Fluorescent and compact fluorescent lamps control gear

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1 Fluorescent and compact fluorescent lamps control gear The full range comprises electronic and electromagnetic control gear for almost every conceivable type of fluorescent lamp. Whatever the requirement, Philips ighting can offer a suitable reliable solution. amps and Gear Fluorescent and compact fluorescent lamps control gear 6.

Introduction Saving the smart way Focuses on saving energy and saving money (for initial and replacement markers).

Philips provide you the solution to upgrade in improving performance of your lighting systems.

install, requiring less wiring and fewer circuit components; - They bring attractive cost savings, like a reduction in energy consumption of around 5%, a substantially extended lamp life and a marked

2 Introduction Saving the smart way Focuses on saving energy and saving money (for initial and replacement markers). Better light, better life Focuses on improving performance by achieving constant light output and longer lamp life You can depend on Philips Focuses on safety and reliability of the Philips brand. Philips provide you the solution to upgrade in improving performance of your lighting systems. Electronic control gear Electronic ballasts offer numerous important benefits in comparison to traditional electromagnetic ballasts: - The units are lighter in weight and relatively simple to install, requiring less wiring and fewer circuit components; - They bring attractive cost savings, like a reduction in energy consumption of around 5%, a substantially extended lamp life and a marked lowering of maintenance costs; - They add to the overall lighting comfort in a variety of ways: no lamp-end flickering occurs, an automatic safety switch turns off the circuit at the end of lamp life, smooth and rapid lamp starting is ensured, and no potentially dangerous stroboscopic effect can arise; - Flexibility is enhanced: installations with fluorescent lamps are dimmable, permitting adjustment of lighting levels to suit personal preferences and giving rise to additional savings on energy; - Extra safety is assured through overvoltage detection, a noticeably lower operating temperature and, in most types, protected control of the mains voltage input. Some fluorescent lamp types operate only on electronic control gear and, given the benefits of greater efficiency and comfort, others will follow. Further, specific ballasts are available to suit the application involved: - HF-Regulator, for areas where regulation of lighting levels is required; - HF-Performer and EB-standard, where the operational demands, such as increased convenience, are greater than normal; - EB Economy, for situations where the lighting is switched on and off infrequently; - Actiume is an automatic lighting control system with a difference.the system consists of a sensor snd controller unit built into the luminaire and is operated with the new Philips HF-Regulator II gear. It is the first true Plug and Play lighting control system on the market. Electromagnetic control gear Under this category fall the traditional, copper-iron control gear for fluorescent lamps, a field in which Philips ighting has convincingly demonstrated its expertise over the years. Such systems include the essential components like the ballast, starter and power-factor-correction capacitor. Different versions are available with either glow-switch or electronic starter, and with standard or low-watt-loss ballasts. According to the ratings laid down by the CEMA directive, ballasts are allotted an Energy Efficiency Index (EEI) which is quoted against each product type. As the name suggests, this index describes the ballast: A types are the most energy-efficient, A and A3 somewhat less so, with lowering efficiencies through the B, B and C types. The directive 000/55/EC (OJEC 97 ovember 00) aims at reducing the energy consumption of ballasts and towards more efficient ones.the ballast, however, is only part of the energy consumption equation.the degree of energy efficiency of fluorescent lighting circuits depends upon the combination of ballast and lamp. As a consequence CEMA has found it necessary to develop a ballast classification system based on this combination.the directive sets targets at what time low efficient ballasts have to be phased-out. Class D ballast is already banned since May st. 00. Class C will follow per ov. st The full range comprises control gear for almost every conceivable type of fluorescent lamp. Whatever the requirement, Philips ighting can offer a suitable solution. In addition, a full program of lighting controls, both luminairebased and room-based, can be supplied (see separate chapter). 6. Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.3

3 Fluorescent and compact fluorescent lamps control gear amps and gear table Fluo Recommended electronic system for the best performance Alternative electromagnetic system for good performance Commercial name Technical lamp type Ballast ( lamp) Ballast ( lamps) Ballast (3 lamps) Ballast ( lamps) Ballast ( lamp) Starter Ballast ( lamps) Starter T5 6mm dia MASTER T5 HE Super 80 W EB-S 30-0 H/P/SP/SH T-5 Essential W EB-E T EB-E T EB-S T5 0-0 EB-S T5 0-0 EB-S 3 T5 0-0 EB-S T5 0-0 HF-P -35 T5 HE HF-P -35 T5 HE EII HF-P 3/ T5 HE EII HF-P 3/ T5 HE EII HF-M RED SH T/T5 HF-R T5 HF-R T5 HF-R 3/ T5 HF-R 3/ T5 HF-R DAI T5 HF-R DAI T5 HF-R DAI 3/ T5 HF-R T T5 T5 6mm dia MASTER T5 HE Super 80 W EB-E T T-5 Essential W EB-S T5 0-0 EB-S T5 0-0 EB-S 0-0 H/P HF-R T5 HF-R T5 HF-R DAI T5 HF-R DAI T5 T5 6mm dia MASTER T5 HE Super 80 8W EB-E 8 T EB-E 8 T T-5 Essential 8W EB-S 8 T5 0-0 EB-S 8 T5 0-0 HF-P -35 T5 HE HF-P -35 T5 HE EII HF-R 8 T5 HF-R 8 T5 HF-R DAI 8 T5 HF-R DAI 8 T5 HF-R T 8 T5 HF-R T 8 T5 HF-R TD 8-35 T5 HF-R TD 8-35 T5 T5 6mm dia MASTER T5 HE Super 80 35W EB-S 35 T5 0-0 EB-S 35 T5 0-0 HF-R 35 T5 HF-R 35 T5 HF-R DAI 35 T5 HF-R DAI 35 T5 HF-R T 35 T5 HF-R T 35 T5 T5 6mm dia T5 HO Super 80 9W HF-P 9 T5 HO HF-P 9 T5 HO EII HF-R 9 T5 HF-R 9 T5 HF-R DAI 9 T5 HF-R DAI 9 T5 HF-R T 9 T5 HF-R T 9 T5 HF-R TD 9 T5 HF-R TD 9 T5 T5 6mm dia MASTER T5 HO Super 80 W HF-M RED SH T/T5 HF-P -39 T5 HO HF-P -39 T5 HO HF-P -39 T5 HO EII HF-R T5 HF-R T5 HF-R DAI T5 HF-R DAI T5 T5 6mm dia T5 HO Super 80 39W HF-P -39 T5 HO HF-P -39 T5 HO HF-P -39 T5 HO EII HF-R 39 T5 HF-R 39 T5 HF-R DAI 39 T5 HF-R DAI 39 T5 HF-R T 39 T5 T5 6mm dia T5 HO Super 80 5W HF-P 5 T5 HO HF-P 5 T5 HO EII HF-R 5 T5 HF-R 5 T5 HF-R DAI 5 T5 HF-R DAI 5 T5 HF-R T 5 T5 HF-R T 5 T5 HF-R TD 5 T5 HF-R TD 5 T5 T5 6mm dia MASTER T5 HO Super 80 80W HF-P 80 T5 HO EII HF-P 80 T5 HO EII HF-R 80 T5 HF-R TD 80 T5/P TD 6mm dia T-D Super 80 8W EB-S SH EB-S SP BTA 8W 0V C SC S0(-E) BTA 36W 0V C SC S(-E) T-D Xtreme 8W EB-E 8 TD 0-0 EB-E 8 TD 0-0 BTA 8W 0V C DI S0(-E) BTA 36W 0V C DI S(-E) T-D Xtra 8W EB-S 8 TD 0-0 EB-S 8 TD 0-0 EB-S 38 TD 0-0 EB-S 8 TD 0-0 BTA 8W 0V/60Hz C SC S0(-E) BTA 36W 0V/60Hz C SC S(-E) T-D 90 De uxe Pro 8W/930 HF-P 8 TD 0-0 EII HF-P 8 TD 0-0 EII HF-P 3/8 TD 0-0 EII HF-P 3/8 TD 0-0 EII BTA 8W 0V/60Hz C DI S0(-E) BTA 36W 0V/60Hz C DI S(-E) EB-S ED 8 TD 0-0 EB-S ED 8 TD 0-0 BTA 8W 30V C SC S0(-E) BTA 36W 30V C SC S(-E) HF-M RED 8 SH T/T5 BTA 8W 30V C DI S0(-E) BTA 36W 30V C DI S(-E) HF-P 8 TD EII HF-P 8 TD EII HF-P 3/8 TD EII HF-P 3/8 TD EII BTA 8W 0V C SC S0(-E) BTA 36W 0V C SC S(-E) HF-R 8 TD HF-R 8 TD HF-R 3/8 TD BTA 8W 0V C DI S0(-E) BTA 36W 0V C DI S(-E) HF-R DAI 8 TD HF-R DAI 8 TD HF-R DAI 3/8 TD HF-R DAI 3/8 TD BTA 8W 0V B SC S0(-E) BTA 36W 0V B SC S(-E) HF-R T 3/8 TD HF-R T 3/8 TD BTA 8W 0V B DI S0(-E) BTA 36W 0V B DI S(-E) BTA 8W 0V/60Hz B SC S0(-E) BTA 36W 0V/60Hz B SC S(-E) BTA 8W 0V/60Hz B DI S0(-E) BTA 36W 0V/60Hz B DI S(-E) BTA 8W 0V B SC S0(-E) BTA 36W 0V B SC S(-E) BTA 8W 0V B DI S0(-E) BTA 36W 0V B DI S(-E) BTA 8W 30V B SC S0(-E) BTA 36W 30V B SC S(-E) 6. Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.5

4 Fluorescent and compact fluorescent lamps control gear amps and gear table Fluo Recommended electronic system for the best performance Alternative electromagnetic system for good performance Commercial name Technical lamp type Ballast ( lamp) Ballast ( lamps) Ballast (3 lamps) Ballast ( lamps) Ballast ( lamp) Starter Ballast ( lamps) Starter BTA 8W 30V B DI S0(-E) BTA 36W 30V B DI S(-E) BTA 8W 0V B SC S0(-E) BTA 36W 0V B SC S(-E) BTA 8W 0V B DI S0(-E) BTA 36W 0V B DI S(-E) TD 6mm dia T-D Super 80 RS 3W/80 SV/5 EB-S 3 TD 0-0 TD 6mm dia T-D Super 80 30W BTA 30W 0V C SC S0(-E) T-D Super 80 30W/80 ES BTA 30W 0V C DI S0(-E) T-D Food Pro 30W/79 BTA 30W 30V C SC S0(-E) T-D 90 de uxe Pro 30W/930 BTA 30W 30V C DI S0(-E) BTA 30W 0V C SC S0(-E) BTA 30W 0V C DI S0(-E) BTA 30W 0V B SC S0(-E) BTA 30W 0V/60Hz B SC S0(-E) BTA 30W 0V/60Hz B DI S0(-E) TD 6mm dia T-D Super 80 36W EB-E 36 TD 0-0 EB-E 36 TD 0-0 BTA 36W 0V C SC S0(-E) T-D Xtreme 36W EB-S 36 TD 0-0 EB-S 36 TD 0-0 EB-S 336 TD 0-0 BTA 36W 0V C DI S0(-E) T-D Xtra 36W HF-P 36 TD 0-0 EII HF-P 36 TD 0-0 EII BTA 36W 0V/60Hz C SC S0(-E) T-D 90 De uxe Pro 36W/930 EB-S ED 36 TD 0-0 EB-S ED 36 TD 0-0 BTA 36W 0V/60Hz C DI S0(-E) MASTER T-D Reflex 36W/865 HF-P 36 TD EII HF-P 36 TD EII BTA 36W 30V C SC S0(-E) HF-R 36 TD EII HF-R 36 TD EII BTA 36W 30V C DI S0(-E) HF-R DAI 36 TD HF-R DAI 36 TD BTA 36W 0V C SC S0(-E) HF-R T 36 TD HF-R T 36 TD BTA 36W 0V C DI S0(-E) HF-R TD 36 TD HF-R TD 36 TD BTA 36W 0V B SC S0(-E) BTA 36W 0V B DI S0(-E) BTA 36W 0V/60Hz B SC S0(-E) BTA 36W 0V/60Hz B DI S0(-E) BTA 36W 0V B SC S0(-E) BTA 36W 0V B DI S0(-E) BTA 36W 30V B SC S0(-E) BTA 36W 30V B DI S0(-E) BTA 36W 0V B SC S0(-E) BTA 36W 0V B DI S0(-E) TD 6mm dia T-D Super 80 58W EB-S 58 TD 0-0 EB-S 58 TD 0-0 BTA 58W 0V C SC S0(-E) MASTER T-D Secura 58W HF-P 58 TD 0-0 EII HF-P 58 TD 0-0 EII BTA 58W 0V C DI S0(-E) T-D Super 80 HF 58W EB-S ED 58 TD 0-0 EB-S ED 58 TD 0-0 BTA 58W 0V/60Hz C SC S0(-E) T-D Xtreme 58W HF-P 58 TD EII HF-P 58 TD EII BTA 58W 0V/60Hz C DI S0(-E) TD-Xtra 58W HF-R 58 TD EII HF-R 58 TD EII BTA 58W 30V C SC S0(-E) T-D 90 Graphica Pro 58W/965 HF-R DAI 58 TD HF-R DAI 58 TD BTA 58W 30V C DI S0(-E) MASTER T-D Reflex 58W/80 HF-R T 58 TD HF-R T 58 TD BTA 58W 0V C SC S0(-E) HF-R TD 58 TD HF-R TD 58 TD BTA 58W 0V C DI S0(-E) BTA 58W 0V B SC S0(-E) TE T-E W EB-E TE 0-0 BTA W 0V C SC S0(-E) T-E Super 80 W BTA W 0V C DI S0(-E) BTA W 30V C SC S0(-E) BTA W 30V C DI S0(-E) BTA W 0V C SC S0(-E) BTA W 0V C DI S0(-E) BTA W 0V B SC S0(-E) BTA W 0V/60Hz B SC S0(-E) BTA W 0V/60Hz B DI S0(-E) TE T-E 3W EB-E 3 TE 0-0 BTA 3W 0V C SC S0(-E) T-E Super 80 3W BTA 3W 0V C DI S0(-E) BTA 3W 30V C SC S0(-E) BTA 3W 30V C DI S0(-E) BTA 3W 0V C SC S0(-E) BTA 3W 0V C DI S0(-E) BTA 3W 0V B SC S0(-E) BTA 3W 0V/60Hz B SC S0(-E) BTA 3W 0V/60Hz B DI S0(-E) T5C T5 C Super 80 W HF-P -0 T5C HF-P -0 T5C HF-R T5C HF-R DAI T5C 6.6 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.7

