 custom Autonomy time: 7 days

(1,500-1,700 hours/year) Low-sunshine areas Brussels (BE) - Amsterdam (NL) Salzburg (A) - London (UK) Gdańsk (PL) - Hamburg (D) Zurich (CH) - Lille (FR)

100%

20%

10%

2 H

1 H

Short spacing (26m) with PROTOS 275

Wide spacing (36m) with VERTICALIS 600+

Solar tilt panel angle : 40° Dimming profile : V4 custom Autonomy time: 6 days

Solar tilt panel angle : vertical Dimming profile : V4 custom Autonomy time: 4 days

(1,800-2,000 hours/year) Vienna (A) - Oostende (B) Eindhoven (NL) - Milan (I) Stuttgart (D) - Folkestone (UK) Warsaw (PL) - Lausanne (CH) Zagreb (RS) - Budapest (HU) Belgrade (RS) - Paris (FR) Medium-sunshine areas

100%

20%

2.5 H

1.5 H

2 H

1 H

Short spacing (26m) with PROTOS 275

Wide spacing (36m) with PROTOS 275

Solar tilt panel angle : 40° Dimming profile : V3 Autonomy time: 3 days

Solar tilt panel angle : 40° Dimming profile : V4 custom Autonomy time: 3 days

(2,100-2,800 hours/year) Very sunny areas Madrid (ES) - Lisbon (PT) Rome (I) - Bucarest (RO) Marseille (FR) - Locarno (CH)

100%

30%

2.5 H

2 H

ROAD

Residential street 50km/h M5 road lighting solutions

Application

EN 13201

• Road with low-speed traffic • Low traffic volume • Simple driving environment • Often found in residential areas or on local access roads where there is some motorised traffic

AVERAGE LUMINANCE (L AVE )

0.50cd/m 2

OVERALL UNIFORMITY (U o )

35%

LONGITUDINAL UNIFORMITY (U i )

40%

THRESHOLD INCREMENT (TI)

15%

ENERGY INDICATOR FOR ROAD (EIR)

0.30W/(lx.m 2 )

M5 road (50km/h)

Two-lane road

Road configuration

2x3m

Road width

29m 45m

Spacing between poles

Mounting height

3,000lm 6,450lm

Source flux

7147

7149

Optic

16W

41W

Luminaire power

Results of the lighting study

0.51cd/m 2

0.59cd/m 2

24 LEDS 3000K ULR 0% Compliant with French Law

Average luminance (L AVE )

48% 54% 15% 0.31

45% 42% 15% 0.51

Overall uniformity (U o )

Longitudinal uniformity (U i )

Threshold Increment (TI)

Energy Indicator for Road (EIR)

Short spacing (29m) with PROTOS 275

Wide spacing (45m) with VERTICALIS 600+

Solar tilt panel angle : 40° Dimming profile : V4 custom Autonomy time: 9 days

Solar tilt panel angle : vertical Dimming profile : V4 custom Autonomy time: 7 days

(1,500-1,700 hours/year) Low-sunshine areas Brussels (BE) - Amsterdam (NL) Salzburg (A) - London (UK) Gdańsk (PL) - Hamburg (D) Zurich (CH) - Lille (FR)

100%

20%

10%

1 H

2 H

1 H

Short spacing (29m) with PROTOS 275

Wide spacing (36m) with VERTICALIS 600+

Solar tilt panel angle : vertical Dimming profile : V4 custom Autonomy time: 4 days

Solar tilt panel angle : 40° Dimming profile : V4 Autonomy time: 6 days

(1,800-2,000 hours/year) Medium-sunshine areas Vienna (A) - Oostende (B) Eindhoven (NL) - Milan (I) Stuttgart (D) - Folkestone (UK) Warsaw (PL) - Lausanne (CH) Zagreb (RS) - Budapest (HU) Belgrade (RS) - Paris (FR)

