Lighting Handbook 08

The Lighting Handbook

Your concise reference book always ready to hand.

Chapter 1

Lighting technology and lighting applicationChapter 2

Standard values for indoor and outdoor lightingBased on the new European standards Chapter 3

ProductsChapter 4

Lamps and ballastsChapter 5

Lighting and room managementChapter 6

Quickplan calculating the n of lum. requiredChapter 7

Technical informationChapter 8

ChecklistsChapter 9

ServicesChapter 10

Notes

Imprint: For questions and suggestions on the The Lighting Handbook: Zumtobel Lighting GmbH Schweizer Strasse 30 Postfach 72 6851 Dornbirn, AUSTRIA T +43/(0)5572/390-0 F +43/(0)5572/22 826

2nd edition, revised and updated, December 2008


Chapter 1

Lighting technology and lighting applicationWhat is light? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Basic parameters used in lighting . . . . . . . . . . . . . . . Luminous flux . . . . . . . . . . . . . . . . . . . . . . . . . . . . Luminous intensity. . . . . . . . . . . . . . . . . . . . . . . . . Illuminance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Luminance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Traditional quality characteristics of lighting . . . . . . . . The right light traditional and new quality criteria . Illuminance definition of terminology . . . . . . . . . . Glare glare limitation. . . . . . . . . . . . . . . . . . . . . . Light colour . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Colour rendition . . . . . . . . . . . . . . . . . . . . . . . . . . . Measuring illuminance . . . . . . . . . . . . . . . . . . . . . . . Lighting technology. . . . . . . . . . . . . . . . . . . . . . . . . . Types of lighting . . . . . . . . . . . . . . . . . . . . . . . . . . . . Lighting concepts . . . . . . . . . . . . . . . . . . . . . . . . . . . Humanergy Balance . . . . . . . . . . . . . . . . . . . . . . . . . Comprehensive assessment of lighting quality (ELI) . . . Visual performance . . . . . . . . . . . . . . . . . . . . . . . . Vista . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Visual comfort . . . . . . . . . . . . . . . . . . . . . . . . . . . . Vitality. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Empowerment . . . . . . . . . . . . . . . . . . . . . . . . . . . . Calculation of energy efficiency (LENI) . . . . . . . . . . . . 23 45 4 5 5 5 68 6 67 7 8 8 9 10 11 12 13 14 15 16 16 18 17 17 17 18 18 19

What is light?Light is that part of the electromagnetic spectrum that is perceived by our eyes.

What is light? Wavelength [m] 10-10 Gamma rays X-rays Ultraviolet Visible light 10-5

What does the human eye see? Relative spectral brightness perception 1.0 0.8 0.6 0.4 Infrared Microwaves 0.2 350 450 550 650 750 Wavelength [nm] Wavelength [m] Night Day

100

Television, VSW Medium wave

105

Radio waves

By day we see in colour, while at night we can only see in shades of grey.


Light has a triple effect: Light for visual functions llumination of task area in conformity with relevant standards glare-free and convenient Light creating biological effects Supporting peoples biological rhythms Stimulating and motivating Light for emotional perception Pleasant lighting enhancing the interior design Makes people relax and feel at ease


Chapter 1 / 3

Basic parameters used in lightingLuminous flux Luminous intensity Illuminance Luminance

Luminous ux

I=

E=

Lumen [lm] Luminous intensity I Illuminance E

Candela [lm/sr]=[cd] Luminance L L=

Lux [lm/m2]=[lx]

L=

[lm/(sr*m2)]=[cd/m2]

solid angle into which luminous ux is emitted area hit by luminous ux visible areas of light source reectance of area 3.14 for diffuse surface areas

Abbreviation: Unit:

lm

Phi Lumen

4 / Chapter 1


Luminous flux The luminous flux describes the quantity of light emitted by a light source. The luminous efficiency is the ratio of the luminous flux to the electrical power consumed (lm/W). It is a measure of a lamps economic efficiency.

Luminous intensity The luminous intensity describes the quantity of light that is radiated in a particular direction. This is a useful measurement for directive lighting elements such as reflectors. It is represented by the luminous intensity distribution curve (LDC).

Abbreviation: Unit:

cd

Candela

Illuminance Illuminance describes the quantity of luminous flux falling on a surface. It decreases by the square of the distance (inverse square law). Relevant standards specify the required illuminance (e.g. EN 12464 Lighting of indoor workplaces). Illuminance: E(lx) = luminous flux (lm) area (m2)

Abbreviation: Unit:

E lx

Lux

Luminance Luminance is the only basic lighting parameter that is perceived by the eye. It specifies the brightness of a surface and is essentially dependent on its reflectance (finish and colour).The Lighting Handbook

Abbreviation: Unit:

L cd/m2

Chapter 1 / 5

Traditional quality characteristics of lightingThe right light traditional and new quality criteriaT R A D I T I O N A L

Harmonious brightness distribution Sufficient illumination level

Glare limitation Avoidance of reflections

Good modelling Correct light colour Appropriate colour rendition

Quality criteriaChanging lighting situations Personal control Energy efficiency Daylight integration Light as an interior design element

N E W

Illuminance definition of terminology Each term corresponds to the new European standards (see Chapter 2 / 2). Illuminance maintenance value Em: value that the illuminance level must not fall below in the visual task area. Visual task area: illuminance levels are specified for specific visual tasks and are designed for the area in which these may take place. If the precise location is not known, then the whole room or a specific working area is used to define it. The visual task area may be a horizontal, vertical or inclined plane. Area immediately surrounding the visual task area: here illuminance may be one level lower than in the visual task area (e.g. 300 lx to 500 lx). Maintenance factor: the initial value multiplied by the maintenance factor gives the illuminance maintenance value. The maintenance factor accounts for the reduction in luminous flux from lamps, luminaires and room surfaces in the installation, and can be determined on a case-by-case basis. The maintenance schedule (the cleaning and maintenance intervals for the lamps and installation) must be documented. See also Chapter 8 / 22 on Economic efficiency calculation.