5 Fluorescent and compact fluorescent lamps control gear amps and gear table Fluo Recommended electronic system for the best performance Alternative electromagnetic system for good performance Commercial name Technical lamp type Ballast ( lamp) Ballast ( lamps) Ballast (3 lamps) Ballast ( lamps) Ballast ( lamp) Starter Ballast ( lamps) Starter T5C T5 C Super 80 55W HF-P 55 T5C HF-R 55 T5C HF-R DAI 55 T5C HF-R T 55 T5C T5C T5 C Super 80 60W HF-P 60 T5C HF-R 60 T5C HF-R DAI 60 T5C HF-R T 60 T5C T 38mm dia T RS 0W BTA 8W 0V C SC S0(-E) BTA 36W 0V C SC S(-E) T 0W BTA 8W 0V C DI S0(-E) BTA 36W 0V C DI S(-E) BTA 8W 0V/60Hz C SC S0(-E) BTA 36W 0V/60Hz C SC S(-E) BTA 8W 0V/60Hz C DI S0(-E) BTA 36W 0V/60Hz C DI S(-E) BTA 8W 30V C SC S0(-E) BTA 36W 30V C SC S(-E) BTA 8W 30V C DI S0(-E) BTA 36W 30V C DI S(-E) BTA 8W 0V C SC S0(-E) BTA 36W 0V C SC S(-E) BTA 8W 0V C DI S0(-E) BTA 36W 0V C DI S(-E) BTA 8W 0V B SC S0(-E) BTA 36W 0V B SC S(-E) BTA 8W 0V B DI S0(-E) BTA 36W 0V B DI S(-E) BTA 8W 0V/60Hz B SC S0(-E) BTA 36W 0V/60Hz B SC S(-E) BTA 8W 0V/60Hz B DI S0(-E) BTA 36W 0V/60Hz B DI S(-E) BTA 8W 0V B SC S0(-E) BTA 36W 0V B SC S(-E) BTA 8W 0V B DI S0(-E) BTA 36W 0V B DI S(-E) BTA 8W 30V B SC S0(-E) BTA 36W 30V B SC S(-E) BTA 8W 30V B DI S0(-E) BTA 36W 30V B DI S(-E) BTA 8W 0V B SC S0(-E) BTA 36W 0V B SC S(-E) BTA 8W 0V B DI S0(-E) BTA 36W 0V B DI S(-E) T 38mm dia T RS 0W BTA 36W 0V C SC S0(-E) BTA 36W 0V C DI S0(-E) BTA 36W 0V/60Hz C SC S0(-E) BTA 36W 0V/60Hz C DI S0(-E) BTA 36W 30V C SC S0(-E) BTA 36W 30V C DI S0(-E) BTA 36W 0V C SC S0(-E) BTA 36W 0V C DI S0(-E) BTA 36W 0V B SC S0(-E) BTA 36W 0V B DI S0(-E) BTA 36W 0V/60Hz B SC S0(-E) BTA 36W 0V/60Hz B DI S0(-E) BTA 36W 0V B SC S0(-E) BTA 36W 0V B DI S0(-E) BTA 36W 30V B SC S0(-E) BTA 36W 30V B DI S0(-E) BTA 36W 0V B SC S0(-E) BTA 36W 0V B DI S0(-E) T 38mm dia T RS 65W BTA 58W 0V C SC S0(-E) BTA 58W 0V C DI S0(-E) BTA 58W 0V/60Hz C SC S0(-E) BTA 58W 0V/60Hz C DI S0(-E) BTA 58W 30V C SC S0(-E) BTA 58W 30V C DI S0(-E) BTA 58W 0V C SC S0(-E) BTA 58W 0V C DI S0(-E) BTA 58W 0V B SC S0(-E) Miniature T Mini Aperture 8W/865 FA50 EB-S H T Mini Super 80 8W/830 EB-S SH T Mini 6W/5 EB-S P EB-S SP HF-M RED 09 SH P-S/P-C Miniature T Mini Aperture 3W/865 FA50 EB-S 30-0 H T Mini 3W EB-S 30-0 SH EB-S 30-0 P EB-S 30-0 SP HF-M RED SH T/T5 6.8 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.9

ighting Control Actiume Sensor/Controller ighting Control Actiume Sensor/Controller Actiume luminaire-based system with HF-REGUATORII ballast Sensor Controller Dimensions in mm A B Sensor RI653/00

6 ighting Control Actiume Sensor/Controller ighting Control Actiume Sensor/Controller Actiume luminaire-based system with HF-REGUATORII ballast Sensor Controller Dimensions in mm A B Sensor RI653/00 Sensor RI653/00 A Touchand Dim C Product description The Philips Actiume lighting control system consists of a small, lightweight sensor and controller, designed for easy integration into luminaires. Actiume is a true Plug and Play solution for open plan (up to 9 luminaires) or cell offices (e.g. luminaires). It is used in a master and slave luminaire concept, easy to use and easy to install. Specific application brochures are available to help specify and apply the system in an optimal way. Commissioning is optional for other application modes than cell office or open plan. Using this method, functions can be changed without consequences for the electrical installation. Features and benefits Philips Actiume is a DAI based lighting control system designed for maximum comfort and energy savings of up to 75% (in fully automatic mode and when used in combination with Philips HF- RegulatorII Touch and DAI ballasts).this to achieve a quick return on investment. Actiume is a Plug & Play system, therefore no specific lighting control training is needed. Moreover, the system is supported with simple, dedicated application and installation sheets. The Actiume system consists out of three state-of-art miniature sensors combined with a controller containing a series of pre - programmed modes. The two most applied modes, cell or open plan offices, can be selected via a simple push on the service button. The light sensor is sensitive for visible radiation (matching the human eye) providing automatic savings with daylight depending regulation, without any visible discomfort for the user. The movement detector is very sensitive to human movements and is combined with extended delays to provide optimal functionality in an office environment. Semi automatic solutions can be created by connecting a mains rated springback switch to the controller or by using an infrared remote control unit. In this way the settings can be manually overruled according to personal preferences. In addition Actiume offers the possibility to choose specific modes specially developed in line with new legislation, which makes the system very versatile for use.these modes can be recalled by using a simple mode selection tool IRT8098/00. It is easy to change a specific application setting by selecting another mode on the advanced mode selection tool IRT8099/00. The Actiume controller contains two DAI outputs.these outputs are pre-programmed (factory setting) as a window and corridor row with a fixed light offset. The system can control maximum nine ballasts and can be extended with two additional movement detectors, extension sensor type RM88/00. Factory light level setting is at 600 lux at a reflection factor of 0.3. Applications The Actiume system is designed for all office applications, from open plan to cell offices, lobbies or toilets, and from corridor to small meeting rooms. It offers specific comfort modes, e.g. for schools, light-lines and direct/indirect lighting concepts. It even contains a specific comfort mode combining maximum energy savings and additional comfort based on a practical E 6 solution (mode, 5 or 9). Plug &Playcontrol regimes Mode : Switching light off when the area is not occupied, saving maximum energy in a cell office situation. Mode : Maintaining a (lower) light level when the area is not occupied, avoiding dark areas in an open plan office. ext to the modes the following functions can be changed independently: - Power up behaviour (see manual IRT8099/00) - Default light level (via the service button) - Background level (see manual IRT8099/00) Related equipment Actiume movement detector, extension sensor RM88/00 Simple programming tool IRT8098/00 Advanced mode selection tool IRT8099/00 Two-key hand held transmitter IRT800/00 and wall holder RH800/00 Two-key transmitter IRT8050/00 preset transmitter IRT8030/00 Philips quality This applies optimum quality with respect to: System supplier As manufacturer of lamps, electronic control gear and lighting control equipment, Philips ensures that, from the earliest development stage, optimum performance is maintained. International standards Philips lighting control equipment complies with all relevant international rules and regulations. Compliances and approvals RFI<30 MHz: E 5505 RFI>30 MHz: E 550 A Immunity: E 657 Safety: E 637- E Quality standard: ISO 900 Environmental standard: ISO 00 Approval marks: EEC CE marking Technical data for installation Mains operation Rated mains voltage With tolerances for safety: +/- 0% Tolerances for performance +6%-8% Mains frequency Input power (system) 0-0 V 98-6 V 0-5 V 50/60 Hz,3..,55W. Technical data for design and mounting in fixtures Operating conditions Ambient temperature 0 ºC to 55 ºC Sensor and controller Rel. humidity 0% to 85%, no condensation Tcase 75 ºC Storage Conditions -5 ºC to +85 ºC Rel. humidity 0% to 95% Sensor RI 653/0 Connection RJ-0 -Pole Fixed to RI653/00, 00 cm cable Housing (casing) Material Polycarbonate U9 V-0 Glow wire test Safety, basic insulation When placed at a height of 3 m the following values are valid: Infrared receiver ight sensor Movement detector RJ0 PC 850 ºC / 5 s 500 V Signal Range Ambient light monitoring monitoring 5 to 350 lux at sensor Monitoring area Passive Infra Red (PIR) Detection area at.5 m height: x m (sensitive for small movements) 6x5 m (sensitive large movements) X 5 m Sensor Orientation 6 m Maximum height PIR: 3.5 m X-angle PIR: 8º Y-angle PIR: 00º Y B C Output power (system) umber of ballasts umber of extension sensors RM88/ Controller CC653/00 Controller CC653/00 Product ID A B C Sensor RI653/ Controller CC653/ Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.

7 ighting Control Actilume Sensor/Controller ighting Control Actiume Sensor/Controller Service button a). How to select the user mode (application) The user mode can be toggled between mode and by means of a short push on the service button (<3 seconds) After key release the lamp will flash to indicate the selected user mode: flash = User mode (Cell office application) flashes = User mode (Open plan office application) More modes can be recalled by using IRT8099/00. b. Adjust the factory set reference light level Pressing the service button (>3 seconds) until the lamp gives a light flash (wink) will start the automatic calibration procedure. The light output of the luminaires connected to DAI_ (window row) is set to 80%.The light output of the luminaires connected to DAI_ (corridor row) is set to 00%. After 30 seconds the Actiume controller is saving the actual light level as new reference light level (indicated by a second flash). This 30 seconds time delay is required to have sufficient time to step aside or remove a stepladder. Controller unit CC653/00 DAI Output Manual control Glow wire test Safety, basic insulation In user mode and user mode the system is programmed as one channel. When enough daylight enters the room, the amount of artificial light will be automatically reduced and the DAI_ output (corridor row) is programmed with a light offset of 30%. In other modes (which can be recalled with IRT8099/00) Actiume can use two channels depending the application functionality. By connecting a mains rated springback switch to connection s (ine-switched), dimming and switching on/off will be possible according the Touch and Dim functionality. (Maximum switch per controller) Switch to be mounted on the ballast. It is also possible to use remote control IRT800/00, IRT8030/00 or IRT8050/00.The IRT8030/00 needs to be pointed to the sensor.the IRT8030/00 and IRT8050/00 has a X-Y-Z beam direction, making it suitable for wall mounting and table top use. 850 ºC / 5 s 500 V Material Polycarbonate U9 V-0 Mounting The controller housing contains snap-in pins for quick fixation. The diameter of the fixation holes should be maximum.5 mm. The snap-in pins are designed for a metal thickness of maximum 0.8 mm. The maximum distance between the fixation holes is 78 mm. Connector type Connection wiring is greatly simplified through use of WAGO 5 universal connector. Suitable for both automatic wiring (AF and ADS) and manual wiring. Corridor Window T&D 30VAC Release: rotate and pull Remark: release all wires one by one IDC connection ADS/Manual connection Wire cross-section ADS manual connection 0.5 mm -.0 mm IDC connection 0.5 mm 0.75 mm (*) *Stranded wire Strip length mm 6. Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.3

ighting Control Actilume Sensor/Controller ighting Control Actiume System Components Actiume Modes Besides the two Plug and Play modes for cell office and open plan office, it is possible to recall 8

With the aid of the advanced mode selection tool IRT8099/00 specific modes can be selected. Once selected, the mode can be stored and copied via a point and shoot method.