100%

40%

20%

3 H

2 H

1 H

Short spacing (29m) with PROTOS 150

Wide spacing (45m) with PROTOS 275

Solar tilt panel angle : 40° Dimming profile : V4 custom Autonomy time: 3 days

Solar tilt panel angle : 40° Dimming profile : V4 Autonomy time: 3 days

(2,100-2,800 hours/year) Very sunny areas Madrid (ES) - Lisbon (PT) Rome (I) - Bucarest (RO) Marseille (FR) - Locarno (CH)

100%

40%

30%

3 H

2 H

2.5 H

1.5 H

ROAD

Residential street 30km/h M5 road lighting solutions

Application

EN 13201

• Road with low-speed traffic • Low traffic volume • Simple driving environment • Often found in residential areas or on local access roads where there is some motorised traffic

AVERAGE LUMINANCE (L AVE )

0.50cd/m 2

OVERALL UNIFORMITY (U o )

35%

LONGITUDINAL UNIFORMITY (U i )

40%

THRESHOLD INCREMENT (TI)

15%

ENERGY INDICATOR FOR ROAD (EIR)

0.30W/(lx.m 2 )

M5 road (30 km/h)

PROTOS

ALTEZZA

Two-lane road

Road configuration

2x2.5m

Road width

14m

23m

16m

Spacing between poles

4.2m

Mounting height

1,850lm

1,200lm

Source flux

7147

Optic

9.7W

Luminaire power

Results of the lighting study

24 LEDS 3000K ULR 0% Compliant with French Law

0.62cd/m 2

0.51cd/m 2

0.52cd/m 2

Average luminance (L AVE )

41%

58% 55%

44% 76%

Overall uniformity (U o )

75%

Longitudinal uniformity (U i )

15%

Threshold Increment (TI)

0.24

0.39

0.27

Energy Indicator for Road (EIR)

Short spacing (14m) with PROTOS 150

Wide spacing (23m) with PROTOS 150

Solar tilt panel angle : 40° Dimming profile : V3m (detection) time: 10 days

(1,500-1,700 hours/year) Low-sunshine areas Brussels (BE) - Amsterdam (NL) Salzburg (A) - London (UK) Gdańsk (PL) - Hamburg (D) Zurich (CH) - Lille (FR)

100%

10%

NIGHT with detection

Wide spacing (23m) with PROTOS 150

Short spacing (16m) with ALTEZZA

Solar tilt panel angle : 40° Dimming profile : V4 custom Autonomy time: 5 days

Solar tilt panel angle : vertical Dimming profile : V3m (detection) Autonomy time: 11 days

100%

20%

10%

NIGHT with detection

3 H

2 H

Short spacing (16m) with ALTEZZA

Wide spacing (23m) with PROTOS 150

Solar tilt panel angle : 40° Dimming profile : V3 Autonomy time: 3 days

Solar tilt panel angle : vertical Dimming profile : V4 Autonomy time: 5 days

(2,100-2,800 hours/year) Very sunny areas Madrid (ES) - Lisbon (PT) Rome (I) - Bucarest (RO) Marseille (FR) - Locarno (CH)

100%

40%

3 H

2 H

ROUNDABOUT

Rural or peri-urban roundabout

Application

• Located in rural or peri-urban areas, with low vehicle traffic and minimal surrounding infrastructure • Surroundings typically unlit, so the roundabout may be the only lit area to guide occasional drivers at night

AVERAGE HORIZONTAL ILLUMINANCE (E AVG )

10lx

OVERALL UNIFORMITY (U o )

40%

Rural or peri-urban roundabout

5m 6m

Road width

Mounting height

4,000lm

Source flux

7147 23W

Optic

Luminaire power

Results of the lighting study

10lx

Average illuminance (E AVG )

24 LEDS 3000K ULR 0% Compliant with French Law

44%

Overall uniformity (U o )

with PROTOS 275 Solar tilt panel angle : 40° Dimming profile : V4 custom Autonomy time: 7 days