6 / Chapter 1


Relative illuminance (%)150 125 100 75 50 25 maintenance value initial value

operating timeMaintenance value = maintenance factor x initial value Glare glare limitation Direct glare Reflected glare

luminaires without glare control very bright surfaces loss of concentration more frequent mistakes fatigueThe Lighting Handbook

reflective surfaces incorrect luminaire arrangement incorrect workstation position loss of concentration more frequent mistakes fatigue matching luminaire to workstation (layout) indirect lighting matt surfaces

remedy

luminaires with limited luminance levels blinds

effect

cause

Chapter 1 / 7

Light colour The light colour describes the colour appearance of the light.Colour temperature Appearance ww nw tw up to 3,300 K 3,300 K 5,300 K above 5,300 K reddish white blue-ish Association warm intermediate cool

Ww = warm white, nw = intermediate, tw = cool white

The light colour sets the underlying mood of the room! Colour renditionColour rendition index Ra 90 8089 7079 6069 4059 2039 Daylight Incandescent lamp Compact fluorescent lamp Fluorescent lamp Mercury vapour highpressure lamp Metal halide lamp Sodium vapour highpressure lamp

Application examples (minimum requirements for Ra): Ra 90: colour inspection Ra 80 89: offices Ra 70 79: electronics industry Ra 60 69: assembly work Ra 40 59: fabrication shop Ra 20 39: warehouses

Display format on fluorescent lamps Example 840: 8 Ra 80 Colour temperature 4,000 K (nw)The Lighting Handbook

40

8 / Chapter 1

Measuring illuminanceMean illuminance is the arithmetic mean of the point brilliance levels measured with a luxmeter in a defined grid, under precisely specified conditions. Measuring instruments: description and precision L: maximum precision, tolerance 3% A: high precision, tolerance 5% B: average precision; tolerance 10% (minimum requirement) Measuring conditions avoid external light/daylight (measure separately and subtract) check mains voltage and ambient temperature use new, burnt-in lamps (discharge lamps 100 h) Measuring grid and measuring level workplaces = 0.75 m; sports facilities (floor) = 0.03 m circulation areas, stairs, car parks (floor) = 0.03 m cylindrical illuminance = 1.2 m measuring grid: congruent triangles; approx. 1 m distance measuring grid not congruent with arrangement gridSize of measuring field 1m 5m 10 m 50 m 100 m Grid element spacing 0.2 m 0.5 m 1.0 m 3.0 m 5.0 m


Chapter 1 / 9

Lighting technologyUnder the new European standard for interior workplace lighting, EN 12464, (psychological) glare is assessed by the unified glare rating method (UGR), which is based on a formula for glare. It takes account of all the luminaires in a system contributing to the sensation of glare. UGR tables derived from this formula are provided by the manufacturers for glare rating. The Quickplan tables in Chapter 6 and the lighting catalogues contain reference values for specific room sizes. UGR = 8 log 0.25 Lb (1)

(

L2 P2 (2)

)

The UGR method takes account of all the luminaires in the system that contribute to the glare sensation (2) as well as the brightness of walls and ceilings (1). It produces a UGR index. The two methods the one set out in DIN 5035 and the one defined in EN 12464 produce comparable results. UGR limits (UGRL), that must not be exceeded: 16 19 22 25 28 Technical drawing Reading, writing, training, meetings, computer-based work Craft and light industries Heavy industry Railway platforms, foyers

10 / Chapter 1


Quality class for nominal illuminance (lx) 1000 750 500 0.25 mm2. For cables longer than 1.5 m, shielded cables have to be used.


Current for LED lum. 350 mA 700 mA

Cable cross-section/length 0.75 mm2 1 mm2 1.5 mm2 2.5 mm2 30.0 m 40.0 m 60.0 m 100.0 m 15.0 m 20.0 m 30.0 m 50.0 m

Chapter 4 / 33

Mains

24 V-DC

LED-mains unit On/Off Dimming

Monochrome LED luminaires, voltage controlled 24 VLEDOS 24 V MICROS LED 24 V SYSTEMLED Deco KAVA LED 24 V

SYSTEMLED Flood

34 / Chapter 4LEDOS 24 V SYSTEMLED Deco KAVA LED 24 V LEDOS 24 V SYSTEMLED Deco KAVA LED 24 V

Mains

24 V-DC PWM

* These luminaires must be additionally supplied with 24 V DC supply voltage!

DALI/DSI/switchDIM Mains

K210

24 V-DC

LED-mains unit

Mains

24 V-DC

SYSTEMLED Flood*

24 V-DC PWM

LED-mains unit Max. 3 POTI 100 K/Ohm linear or max. 3 x control voltage 010 V

C001

SYSTEMLED Flood*



Mains

24 V-DC PWM

24 V RGB LED luminaires in dynamic coloursSYSTEMLED Deco RGB KAVA LED RGB PHAOS lighting tile

DALI Mains

K211

24 V-DC

LED-mains unit

Mains

24 V-DC

SYSTEMLED Flood RGB* LEDOS 24 V RGB

24 V-DC PWM

* These luminaires must be additionally supplied with 24 V DC supply voltage!

LED-mains unit 3 POTI 100 K/Ohm linear or 3 x control voltage 010 V SYSTEMLED Deco RGB KAVA LED RGB

C001

Mains

24 V-DC


PHAOS lighting tile

LED-mains unit

24 V-DC PWM

DALI

C003 SYSTEMLED Deco RGB KAVA LED RGB PHAOS lighting tile

Mains

24 V-DC


LED-mains unit 1 POTI 100 K/Ohm linear

24 V-DC PWM

C002

Mains

24 V-DC


SYSTEMLED Deco RGB

KAVA LED RGB

PHAOS lighting tile

Application C004 PWM amplifier for controlling LED objects with higher outputLEDOS 24 V mono/RGB

LED-mains unit PWM control signal (e.g. C001, C002, C003, K210, K211)

C004

Chapter 4 / 35

The C004 amplifier is used where the luminaire output is higher than the output power of the control unit used.