Controller C653/0 Extension sensor RM88/0 Extension sensor for Actiume to cover movement in open plan or light lines solution.

8 ighting Control Actilume Sensor/Controller ighting Control Actiume System Components Actiume Modes Besides the two Plug and Play modes for cell office and open plan office, it is possible to recall 8 other application modes as mentioned below.this makes the Actiume system very flexible for all different kinds of applications. With the aid of the advanced mode selection tool IRT8099/00 specific modes can be selected. Once selected, the mode can be stored and copied via a point and shoot method.the mode will be stored in a non-volatile memory. Even when the luminaires are switched off for a longer period, stored parameters are kept. Controller C653/0 Extension sensor RM88/0 Extension sensor for Actiume to cover movement in open plan or light lines solution. Mode : Cell office Mode 6: Corridor 5 min 5 min equal A level 5 minutes A level 60 minutes ow level 0% off 5 min 5 min Sensor RI653/0 Mode : Open plan office Mode 7: Toilets 5 min equal A level 5 minutes A level 0 minutes ow level 0% Off 5 min Only window side 5 min 5 min Mode 3: School/Classroom Mode 8: Meeting rooms 5 min 5 min Mode : Comfort mode E 6 for open plan offices 5 min 0 min 5 min Semi automatic system Mode 9: Open plan 'always light' 5 min 5 min ow level 0% Simple mode selection tool IRT8098/0 Simple mode selection tool for Actiume (mode and mode selection). ight set point calibrator. Easy to Use. Batteries are included. 5 min 5 min Only the task lighting Mode 5: Comfort mode E 6 for cell offices 5 min Only the task lighting 5 min Only the task lighting Mode 0: Comfort mode open plan 'always light' 5 min Only the task lighting 5 min Advanced mode selection tool IRT809/0 Mode selection tool for Actiume luminaires. Inexpensive tool to adjust light levels and to switch between functionality modes. Batteries are included. egend Presence Area is occupied Absence ight stays on (internal timer is activated to clock absence time) Absence ight dims down to a background level (internal timer is activated to clock absence time) or surrounding light at 00% Absence ight switched off 5 min When enough daylight is detected, the lights will OT be switched on automatically when someone enters the room When enough daylight is detected (measured over 5 minutes), the lights will automatically be switched off ights need to be switched on manually Product description Controller CC653/00 Sensor RI653/00 Kit Controller & Sensor KIT653/00 Extension sensor RM88/00 Simple mode selection tool IRT8098/00 Advanced mode selection tool IRT8099/00 Weight (kg) 0.03 (per piece) 0.03 (per piece) 0.06 (per kit) Packaging pcs 8 8 EOC Comfort mode 6. Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.5

ighting Control IR Transmitters General Purpose ighting Control Dimensions in mm Hand-held two-key transmitter IRT800/00 Hand-held two-key transmitter, for infrared control of various lighting

9 ighting Control IR Transmitters General Purpose ighting Control Dimensions in mm Hand-held two-key transmitter IRT800/00 Hand-held two-key transmitter, for infrared control of various lighting control systems. Actiume can also dim the lights (by pressing a button >0.5 sec).the unit is supplied with batteries. A wall holder is separately available. Wall holder RH800/00 Wall holder for the IRT800/00 hand-held two-key transmitter. Two-key infrared remote control IRT8050/00 Two-key infrared remote control transmitter for wall mounting and table-top use.the unit can be used in Actiume.The actual function of the two large keys can be selected with a dip switch in the battery compartment. A dip switch is also used to select the group address. Four-preset hand-held transmitter IRT8030/00 Four-preset hand-held transmitter, suitable for infrared control of Actiume applications. It has keys for presets and one key for all off. Keys for individual control and preset programming are located under a hinged cover at the bottom of the transmitter.the group address selector switch is contained in the battery compartment.the unit is supplied complete with wall holder and batteries. Product description Weight EOC (kg) TRASM IR POIT IRT800/ MOUT IR POIT RH800/ TRASM IR KEY WA IRT8050/ TRASM IR TRIOS IRT8030/ Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.7

Electronics (Dimming) HF-Regulator DAI P-T/C Electronics (Dimming) HF-Regulator DAI P-T/C HF-R DAI P-T/P-C Dimensions in mm B A D B Product description Compact, lightweight high-frequency electronic

10 Electronics (Dimming) HF-Regulator DAI P-T/C Electronics (Dimming) HF-Regulator DAI P-T/C HF-R DAI P-T/P-C Dimensions in mm B A D B Product description Compact, lightweight high-frequency electronic regulating ballast using DAI (Digital Addressable ighting Interface) protocol, for P-T and P-C compact fluorescent lamps. Features and benefits The lamp power can be regulated down to 3%. Striation-free operation. Digital Addressable control input (DAI Protocol). Quick programmed start: flicker-free warm start, ideal for areas with a high switching frequency (movement detection applications), this enables the lamps to be switched on and off without reducing useful life. Up to 60% reduction in energy consumption can be achieved by using automatic lighting control systems. Smart power: constant light independent of mains voltage fluctuations All Philips HF-Regulator electronic ballast s are equipped with α-control.this is a dedicated integrated circuit that ensures independent control of each electrode and, in doing so, takes care that: a. lamp life is unaffected by dimming position b. lamp burning is stable in every dimming position; and c. energy savings, when dimming are maximised Applications Typical areas of application include: DAI installations with daylight linking and/or movement detection (energy saving). DAI installations with remote control systems (personal scene setting). Installations with emergency back-up, according to VDE 008 Examples: Office buildings: insurance companies, banks, government ministries. Cellular, Open plan offices, corridors and lobby s Conference rooms, ecture theatres. Department stores, shops, supermarkets and malls Hotels, restaurants and bars Cinemas, museums Hospitals, Schools Factories, workshops Airports, railway stations Philips quality This applies optimum quality with respect to: System supplier As manufacturers of lamps electronic control gear and lighting control equipment, Philips ensures that, from the earliest development stage, optimum performance is maintained. International standards Philips HF electronic regulating ballast s comply with a relevant international rules and regulations. Compliances and approvals RFI < 30 MHz: E 5505* RFI > 30 MHz: E 550B Harmonics: E Immunity: E 657 Safety: E Performance: E 6099 Vibration & bump tests: IEC FC IEC Eb Quality standard: ISO 900 Environmental standard: E 00 Approval marks: EEC, VDE-EMV CE marking. Technical data for installation Mains operation Rated mains voltage 0-0 V with tolerances for safety: +/- 0% 98-6 V tolerances for performance: +6% -8% 0-5 V Mains frequency 50/60 Hz Operating frequency > khz Power factor 0.95 at 00% power Smart power: with AC mains voltage fluctuations, luminous flux varies by ± % max. 0-5 V DC voltage operation (during emergency back-up) Required battery voltage for guaranteed ignition 98-5 V DC Required battery voltage for burning lamps 76-5 V DC ominal light output is obtained at a voltage of 0V - 0V otes:. For continuous DC application, an external fuse should be used in the luminaire. Continuous low DC voltages (<98V) can influence the lifetime of the ballast Earth leakage current < 0.5 ma per ballast Maximum number of ballasts which can be connected to one Residual Current Detector of 30 ma 30 Overvoltage protection Automatic restart after lamp replacement or voltage dip 8 hr at 30 V AC hr at 350 V AC 5 min. at 380 V AC Insulation resistance test 500V DC from ine/eutral to Earth (not between ine and eutral) ote: Ensure that the neutral is reconnected again after above mentioned test is carried out and before the installation is put in operation yes amp wiring Ignition time The use of 500 V rated components and Wiring is advised for P-T 3W and W types Typical 0.5 sec. Advised maximum cable capacity max. 30 pf: between two sets of for optimum performance and lamp wires (each set of lamp wires EMI Suppression is connected to one electrode of the lamp) max. 75 pf: between one set of lamp wires (connected to one electrode of the lamp) and earth. Care has to be taken for symmetrical wiring Mains current at 30V Ballast Input current A HF-R DAI 8 P-T/C 0.09 HF-R DAI 8 P-T/C 0.7 HF-R DAI 6 P-T/C 0.3 HF-R DAI 6 P-T/C 0. HF-R DAI 3 P-T 0.7 HF-R DAI 3 P-T 0.3 HF-R DAI P-T 0. HF-R DAI P-T 0. Inrushcurrent Ballast Max.quantityof ballasts Inrushcurrent per Miniature Circuit /value time at typical Breaker mains impedance type B6A HF-R DAI 8 P-T/C 8 0A/0 µs HF-R DAI 8 P-T/C 8 35A/0 µs HF-R DAI 6 P-T/C 8 0A/0 µs HF-R DAI 6 P-T/C 8 35A/0 µs HF-R DAI 3 P-T 8 0A/0 µs HF-R DAI 3 P-T 5A/70 µs HF-R DAI P-T 8 0A/0 µs HF-R DAI P-T 5A/70 µs Conversion table for max.quantities of ballasts on other types of Miniature Circuit Breaker MCBtype Relative quantityof ballasts B 6 A 00% (see table above) B 0 A 63% C 6 A 70% C 0 A 0%, I 6 A 08%, I 0 A 65% G, U, II 6 A % G, U, II 0 A 7% K, III 6 A 5% K, III% A C Product ID A A B B C D amps amps * Tested with ballast functional ground connected to earth 6.8 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.9

11 Electronics (Dimming) HF-Regulator DAI P-T/C Electronics (Dimming) HF-Regulator DAI P-T/C Technical data in relation to energysaving amp Qty.of Ballast System amp CEMA lamps power* Efficacy* Power* Efficacy* umen* class. W lm/w W lm/w lm EEI P-T 8W HF-R DAI 8 P-T/C A P-C 8W HF-R DAI 8 P-T/C A P-T 8W HF-R DAI 8 P-T/C A P-C 8W HF-R DAI 8 P-T/C A P-T 6W HF-R DAI 6 P-T/C A P-C 6W HF-R DAI 6 P-T/C A P-T 6W HF-R DAI 6 P-T/C A P-C 6W HF-R DAI 6 P-T/C A P-T 3W HF-R DAI 3 P-T A P-T 3W HF-R DAI 3 P-T A P-T W HF-R DAI P-T A P-T W HF-R DAI P-T A * At 00% power Control input Digital coded input signal according to Digital Addressable ighting Interface protocol including 6 presets, 6 addresses possibility. ampenleistung (W %) DAI Regulating step (acc. DAI) Relationship between lamp power and digital regulation Regulating level (lamp power) 3 to 00% The control input complies with E6099 (Amendment, Annex E) and is compatible with Philips lighting control equipment. Dim command for full lamp power (00%) step 5 Dim command for min. lamp power (3%) step 6 Protected against accidental mains voltage connection Control input insulation, basic insulation Yes < 500V The ballasts that are thermally protected use a protective method of another type providing equivalent thermal protection. Technical data for design and mounting in fixtures Temperatures Temperature range to ignite lamp +0 to +50 C with ignition aid Stable lamp operation assured > 5 C Striation possible < 5 C ote: ifetime of a ballast depends on the temperature of the ballast.this means there is a relation between the Tc point on the ballast and its lifetime. For more information regarding this subject consult the Philips Application guide to fluorescent lamp control gear. Earthing Class II luminaires Hum and noise level inaudible Earthing of the HF ballast in a luminaire is necessary for EMC (electromagnetic compatibility) This application is not advisable; only with extensive tests on luminaires can the correct operation be verified Permitted humidity is tested according to IEC 98 par. ote that no moisture or condensation may enter the ballast. Connection wiring is greatly simplified through use of insert contacts; earth connection can be made via housing or terminal block. otes:. Data is based on a mains supply with an impedance of 00 m (equal to 5 m cable of.5mm and another 0m to the middle of the power distribution), under worst case conditions.with an impedance of 800 m the number of ballasts can be increased by 0%.. Measurements will be verified in real installations; therefore data are subject to change 3. In some cases the maximum number of ballasts is not determined by the MCB but by the maximum electrical load of the lighting installation.. ote that the maximum number of ballasts is given when these are all switched on the same moment, i.e. by a wall switch. 5. Measurements were carried out on single-pole MCB s. For multi-pole MCB s it is advisable to reduce the number of ballasts by 0%. 6. First digital regulating steps (DAI) are fixed at 3% light output (dimming specification). Wiring diagrams -lamp Connection wiring is greatly simplified through use of insert contacts; earth connection can be made via housing or terminal block. DA: 3 Wire cross-section: Mains connector [Orange] 0.5mm.5mm Control connector [Blue] 0.5mm.5mm amp(s) connector [gray] 0.5mm.5mm Strip length mm -lamps otes: 7. For optimum performance, note that wires from connection and should be kept short and equal in length. 8. Keep lamp wiring as short as possible; do not bunch wires from terminals & with those from terminals 3& (-lamp ballasts), or wires from terminals 3,, 5 & 6 with those from terminals,, 7 & 8 (-lamp ballasts). 9. lp-lp between lamp wires Typical capacitance m wires close together (spacing 0.5 mm) 6pF Typical capacitance 0.5m wires close together (spacing 0.5 mm) 3pF lp-lg between lamp wires and ground Typical capacitance m wires close to ground (spacing 0.5 mm) 7pF Typical capacitance 0.5m wires close to ground (spacing 0.5 mm) 38pF Ordering and packing data Ballast Piece Bulkpacking EAcode Weight Qty. Dimensions Volume Weight EAcode EOC l xwxh gross kg pcs cm m 3 kg HF-R DAI 8 P-T/C x. x HF-R DAI 8 P-T/C x. x HF-R DAI 6 P-T/C x. x HF-R DAI 6 P-T/C x. x HF-R DAI 3 P-T x. x HF-R DAI 3 P-T x. x HF-R DAI P-T x. x HF-R DAI P-T x. x DA: Max. tcase = 75 C** 6.0 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.

