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Optics

Identifying and classifying the optics

The Group's luminaires offer different types of optics depending on project requirements. The optic can be identified as the set of equipment designed to direct the light generated by a light source in a particular direction, thus determining the luminous emission of the luminaire itself.

The diagram below identifies the data that will be contained in subsequent pages, regarding the opening angle of the beam.
IMAX = maximum luminous intensity, i.e. the maximum intensity of the emitted light beam.

Depending on this luminous emission, PERFORMANCE iN LIGHTING classifies optics in the following categories:

S | Symmetric optics

For PERFORMANCE iN LIGHTING, symmetric optics are ones with symmetric emission in relation to planes α and β.
The symmetry between the two planes may be either identical (in this case we are dealing with optics with square light distribution) or different (optics with rectangular light distribution).

EXAMPLE
Symmetric optic code: S/xx
where:
S = Symmetric
xx = the abbreviated name of the opening angle

For example: S/I - S/M - S/W - S/EW

By convention, we consider the beam opening of plane α. Multiple optics within the same range of opening will be distinguished by inserting the numerical value of the beam opening at the end.

For example: S/W50 - S/W60

Symmetric optic name
Type of optic Acronyms Opening angle plane α

S

I 0° ÷ 20°
M 21° ÷ 45°
W 46° ÷ 75°
EW > 75°
Mandatory indications Additional indications
Type of opening Description
S1
S2
Includes all symmetrical optics from Narrow to Wide for Power LED
SN
SM
SW
Includes all symmetrical optics from Narrow to Wide for COB
ARRAY Free distribution
MEDIUM Medium beam diffuser
OPAL
MICRO
Wide beam diffusers
SYMM Symmetrical optic

S | Symmetrical optics for series of luminaires with double light emission

With this classification PERFORMANCE iN LIGHTING identifies the light emission typology of the luminaires inside those series that contain models with direct, indirect and / or combined light emission.

Name of symmetrical optics for luminaires with double light emission
Type of optic Acronyms Typology of light emission

S

S/A Direct symmetrical light
S/B Mainly symmetrical direct light
S/C Evenly direct - indirect symmetrical light
S/D Mainly symmetrical indirect light
S/E Indirect symmetrical light

A | Asymmetric optics

PERFORMANCE iN LIGHTING asymmetric optics generally have asymmetric light distribution on plane α with a point of maximum concentration.
The axis passing through the point of maximum concentration and the point marked by the axis of the lamp is called the Imax axis.
The light distribution on plane β, on the other hand, may be symmetric or asymmetric.
An asymmetric optic may be symmetric in relation to one plane only.

EXAMPLE
Asymmetric optic code: Ayy/xx
where
A = Asymmetric
yy = numeric value of the Imax angle.


The Imax angle is the angle between axis A and the lmax axis.

xx = the abbreviated name of the opening angle

For example: Ayy/I – Ayy/M – Ayy/W – Ayy/EW.

By convention, the beam opening of plane α is considered.

For example:
A30/M = Asymmetric axis with Imax 30° and Medium opening
A45/I = Asymmetric axis with Imax 45° and Intensive opening

In the presence of multiple asymmetric optics with the same lmax value and same beam opening range, it will be necessary to distinguish them by adding the numeric value of the beam opening at the end.

For example: A45/M25 - A45/M40

Asymmetric optic name
Type of optic Imax angle Acronyms Opening angle plane α

A

Numeric value of the Imax angle

I 0° ÷ 20°
M 21° ÷ 45°
W 46° ÷ 75°
EW > 75°
Mandatory indications Additional indications
Type of opening Description
A1
A2
A3
Includes all asymmetrical optics from Narrow to Wide for Power LED
ASW
ALW
Includes all asymmetrical optics from Narrow to Wide for COB
ASYMM Asymmetrical optic

C | Circular optics

PERFORMANCE iN LIGHTING identifies those optics that generate a luminous emission with a symmetry of revolution about the A axis as circular optics.
The opening angle of the beam is generally constant in all planes.
The reflectors generating these optics generally have a circular opening.

EXAMPLE
Circular optic code: C/xx
where:
C = Circular
xx = the abbreviated name of the opening angle

For example: C/I - C/M - C/IW - C/MW -C/EW

Multiple optics within the same range of opening will be distinguished by inserting the numerical value of the beam opening at the end.

For example: C/IW46 - C/IW50

Circular optic name
Type of optic Acronyms Opening angle plane α

C

I 0° ÷ 20°
M 21° ÷ 45°
IW 46° ÷ 60°
MW 61° ÷ 75°
EW > 75°
Mandatory indications Additional indications
Type of opening Opening angle α
C1 30° ÷ 45°
C2 25° ÷ 30°
C3 20° ÷ 25°
C4 15° ÷ 20°
C5 10° ÷ 15°
C6 0° ÷ 10°

ELL | Elliptical optics

PERFORMANCE iN LIGHTING elliptical optics are circular but differ from roto-symmetrical circular optics because the opening of the light beam on planes α and β is symmetric, but differs greatly between the two. The light distribution is highly elliptical.

EXAMPLE
Elliptical optic code: E α x β
where:
E = Elliptical
α = Opening of the light beam on plane α expressed in degrees
β = Opening of the light beam on plane β expressed in degrees

For example: E 10°x45°

R | Grazing reflector optics

Grazing reflector optics stand out for their luminous emission that is typically parallel (grazing) to the installation surface (wall or ground).
These optics are primarily used for architectural lighting with the purpose of designing patterns of light and they rarely have a functional use.
A fundamental characteristic is the value of the α angle that identifies the value of the light beam aperture measured on the installation surface.


Installation surface (wall)


Installation surface (ground)

SR | Road optics

For road optics, PERFORMANCE iN LIGHTING identifies the optics that have a very broad beam spread on the β plane (usually greater than 120°), with the point of maximum emission on one of the adjacent planes to the latter, up to a maximum of 45°.

Road lighting based on L/H ratio that can be found in road lighting systems, where:

  • L: distance between the optical axes of the luminaire and the part of the area furthest from it with its own requirements.
  • H: height of installation of the luminaire.
     

EXAMPLE
Acronym of the road optics based on the L/H ratio: R/xxx
where:
R = road
xxx = L/H value (e.g. 100 = 1.00)

For example: R/075, R/100

Name of the road optics based on the L/H ratio:
Type of optic Acronyms Description

SR

075 Optic for L/H fino up to 0,75 (0,5 ≤ L/H ≤ 0,875)
100 Optic for L/H pari of 1 (0,875 ≤ L/H ≤ 1,125)
125 Optic for L/H pari of 1,25 (1,125 ≤ L/H ≤ 1,375)
150 Optic for L/H pari of 1,5 (1,375 ≤ L/H ≤ 1,625)
Mandatory indications Additional indications
Acronyms Description
HUGE Optics for wide road geometries
WIDE Optics for medium road geometries
ST1 Optics for medium-wide road geometries
CYCLE Optics for pedestrian crossings

Z | Optics for pedestrian crossings

For optics for pedestrian crossings PERFORMANCE iN LIGHTING identifies those optics for lighting in the direction of their flow.
They feature asymmetrical emission both on the α plane and on the β plane.

EXAMPLE
Acronym of optics for pedestrian crossings: Z/R
where:
Z = zebra (pedestrian crossing)
R = right (for countries where driving is on the right)


Two-way traffic


One-way traffic

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