SYSTEMLED Deco mono/RGB

KAVA LED mono/RGB

PHAOS lighting tile

Autom. colour sequence Colour sequence can be selected with DALI, 010 V with sequencer

24 V-DC PWM

Mains

350 mA

LED mains unit (constant current) ORILED 350 mA PANOS S 100 LED 350 mA On/Off Automatic colour sequence with sequencer, DALI 010 V Dimming

Monochrome 350 mA LED luminaires, currentcontrolled

36 / Chapter 4ORILED 350 mA PANOS S 100 LED 350 mA PASO II RGB 350 mA PASO II RGB 350 mA

Mains

350 mA PWM

LEDOS B 350 mA

PWM control signal (e.g. C001, K210)

LED mains unit (constant current) dimmable via PWM

LEDOS B 350 mA

Mains

24 V-DC

350 mA RGB LED luminaires in dynamic colours, current-controlled

LED mains unit PWM control signal C350 PWM dimmer (e.g. C001, C002, C003, K211)

350 mA PWM

Mains

350 mA PWM

LEDOS B RGB 350 mA

Dali

K350 DALI RGB Constant-current converter

LEDOS B RGB 350 mA


Chapter 5

Lighting and room managementLUXMATE lighting management . . . . . . . . . . . . . . . . . . Easy dimming with BASIC and DIMLITE . . . . . . . . . . . . Plug & play with ZBOX . . . . . . . . . . . . . . . . . . . . . . . . Creative solutions with EMOTION. . . . . . . . . . . . . . . . . Building-wide with LITENET and PROFESSIONAL . . . . . 3 4 11 12 13 14 15 16 19

LUXMATE lighting management The intelligent control system for individual rooms and throughout buildingsFunction Applications LUXMATE LITENET (based on TCP/IP and DALI) Artificial light/daylight/blinds Office building with high Maximum flexibility owing to requirements in terms reconfiguration by software of flexibility, ergonomic com Can be subsequently upgraded patibility and econ. efficiency with extra functions (on demand) OPC and BACnet interfaces with other building services and BMS Optimised for TASK AREA concepts according to EN 12464 Integration of ONLITE emergency lighting system Customised control concepts LUXMATE PROFESSIONAL (based on LUXMATE bus system) Artificial light/daylight/blinds Conference rooms Interfaces to media technology Office buildings Integration of ONLITE Shopping malls emergency lighting system Museums link to BMS and central Industry maintenance LUXMATE EMOTION (based on DALI) Presence-based/daylight-based control Shops Timer Health & Care Special luminaires: RGB, Tempura Wellness ACTIVE LIGHT lighting concepts Control rooms Flexibility of individual Offices addressing/grouping In the home ZBOX Lighting scenes RGB colour control Nightlogic Webtool


LUXMATE BASIC/DIMLITE (based on DSI/DALI) Daylight-based In the home Infrared remote control unit Small offices & Standard switch components surgeries No addressing, group dimming Commercial premises Zero-power switching and dimming

BASIC

ZBOX

EMOTION

LITENET

PROFESSIONAL

Hotels Private dwellings Shops

Chapter 5 / 3

LUXMATE control unit

Lamp control gear (electronic ballast, transformer, ...)

Two steps to create your lighting solution

Dimming with LUXMATE BASIC/DIMLITE

4 / Chapter 5DALI DSI DALI-T DSI-T* DALI-TD DSI-TD* DALI-TLC DSI-TLC DIMLITE 4ch** (4-channel) DIMLITE 2CH** (2-channel)All modules available for installation in luminaire or recess into ceiling * also available as housing for installation in switch cabinet ** only available as housing for installation in switch cabinet

1. select appropriate lamp control gear

Lamps GLS lamps PAR lamps HV halogen incandescent lamps LV halogen incandescent lamps Fluorescent lamps LED High-pressure discharge lamps

Dimming range 0100 % 0100 % 0100 % 0100 % 1100 % 0100 % cannot be dimmed

All control gear with DALI/DSI control input Phase dimmer: 50010005000 VA Phase dimmer: 50010005000 VA Phase dimmer: 50010005000 VA electronic dimmable transformer: 105 VA + 150 VA electronic dimmable ballast electronic dimmable LED converter 1 ch./3 ch. PCI-FOX electronic ballast

2. select control funtion required

Function Dimming, 1 channel Dimming, 1 channel, with 1 light-level memory Daylight-based dimming, 2 channels 2 or 4-channel multifunction

Control Module name: momentary-action switch, presence detector momentary-action switch momentary-action switch, light sensor momentary-action switch Circle, light sensor, presence detector, IR remote control unit


The Lighting HandbookLamp control gear Lamps

User control units

Control Units

L N PE DSI electronic ballast, max. 25 DALI electronic ballast, max. 25* Fluorescent lamps T26/T16 TC-L/TC-DEL/TC-TEL L N D1 PCA D2 12 11 10 9

230/240 V 50/60 Hz

Conventional double momentary-action light switch On/Off Dimming

Control line e.g. NYM 2 x 1.5 mm2, max. length 100 m

Conventional momentaryaction light switch Preset/Dia DSI phase dimmer, max. 25 DALI phase dimmer, max. 25* D1 D2APD

Momentary-action switch control L module with input for preset light level N D1 T T D2 DSI-TD Preset/Dia

orL' N N L

DALI-TD

L L N PE T

Alternative: Connect terminals T and T together with a jumper if a single momentary-action switch is used.

Programming instructions for preset light level (Dia): Set brightness level required using momentary-action switch Press the Preset/Dia switch for at least 5 seconds

orDSI transformer, max. 25 DALI transformer, max. 25* max. 2 m D1 D2TE

Incandescent lamps/ HV halogen incandescent lamps max. 300 VA

LUXMATE BASIC DSI-TD or DALI-TD

D

phase dimmed phase neutral protective earth momentary-action switch input control line earth AC voltage

* available on request

LV halogen incandescent lamps max. 105/150 VA

Arguments for your customers

Dimming using conventional momentary-action light switches and with dimming-level memory

Chapter 5 / 5

Absolutely flicker-free dimming Simple to operate using conventional momentary-action light switches throughout Hence ensures standardised design of light switches and sockets Any number of momentary-action light switches can be connected in parallel

Dimming range: 1 to 100 % light Lamps can be started at any dimming level Suitable for all major lamp types Easy to install Insensitive to mains fluctuations and interference Components can be delivered separately or pre-fitted in the luminaire Dimming-level memory

Daylight-based control with DIMLITE and DALI/DSI-TLCApplications Single and team offices Areas near windows in shopping centres Classrooms Industrial bays Gym halls Warehouses