(1,500-1,700 hours/year) Low-sunshine areas Brussels (BE) - Amsterdam (NL) Salzburg (A) - London (UK) Gdańsk (PL) - Hamburg (D) Zurich (CH) - Lille (FR)

100%

10%

2 H

with PROTOS 275 Solar tilt panel angle : 40° Dimming profile : V4 custom Autonomy time: 5 days

100%

30%

3 H

2 H

with PROTOS 275

Solar tilt panel angle : 40° Dimming profile : V4 Autonomy time: 5 days

(2,100-2,800 hours/year) Very sunny areas Madrid (ES) - Lisbon (PT) Rome (I) - Bucarest (RO) Marseille (FR) - Locarno (CH)

100%

40%

3 H

2 H

PEDESTRIAN CROSSING

Two-luminaire lighting setup

Application

• Low traffic volume • Simple driving environment • Zebra crossing on a low-speed road • Often found in residential areas or on local access roads where there is some motorised traffic

Pedestrian crossing

Two-lane road

Road configuration

2x3m

Road width

Crossing width

Number of luminaires

Mounting height

1,800lm

Source flux

7157

Optic

9.7W

Luminaire power

Results of the lighting study

24 LEDS 3000K ULR 0% Compliant with French Law

21lx (@75% power) 15lx (@75% power)

Average illuminance (E AVG )

Minimum illuminance (E min )

with VERTICALIS 600+ Solar tilt panel angle : vertical Dimming profile : V3 custom Autonomy time: 8 days

(1,500-1,700 hours/year) Low-sunshine areas Brussels (BE) - Amsterdam (NL) Salzburg (A) - London (UK) Gdańsk (PL) - Hamburg (D) Zurich (CH) - Lille (FR)

100% 75%

with PROTOS 275 Solar tilt panel angle : 40° Dimming profile : V3 custom Autonomy time: 4 days

100% 75%

with PROTOS 150 Solar tilt panel angle : 40° Dimming profile : V3 custom Autonomy time: 4 days

(2,100-2,800 hours/year) Very sunny areas Madrid (ES) - Lisbon (PT) Rome (I) - Bucarest (RO) Marseille (FR) - Locarno (CH)

100% 75%

PRM PATHWAY

PRM-compliant pathway

Application

• Pedestrian and low-speed areas • Complements inclusive urban design, enabling barrier-free navigation in public spaces, day and night

AVERAGE HORIZONTAL ILLUMINANCE (E AVG )

20lx

OVERALL UNIFORMITY (U o )

25%

PRM pathway

1.5m 24m

Path width

Spacing between poles

Mounting height

4,000lm

Source flux

7145 23W

Optic

Luminaire power

Results of the lighting study

21lx

Average illuminance (E AVG )

24 LEDS 3000K ULR 0% Compliant with French Law

26%

Overall uniformity (U o )

with VERTICALIS 450+ Solar tilt panel angle : vertical Dimming profile : V3M (detection) Autonomy time: 7 days

(1,500-1,700 hours/year) Low-sunshine areas Brussels (BE) - Amsterdam (NL) Salzburg (A) - London (UK) Gdańsk (PL) - Hamburg (D) Zurich (CH) - Lille (FR)

100%

10%

NIGHT with detection

with VERTICALIS 300 Solar tilt panel angle : vertical Dimming profile : V3m (detection) Autonomy time: 7 days

100%

10%

NIGHT with detection

with VERTICALIS 300+

Solar tilt panel angle : vertical Dimming profile : V4 Autonomy time: 5 days

(2,100-2,800 hours/year) Very sunny areas Madrid (ES) - Lisbon (PT) Rome (I) - Bucarest (RO) Marseille (FR) - Locarno (CH)

100%

40%

3 H

2 H

CYCLE PATH & PAVEMENT

Cycle path / pavement P3 lighting solutions

Application

EN 13201

• Areas with low-speed, non-motorised traffic

AVERAGE HORIZONTAL ILLUMINANCE (E AVG )