Electronics (Dimming) HF-Regulator EII Touch and DAI T-5 Electronics (Dimming) HF-Regulator EII Touch and DAI T-5 HF-R DAI T5 Dimensions in mm D A B Product description Flat, lightweight

12 Electronics (Dimming) HF-Regulator EII Touch and DAI T-5 Electronics (Dimming) HF-Regulator EII Touch and DAI T-5 HF-R DAI T5 Dimensions in mm D A B Product description Flat, lightweight high-frequency electronic regulating ballast, using DAI (Digital Addressable ighting Interface) or Touch and Dim push button protocol, for T5 fluorescent lamps.the HF-RegulatorII ballasts incorporate the new Philips EII technology offering full digital input (mains) and output (lamp) management. Features and benefits The lamp power can be regulated from 00% to %. Flat ballast design, mm high. Up to 75% reduction in energy consumption can be achieved by using automatic lighting control systems (e.g. Philips Actiume luminaire-based system solutions). Quick programmed start: 0.5 sec, flicker-free warm start, preheating the lamp electrodes.this enables the lamps to be switched on and off without reducing useful life. Ideal for areas with a high switching frequency. Digital control input according to the industry standard DAI (Digital Addressable ighting Interface) combined with the Touch and Dim push button protocol. ow energy consumption in standby 0.35W due to the new EII technology. Increased lamp wire flexibility thanks to the Parasitic Capacitance Compensation (longer lamp wiring possible up to meter). Smart power: constant light, independent of mains voltage fluctuations. Unit is protected against excessive mains voltages incorrect connections and incorrect lamp use. Striation-free operation, no stroboscopic effects. amp starts at % (DAI...00% in 00 ms). Automatic stop circuit is activated within five seconds in case of lamp failure (safety stop). Once the lamp has been replaced, the ballast resets automatically. Equipped with connectors suitable for automatic wiring machines. The Philips HF-RegulatorII electronic ballasts are equipped with EIIdim technology.this is a dedicated integrated circuit that ensures independent control of each electrode and, in doing so, takes care that: a. lamp life is unaffected by dimming position b. lamp burning is stable in every dimming position; and c. energy savings, when dimming are maximised. Applications Typical areas of application include: DAI installations with daylight linking and/or movement detection (for energy savings) DAI installations with remote control systems (combining energy savings with comfort) Installations with emergency back-up, according to VDE 008. Office applications were a simple and easy to install dimming system or personal light level adjustment is required. Examples Office buildings: insurance companies, banks, government ministries - Cellular or open plan offices - Conference rooms, lecture theatres, corridors Schools Hospitals Department stores, shops, supermarkets Hotels, restaurants and bars Cinemas, museums. Philips quality This applies optimum quality with respect to: System supplier As manufacturer of lamps, electronic control gear and lighting control equipment, Philips ensures that, from the earliest development stage, optimum performance is maintained. International standards Philips HF electronic regulating ballasts comply with all relevant international rules and regulations. Compliances and approvals RFI<30 MHz: E 5505 RFI>30 MHz: E 550 A Harmonics: E Immunity: E 657 Safety: E Performance: E 6099 Vibration & bump tests: E FC E Eb Quality standard: ISO 900 Environmental standard: ISO 00 Approval marks: EEC EMV-VDE 0 Temp. declared thermally protected: E 637- CE marking Technical data for installation Mains operation Rated mains voltage With tolerances for safety: +/- 0% Tolerances for performance +6%-8% Mains frequency Smart power: with AC mains voltage fluctuations, luminous flux varies by ± % max. DC voltage operation (during emergency back-up) Required battery voltage for guaranteed ignition Required battery voltage for burning lamps ominal light output is obtained at a voltage of 0-0 V 98-6 V 0-5 V 50/60 Hz 0-5 V 98V 5 V 76V 5 V 0V 0 V otes:. For continuous DC application, an external fuse should be used in the luminaire.. Continuous low DC voltages (<98 V) can influence the lifetime of the ballast. Earth leakage current Maximum number of ballasts which can be connected to one Residual Current Detector of 30 ma 30 Overvoltage protection Automatic restart after lamp replacement or voltage dip Mains current at 30V < 0.5 ma per ballast 8 hrs at 30 V AC hrs at 350 V AC Ballast amp type Qtyof Input amps current A HF-R TD T5 T5 W HE - HF-R TD T5 T5 W HE - HF-R TD 3/ T5 T5 W HE 3 - HF-R TD 3/ T5 T5 W HE - HF-R TD T5 T5 W HE - HF-R TD T5 T5 W HE - HF-R TD 8-35 T5 T5 8 W HE 0.39 HF-R TD 8-35 T5 T5 8 W HE 0.69 HF-R TD 8-35 T5 T5 35 W HE 0.7 HF-R TD 8-35 T5 T5 35 W HE HF-R TD T5 T5 W HO - HF-R TD T5 T5 W HO - HF-R TD 3/ T5 T5 W HO 3 - HF-R TD 3/ T5 T5 W HO - HF-R TD 39 T5 T5 39 W HO - HF-R TD 39 T5 T5 39 W HO - HF-R TD 9 T5 T5 9 W HO 0.0 HF-R TD 9 T5 T5 9 W HO 0.9 HF-R TD 5 T5 T5 5 W HO 0.6 HF-R TD 5 T5 T5 5 W HO 0.5 HF-R TD 80 T5/P- T5 80 W HO 0.38 HF-R TD 80 T5/P- T5 80 W HO - Yes A C Product ID A A B C D amps amps x80w / amps Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.3

13 Electronics (Dimming) HF-Regulator EII Touch and DAI T-5 Electronics (Dimming) HF-Regulator EII Touch and DAI T-5 Inrush current Qty of Max. quantity of ballasts Inrush current amps per Miniature Circuit / value time at Breaker typical mains Type B6 A impedance HF-R TD T5 - - HF-R TD T5 - - HF-R TD 3/ T HF-R TD 3/ T5 - - HF-R TD T5 - - HF-R TD T5 - - HF-R TD 8-35 T5 x8 8 9A/0 µs HF-R TD 8-35 T5 x8 5A/00 µs HF-R TD 8-35 T5 x35 8 9A/0 µs HF-R TD 8-35 T5 x35 5A/00 µs HF-R TD T5 - - HF-R TD T5 - - HF-R TD 3/ T HF-R TD 3/ T5 - - HF-R TD 39 T5 - - HF-R TD 39 T5 - - HF-R TD 9 T5 8 9A/0 µs HF-R TD 9 T5 3A/300 µs HF-R TD 5 T5 8 A/50 µs HF-R TD 5 T5 5A/00 µs HF-R TD 80 T5/P- 5A/00 µs HF-R TD 80 T5/P- - - Conversion table for max. quantities of ballasts on other types of Miniature Circuit Breakers MCB Type Relative quantity of ballasts B 6A 00%(see table on the left) B 0A 63% C 6A 70% C 0A 0%, I 6A 08%, I 0A 65% G, U, II 6A % G, U, II 0A 7% K, III 6A 5% K, III 0A 5% Insulation resistance test T5 lamp wiring Ignition time 500 V DC from ine/eutral to Earth (not between ine and eutral) ote: Ensure that the eutral is reconnected again after the above mentioned test is carried out and before the installation is put into operation. 500 V rated components and wiring are required with HF-RegulatorII T5. Typical 0.5 sec. quick warm start. amp Qty of Ballast Power Max cable Cap ) Tc max Operating amps Factor p-p/p-gnd Frequency PF ºC khz T5 HE W HF-R TD T T5 HE W HF-R TD T T5 HE W 3 HF-R TD 3/ T T5 HE W HF-R TD 3/ T T5 HE W HF-R TD T T5 HE W HF-R TD T T5 HE 8W HF-R TD 8-35 T / T5 HE 8W HF-R TD 8-35 T / T5 HE 35W HF-R TD 8-35 T / T5 HE 35W HF-R TD 8-35 T / T5 HO W HF-R TD T T5 HO W HF-R TD T T5 HO W 3 HF-R TD 3/ T T5 HO W HF-R TD 3/ T T5 HO 39W HF-R TD 39 T T5 HO 39W HF-R TD 39 T T5 HO 9W HF-R TD 9 T / T5 HO 9W HF-R TD 9 T / T5 HO 5W HF-R TD 5 T / T5 HO 5W HF-R TD 5 T / T5 HO 80W HF-R TD 80 T5/P / T5 HO 80W HF-R TD 80 T5/P ) p-p = between lamp wires Typical wire capacitance 50 pf/m (spacing between wires 0.5 mm) p-gnd = between lamp wires and ground Typical wire capacitance 7 pf/m (spacing between wires 0.5 mm) Technical data (all typical values at Vmains =30 V) amps Qty of Ballast System amp Ballast Efficacy umen CEMA amps Power* Power* oss* at 35 ºC** om.* W W W lm/w lm EEI T5 HE W HF-R TD T A T5 HE W HF-R TD T A T5 HE W 3 HF-R TD 3/ T A T5 HE W HF-R TD 3/ T A T5 HE W HF-R TD T A T5 HE W HF-R TD T A T5 HE 8W HF-R TD 8-35 T A T5 HE 8W HF-R TD 8-35 T5 6.3 x A T5 HE 35W HF-R TD 8-35 T A T5 HE 35W HF-R TD 8-35 T x A T5 HO W HF-R TD T A T5 HO W HF-R TD T A T5 HO W 3 HF-R TD 3/ T A T5 HO W HF-R TD 3/ T A T5 HO 39W HF-R TD 39 T A T5 HO 39W HF-R TD 39 T A T5 HO 9W HF-R TD 9 T A T5 HO 9W HF-R TD 9 T5 06. x A T5 HO 5W HF-R TD 5 T A T5 HO 5W HF-R TD 5 T5 8.8 x A T5 HO 80W HF-R TD 80 T5/P A T5 HO 80W HF-R TD 80 T5/P A Protected against accidental mains voltage connection Yes Control input Regulating level (lamp power) to 00% The control input complies with E 6099 (Amendment, Annex E) and is compatible with Philips lighting control equipment Standby power consumption Control input insulation, basic insulation < 350 mw < 500 V * Typical values for /830 measured at 00% power and 5 ºC lamp ambient temperature ** Typical values at 35 ºC (light top for MASTER T5 Super 80 lamps) 6. Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.5

14 Electronics (Dimming) HF-Regulator EII Touch and DAI T-5 Electronics (Dimming) HF-Regulator EII Touch and DAI T-5 Digital steps according DAI Relation between lamp power and digital regulator Mains power Input power vs dimlevel HF-REGUATORII (DAI/Touch and Dim) System power Ballast power losses Total lamp power Relative light level Option ) DAI Digital coded input signal according to Digital Addressable ighting Interface protocol, including 6 presets and 6 addresses possibility. Option ) Touch and Dim A short push on the button represents the On/Off command. Personal light levels can be stored in the internal memory by a firm longer push on the push button. Failure proof (non volatile) memory ensures that the ballast always remembers your setting when next time switched on or in case of power failure. Maximum number of ballasts connected in one circuit (switched on by one or multiple switches) Dimming level 3 Pcs Mains input signal Retractive push-to-make switch - Ignore status, <0.0 sec. To avoid reaction on mains spikes! - Short push, between 0.0 sec. and 0.5 sec. Switch On/Off - ong push, between 0.5 sec. and 0 sec. Dim Up/Down - Reset push, >0 sec. Set light to mid value (35% output) Technical data for design and mounting in fixtures Temperatures Temperature range to ignite lamp With ignition aid 0 C to +50 C at a % dim input -0 ºC to +50 ºC Storage temperature range -5 ºC to +80 ºC Stable lamp operation assured > 5 C Striation possible < 0 C Max t case 75 C The lifetime of a ballast depends on the temperature of the ballast.this means there is a relation between the Tc point on the ballast and its lifetime.the HF-RegulatorII ballast for T5 applications has a specified lifetime of 50,000 hrs at a measured Tcase of 75 C. Class II luminaires Outdoor Ignition aid Earthing Hum and noise level This application is not advisable; only with extensive tests on luminaires can the correct operation be verified EMI precautions have to be taken Ballast IP=3 In outdoor the luminaire has to be sufficiently IP rated Permitted humidity is tested according to E 637- par ote that no moisture or condensation may enter the ballast For optimum ignition the T5 lamps should be mounted at a maximum distance of 6 mm from a metal plate The metal plate should be electrically connected to the ballast housing Earthing of the HF ballast in a luminaire is necessary for EMC (electromagnetic compatibility) Inaudible Wiring diagrams HF BAAST lamp Connector type Connection wiring is greatly simplified through use of WAGO 5 universal connector. Suitable for both automatic wiring (AF and ADS) and manual wiring. Release: rotate and pull Remark: release all wires one by one IDC connection ADS/Manual connection Wire cross-section IDC connection 0.5 mm -.0 mm ADS manual connection 0.5 mm 0.75 mm * *Stranded wire Strip length HF BAAST lamps mm Wiring tips Earth connection to be made via housing or mains connector. Wiring inside fixture should be straight and as short as possible. amp wires should not run parallel to mains or control wires to avoid EMC problems. For optimal performance, note that: For one lamp ballasts wires and 5 as short as possible, equal in length and a minimum of 50 mm from mains or dim wires. Keep lamp wires 6 and 7 equal in length. For two lamp ballasts wires 3, and 5 as short as possible, equal in length and a minimum of 50 mm from mains or dim wires. Keep lamp wires 6 and 7, and and equal in length. otes. Data based on a mains supply with an impedance of 00 m (equal to 5 m cable of.5 mm and another 0 m to the middle of the power distribution), under worst case conditions.with an impedance of 800 m the number of ballasts can be increased by 0%.. Measurements will be verified in real installations, therefore data are subject to change. 3. In some cases the maximum number of ballasts is not determined by the MCB, but by the maximum electrical load of the lighting installation.. ote that the maximum number of ballasts is based on the assumption that these are all switched on at the same moment, i.e. by a wall switch. 5. Measurements were carried out on single-pole MCB s. For multi-pole MCB s it is recommended to reduce the number of ballasts by 0%. 6. First digital regulating steps (DAI) are fixed at % light output (dimming specification). 7. For optimum performance care has to be taken for symmetrical wiring. Minimal 6 mm distance from lamp to earth plane. The dim function will toggle after each individual push. Except when the value is lower than 0% it will always dim up, and when the light output is higher than 70% it will always dim down to perform according human perception. 6.6 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.7