0%

50 %

500 lx artificial light daylight

Arguments for your customers Dims the lighting from 1001 %, based exactly on the daylight available Accurate window-light sensor rather than error-prone roomlight sensor Energy savings of up to 75 % Brightness level can be changed at any time using momentary-action dimmer switches Economically priced short pay-back period Long lamp service life Option to connect presence detectorThe Lighting Handbook

6 / Chapter 5

ED-EYE/LSD sensor positioning

Installed in luminaire 2 groups 4 groups DALI-TLC/DSI-TLC

Switch cabinet DIMLITE 2ch DIMLITE 4ch


Chapter 5 / 7

DIMLITE Multifunctional lighting controlArguments for your customers Compact lighting control unit for 2/4 luminaire groups DALI and DSI outputs automatic identification Reducing stand-by loss: automatic power disconnection of lighting actuators via integrated relay Up to 3 lighting scenes, one of them with daylight-based control (depending on additional devices) Modular range of functions, to be individually combined: daylight-based control lighting scene module presence detectors/movement sensors group module infrared remote control unit Circle comfort control unit AUTO setup: automatic initialisation, no addressing required Design notes DIMLITE 2ch two-channel unit and DIMLITE 4ch four-channel unit are identical except for the number of output channels and corresponding key inputs. Maximum cable length for all control lines (Control-IN, DSI and DALI): max. 300 m each at 1.5 mm. The DIMLITE outputs are DSI or DALI broadcast no addressing is required during commissioning. Groups are assigned by wiring the lighting actuators accordingly. Maximum of 25 DALI units (25 DALI loads) or 50 DSI units per output channel. Only Zumtobel ED units may be connected to Control-IN. Maximum of 8 ED units at Control IN (exception: max. 1 light sensor). Up to 3 lighting scenes, depending on the control unit used; each control unit will always call up the same scene 1, 2, 3 or OFF. The functions of the ED-SDED2 ED unit may be selected using the integrated rotary switch: either scene module (1, 2, 3, OFF) or group module (dimming of Group 1, 2, 3, 4). Conventional 230 V momentary-action switches can be connected to the momentary-action switch inputs. PIR input to connect a conventional movement sensor. Relay for mains cut-off: 16 A resistive load; in case of higher loads or capacitive/inductive loads, an external power contactor is recommended.

8 / Chapter 5



DIMLITE

L 230 V AC N PE ED-Eye ED-Sens IRlight sensor (PD+IR) TOUCH Multi-sensor DALI/DSI HFG (1 DALI load)PCA

User control units

Control units

Lamp control gear

Lamps

ED-IR infrared receiver L N DA DA DALI/DSI HFG (1 DALI load)PCA

ED-SDED2 ED-SDED2 Circle Cxx group lighting control point module scene module comf. contr. unit T26/T16 TC-L/TC-DEL/TC-TEL fluorescent lamps T26/T16 TC-L/TC-DEL/TC-TEL fluorescent lamps

Load contactor (optional)

Multifunctional lighting control

max. 300 m at 1.5 mm max. 8 ED units L N DA DA DALI/DSI HFG (1 DALI load)PCA

optional mains isolation facility

Relay L N DA DA DALI/DSI HFG (1 DALI load)PCA

max. 300 m at 1.5 mm max. 25 DALI or 50 DSI per channel T26/T16 TC-L/TC-DEL/TC-TEL fluorescent lamps T26/T16 TC-L/TC-DEL/TC-TEL fluorescent lamps

Control IN

Channels 3 + 4 only with DIMLITE 4 ch L N DA DA

Presence detector L N DA DA

EMOTION-1RUK (10 DALI loads) e.g.: incandescent lamps DA K DA K TE one4all (1 DALI load) e.g.: incandescent lamps

Chapter 5 / 9

Lighting scene/ autom. daylight-based control

All groups

Group 1

Group 2 Group 3

Group 4

User control units

Control units

Lamp control gear

Lamps

Daylight-based control for small rooms

LUXMATE BASIC Daylight DSI-TLC or DALI-TLC

10 / Chapter 5Fluorescent lamps T26/T16 TC-L/TC-DEL/TC-TEL 12 11 10 9 Group IIPCA

L 230/240 V 50/60 Hz N PE

LSD light sensor

Light-sensor line e.g. NYM 2 x 1.5 mm2, max. length 100 m

Fluorescent lamps T26/T16 DSI electronic ballast, max. 25/group I, II TC-L/TC-DEL/TC-TEL DALI electronic ballast, max. 25 /group I, II 12 L 11 N D1 10 PCA D2 9 Group I

Conventional double momentary-action light switch

G I G II

L T1 T3 PD

Daylight-based control unit installed in luminaire/recessed into ceiling N Se2Se1 T2 D2 D1 T4 D2 D1 DSI-TLC in

DALI-TLC

On/Off Dimming

Motion sensor/ Presence detector

or

DSI electronic ballast, max. 25/group I, II DALI electronic ballast, max. 25/group I, II

L N PE T PD Se D

phase neutral protective earth momentary-action switch input presence detector input light sensor input control line earth AC voltage

Control line e.g. NYM 2 x 1.5 mm 2 max. length 100 m

L N D1 D2


The Lighting HandbookLamp control gearmax. length of DALI line 2 x 0.50 mm max. 116 m max. 174 m max. 232 m max. 300 m 2 x 0.75 mm 2 x 1.00 mm 2 x 1.50 mm >

User control units

Lamps

L Mains 230/240 VAC, 50/60 Hz N PE L N DALI bus power supply DA DA

LUXMATE BASIC Circle Kit

DA DA

DA DA

DALI-CSS DALI-CSW

DALI-based lighting control system for individual rooms

L N PE DA

phase neutral protective earth DALI control line earth AC voltage

optionally several control points

supply via DALI control line (3 DALI loads)

L DALI electronic ballast N PE PCA DA DA L DALI phase dimmer N PE DA APD DA L DALI transformer N PE DA TE DA * max. 64 DALI-compatible lamp control gear

Arguments for your customers

Chapter 5 / 11

Three lighting scenes can be called up using intuitive control unit Two luminaire groups can be individually dimmed Control of a max. of 64 DALI-controllable luminaires Luminaires addressed via control unit

Several control units can be used in parallel Easy installation Personal lighting scenes can be stored