7.50lx

• Cycle paths • Pavements

MINIMUM ILLUMINANCE (E MIN )

1.50lx

P3 cycle path & pavement

ALTEZZA PROTOS VALARA

Cycle path / pavement

Configuration

Path width

Spacing between poles

27m 27m

23m

4.2m 4.2m 3.2m

Mounting height

1,800lm 1,800lm 2,000lm

Source flux

7149

7230

Optic

10W

10W 11.6W

Luminaire power

14 LEDS 3000K ULR 5% Compliant with French Law

24 LEDS 3000K ULR 0% Compliant with French Law

Results of the lighting study

Average horizontal illuminance (E AVG ) Minimum illuminance (E min )

7.65lx

9.32lx

1.71lx

1.75lx

with PROTOS 275 Solar tilt panel angle : 40° Dimming profile : V3M (detection) Autonomy time: 7 days

(1,500-1,700 hours/year) Low-sunshine areas Brussels (BE) - Amsterdam (NL) Salzburg (A) - London (UK) Gdańsk (PL) - Hamburg (D) Zurich (CH) - Lille (FR)

100%

25%

NIGHT with detection

with ALTEZZA Solar tilt panel angle : vertical Dimming profile : V3M (detection) Autonomy time: 9 days

100%

15%

NIGHT with detection

with VALARA Solar tilt panel angle : vertical Dimming profile : V5 Autonomy time: 5 days

(2,100-2,800 hours/year) Very sunny areas Madrid (ES) - Lisbon (PT) Rome (I) - Bucarest (RO) Marseille (FR) - Locarno (CH)

100% 80%

40%

3 H

4 H

3 H

WALKWAY

Walkway in a park P3 lighting solutions

Application

EN 13201

• Moderate activity areas, such as walkways in parks or urban green spaces, used regularly after dark • Balanced lighting for comfort and safety, with minimal glare and good facial recognition

AVERAGE HORIZONTAL ILLUMINANCE (E AVG )

7.50lx

MINIMUM ILLUMINANCE (E MIN )

1.50lx

P3 walkway

PREVIA 120

PREVIA 150

LALUNA

1.5m walkway

Configuration

25m

Spacing between poles

1.2m 1.5m

Mounting height

730lm 730lm 1,440lm

Source flux

7151

7145

Optic

3.7W 3.7W 7.5W

Luminaire power

Results of the lighting study

28 LEDS 3000K ULR 0% Compliant with French Law

Average horizontal illuminance (E AVG )

9.5lx

7.71lx

8.17lx

2.24lx

1.99lx

1.59lx

Minimum illuminance (E min )

Short spacing (8m) with PREVIA 150

Wide spacing (25m) with LALUNA 300

Solar tilt panel angle : vertical Dimming profile : V3M (detection) Autonomy time: 11 days

Solar tilt panel angle : vertical Dimming profile : V3M (detection) Autonomy time: 6 days

(1,500-1,700 hours/year) Low-sunshine areas Brussels (BE) - Amsterdam (NL) Salzburg (A) - London (UK) Gdańsk (PL) - Hamburg (D) Zurich (CH) - Lille (FR)

100%

30%

15%

NIGHT with detection

Short spacing (8m) with PREVIA 150 Solar tilt panel angle : vertical Dimming profile : V4 Autonomy time: 10 days

Wide spacing (25m) with LALUNA 300

Solar tilt panel angle : vertical Dimming profile : V4 custom Autonomy time: 4 days

100%

40%

30%

3 H

2 H

3 H

2 H

Short spacing (8m) with PREVIA 120 Solar tilt panel angle : vertical Dimming profile : V3 Autonomy time: 6 days

Wide spacing (25m) with LALUNA 300

Solar tilt panel angle : vertical Dimming profile : V3 Autonomy time: 3 days

(2,100-2,800 hours/year) Very sunny areas Madrid (ES) - Lisbon (PT) Rome (I) - Bucarest (RO) Marseille (FR) - Locarno (CH)