Electronics (Dimming) HF-Regulator EII Touch and DAI T-5 Electronics (Dimming) Ordering and packaging data Ballast Piece Bulkpackaging EAcode Weight Qty Dimensions Volume Weight EAcode EOC lxwxh

15 Electronics (Dimming) HF-Regulator EII Touch and DAI T-5 Electronics (Dimming) Ordering and packaging data Ballast Piece Bulkpackaging EAcode Weight Qty Dimensions Volume Weight EAcode EOC lxwxh Gross kg pcs cm m 3 kg HF-R TD 8-35 T x0.8x HF-R TD 8-35 T x0.8x HF-R TD 9 T x0.8x HF-R TD 9 T x0.8x HF-R TD 5 T x0.8x HF-R TD 5 T x0.8x HF-R TD 80 T5/P x0.8x Ordering and packaging data Ballast Piece Bulkpackaging EAcode Weight Qty Dimensions Volume Weight EAcode EOC lxwxh Gross kg pcs cm m 3 kg HF-R TD T5 HF-R TD T5 HF-R TD 3/ T5 HF-R TD T5 HF-R TD T5 HF-R TD T5 HF-R TD T5 HF-R TD 3/ T5 HF-R TD 39 T5 HF-R TD 39 T5 HF-R TD 80 T5/P- Under development 6.8 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.9

16 Electronics (Dimming) HF-Regulator EII Touch and DAI T-D/P- Electronics (Dimming) HF-Regulator EII Touch and DAI T-D/P- HF-REGUATORII (Touch and DAI) Dimensions in mm D A B Product description Flat, lightweight high-frequency electronic regulating ballast, using DAI (Digital Addressable ighting Interface) or Touch and Dim push button protocol, for T-D fluorescent lamps.the HF-RegulatorII ballasts incorporates the new Philips EII technology offering full digital input (mains) and output (lamp) management. Features and benefits The lamp power can be regulated from 00% to %. Flat ballast design, mm high. Up to 75% reduction in energy consumption can be achieved by using automatic lighting control systems (e.g. Philips Actiume luminaire-based system solutions). Quick programmed start: 0.5 sec, flicker-free warm start, preheating the lamp electrodes.this enables the lamps to be switched on and off without reducing useful life. Ideal for areas with a high switching frequency. Digital control input according to the industry standard DAI (Digital Addressable ighting Interface) combined with the Touch and Dim push button protocol. ow energy consumption in standby 0.35W due to the new EII technology. Increased lamp wire flexibility thanks to the Parasitic Capacitance Compensation (longer lamp wiring possible up to meter). Smart power: constant light, independent of mains voltage fluctuations. Unit is protected against excessive mains voltages, incorrect connections and incorrect lamp use. Striation-free operation, no stroboscopic effects. amp starts at % (DAI..00% in 00 ms). Automatic stop circuit is activated within five seconds in case of lamp failure (safety stop). Once the lamp has been replaced, the ballast resets automatically. Equipped with connectors suitable for automatic wiring machines. The Philips HF-RegulatorII electronic ballasts are equipped with EII-dim technology.this is a dedicated integrated circuit that ensures independent control of each electrode and, in doing so, takes care that: a. lamp life is unaffected by dimming position b. lamp burning is stable in every dimming position; and c. energy savings, when dimming, are maximised. Applications Typical areas of application include: DAI installations with daylight linking and/or movement detection (for energy savings) DAI installations with remote control systems (combining energy savings with comfort) Installations with emergency back-up, according to VDE 008 Office applications were a simple and easy dimming system or personal light level adjustment is required. Examples Office buildings: insurance companies, banks, government ministries - Cellular or open plan offices - Conference rooms, lecture theatres, corridors Schools Hospitals Department stores, shops, supermarkets Hotels, restaurants and bars Cinemas, museums. Philips quality This applies optimum quality with respect to: System supplier As manufacturer of lamps, electronic control gear and lighting control equipment, Philips ensures that, from the earliest development stage, optimum performance is maintained. International standards Philips HF electronic regulating ballasts comply with all relevant international rules and regulations. Compliances and approvals RFI<30 MHz: E 5505 RFI>30 MHz: E 550 A Harmonics: E Immunity: E 657 Safety: E Performance: E 6099 Vibration & bump tests: E FC E Eb Quality standard: ISO 900 Environmental standard: ISO 00 Approval marks: EEC EMV-VDE 0 Temp. declared thermally protected: E 637- CE marking Technical data for installation Mains operation Rated mains voltage With tolerances for safety: +/- 0% Tolerances for performance +6%-8% Mains frequency Smart power: with AC mains voltage fluctuations, luminous flux varies by ± % max. DC voltage operation (during emergency back-up) Required battery voltage for guaranteed ignition Required battery voltage for burning lamps ominal light output is obtained at a voltage of 0-0 V 98-6 V 0-5 V 50/60 Hz 0-5 V 98V 5 V 76V 5 V 0V 0 V otes:. For continuous DC application, an external fuse should be used in the luminaire.. Continuous low DC voltages (<98 V) can influence the lifetime of the ballast. Earth leakage current Maximum number of ballasts which can be connected to one Residual Current Detector of 30 ma 30 Overvoltage protection Automatic restart after lamp replacement or voltage dip Mains current at 30V < 0.5 ma per ballast 8 hrs at 30 V AC hrs at 350 V AC Ballast amp type Qtyof Input amps current A HF-R TD 8 T-D T-D 8 W - HF-R TD 8 T-D T-D 8 W - HF-R TD 3/8 T-D T-D 8 W 3 - HF-R TD 3/8 T-D T-D 8 W - HF-R TD 36 T-D T-D 36 W 0.70 HF-R TD 36 T-D T-D 36 W 0.30 HF-R TD 58 T-D T-D 58 W 0.50 HF-R TD 58 T-D T-D 58 W 0.90 HF-R TD 36 P- P- 36 W - HF-R TD 36 P- P- 36 W - HF-R TD 0 P- P- 0 W - HF-R TD 0 P- P- 0 W - HF-R TD 55 P- P- 55 W - HF-R TD 55 P- P- 55 W - HF-R TD 80 T5/P- P- 80 W 0.38 HF-R TD 80 T5/P- P- 80 W - Yes A C Product ID A A B C D amps amps x80w / amps Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.3

17 Electronics (Dimming) HF-Regulator EII Touch and DAI T-D/P- Electronics (Dimming) HF-Regulator EII Touch and DAI T-D/P- Inrush current Qty of Max. quantity of ballasts Inrush current amps per Miniature Circuit / value time at Breaker typical mains Type B6 A impedance HF-R TD 8 T-D - - HF-R TD 8 T-D - - HF-R TD 3/8 T-D HF-R TD 3/8 T-D - - HF-R TD 36 T-D 8 5A/00 µs HF-R TD 36 T-D 3A/300 µs HF-R TD 58 T-D 8 5A/00 µs HF-R TD 58 T-D 3A/300 µs HF-R TD 36 P- - - HF-R TD 36 P- - - HF-R TD 0 P- - - HF-R TD 0 P- - - HF-R TD 55 P- - - HF-R TD 55 P- - - HF-R TD 80 T5/P- 5A/00 µs HF-R TD 80 T5/P- - - Conversion table for max. quantities of ballasts on other types of Miniature Circuit Breakers MCB Type Relative quantity of ballasts B 6A 00%(see table on the left) B 0A 63% C 6A 70% C 0A 0%, I 6A 08%, I 0A 65% G, U, II 6A % G, U, II 0A 7% K, III 6A 5% K, III 0A 5% Insulation resistance test Ignition time 500 V DC from ine/eutral to Earth (not between ine and eutral) ote: Ensure that the eutral is reconnected again after the above mentioned test is carried out and before the installation is put into operation. Typical 0.5 sec. quick warm start. amp Qty of Ballast Power Max cable Cap ) Tc max Operating amps Factor p-p/p-gnd Frequency PF ºC khz T-D 8W HF-R TD 8 T-D T-D 8W HF-R TD 8 T-D T-D 8W 3 HF-R TD 3/8 T-D T-D 8W HF-R TD 3/8 T-D T-D 36W HF-R TD 36 T-D / T-D 36W HF-R TD 36 T-D / T-D 58W HF-R TD 58 T-D / T-D 58W HF-R TD 58 T-D / ) p-p = between lamp wires Typical wire capacitance 50 pf/m (spacing between wires 0.5 mm) p-gnd = between lamp wires and ground Typical wire capacitance 7 pf/m (spacing between wires 0.5 mm) Protected against accidental mains voltage connection Yes Control input Regulating level (lamp power) to 00% The control input complies with E 6099 (Amendment, Annex E) and is compatible with Philips lighting control equipment Technical data (all typical values at Vmains =30 V) amps Qty of Ballast System amp Ballast Efficacy umen CEMA amps Power* Power* oss* om.* class. W W W lm/w lm EEI T-D 8W HF-R TD 8 T-D A T-D 8W HF-R TD 8 T-D A T-D 8W 3 HF-R TD 3/8 T-D A T-D 8W HF-R TD 3/8 T-D A T-D 36W HF-R TD 36 T-D A T-D 36W HF-R TD 36 T-D 70.8 x A T-D 58W HF-R TD 58 T-D A T-D 58W HF-R TD 58 T-D 09.8 x A P- 36W HF-R TD 36 P A P- 36W HF-R TD 36 P A P- 0W HF-R TD 0 P A P- 0W HF-R TD 0 P A P- 55W HF-R TD 55 P A P- 55W HF-R TD 55 P A P- 80W HF-R TD 80 T5/P A P- 80W HF-R TD 80 T5/P A * Typical values for /830 measured at 00% power Standby power consumption Control input insulation, basic insulation < 350 mw < 500 V 6.3 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.33