ZBOX plug&play system for hotel rooms, private dwellings and shopsPlug&Play pre-addressed and preprogrammed plug-in connectors local stand-alone or networked system web tool for fine-adjustment, no licence required FAQs What is the minimum load to be applied to the universal dimmer? 20 W How many luminaires may be connected to a ZBOX Controller? Max. of 300 W/channel or 10 DALI loads; total maximum output power per ZBOX: 16 A. Depending on the outputs of the luminaires used, a varying number of electronic ballasts may be used for an automatic circuit-breaker! What happens at the output side during a short circuit? The dimming module has been fitted with overload protection for lighting loads, extremely high inductive or capacitive loads may destroy the dimmer. The relay contact and the Controller have no overload protection; the electrician must ensure proper selectivity of the installation. direct connection via TCP-IP transparency of costs can be upgraded 4 control points included DALI Broadcast (no addressing of loads, except for RGB/W)

Does one always have to use a CIRCLE control unit? Via the SDED2 input module, conventional momentaryaction switches can be integrated. How can the ZBOX be upgraded? All LUXMATE bus units can be connected to the ZBOX Controller. It is also possible to network several Controllers. In this case, the plug&play function may not work. It makes sense to let an engineer do the commissioning. Can the ZBOX also be used for other applications? For other applications such as nursing homes, private dwellings or ordinary shops, the function and control concept can be adjusted via the ZBOX. WEBTOOL.The Lighting Handbook

12 / Chapter 5

The Lighting HandbookLeft bed/reading Group 2 Group 1 Right bed/reading Window

Bathroom Mirror

Ceiling

Wellness**

Group 9 Blinds/ curtain

ZBOX wiring scheme

Group 8

Group 7

** Luminaire pre-addressed, 4 channels No phase dimmer

Ceiling Group 3

Entrance area

Ceiling

Group 5

Wall/table Group 4

optionally

Group 6

Chapter 5 / 13

* Every luminaire optionally connected to phase dimmer, DALI and/or relay

LUXMATE EMOTION Lighting control systemOperation/supplyL N PE Mains 230/240 V AC, 50/60 Hz

EMOTION Touch/EMOTION Touch C L N

MomentaryDouble Presence momentary- action or action switch standard switch detector

COM T 1 T 2 COM T 3 DA DA DA DA DALI 1 DALI 2 EKXP installation box (please order separately)

COM T 4

DA DA EMOTION-BVS2* EMOTION-EYE (2 DALI loads) DA DA EMOTION-BV2*

max. 0.25 m COM T 1 T 2 T 3 T 4

DA DA

EMOTION-SDED2 (2 DALI loads) DA DA

DA DA Line 1: DALI control line e.g. NYM 2 x 1.5 mm 2 max. length 300 m max. 64 users (addresses) 99 DALI loads, actuators, inputs Line 2: DALI control line e.g. NYM 2 x 1.5 mm 2 max. length 300 m max. 64 users (addresses) 99 DALI loads, actuators, inputs

EMOTION-SENS (4 DALI loads)

Cable lengths of DALI control lineConductor cross-sections DALI control line 2 2 2 2 x x x x 0.50 0.75 mm 2 1.00 mm 2 1.50 mm 2 mm 2IR-TOUCH

Cable length 116 174 232 300 m m m m

Switching lamps using LUXMATE EMOTIONLamp type A, PAR, QT T16/T26 with low-loss ballast (parallel p.f. corrected) TC with low-loss ballast (parallel p.f. corrected) T16/T26/TC with electr. ballast LV with transformer HIT, SDW-T, HS, HM Safe installed load EMOTION-1RUK 500 W 250 W 250 W 30A for 0.5 s max. 30A for 0.5 s max. EMOTION-4RUKS 4 x 2,000 W 4 x 920 W 4 x 800 W 4 x 10A 4 x 10A 4 x 800 W

14 / Chapter 5

Lighting/emergency lightingL N DA DA DALI electronic ballast one4all (1 DALI load) K1 K 1' K2 K 2' K3 K 3' K4 K 4' K K' EMOTION-1RUK (10 DALI loads) EMOTION-CSX (3 DALI loads) L N DA DA L' N EMOTION-APD (1 DALI load) max. 2 m TE one4all (1 DALI load) R G B DALI-LED converter (1 DALI load) LV halogen incandescent lamps Incandescent lamps/ HV halogen incandescent lamps e.g. incandescent lamps 12 11 10 9 Fluorescent lamps T26/T16 TC-L/TC-DEL/TC-TEL

L N DA DA EMOTION-4RUKS (1 DALI load)

DA DA

DA DA

L N DA DA

L N DA DA

LED luminaires

L N DA DA EMOTION-ANAS (1 DALI load) L N DA DA

L' N

0/110 V units e.g. STARFLEX bre optics (1 DALI load)

DALI-2DSI (1 DALI load)

D1 D2 D1 D2

25 DSI luminaires 25 DSI luminaires

L N DA DA Locally supplied emergency luminaire LOCAL CHECK NT1 NT3 LDE DO (2 DALI loads) L N DA DA Escape-sign luminaire LOCAL CHECK (1 DALI load)

Chapter 5 / 15

LUXMATE LITENET for any size of buildingLITENET flexis N2 with server functions PC with LITENET insite management software

Ethernet (TCP/IP)

Netlink

Netlink Daylight sensor

3 x 64 DALI Luminaires

Bus

Blinds

Control points

LITENET economy up to 500 output addresses no server requiredLITENET flexis N3 with server functions

LITENET flexisN2 without rotating parts (wear-free) optional LITENET incontrol operating softwarePC with LITENET insite management software

Ethernet (TCP/IP)

Netlink

Netlink Daylight sensor

3 x 64 DALI Luminaires

Bus

Blinds

Control points

LITENET compact up to 2,000 output addresses no server required LITENET flexis N3 in 19" rack

fail-safe thanks to RAID1 optional LITENET incontrol operating software optional BACnet and OPC interfaces

PC with LITENET insite management software LITENET flexis N1 LITENET flexis N1 LITENET flexis N1

Ethernet ( TCP/IP)

Netlink

Netlink

Daylight sensor

3 x 64 DALI Luminaires Blinds Control points Standard L ITENET server

16 / Chapter 5


LITENET flexible LITENET server extremely up to 10,000 output addresses fail-safe thanks to RAID1 optional LITENET incontrol (or more upon request) operating software can be cascaded as required LITENET flexis N1 installed in optional BACnet and OPC switch cabinet interfaces