100%

RECREATION GROUND

Recreation ground C4 lighting solutions

Application

EN 13201

• Small-scale recreation ground equipped for multiple sports, primarily basketball, located in a public urban setting and open to all age groups

AVERAGE HORIZONTAL ILLUMINANCE (E AVG )

10lx

OVERALL UNIFORMITY (U o )

40%

Recreation ground

24x12m

Area

Number of luminaires

Mounting height

6,450lm

Source flux

7150

Optic

41W

Luminaire power

Results of the lighting study

20lx 45%

Average illuminance (E AVG )

24 LEDS 3000K ULR 0% Compliant with French Law

Overall uniformity (U o )

with VERTICALIS 600+

Solar tilt panel angle : vertical Dimming profile : V5 custom Autonomy time: 6 days

(1,500-1,700 hours/year) Low-sunshine areas Brussels (BE) - Amsterdam (NL) Salzburg (A) - London (UK) Gdańsk (PL) - Hamburg (D) Zurich (CH) - Lille (FR)

100%

4 H

with PROTOS 275 Solar tilt panel angle : 40° Dimming profile : V5 custom Autonomy time: 6 days

100%

4 H

Solar tilt panel angle : 40° Dimming profile : V4 custom Autonomy time: 4 days with PROTOS 275

(2,100-2,800 hours/year) Very sunny areas Madrid (ES) - Lisbon (PT) Rome (I) - Bucarest (RO) Marseille (FR) - Locarno (CH)

100%

10%

3 H

2 H

MULTISPORT COURT

Multisport court Class III lighting solutions

Application

EN 13201

• Multisport court equipped with Class III lighting, designed to enable evening play and accommodate a variety of sporting activities.

AVERAGE HORIZONTAL ILLUMINANCE (E AVG )

75lx

OVERALL UNIFORMITY (U o )

50%

Multisport class III

24x12m

Court dimensions

Number of luminaires

Mounting height

7,000lm

Source flux

7147

Optic

44W

Luminaire power

Results of the lighting study

76lx 68%

Average illuminance (E AVG )

24 LEDS 3000K ULR 0% Compliant with French Law

Overall uniformity (U o )

with VERTICALIS 600+

Solar tilt panel angle : vertical Dimming profile : V5 custom Autonomy time: 6 days

(1,500-1,700 hours/year) Low-sunshine areas Brussels (BE) - Amsterdam (NL) Salzburg (A) - London (UK) Gdańsk (PL) - Hamburg (D) Zurich (CH) - Lille (FR)

100%

4 H

with PROTOS 275 Solar tilt panel angle : 40° Dimming profile : V5 custom Autonomy time: 6 days

100%

4 H

Solar tilt panel angle : 40° Dimming profile : V4 custom Autonomy time: 4 days with PROTOS 275

(2,100-2,800 hours/year) Very sunny areas Madrid (ES) - Lisbon (PT) Rome (I) - Bucarest (RO) Marseille (FR) - Locarno (CH)

100%

10%

3 H

2 H

CAR PARK type 1

Simple cark park

Application

EN 13201

• Two-ways driving lane with angled parking bays, optimised for smooth circulation and space efficiency • P3 and C4 class requirements

AVERAGE HORIZONTAL ILLUMINANCE (E AVG )

7.50lx

MINIMUM ILLUMINANCE (E MIN )

1.50lx

AVERAGE HORIZONTAL ILLUMINANCE (E AVG )

10lx

OVERALL UNIFORMITY (U o )

40%

Car park type 1

10m

Car park width

17m

Spacing between poles

Mounting height

4,000lm

Source flux

7147 23W

Optic

Luminaire power

Results of the lighting study

P3 (car park) Average illuminance (E AVG )

24 LEDS 3000K ULR 0% Compliant with French Law

7.75lx

2.25lx

Minimum illuminance (E min )

C4 (driving lane) Average illuminance (E AVG )