18 Electronics (Dimming) HF-Regulator EII Touch and DAI T-D/P- Electronics (Dimming) HF-Regulator EII Touch and DAI T-D/P- Technical data for design and mounting in fixtures Wiring diagrams Digital steps according DAI Temperatures Temperature range to ignite lamp With ignition aid 0 C to +50 C at a % dim input -0 ºC to +50 ºC Storage temperature range -5 ºC to +80 ºC HF BAAST HF BAAST Relative light level Relation between lamp power and digital regulation Stable lamp operation assured > 5 C Striation possible < 0 C Max t case 75 C lamp (T-D) lamp (P-) Mains power System power Total lamp power ifetime of a ballast depends on the temperature of the ballast.this means there is a relation between the Tc point on the ballast and its lifetime.the HF-RegulatorII ballast for T5 applications has a specified lifetime of 50,000 hrs at a measured Tcase of 75 C. HF BAAST HF BAAST Ballast power losses Class II luminaires This application is not advisable; only with extensive tests on luminaires can the correct operation be verified Input power vs dimlevel HF-REGUATORII (DAI/Touch and Dim) Option )DAI Digital coded input signal according to Digital Addressable ighting Interface protocol, including 6 presets and 6 addresses possibility. Option )Touchand Dim A short push on the button represents the On/Off command. Personal light levels can be stored in the internal memory by a firm longer push on the push button. Failure proof (non volatile) memory ensures that the ballast always remembers your setting when next time switched on or in case of power failure. Maximum number of ballasts connected in one circuit (switched on by one or multiple switches) Dimming level 3 Pcs Mains input signal Retractive push-to-make switch - Ignore status, <0.0 sec. To avoid reaction on mains spikes! - Short push, between 0.0 sec. and 0.5 sec. Switch On/Off - ong push, between 0.5 sec. and 0 sec. Dim Up/Down - Reset push, >0 sec. Set light to mid value (35% output) The dim function will toggle after each individual push. Except when the value is lower than 0% it will always dim up, and when the light output is higher than 70% it will always dim down to perform according human perception. Outdoor Ignition aid Earthing Hum and noise level EMI precautions have to be taken Ballast IP=3 In outdoor the luminaire has to be sufficiently IP rated Permitted humidity is tested according to E 637- par ote that no moisture or condensation may enter the ballast For optimum ignition the T-D lamps should be mounted 3 mm from a metal plate. The metal plate should be electrically connected to the ballast housing For optimum ignition the P- lamps should be mounted 6 mm from a metal plate. The metal plate should be electrically connected to the ballast housing Earthing of the HF ballast in a luminaire is necessary for EMC (electromagnetic compatibility) Inaudible Connector type Connection wiring is greatly simplified through use of WAGO 5 universal connector. Suitable for both automatic wiring (AF and ADS) and manual wiring. Release: rotate and pull Remark: release all wires one by one IDC connection ADS/Manual connection Wire cross-section ADS manual connection 0.5 mm -.0 mm IDC connection 0.5 mm 0.75 mm (*) *Stranded wire Strip length lamps (T-D) mm lamps (P-) Wiring tips Earth connection to be made via housing or mains connector. Wiring inside fixture should be straight and as short as possible. amp wires should not run parallel to mains or control wires to avoid EMC problems. For optimal performance, note that: For one lamp ballasts wires and 5 as short as possible, equal in length and a minimum of 50 mm from mains or dim wires. Keep lamp wires 6 and 7 equal in length. For two lamp ballasts wires 3, and 5 as short as possible, equal in length and a minimum of 50 mm from mains or dim wires. Keep lamp wires 6 and 7, and and equal in length. otes. Data based on a mains supply with an impedance of 00 m (equal to 5 m cable of.5 mm and another 0 m to the middle of the power distribution), under worst case conditions.with an impedance of 800 m the number of ballasts can be increased by 0%.. Measurements will be verified in real installations, therefore data are subject to change. 3. In some cases the maximum number of ballasts is not determined by the MCB, but by the maximum electrical load of the lighting installation.. ote that the maximum number of ballasts is based on the assumption that these are all switched on at the same moment, i.e. by a wall switch. 5. Measurements were carried out on single-pole MCB s. For multi-pole MCB s it is recommended to reduce the number of ballasts by 0%. 6. First digital regulating steps (DAI) are fixed at % light output (dimming specification). 7. For optimum performance care has to be taken for symmetrical wiring. 6.3 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.35

Electronics (Dimming) HF-Regulator EII Touch and DAI T-D/P- Electronics (Dimming) Ordering and packaging data Ballast Piece Bulkpackaging EAcode Weight Qty Dimensions Volume Weight EAcode EOC lxwxh

19 Electronics (Dimming) HF-Regulator EII Touch and DAI T-D/P- Electronics (Dimming) Ordering and packaging data Ballast Piece Bulkpackaging EAcode Weight Qty Dimensions Volume Weight EAcode EOC lxwxh Gross kg pcs cm m 3 kg HF-R TD 36 T-D x0.8x HF-R TD 36 T-D x0.8x , HF-R TD 58 T-D x0.8x HF-R TD 58 T-D x0.8x Ordering and packaging data Ballast Piece Bulkpackaging EAcode Weight Qty Dimensions Volume Weight EAcode EOC lxwxh Gross kg pcs cm m 3 kg HF-R TD 8 T-D HF-R TD 8 T-D HF-R TD 3/8 T-D Under development Ordering and packaging data Ballast Piece Bulkpackaging EAcode Weight Qty Dimensions Volume Weight EAcode EOC lxwxh Gross kg pcs cm m 3 kg HF-R TD 80 T5/P x0.6x Ordering and packing data Ballast Piece Bulkpackaging EAcode Weight Qty Dimensions Volume Weight EAcode EOC lxwxh Gross kg pcs cm m 3 kg HF-R TD 36 P- HF-R TD 36 P- HF-R TD 0 P- HF-R TD 0 P- HF-R TD 55 P- HF-R TD 55 P- HF-R TD 80 T5/P- Under development 6.36 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.37

20 Electronics (Dimming) HF-Regulator T-D/P- Electronics (Dimming) HF-Regulator T-D/P- HF-R T-D Product description Compact, lightweight high-frequency electronic regulating ballast for T-D (Krypton) fluorescent lamps. Features and benefits The lamp power can be regulated down to 3% Striation-free operation -0 V control input (European standard) Programmed start: flicker-free warm start, ideal for areas with a high switching frequency 50% longer lamp life than with conventional ballasts Up to 60% reduction in energy consumption can be achieved by using automatic lighting control systems. All Philips HF-Regulator electronic ballasts are equipped with α-control. This is a dedicated integrated circuit that ensures independent control of each electrode and, in doing so, takes care that: a. lamp life is unaffected by dimming position; b. lamp burning is stabler in every dimming position; and c. energy savings, when dimming, are maximised. Applications Typical areas of application include: -0 V installations with daylight linking and/or movement detection (energy saving) -0 V installations with remote control systems (comfort) Installations with emergency back-up, according to VDE 008 Examples Office buildings: insurance companies, banks, government ministries Corridors Department stores, shops, supermarkets Hotels Hospitals Cinemas. Philips quality This implies optimum quality with respect to: System supplier As manufacturer of lamps, electronic control gear and lighting control equipment, Philips ensures that, from the earliest development stage, optimum performance is maintained International standards Philips HF electronic regulating ballasts comply with all relevant international rules and regulations. Compliances and approvals RFI < 30 MHz: E 5505 RFI > 30 MHz: E 550 A Harmonics: E Immunity: E 657 Safety: E Performance: E 6099 Vibration & bump tests: IEC FC IEC 68--9Eb Quality standard: ISO 900 Environmental standard: E 00 Approval marks: EEC CE marking. Technical data for installation Mains operation Rated mains voltage with tolerances for safety: +/- 0% tolerances for performance: +6% -8% Mains frequency Operating frequency Power factor 0-0 V 98-6 V 0-5 V 50/60 Hz > khz 0.95 at 00% power Smart power: with AC mains voltage fluctuations, 0-5 V luminous flux varies by ± % max. DC voltage operation (during emergency back-up) Required battery voltage for guaranteed ignition 98-5 V DC Required battery voltage for burning lamps 76-5 V DC otes:. For a continuous DC application, an external fuse should be used in the luminaire.. Continuous low DC voltages (< 98 V) can influence the lifetime of the ballast. Control input Control voltage Protected against accidental mains voltage connection - 0 V DC yes Regulating level (lamp power) 3 to 00% The control input complies with E 6099, (Amendment, Annex E) and is compatible with Philips lighting control equipment. Dual fixture; master slave operation not advisable Advised maximum cable ca pacity for optimum performance and max. 30 pf: between two sets of EMI suppression lamp wires (each set of lamp wires is connected to one electrode of the lamp max. 50 pf: between one set of lamp wires (connected to one electrode of the lamp) and earth Automatic restart after lamp yes for - and -lamp ballasts; replacement or voltage dip for 3- and -lamp ballasts, the mains power needs to be reset. Insulation resistance test Mains current at 30V 500 V DC from ine/eutral to Earth (not between ine and eutral) ote: Ensure that the neutral is reconnected again after abovementioned test is carried out and before the installation is put in operation. Ballast Input current A HF-R 8 T-D 0.09 HF-R 8 T-D 0.8 HF-R 38 T-D 0.7 HF-R 8 T-D 0.3 HF-R 36 T-D 0.8 HF-R 36 T-D 0.3 HF-R 58 T-D 0.6 HF-R 58 T-D 0.5 HF-R 36 P- 0.8 HF-R 36 P- 0.3 HF-R 0 P- 0. HF-R 0 P- 0. HF-R 55 P- 0.6 HF-R 55 P- 0.5 Inrushcurrent Ballast Max.quantityof ballasts Inrushcurrent per Miniature Circuit /value time at typical Breaker mains impedance type B6A C6A HF-R 8 T-D 8 8 5A / 00 µ sec HF-R 8 T-D 8 8 5A / 00 µ sec HF-R 38 T-D 8 8 3A / 300 µ sec HF-R 8 T-D 0 3A / 00 µ sec HF-R 36 T-D A / 00 µ sec Dimensions in mm D A A C B Product ID A A B C D amps amps Ignition time < s Earth leakage current < 0.5 ma per ballast Maximum number of ballasts which can be connected to one Residual Current Detector of 30 ma 30 Overvoltage protection 8 hrs at 30 V AC hrs at 350 V AC HF-R 36 T-D 8 8 5A / 300 µ sec HF-R 58 T-D 0 3A / 300 µ sec HF-R 58 T-D 0 3A / 300 µ sec HF-R 36 P A / 00 µ sec HF-R 36 P A / 00 µ sec HF-R 0 P- 0 3A / 300 µ sec HF-R 0 P- 0 3A / 300 µ sec HF-R 55 P- 0 3A / 300 µ sec HF-R 55 P- 0 3A / 300 µ sec 6.38 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.39

21 Electronics (Dimming) HF-Regulator T-D/P- Electronics (Dimming) HF-Regulator T-D/P- Conversion table for max.quantities of ballasts on other types of Miniature Circuit Breaker MCBtype Relative quantityof ballasts B 6 A 00% (see table above) B 0 A 63% C 6 A 70% C 0 A 0%, I 6 A 08%, I 0 A 65% G, U, II 6 A % G, U, II 0 A 7% K, III 6 A 5% K, III 0 A 5% Technical data in relation to energysaving amp Qty.of Ballast System amp CEMA lamps Power* Efficacy* Power* Efficacy* umen* class. W lm/w W lm/w lm EEI T-D 8 HF-R 8 T-D A T-D 8 HF-R 8 T-D A T-D 8 3 HF-R 3/8 T-D A T-D 8 HF-R 3/8 T-D A T-D 36 HF-R 36 T-D A T-D 36 HF-R 36 T-D A T-D 58 HF-R 58 T-D A T-D 58 HF-R 58 T-D A P- 36 HF-R 36 P A P- 36 HF-R 36 P A P- 0 HF-R 0 P A P- 0 HF-R 0 P A P- 55 HF-R 55 P A P- 55 HF-R 55 P A * At 00%. amp power (W %) Relationship between lamp power and control voltage T-Dlamp circuits + Wiring diagrams + HF BAAST lamp HF BAAST lamps Control voltage (V DC) Technical data for design and mounting HF ballasts in fixtures Temperatures Temperature range to ignite lamp +5 to +50 C with ignition aid Stable lamp operation assured > 5 C Max. tcase = 75 C** ote: ifetime of a ballast depends on the temperature of the ballast.this means there is a relation between the Tc point on the ballast and its lifetime. For more information regarding this subject consult the Philips Application guide to fluorescent lamp control gear. Class II luminaires Hum and noise level this application is not advisable; only with extensive tests on luminaires can the correct operation be verified inaudible Permitted humidity is tested according to IEC 98 par.. ote that no moisture or condensation may enter the ballast. The connection wiring is greatly simplified through use of insert contacts, with push buttons. For 3/-lamp ballasts, the earth connection can be made via housing or terminal block. Wire cross-section: On the mains side (mains/control voltage): mm On the lamp side: mm Strip length: Strip length: HF-R 3/8 T-D T-Dlamp circuits - + P-lamp circuits + - DC + HF BAAST - DC + Filter Coil 3 lamps HF BAAST lamp mm mm. otes:. Data is based on a mains supply with an impedance of 00 m (equal to 5 m cable of.5 mm and another 0 m to the middle of the power distribution), under worst case conditions.with an impedance of 800 m the number of ballasts can be increased by 0%.. Measurements will be verified in real installations; therefore data are subject to change. 3. In some cases the maximum number of ballasts is not determined by the MCB but by the maximum electrical load of the lighting installation.. ote that the maximum number of ballasts is given when these are all switched on at the same moment, i.e. by a wall switch. 5. Measurements were carried out on single-pole MCB s. For multi-pole MCB s it is advisable to reduce the number of ballasts by 0%. Ordering and packing data Ballast Piece Bulkpacking 3 ote: For optimum performance, note that wires from connection and for single-lamp versions, and from connections 3, and 5 for twin-lamp versions, and from connections 5 and 6 for triple/quad-lamp versions should be kept short and equal in length. The ballasts that are thermally protected use a protective method of another type providing equivalent thermal protection DC + HF BAAST lamps HF BAAST lamps otes:. For optimum performance, note that wires from connections and for single-lamp versions, and from connections 3, and 5 for twinlamp versions should be kept short and equal in length (see the advice on maximum cable capacity).. Wiring diagrams for HF-R ballasts differ from the ETC...R/0 types; short and long wires have been interchanged. EAcode Weight Qty. Dimensions Volume Weight EAcode EOC l xwxh gross kg pcs. cm m 3 kg HF-R 8 T-D x x HF-R 8 T-D x 3 x HF-R 3/8 T-D x x HF-R 36 T-D x x HF-R 36 T-D x 3 x HF-R 58 T-D x x HF-R 58 T-D x 3 x HF-R 36 P x x HF-R 36 P x 3 x HF-R 0 P x x HF-R 0 P x 3 x HF-R 55 P x x HF-R 55 P x 3 x DC + Filter Coil Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.