DALI a must for modern office buildingsBenefits of DALI installation: Individual addressing: As each luminaire can be addressed individually, the highest flexibility requirements can be met and installation faults can be avoided. Luminaires are grouped and assigned to control units subsequently, via the easy to use LITENET-insite software. Status feedback from each individual luminaire: Detailed knowledge about the installations state enable the operator to optimise operation and maintenance. Moreover, current alarms can be displayed by screen, printer, e-mail or text message. Zero-power switching: Both installation effort and space required in the switch cabinet are reduced, as a switched phase is not required for each luminaire. ZUMTOBEL Dimming on Demand (DOD) makes DALI available at a special price Previously, users could only choose between switchable luminaires with electronic ballast or more expensive luminaires based on DALI. With a switchable DALI luminaire model, ZUMTOBEL is now offering a real innovation providing cost benefits at all stages of a project from design through to actual operation of a building.Operation Purchase Implementation Project stages Project planning Planning Design Costs of modificationModification costs with conventional luminaires Modification costs with DOD luminaires


The models of this switchable luminaire originally supplied already boast all the above-mentioned benefits. And if dimming should be required at a later point in time for instance for convenient control of scenes or economically efficient daylight-based control, the dimming function can be purchased at any time via a software upgrade, without any additional installation effort.

Chapter 5 / 17

LUXMATE PROFESSIONAL (selection)Commissioning/user control unitsLM-CG/ LM-PFC LM-EG Installation-specic Single-room LM-MPO operation solution LM-CPA/CPO LM-XPO Single-/ Multi-room solution IRED LM-IRB

LM-CS(X) control point IRS B1, B2, L, N24VDC 24VAC

B 1 , B 2 , L, N B 1 , B 2 , L, N

RS-232 link to AV system ASCI plain text protocol B1, B2 LM-SI03 L, N

B1, B2 L, N230 VAC

B1, B2

LM-SDED LM-SWED LM-RFR

LUXMATE Bus Mains DSI- or DALI control line Sensor cable For dimming and switching individual luminaire groups

EnOcean Function switch without battery

Room management/central control/automationScreen B1, B2 B1, B2 K1 LM-2LSE Blinds Motor 1 B1, B2 Blinds Motor 2 LM-2JSM

LM-RV Partition switch

L, N

L, N

L, N

B1, B2 LM-2FSEL, N

B1, B2 LM-ZSM L, N Motor 2 Timer control

B1, B2 LM-iZSQ L, N Sequence automation

Motor 1

Window

Window LM-BVS35

B1, B2

L, N

18 / Chapter 5

Lighting managementLM-2RUK L, N B1, B2 K', K L, N Electronic/conventional ballast for discharge lamps HIT/HST/HME lamps

SwitchingLM-DSI L, N B1, B2 up to 10 DSI electronic ballasts D1, D2 D1, D2 L, N

Fluorescent lamps

DSI dimmingup to 10 DSI electronic ballasts up to 10 DALI electronic ballasts LM-2TL LM 2TL DALI L, N B1, B2 L, N D1, D2 D1, D2 D1, D2 Fluorescent lamps LSD option to connect a daylight sensor to the LM-STL or LM-2TL/DALI up to 10 DSI electronic ballasts up to 10 DALI electronic ballasts D1, D2 L, N

Daylight-based dimming (DSI or DALI)DA, DA PCA LM-DALI L, N B1, B2 up to 64 ballasts in 16 groups DA, DA DA, DA TE DA, DA LED converter LED luminaires LV halogen incandescent lamps DA, DA APD Fluorescent lamps Incandescent lamps/ HV halogen incandescent lamps

DALI dimmingONLITE interface, emergency lighting

LM-DALIS

SB 64 Local check repeater

SB 128 local check CTP

locally supplied LOCAL CHECK emergency luminaire LOCAL CHECK escape-sign luminaire

