Ambra Light designs, develops, and manufactures LED lighting systems for horticulture, greenhouse farming, and indoor gardening. They focus on providing optimal light for plant growth and use high-quality OSRAM LEDs. Their lamps are designed to withstand harsh environments, operate efficiently, and maintain high light output over 100,000 hours of use. Ambra Light works closely with customers to understand their needs and requirements and designs customized LED lighting solutions.

1. At Ambra Light we design, develop and manufacture
LED lamps for plants wellbeing and growth,
both for residential and professional applications.

2. Passion, enthusiasm and dynamism since 2013. Strong partnerships with
 private customers
 partner Universities
Ambra Light is a brand by Ambra Elettronica:
design and production of electronic boards and electronic equipment.
Solid technological skills
Background on electronics
Love for nature and plants
We design, develop and manufacture
LED lighting systems
for horticulture, greenhouse farming and indoor gardening.
We are Certified Partners of OSRAM.

4. LEDs manufactured by OSRAM Semiconductors:
developed specifically for this market
to ensure high quality and reliability of the product,
with a very high efficiency in terms of μmols/J.

6. Ambralight lamps have been tested by OSRAM (Germany):
Thermal evaluation of our internally designed aluminum profile,
to assess the life expectancy of their LEDs mounted on our lamps.
RESULT: over 80% of light flow
after operating more than 100,000 hours.

8. Our LED lamps are designed to:
 withstand the harsh and very humid environments of modern production
greenhouses ,
 sustain a long-term heavy-duty working cycle
 resistant to moisture, temperature fluctuations and dust.
 highly energy efficient
 designed and manufactured in Italy with high quality materials.
"Made in Italy" products.

10. The light is emitted inside the visible light spectrum in the photosynthetically
active region, and it enhances and optimizes the growth of plants.
Custom spectrum options to cover the professional requirements of
 several types of plants
 in different growth stages,
for horticulture, floriculture or indoor gardening requirements.

12.  Osram LEDs
 internally designed anodized aluminum heat sink
 XT plexiglass with high transparency and immune to UV rays (doesn't
become yellow during life time)
 sealing system in die-cut foam EPDM
 and use only stainless steel external screws.
During the production process, our lamps are tested during each assembly
stage and also with infrared camera as a final test before packaging.

13. AE 100

14. AE100
Technical
data
Supply Voltage
90 ÷ 305 Vac 50/60 Hz Universal range Voltage Supply
Power consumption 110 ÷ 135 W
Power Factor PF>0.96/230VAC The lamp ensures no loss of
energy
Photon flux PAR
output
250 ÷ 290 μmoli/s Excellent flow of photons per
second
PAR efficiency 2,2 ÷ 2,6 μmoli / J Number of photons per second
per Watt consumed
Working temperature 0 ÷ 45˚C
Dimensions 1,500 x 68 x 36 mm
Protection grade IP65 High protection against water and
dust
Weight 5 Kg
Protections short circuit, over current, over
voltage, over temperature
Emitted light Blue 450 nm, red 630 nm, red
660 nm, Far red 735 nm
Expected decrease in
light intensity
10% after 100.000 hours

17. AE80
Technical
data
Supply Voltage
90 ÷ 305 Vac 50/60 Hz Universal range Voltage Supply
Power consumption 100 W
Power Factor PF>0.96/230VAC The lamp ensures no loss of energy
Photon flux PAR output 200 ÷ 220 μmoli/s Excellent flow of photons per second
PAR efficiency 2,0 ÷ 2,2 μmoli / J Number of photons per second
per Watt consumed
Working temperature 0 ÷ 45˚C
Dimensions 1,200 x 68 x 36 mm
Protection grade IP65 High protection against water and dust
Weight 4 Kg
Protections short circuit, over current, over voltage, over
temperature
Emitted light Blue 450 nm, red 630 nm, red 660 nm, Far
red 735 nm