21lx

65%

Overall uniformity (U o )

with VERTICALIS 450+ Solar tilt panel angle : vertical Dimming profile : V3M (detection) Autonomy time: 12 days

(1,500-1,700 hours/year) Low-sunshine areas Brussels (BE) - Amsterdam (NL) Salzburg (A) - London (UK) Gdańsk (PL) - Hamburg (D) Zurich (CH) - Lille (FR)

100%

10%

NIGHT with detection

with VERTICALIS 300 Solar tilt panel angle : vertical Dimming profile : V3M (detection) Autonomy time: 10 days

100%

20%

NIGHT with detection

with VERTICALIS 300+ Solar tilt panel angle : vertical Dimming profile : V4 custom Autonomy time: 5 days

(2,100-2,800 hours/year) Very sunny areas Madrid (ES) - Lisbon (PT) Rome (I) - Bucarest (RO) Marseille (FR) - Locarno (CH)

100%

30%

3 H

2 H

CAR PARK type 2

Double-row cark park

Application

EN 13201

• Double-row car park with a central two-way driving lane and perpendicular parking bays on both sides • P3 and C4 class requirements

AVERAGE HORIZONTAL ILLUMINANCE (E AVG )

7.50lx

MINIMUM ILLUMINANCE (E MIN )

1.50lx

AVERAGE HORIZONTAL ILLUMINANCE (E AVG )

10lx

OVERALL UNIFORMITY (U o )

40%

Car park type 2

15m

Car park width

36m

Spacing between poles

Mounting height

6,000lm

Source flux

7147 37W

Optic

Luminaire power

Results of the lighting study

P3 (car park) Average illuminance (E AVG )

24 LEDS 3000K ULR 0% Compliant with French Law

15.6lx

2.9lx

Minimum illuminance (E min )

C4 (driving lane) Average illuminance (E AVG )

11.5lx

40%

Overall uniformity (U o )

with VERTICALIS 600+ Solar tilt panel angle : vertical Dimming profile : V3M (detection) Autonomy time: 12 days

(1,500-1,700 hours/year) Low-sunshine areas Brussels (BE) - Amsterdam (NL) Salzburg (A) - London (UK) Gdańsk (PL) - Hamburg (D) Zurich (CH) - Lille (FR)

100%

10%

NIGHT with detection

with PROTOS 275 Solar tilt panel angle : 40° Dimming profile : V3M (detection) Autonomy time: 7 days

100%

20%

NIGHT with detection

with PROTOS 150 Solar tilt panel angle : 40° Dimming profile : V5 Autonomy time: 3 days

(2,100-2,800 hours/year) Very sunny areas Madrid (ES) - Lisbon (PT) Rome (I) - Bucarest (RO) Marseille (FR) - Locarno (CH)

100% 80%

40%

3 H

4 H

3 H

CAR PARK type 3

Large, double-aisle car park

Application Large, double-aisle car park with multiple rows of perpendicular parking bays, separated by two central two-way driving lanes for smooth circulation

EN 13201

AVERAGE HORIZONTAL ILLUMINANCE (E AVG )

10lx

OVERALL UNIFORMITY (U o )

25%

Car park type 3

25m 30m

Car park width

Spacing between poles

Mounting height

6,000lm

Source flux

7147 37W

Optic

Luminaire power

Results of the lighting study

10.2lx

Average illuminance (E AVG )

24 LEDS 3000K ULR 0% Compliant with French Law

25%

Overall uniformity (U o )

with VERTICALIS 600+ Solar tilt panel angle : vertical Dimming profile : V3M (detection) Autonomy time: 11 days

(1,500-1,700 hours/year) Low-sunshine areas Brussels (BE) - Amsterdam (NL) Salzburg (A) - London (UK) Gdańsk (PL) - Hamburg (D) Zurich (CH) - Lille (FR)

100%

10%

NIGHT with detection

with PROTOS 275 Solar tilt panel angle : 40° Dimming profile : V3M (detection) Autonomy time: 7 days