ONLITE interface for emergency lighting/local supply

Chapter 5 / 19

Chapter 6

Quickplan calculating the n of lum. requiredEfficiency method . . . . . . . . . . . . . . . . . . . . . . . . . . . . PANOS HF/HG PSP+ 175/200/250 (partly PSP+). . . . . PANOS LF/LG TC-DEL 175/200/250 . . . . . . . . . . . . . . PANOS LG/LG PSP+ M LG TC-TEL 250 . . . . . . . . . . . . PANOS S HIT-CE 150/200/250 . . . . . . . . . . . . . . . . . . PANOS L and H 200/250 . . . . . . . . . . . . . . . . . . . . . . PANOS Q Low. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . PANOS Q High . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . VAERO-S ID . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . OREA GZ-ID T16. . . . . . . . . . . . . . . . . . . . . . . . . . . . . LIGHT FIELDS surface-mounted. . . . . . . . . . . . . . . . . . LIGHT FIELDS recessed T16 M625 . . . . . . . . . . . . . . . LIGHT FIELDS A-ID . . . . . . . . . . . . . . . . . . . . . . . . . . . MELLOW LIGHT IV Microprismatic (recessed) . . . . . . . . MELLOW LIGHT IV Microprismatic (surf.-mounted) . . . . MELLOW LIGHT IV Louvre (surf.-mounted/recessed) . MELLOW LIGHT IV Grid-mesh controller (surf.-moun./rec.) SPHEROS D-ID/C-ID T16 EVG . . . . . . . . . . . . . . . . . . . MIREL FEC2 T16 M600. . . . . . . . . . . . . . . . . . . . . . . . MIREL FEC2 T16 M625. . . . . . . . . . . . . . . . . . . . . . . . MIRAL/MIREL RAS/RES BWS T16 (surf.-mounted/rec) . . MIRAL FAC T16 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . MIRAL FAC-ID T16 1-lamp . . . . . . . . . . . . . . . . . . . . . MIRAL FAC-ID T16 2-lamp . . . . . . . . . . . . . . . . . . . . . CLARIS II MD-ID T16. . . . . . . . . . . . . . . . . . . . . . . . . . CLARIS II MD-D T16 . . . . . . . . . . . . . . . . . . . . . . . . . . CLARIS II MC-ID T16. . . . . . . . . . . . . . . . . . . . . . . . . . CLARIS II P-ID T16 . . . . . . . . . . . . . . . . . . . . . . . . . . . CLARIS II P-D T16. . . . . . . . . . . . . . . . . . . . . . . . . . . . 2LIGHT E1-Mini/TC-TELI/HIT and E3 TC-L . . . . . . . . . . RTX II C or D. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . RTX II C-ID T16. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Free-standing uplights . . . . . . . . . . . . . . . . . . . . . . . . TECTON(-I) + RW T16. . . . . . . . . . . . . . . . . . . . . . . . . TECTON(-I) + RW T16. . . . . . . . . . . . . . . . . . . . . . . . . TECTON-IP louvre T16 . . . . . . . . . . . . . . . . . . . . . . . . TECTON D-ML-B and ML-C. . . . . . . . . . . . . . . . . . . . . TECTON D-ID and I . . . . . . . . . . . . . . . . . . . . . . . . . . . TECTON D-PL (Pool-Light). . . . . . . . . . . . . . . . . . . . . . COPA I 250 W . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . COPA I 400 W . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . COPA D RKF/RKID 32/42/57/85 W . . . . . . . . . . . . . . . COPA D HIT 70/150 W . . . . . . . . . . . . . . . . . . . . . . . . COPA D 250 W QT . . . . . . . . . . . . . . . . . . . . . . . . . . . COPA A-B HIT/HST 250 W . . . . . . . . . . . . . . . . . . . . . COPA A-B HIT/HST 400 W. . . . . . . . . . . . . . . . . . . . . . COPA A-N HME . . . . . . . . . . . . . . . . . . . . . . . . . . . . . COPA A-B, A-T, A-ASY HST . . . . . . . . . . . . . . . . . . . . . COPA A-ASY HIT/HST . . . . . . . . . . . . . . . . . . . . . . . . . PERLUCE D/O. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . RAIN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . CHIARO FTR390/FTR680 T16-R . . . . . . . . . . . . . . . . . SCUBA T26 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . CLEAN Classic C-O/R . . . . . . . . . . . . . . . . . . . . . . . . . CLEAN Advanced A-C/O . . . . . . . . . . . . . . . . . . . . . . . CLEAN Supreme S-C/R . . . . . . . . . . . . . . . . . . . . . . . . 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58

Efficiency methodThe Quickplan graphs have been calculated using the efficiency method. The following formulae can be used to give an approximate figure for the mean illuminance and the number of luminaires required. Em = n z L MF AB

n=

Em A z L MF

B

Em = mean illuminance z = number of lamps per luminaire L = luminous flux of the lamp* B = utilization factor (= LB R ) LB = luminaire efficiency R = room utilization factor

n = number of luminaires MF = maintenance factor A = floor area

Standard UGR values and maintained luminance levels for luminance limit angle (e.g. 65 or 75) all around the luminaire Correction factors for dark rooms and different ceiling heights (no. of luminaires x factor) Maintenance factor uses an assumed value (graphs calculated using MF = 0.8) Uniformity: max. luminaire spacing to achieve a uniformity greater than or equal to 0.7Please note: with maximum spacing between luminaires, the illuminance level required is usually not achieved. * Luminaire efficiency generally relates to laboratory measurements at an ambient temperature of 25 C. For designing, it is therefore required to use the rated luminous flux levels of lamps at 25 C in the calculation programmes and/or when applying the efficiency method. Today, these values are usually calculated on a computer-aided basis, by accessing luminaire databases.


Chapter 6 / 3

500 lx 300 lx

PANOS HF/HG PSP+175/200/250 (partly PSP+)2/13 W TC-DEL (175) 2/13 W PSP+ (175)

4 / Chapter 6 Correction factors Dark room (50/40/20): 1.1 Ceiling Floor areaheight 4m 5m 6m up to 50 m 1.2 1.4 1.6 over 50 m 1.1 1.2 1.32/26 W (200) 2/26 W PSP+ (200) 2/26 W TC-DEL (250) 2/26 W PSP+ (250)

X=4H Y=8H / S=0.25H / Reflection factors 70/50/20

Ceiling height: 3 m

PANOS HF/HG 2/13 W PSP+ (175) PANOS HF/HG 2/26 W (200) PANOS HF/HG 2/26 W PSP+ (200) PANOS HF/HG 2/26 W PSP+ (250) PANOS HF/HG 2/13 W TC-DEL (175) PANOS HF/HG 2/26 W TC-DEL (250)

UGR_axial UGR_transv. 65 / *75 < 19 < 19 *200 cd/m 2 < 19 < 19 1000 cd/m2 < 22 < 19 1000 cd/m2 1000 cd/m2 < 19 < 19 < 22 < 19 1000 cd/m2 200 cd/m2 < 19 < 16

Maintenance factor (MF)Clean medium-sized room Lamp operation Luminaire maintenance Room maintenance MF= 0.78 2000 h 1 year 3 years

140 130 120 110 100 90 80 70 60 50 40 30 20 10 180 200

86 80 72 66 60 54 48 42 36 30 24 18 12 6

20

40

60

80

100

120

140

160

Floor area m

2

Uniformity Axial spacing up to 2.8 m (2/26 200), 2.9 m (2/13, 2/26 PSP+ 250) 3.2 m (2/13 PSP+, 2/26)



500 lx 300 lxCorrection factors Dark room (50/40/20): 1.1 Ceiling Floor areaheight 4m 5m 6m up to 50 m 1.2 1.4 1.6 over 50 m 1.1 1.2 1.3

PANOS LF/LG TC-DEL 175/200/250


Ceiling height: 3 m

PANOS LF/LG 2/13 W TC-DEL (175) PANOS LF/LG 2/18 W TC-DEL (200) PANOS LF/LG 2/26 W TC-DEL (250)

UGR_axial UGR_transv. 75 < 22 < 22 < 200 cd/m 2 < 22 < 22 < 1000 cd/m 2 < 200 cd/m 2 < 22 < 22

2/13 W (175)

2/18 W (200)

Maintenance factor (MF)Clean medium-sized room Lamp operation Luminaire maintenance Room maintenance MF= 0.78 2000 h 1 year 3 years

140 130 120 110 100 90 80 70 60 50 40 30 20 102/26 W (250)