22 Electronics (Dimming) HF-Regulator T5 Electronics (Dimming) HF-Regulator T5 HF-R T5 Dimensions in mm D A Product description Slim, lightweight high-frequency electronic regulating ballast for T5 fluorescent lamps. Features and benefits The lamp power can be regulated down to 3% Striation-free operation - 0 V control input (European standard) Programmed start: flicker-free warm start, ideal for areas with a high switching frequency Up to 60% reduction in energy consumption can be achieved by using automatic lighting control systems. All Philips HF-Regulator electronic ballasts are equipped with α-control.this is a dedicated integrated circuit that ensures independent control of each electrode and, in doing so, takes care that: a. lamp life is unaffected by dimming position; b. lamp burning is stabler in every dimming position; and c. energy savings, when dimming, are maximised. Applications Typical areas of application include: - 0 V installations with daylight linking and/or movement detection (energy saving) - 0 V installations with remote control systems (comfort) Installations with emergency back-up, according to VDE 008 Examples Office buildings: insurance companies, banks, government ministries Corridors Department stores, shops, supermarkets Hotels Hospitals Cinemas. Philips quality This implies optimum quality with respect to: System supplier As manufacturer of lamps, electronic control gear and lighting control equipment, Philips ensures that, from the earliest development stage, optimum performance is maintained International standards Philips HF electronic regulating ballasts comply with all relevant international rules and regulations. Compliances and approvals RFI < 30 MHz: E 5505 RFI > 30 MHz: E 550 A Harmonics: E Immunity: E 657 Safety: E Performance: E 6099 Vibration & bump tests: IEC FC IEC 68--9Eb Quality standard: E 900 Environmental standard: E 00 Approval marks: EEC VDE-EMV CE marking. Technical data for installation Mains operation Rated mains voltage 0-0 V** with tolerances for safety: +/- 0% 98-6 V** tolerances for performance: +6% -8% 0-5 V Mains frequency 50/60 Hz Operating frequency > khz Power factor 0.90*; 0.95 at 00% power Smart power: with AC mains voltage fluctuations, 0-5 V luminous flux varies by ± % max. DC voltage operation (during emergency back-up) Required battery voltage for guaranteed ignition 98-5 V DC Required battery voltage for burning lamps 76-5 V DC ominal light output is obtained at a voltage of 0-0 V DC otes:.for a continuous DC application, an external fuse should be used in the luminaire..continuous low DC voltage (< 98 V) can influence lifetime of the ballast. Control input Control voltage - 0 V DC Protected against accidental mains voltage connection yes Regulating level (lamp power) 3 to 00% The control input complies with E 6099, (Amendment, Annex E) and is compatible with Philips lighting control equipment. Ignition time < s Earth leakage current < 0.5 ma per ballast Maximum number of ballasts which can be connected to one Residual Current Detector of 30 ma 30 Overvoltage protection 8 hrs at 30 V AC hrs at 350 V AC amp wiring for HF-R... T V rated components and wiring are required with HF-Regulator T5 Dual fixture; master slave operation not advisable Advised maximum cable capacity for optimum performance and max. 5 pf: between two sets of EMI suppression lamp wires (each set of lamp wires is connected to one electrode of the lamp max. 75 pf: between one set of lamp wires (connected to one electrode of the lamp) and earth Automatic restart after lamp replacement or voltage dip Insulation resistance test Mains current at 30V yes (for - and -lamp ballasts); for 3- and -lamp ballasts, the mains power needs to be reset. 500 V DC from ine/eutral to Earth (not between ine and eutral) ote: Ensure that the neutral is reconnected again after abovementioned test is carried out and before the installation is put into operation. Ballast Input current A HF-R T HF-R T5 0.5 HF-R 3 T5 0.3 HF-R T5 0.9 HF-R T5 0. HF-R T5 0.0 HF-R T5 0. HF-R T5 0. HF-R 8 T5 0.6 HF-R 8 T5 0.8 HF-R 35 T5 0.9 HF-R 35 T5 0.3 HF-R 39 T5 0.9 HF-R 39 T HF-R 9 T5 0.5 HF-R 9 T5 0.8 HF-R 5 T5 0.7 HF-R 5 T5 0.5 HF-R 80 T B * Value for x W and x W types ** Value for x 80 W A C Product ID A A B C D amps amps / amps Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.3

23 Electronics (Dimming) HF-Regulator T5 Electronics (Dimming) HF-Regulator T5 Inrushcurrent Ballast Max.quantityof ballasts Inrushcurrent per Miniature Circuit /value time at typical Breaker mains impedance type B6A C6A HF-R T A / 0 µs HF-R T A / 00 µs HF-R 3 T A / 00 µs HF-R T A / 00 µs HF-R T A / 0 µs HF-R T A / 00 µs HF-R T A / 0 µs HF-R T A / 00 µs HF-R 8 T A / 0 µs HF-R 8 T A / 00 µs HF-R 35 T A / 0 µs HF-R 35 T5 0 3A / 300 µs HF-R 39 T A / 0 µs HF-R 39 T5 0 3A / 300 µs HF-R 9 T A / 0 µs HF-R 9 T5 0 3A / 300 µs HF-R 5 T A / 0 µs HF-R 5 T5 0 3A / 300 µs HF-R 80 T5 0 3A / 300 µs Conversion table for max.quantities of ballasts on other types of Miniature Circuit Breaker MCBtype Relative quantityof ballasts B 6 A 00% (see table above) B 0 A 63% C 6 A 70% C 0 A 0%, I 6 A 08%, I 0 A 65% G, U, II 6 A % G, U, II 0 A 7% K, III 6 A 5% K, III 0 A 5% Technical data in relation to energysaving amp Qty.of Ballast System amp CEMA lamps Power* Efficacy* Power* Efficacy* umen* class. W lm/w W lm/w lm EEI T5 HE W HF-R T A T5 HE W HF-R T A T5 HE W 3 HF-R 3/ T A T5 HE W HF-R 3/ T A T5 HE W HF-R T A T5 HE W HF-R T A T5 HE 8W HF-R 8 T A T5 HE 8W HF-R 8 T A T5 HE 35W HF-R 35 T A T5 HE 35W HF-R 35 T A T5 HO W HF-R T A T5 HO W HF-R T A T5 HO 39W HF-R 39 T A T5 HO 39W HF-R 39 T A T5 HO 9W HF-R 9 T A T5 HO 9W HF-R 9 T A T5 HO 5W HF-R 5 T A T5 HO 5W HF-R 5 T A T5 HO 80W HF-R 80 T A * At 00% (5 /830). amp power (W %) Relationship between lamp power and control voltage Control voltage (V DC) Technical data for design and mounting HF ballasts in fixtures Temperatures Temperature range to ignite lamp +0 to +50 C with ignition aid Stable lamp operation assured > 5 C Striation possible < 5 C Max. tcase = 75 C** ote: ifetime of a ballast depends on the temperature of the ballast.this means there is a relation between the Tc point on the ballast and its lifetime. For more information regarding this subject consult the Philips Application guide to fluorescent lamp control gear. Class II luminaires Hum and noise level this application is not advisable; only with extensive tests on luminaires can the correct operation be verified inaudible Permitted humidity is tested according to IEC 98 par.. ote that no moisture or condensation may enter the ballast. The ballasts that are thermally protected use a protective method of another type providing equivalent thermal protection. otes:. Data is based on a mains supply with an impedance of 00 (equal to 5 m cable of.5 mm and another 0 m to the middle of the power distribution), under worst case conditions.with an impedance of 800 the number of ballasts can be increased by 0%.. Measurements will be verified in real installations; therefore data are subject to change. 3. In some cases the maximum number of ballasts is not determined by the MCB but by the maximum electrical load of the lighting installation.. ote that the maximum number of ballasts is given when these are all switched on at the same moment, i.e. by a wall switch. 5. Measurements were carried out on single-pole MCB s. For multi-pole MCB s it is advisable to reduce the number of ballasts by 0%. 6. First digital regulating steps are fixed at 3% light output (dimming specification). 6. Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.5

24 Electronics (Dimming) HF-Regulator T5 Electronics (Dimming) HF-Regulator T5 Ordering and packing data Ballast Piece Bulkpacking EAcode Weight Qty. Dimensions Volume Weight EAcode EOC + DC HF BAAST lamp DC HF BAAST - + lamp 80 W 3 l xwxh gross kg pcs. cm m 3 kg HF-R T x 9.8 x HF-R T x 9.8 x HF-R 3/ T x.0 x HF-R T x 9.8 x HF-R T x 9.8 x HF-R T x 9.8 x HF-R T x 9.8 x DC HF BAAST lamps DC HF BAAST 3 lamps x T5 HF-R 8 T x 9.8 x HF-R 8 T x 9.8 x HF-R 35 T x 9.8 x HF-R 35 T x 9.8 x HF-R 39 T x 9.8 x HF-R 39 T x 9.8 x HF-R 9 T x 9.8 x HF-R 9 T x 9.8 x HF-R 5 T x 9.8 x HF-R 5 T x 9.8 x HF-R 80 T x 7.0 x Wiring diagrams DC HF BAAST lamps x T5 Connection wiring is greatly simplified through use of insert contacts; earth connection can be made via housing or terminal block. Wire cross-section: On the mains side (mains/control voltage): mm On the lamp side: mm Strip length: mm ote: For optimum performance, note that wires from connection and for single-lamp versions, and from connections 3, and 5 for twin-lamp versions, and from connections 5 and 6 for triple/quad-lamp versions should be kept short and equal in length. 6.6 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.7

Electronics (Dimming) HF-Regulator P-T/C Electronics (Dimming) HF-Regulator P-T/C HF-REGUATOR P-T/C Dimensions in mm B A A D C B ddescription Compact, lightweight, high-frequency electronic

25 Electronics (Dimming) HF-Regulator P-T/C Electronics (Dimming) HF-Regulator P-T/C HF-REGUATOR P-T/C Dimensions in mm B A A D C B ddescription Compact, lightweight, high-frequency electronic regulating ballast for P-T and P-C compact fluorescent lamps. Features and benefits The lamp power can be regulated down to 3% (0-00% for HF- R 57 P-T). Quick programmed start: 0.5 sec, flicker-free warm start, preheating the lamp electrodes;this enables the lamps to be switched on and off without reducing useful life. Ideal for areas with a high switching frequency. Stable lamp operation, striation-free operation. -0V control input (European standard). Up to 50% longer lamp life than with conventional ballasts. Up to 75% reduction in energy consumption can be achieved by using automatic lighting control systems. Smart power: constant light output independent of mains voltage fluctuations. Unit is protected against excessive mains voltages and incorrect connections. Automatic stop circuit is activated within five seconds in case of lamp failure (safety stop). Once the lamp has been replaced, the ballast resets automatically. All Philips HF-Regulator electronic ballasts are equipped with α-control.this is a dedicated integrated circuit that ensures independent control of each electrode and, in doing so, takes care that: a. lamp life is unaffected by dimming position b. lamp burning is stable in every dimming position; and c. energy savings, when dimming, are maximised. Applications Typical areas of application include: Installations with daylight linking and/or movement detection (for energy savings) Installations with remote control systems (personal scene setting) Installations with emergency back-up, according to VDE 008. Examples: Office buildings: insurance companies, banks, government ministries Cellular offices, open plan offices, corridors and lobbies Conference rooms, lecture theatres Department stores, shops, supermarkets and malls Hotels, restaurants and bars Cinemas, museums Hospitals Schools. Philips quality This applies optimum quality with respect to: System supplier As manufacturers of lamps, electronic control gear and lighting control equipment, Philips ensures that, from the earliest development stage, optimum performance is maintained. International standards Philips HF electronic regulating ballasts comply with all relevant international rules and regulations. Product ID A A B B C D amps amps Compliances and approvals RFI<30 MHz: E 5505* RFI>30 MHz: E 550 B Harmonics: E Immunity: E 657 Safety: E Performance: E 6099 Vibration & bump tests: E FC E Eb Quality standard: ISO 900 Environmental standard: ISO 00 Approval marks: EEC VDE-EMV Temp. declared thermally protected E CE marking * Tested with ballast functional ground connected to earth. Technical data for installation Mains operation Rated mains voltage With tolerances for safety: +/- 0% Tolerances for performance +6%-8% Mains frequency Operating frequency Power factor Power factor HF-R 8 P-T/C Smart power: with AC mains voltage fluctuations, uminous flux varies by + % max. 0-0 V 98-6 V 0-5 V 50/60 Hz > khz 0.95 at 00% power 0.90 at 00% power 0V - 5 V DC voltage operation (during emergency back-up) Required battery voltage for guaranteed ignition 98V - 5V Required battery voltage for burning lamps 76V - 5V ominal light output is obtained at a voltage of 0V - 0V Inrushcurrent Ballast amp Max.quantityof ballasts Inrushcurrent /value per Miniature Circuit time at typical Breaker Type B6A mains impedance HF-R 8 P-T/C P-T/C 8W 8 7A/50µs HF-R 8 P-T/C P-T/C 8W 8 7A/50µs HF-R 6- P-T/C P-T/C 6W 8 7A/50µs HF-R 6- P-T/C P-T/C 6W 8 7A/50µs HF-R 6- P-T/C P-T 3W 8 7A/50µs HF-R 6- P-T/C P-T 3W 5A/00µs HF-R 6- P-T/C P-T W 8 7A/50µs HF-R 6- P-T/C P-T W 5A/00µs HF-R 57 P-T P-T 57W 5A/50µs HF-R 57 P-T P-T 57W 5A/50µs otes:. For continuous DC application, an external fuse should be used in the luminaire.. Continuous low DC voltages (<98V) can influence the lifetime of the ballast. Earth leakage current Maximum number of ballasts which can be connected to one Residual Current Detector of 30 ma 30 Overvoltage protection Automatic restart after lamp replacement or voltage dip Conversion table for max.quantities of ballasts on other types of Miniature Circuit Breakers < 0.5 ma per ballast 8 hrs at 30 V AC hrs at 350 V AC Mains current at 30V Ballast amp Input current A HF-R 8 P-T/C P-T/C 8W 0.09 HF-R 8 P-T/C` P-T/C 8W 0.7 HF-R 6- P-T/C P-T/C 6W 0.3 HF-R 6- P-T/C P-T 3W 0.7 HF-R 6- P-T/C P-T W 0. HF-R 6- P-T/C P-T/C 6W 0.5 HF-R 6- P-T/C P-T 3W 0.33 HF-R 6- P-T/C P-T W 0. HF-R 57 P-T P-T 57W 0.7 HF-R 57 P-T P-T 57W 0.53 MCBType Relative quantityof ballasts B 6A 00%(see table on the left) B 0A 63% C 6A 70% C 0A 0%, I 6A 08%, I 0A 65% G, U, II 6A % G, U, II 0A 7% K, III 6A 5% K, III 0A 5% Yes 6.8 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.9