100%

20%

NIGHT with detection

with PROTOS 150 Solar tilt panel angle : 40° Dimming profile : V3M (detection) Autonomy time: 3 days

(2,100-2,800 hours/year) Very sunny areas Madrid (ES) - Lisbon (PT) Rome (I) - Bucarest (RO) Marseille (FR) - Locarno (CH)

100%

20%

NIGHT with detection

Technical characteristics

VERTICALIS

PROTOS

Typical luminaire output flux (range)

400 to 7,400lm

Power consumption 3W to 51W

Colour temperature

Warm or neutral white

Colour temperature

Warm or neutral white

VERTICALIS 150: 160Wp VERTICALIS 300: 320Wp VERTICALIS 450: 480Wp VERTICALIS 600: 640Wp

PROTOS 150: 150Wp PROTOS 275: 275Wp

Solar panel power

Solar panel type

Monocrystalline

Solar panel type

Monocrystalline

512Wh (40Ah) or 1152Wh (90Ah)

Battery capacity

512Wh (40Ah) or 1152Wh (90Ah)

Battery capacity

Battery technology

LiFePo4

Battery technology

LiFePo4

PIR sensor Microwave sensor Zhaga socket

Control options

PIR sensor Microwave sensor Zhaga socket

Control options

Pole height

4200 to 5000mm

Pole height

4800 to 8000mm

ALTEZZA

VALARA

Typical luminaire output flux (range)

400 to 7,400lm

500 to 4,000lm

Power consumption 3W to 51W

Power consumption 3W to 34W

Colour temperature

Warm or neutral white

Colour temperature

Warm white

Solar panel power

160Wp

Solar panel power

160Wp

Solar panel type

Monocrystalline

Solar panel type

Monocrystalline

Battery capacity

512Wh (40Ah)

Battery capacity

512Wh (40Ah)

Battery technology

LiFePo4

Battery technology

LiFePo4

PIR sensor Microwave sensor Zhaga socket

Pole height

3200mm

Control options

Pole height

4200mm

Technical characteristics

LALUNA

PREVIA

Typical luminaire output flux (range)

200 to 4,200lm

200 to 3,200lm

Power consumption 2W to 31W

Colour temperature

Warm white

Colour temperature

Warm white

PREVIA 120: 120Wp PREVIA 150: 150Wp

Solar panel power

160Wp

Solar panel power

Solar panel type

Monocrystalline

Solar panel type

Monocrystalline

512Wh (40Ah) or 1152Wh (90Ah)

230Wh (18Ah) or 512Wh (40Ah)

Battery capacity

Battery technology

LiFePo4

Battery technology

LiFePo4

PIR sensor Microwave sensor Zhaga socket

PIR sensor Microwave sensor PREVIA 120: 1200mm PREVIA 150: 1500mm

Control options

Bollard height

Pole height

4000mm

100% RENEWABLE ENERGY

CARBON NEUTRAL

NO ENERGY BILL

NO MAINTENANCE

365/YEAR

THANK Y U SUN!

A few of our projects

Palma de Mallorca (Spain) - Product: LALUNA

Eching (Germany) - Product: VERTICALIS

Corsica (France) - Product: PROTOS

Monguelfo (Italy) - Product: PROTOS

Strzelce Krajeńskie (Poland) - Product: VERTICALIS

A few of our projects

Holmenkollen (Norway) - Product: VERTICALIS

Bahrain - Product: VALARA

Augsburg (Germany) - Product: VERTICALIS

Lenzerheide (Switzerland) - Product: VERTICALIS 71

www.schreder.com

Copyright © Schréder S.A. 2025 - Executive Publisher: Stéphane Halleux - Schréder S.A. - rue de Mons 3 - B-4000 Liège (Belgium) - The information, descriptions and illustrations herein are of only an indicative nature. Due to advanced developments, we may be required to alter the characteristics of our products without notice. As these may present different characteristics according to the requirements of individual countries, we invite you to consult us.

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