86 80 72 66 60 54 48 42 36 30 24 18 12 6

Uniformity200 Axial spacing up to 3.7 m (2/18 W), up to 4 m (2/13 W, 2/26 W), up to 4.4 m (2/32 W)

20

40

60

80

100

120

140

160

180

Chapter 6 / 5

Floor area m2

500 lx 300 lx36 30 24LG 2/32 W LG 2/32 W PSP+ M LG 2/32 W

PANOS LG/LG PSP+ M LG TC-TEL 250Correction factors Dark room (50/40/20): 1.1 Ceiling Floor areaheight 4m 5m 6m up to 50 m 1.2 1.4 1.6 over 50 m 1.1 1.2 1.3

60

6 / Chapter 618 12 6


Ceiling height: 3 m

50

PANOS LG 2/32 W TC-TEL (250) PANOS LG 2/32 W PSP+ TC-TEL (250) PANOS M LG 2/32 W TC-TEL (250)

UGR_axial UGR_transv. 65 < 1000 cd/m 2 < 28 < 25 < 1000 cd/m 2 < 25 < 25 < 25 < 25 < 1000 cd/m 2

40

30

Maintenance factor (MF)

20

10

Clean medium-sized room Lamp operation Luminaire maintenance Room maintenance

MF= 0.78 2000 h 1 year 2 years

Uniformity180 200 Axial spacing up to 4.7

20

40

60

80

100

120

140

160

Floor area m

2



500 lx 300 lx18 151/70 W (150) FL 1/70 W (200) FL 1/70 W (250)

PANOS S HIT-CE 150/200/250Correction factors Dark room (50/40/20): 1.1 Ceiling Floor areaheight 4m 5m 6m up to 50 m 1.2 1.4 1.6 over 50 m 1.1 1.2 1.3

30


Ceiling height: 3 m

25 12 9 6 3

PANOS S 1/70 W HIT-CE (150) FL G8.5 PANOS S 1/70 W HIT-CE (200) FL G12 PANOS S 1/70 W HIT-DE (250)

UGR_axial UGR_transv. < 22 < 22 < 22 < 22 < 28 < 28

20

15


10

5


MF= 0.77 2000 h 1 year 1 year

Uniformity160 180 200 Axial spacing up to 1.7 m, and 1/70 W 250 up to 4 m

20

40

60

80

100

120

140

Chapter 6 / 7

Floor area m2

500 lx 300 lx60 50 40 30 20 10

PANOS L and H 200/250Correction factors Dark room (50/40/20): 1.1 Ceiling Floor area

60

8 / Chapter 6height 4m 5m 6m up to 50 m 1.2 1.4 1.6 over 50 m 1.1 1.2 1.3


Ceiling height: 3 m

50

PANOS LG 2/18 W (200) PANOS LG PSP+1/32 W (200) PANOS HG 2/26 W (250) PANOS HG 1/42 W PSP+ (250)

UGR_axial UGR_transv. 65 / *75 *< 200 cd/m 2 < 22 < 22 *< 200 cd/m 2 < 22 < 22 < 200 cd/m 2 < 19 < 19 < 200 cd/m 2 < 19 < 19

40

LG 2/18 W (200)

LG 1/32 W PSP+ (200)

30

HG 2/26 W (250) HG 1/42 W PSP+ (250)


20

10


MF= 0.78 2000 h 1 year 3 years

Uniformity180 200 Axial spacing up to 3.9 m for LG, and 2.9 m for HG

20

40

60

80

100

120

140

160

Floor area m

2



500 lx 300 lx60 50 40 30 20 10 height 4m 5m 6m up to 50 m 1.2 1.4 1.6

PANOS Q LowCorrection factors Dark room (50/40/20): 1.1 Ceiling Floor areaover 50 m 1.1 1.2 1.3

60


Ceiling height: 3 m

50

PANOS Q LF 1/32 W TC-TELI (190) PANOS Q LG 1/32 W TC-TELI (190) PANOS Q LM 1/32 W TC-TELI (190) PANOS Q LL 1/32 W TC-TELI (190)

UGR_axial UGR_transv. < 28 < 25 < 28 < 25 < 25 < 25 < 28 < 25

LL 1/32 W TC-TELI (190)

40

LM 1/32 W TC-TELI (190)

30

LF + LG 1/32 W TC-TELI (190)


20

10


MF= 0.76 2000 h 1 year 1 year

Uniformity180 200 Max. axial spacing up to 5.8 m

20

40

60

80

100

120

140

160

Chapter 6 / 9

Floor area m2

500 lx 300 lx36 30 24 18 12 6

PANOS Q HighCorrection factors Dark room (50/40/20): 1.1 Ceiling Floor area

60

10 / Chapter 6height 4m 5m 6m up to 50 m 1.2 1.4 1.6 over 50 m 1.1 1.2 1.3


Ceiling height: 3 m

50

PANOS Q HG 2/18 W TC-TELI (250) PANOS Q HG 2/26 W TC-TELI (250) PANOS Q HG 2/32 W TC-TELI (250) PANOS Q HF 2/42 W TC-TELI (250)

UGR_axial UGR_transv. < 19 < 16 < 19 < 19 < 22 < 19 < 22 < 19

40

HG 2/18 W TC-TELI (250)

HG 2/26 W TC-TELI (250)

30

HG 2/32 W TC-TELI (250)


20

HF 2/42 W TC-TELI (250)

10


MF= 0.76 2000 h 1 year 1 year

Uniformity180 200 Max. axial spacing up to 3.4 m

20

40

60

80

100

120

140

160

Floor area m

2



500 lx 300 lx36 30 242/28 W

VAERO-S IDCorrection factors Dark room (50/40/20): 1.25 Ceiling Floor areaheight 4m 5m 6m up to 50 m 1.2 1.4 1.6 over 50 m 1.1 1.2 1.3

60


Ceiling height: 3 m

50

40 182/35 W 2/54 W 2/49 W

VAERO-S ID 2/28 W SR ASI1000 VAERO-S ID 2/35 W SR ASI1000 VAERO-S ID 2/49 W SR ASI1000 VAERO-S ID 2/54 W SR ASI1000 VAERO-S ID 2/80 W SR ASI1000

UGR_axial UGR_transv. 55 65

Documents

Lighting Handbook 08