18. ANTARES

20. ANTARES
Technical
data
Supply Voltage
100 ÷ 305 Vac 50/60 Hz Universal range Voltage Supply
Power supply 300 ÷ 380 W
Photon flux PAR
output
680 ÷ 800 μmoli/s Excellent flow of photons per second
PAR efficiency 2.25 ÷ 2.54 μmoli / J Number of photons per second
per Watt consumed
Working temperature 0 ÷ 45˚C
Dimensions 270 x 570 x 240 mm
Protection grade IP65 High protection against water and dust
Weight 11 Kg
Protections short circuit, over current, over voltage,
over temperature
Emitted light Blue 450 nm, green 520 nm, red 620 nm,
Hyper red 660 nm, Far red 730 nm
Expected decrease
in light intensity
10% after 100.000 hours
Guarantee 3 years

23. AE 32
Technical
data
Supply Voltage
Vdc
consumption W
flux PAR output ÷ 90 μmoli / s good flow of photons per second
efficiency ,0 ÷ 2,55 μmoli / J of photons per second per Watt
consumed
temperature ÷ 45˚C
x 38 x 18 mm
grade protection against ingress, water
and dust
Kg
circuit, over current, over voltage, over
temperature
light 450 nm, red 630 nm, red 660 nm, Far
red 735 nm
decrease in light
intensity
% after 100.000 hours

24. Altair

25. Altair

26. ALTAIR

27. ALTAIR
Technical data
Supply voltage
Vdc
supply W/m
Factor > 0,9
efficiency lm / W
light 3000 ÷ 6500°K
rendering index Ra >80
output angle ˚
length x 18 x 8 mm
g/m
range ÷ +50 ˚C
life time .000 h
efficiency class ++
consumption KWh / 1000 h
grade

29. LED LIGHTING FOR OPTIMAL PLANT GROWTH
Light is essential for plants:
it has a major influence on their growth and well-being.
The most powerful and cheapest source of light is the sun, BUT:
natural sunlight is not always and not everywhere available.
sometimes it needs to be
 supplemented
 or replaced
by artificial light that mimics it.

31. What kind of light do plants need and like?
Right light spectrum
animals and humans like green and yellow wavelengths
plants prefer blue and red ones, depending on their growth phase:
Blue spectrum light promotes vegetative growth,
red spectrum light promotes flower onset and production.
Right light intensity
(photon flux, i.e. units of micromoles per square meter per second)
For example:
Sprouts: 1-2 moles per day
Basil: at least 10-12 moles per day
Algae: over 15-20 moles per day
Cucumber: over 15-20 moles per day
Tomatoes: at least 30 moles per day
Cannabis: over 40 moles per day

33. Why LED lighting for growing plants?
During autumn and wintertime: too little light
Too much or the wrong kind of light:
 Enormous amounts of energy wasted in greenhouses
 stress and damage to the plants
Compared to standard HID (high intensity discharge) or HPS (high pressure
sodium) lamps,
LED lighting systems are the best and most efficient option for indoor farming.
Optimal levels of Photosynthetically Active Radiation (PAR): photons that
enhance growth and yield without wasting energy.
Significant increase in crop production.

35. How can you evaluate a professional LED lighting system?
 LIGHT SPECTRUM (emitted light wavelength)
 The ideal spectrum can change according to the plant and to the growth
phase of the plant.
 LIGHT DISTRIBUTION CHART
 This is how light is distributed on the cultivated surface, as the lighting
system should allow plants to receive light homogeneously
 LIGHT INTENSITY (overall photon flux)
 ELECTRICAL EFFICIENCY (consumption of watt per photon produced)
 ENERGY EFFICIENCY energy actually absorbed by plants - PAR
 COST AND PAY-BACK PERIOD

37. OUR APPROACH TO YOUR NEEDS
We follow step-by-step this process:
 Client’s needs and requirements analysis
 Collection of basic data: type of crops, growth phase, cultivated surface,
distance/height from plants
 Preliminary study: best type, number and positioning of lamps, light
distribution chart, energy consumption, total investment value
 Financial feasibility study: pay-back period and financial support
 Pilot project: supply of samples for a first test to assess LED and tune
current working conditions
 Final agreement and Installation
 Results Assessment and Process optimization
 Follow-up and after-sales technical support