26 Electronics (Dimming) HF-Regulator P-T/C Electronics (Dimming) HF-Regulator P-T/C Insulation resistance test 500 V DC from ine/eutral to Earth (not between ine and eutral) ote: Ensure that the neutral is reconnected again after the above mentioned test is carried out and before the installation is put into operation. amp power (W %) amp wiring Ignition time The use of 500V rated components and wiring is advised for P-T 3W, W and 57W types. Typical 0.5 sec Control voltage (V DC) Relationship between lamp power and control voltage Wiring diagrams Advised maximum cable capacity for optimum performance and EMI Suppression Control input Control voltage Protected against accidental mains voltage connection Technical data in relation to energysaving Max. 30 pf: between two sets of lamp wires (each set of lamp wires is connected to one electrode of the lamp) Max. 75 pf: between one set of lamp wires (connected to one electrode of the lamp) and earth. Care has to be taken for symmetrical wiring 0V DC Yes Regulating level (lamp power) 3 to 00% The control input complies with E 6099 (Amendment, Annex E) and is compatible with Philips lighting control equipment. Technical data for design and mounting in fixtures Temperatures Temperature range to ignite lamp +0 C to +50 C With ignition aid Stable lamp operation assured > 5 C Striation possible < 5 C Max t case 75 C Earthing Class II luminaires Hum and noise level Earthing of the HF ballast in a luminaire is necessary for EMC (electromagnetic compatibility) This application is not advisable; only with extensive tests on luminaires can the correct operation be verified Inaudible Permitted humidity is tested according to E 637 par.. ote that no moisture or condensation may enter the ballast. amp Qtyof Ballast System amp CEMA lamps power* Efficacy* Power* Efficacy* umen* class. W lm/w W lm/w lm EEI P-C 8W HF-R 8 P-T/C A P-T 8W HF-R 8 P-T/C A P-C 8W HF-R 8 P-T/C A P-T 8W HF-R 8 P-T/C A P-C 6W HF-R 6- P-T/C A P-T 6W HF-R 6- P-T/C A P-C 6W HF-R 6- P-T/C A P-T 6W HF-R 6- P-T/C A P-T 3W HF-R 6- P-T/C A P-T 3W HF-R 6- P-T/C A P-T W HF-R 6- P-T/C A P-T W HF-R 6- P-T/C A P-T 57W HF-R 57 P-T A P-T 57W HF-R 57 P-T A Connecting wiring is greatly simplified through use of insert contacts: Wire cross-section: Mains connector [Orange] 0.5 mm.5 mm Control connector [Blue] 0.5 mm.5 mm amp(s) connector [Gray] 0.5 mm.5 mm otes. For optimum performance, note that wires from connection and should be kept short and equal in length.. Keep lamp wiring as short as possible; do not bunch wires from terminals & with those from terminals 3 & (-lamp ballasts), or wires from terminals 3,, 5 & 6 with those from terminals,, 7 & 8 (-lamp ballasts). 3. lp-lp between lamp wires Typical capacitance m wires close together (spacing 0.5 mm) 6 pf Typical capacitance 0.5m wires close together (spacing 0.5 mm) 3 pf lp-lg between lamp wires and ground Typical capacitance m wires close to ground (spacing 0.5 mm) 7 pf Typical capacitance 0.5 m wires close to ground (spacing 0.5 mm) 38 pf. Data is based on a mains supply with an impedance of 00 m (equal to 5 m cable of.5 mm and another 0 m to the middle of the power distribution), under worst case conditions.with an impedance of 800 m the number of ballasts can be increased by 0%. 5. Measurements will be verified in real installations, therefore data are subject to change. 6. In some cases the maximum number of ballasts is not determined by the MCB, but by the maximum electrical load of the lighting installation. 7. ote that the maximum number of ballasts is based on the assumption that these are all switched on the same moment, i.e. by a wall switch. 8. Measurements were carried out on single-pole MCB s. For multi-pole MCB s it is recommended to reduce the number of ballasts by 0%. Ordering and packaging data Ballast Piece Bulkpacking EAcode Weight Qty Dimensions Volume Weight EAcode EOC l xwxh gross kg pcs cm m 3 kg HF-R 8 P-T/C x.5x HF-R 8 P-T/C x.5x HF-R 6- P-T/C x.5x HF-R 6- P-T/C x.5x HF-R 57 P-T x.5x * At 00% 6.50 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.5

27 Electronics (Dimming) HF-Regulator Touch and Dim (T) Electronics (Dimming) HF-Regulator Touch and Dim (T) HF-R Touch and Dim HF-R Touch and Dim Touch and Dim Product description Slimline or Compact, lightweight high-frequency electronic regulating ballast, using a specific digital HF-Regulator Touch and Dim protocol. A dedicated range for T5,T5C and TD fluorescent lamps. Features and benefits Easy personal control, creating your personal lighting level at the touch of a button. Simple installation diagram. o control device required, ballast will work in combination with any standard retractive / push-to-make switch. A short push represents the On/Off command, and personal light level preference can be stored in the internal memory by a firm longer push on the button. Failure proof (on volatile) memory ensures that ballast always remembers your setting when next time switched on, or in case of power failure. Presets can be selected and adjusted between 3% and 00% light output by a long push. Quick programmed soft-start: 0.5 sec, fading to default (00%) or fading to preset level. Striation-free operation. System reset/alignment by means of long push min 0 Sec. ight will adjust to 35% value. Smart power: constant light independent of mains voltage fluctuations. All Philips HF-Regulator electronic ballast s are equipped with α-control.this is a dedicated integrated circuit that ensures independent control of each electrode and, in doing so, takes care that: a. lamp life is unaffected by dimming position b.lamp burning is stable in every dimming position; and c. energy savings, when dimming are maximised Applications Typical areas of application include: Office applications were a simple and easy to install dim system or personal light level adjustment is required. Examples Cellular office, free-floor standing luminaries. Open plan offices(up to 3 luminaires). Small conference rooms, ecture theatres. Hotels, restaurants. Hospitals, Medical consultancy rooms. Schools. Philips quality This applies optimum quality with respect to: System supplier As manufacturers of lamps electronic control gear and lighting control equipment, Philips ensures that, from the earliest development stage, optimum performance is maintained. International standards Philips HF electronic regulating ballast s comply with a relevant international rules and regulations. Compliance s and approvals RFI<30 MHz: E 5505* RFI>30 MHz: E 550 B Harmonics: E Immunity: E 657 Safety: E Performance: E 6099 Vibration & bump tests: IEC FC IEC Eb Quality standard: ISO 900 Environmental standard: E 00 Approval marks: EEC,VDE-EMV, Temp. declared thermally protected E 637- CE marking * Tested with ballast functional ground connected to earth. Technical data for installation Mains operation Rated mains voltage 0-0 V With tolerances for safety: +/- 0% 98-6 V Tolerances for performance +6%-8% 0-5 V Mains frequency 50/60 Hz Operating frequency > khz Power factor 0.95 at 00% power Smart power: with AC mains voltage fluctuations, 0-5 V uminous flux varies by ± % max. DC voltage operation (during emergency back-up) Required battery voltage for guaranteed ignition 98V - 5V Required battery voltage for burning lamps 76V - 5V ominal light output is obtained at a voltage of 0V - 0V otes:. For continuous DC application, an external fuse should be used in the luminaire. Continuous low DC voltages (<98V) can influence the lifetime of the ballast 0 Mains current at 30V Ballast Input current A HF-R T T5 0.9 HF-R T 8 T5 0.5 HF-R T 8 T5 0.8 HF-R T 35 T5 0.8 HF-R T 35 T5 0.3 HF-R T 39 T5 0.0 HF-R T 39 T HF-R T 9 T5 0.5 HF-R T 9 T5 0.7 HF-R T 5 T5 0.8 HF-R T 5 T HF-R T T5C 0. HF-R T 0 T5C 0.0 HF-R T 55 T5C 0.6 HF-R T 60 T5C 0.8 HF-R T 38 T-D 0.7 HF-R T 8 T-D 0.3 HF-R T 36 T-D 0.8 HF-R T 36 T-D 0.33 HF-R T 58 T-D 0.5 HF-R T 58 T-D 0.9 Earth leakage current < 0.5 ma per ballast Dimensions in mm A B A D C B D A A B C Product ID A A B B C D inear amps amps / amps Square amps amps Maximum number of ballast s which can be connected to one Residual Current Detector of 30 ma 30 Overvoltage protection Automatic restart after lamp replacement or voltage dip 8 hrs at 30 V AC hrs at 350 V AC 5 min. at 380 V AC yes 6.5 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.53

28 Electronics (Dimming) HF-Regulator Touch and Dim (T) Electronics (Dimming) HF-Regulator Touch and Dim (T) Inrush current Ballast Max.quantity of ballast per Inrush current Miniature Circuit Breaker / value time at typical Type B6 A mains impedance HF-R T T5 8 9A/90 µs HF-R T 8 T5 8 9A/0 µs HF-R T 8 T5 8 5A/00 µs HF-R T 35 T5 8 9A/0 µs HF-R T 35 T5 3A/300 µs HF-R T 39 T5 8 9A/0 µs HF-R T 39 T5 3A/300 µs HF-R T 9 T5 8 9A/0 µs HF-R T 9 T5 3A/300 µs HF-R T 5 T5 8 9A/0 µs HF-R T 5 T5 3A/300 µs HF-R T T5C 8 9A/50 µs HF-R T 0 T5C 8 5A/50 µs HF-R T 55 T5C 9A/00 µs HF-R T 60 T5C 5A/00 µs HF-R T 38 T-D 3A/300 µs HF-R T 8 T-D 3A/300 µs HF-R T 36 T-D 8 9A/00 µs HF-R T 36 T-D 8 5A/00 µs HF-R T 58 T-D 3A/300 µs HF-R T 58 T-D 3A/300 µs Conversion table for max. quatities of ballasts on other types of Miniature Circuit Breaker MCB Type Relative quantity of ballasts B 6A 00%(see tableabove) B 0A 63% C 6A 70% C 0A 0%, I 6A 08%, I 0A 65% G, U, II 6A % G, U, II 0A 7% K, III 6A 5% K, III 0A 5% Insulation resistance 500 V DC from ine/eutral to Earth test (not between ine and eutral) ote: Ensure that the neutral is reconnected again after above mentioned test is carried out and before the installation is put in operation amp wiring Ignition time The use of 500 V rated components and Wiring is advised for T-5 and P-T W types Typical 0.5 sec. Advised maximum max. 30 pf*: between two sets of lamp wires cable capacity (each set of lamp wires is connected to one for optimum electrode of the lamp) max. 75 pf*: between performance and one set of lamp wires (connected to one electrode EMI Suppression of the lamp) and earth. Care has to be taken for symmetrical wiring *value for T5 is max.5pf between two sets of lamp wires. Control input Mains input signal Retractive push-tomake switch - Ignore status, < 0.0 sec. To avoid reaction on mains spikes! - Short push, between 0.0 sec. and 0.5 sec. Switch On / Off - ong push, between 0.5 sec. and 0 sec. Dim Up / Down - Reset push, >0 Sec. Set light to mid value (35% output) The dim function will toggle after each individual push. Except when the value is lower than 0% it will always dim up, and when the light output is higher than 70% it will always dim down to perform according human perception. Regulating level (lamp power) 3 to 00% Protected against accidental mains voltage connection Control input insulation, basic insulation According E clause 5 Maximum ballast connected in one circuit (Switched by one or multiple switches) Yes < 500V 3 Pcs. Technical data for design and mounting in fixtures Temperatures Temperature range to ignite lamp* +0ºC to +50ºC With ignition aid Sable lamp operation assured > 5ºC Striation possible < 5ºC Max t case 75ºC * value for TD and P- +5ºC to +50ºC Earthing Class II luminaires Hum and noise level Earthing of the HF ballast in a luminaire is necessary for EMC (electromagnetic compatibility) and perfect lamp ignition. This application is not advisable; only with extensive tests on luminaires can the correct operation be verified inaudible Permitted humidity is tested according to E637- clause ote that no moisture or condensation may enter the ballast. Technical data in relation to energy saving amp Qty. of Ballast System amp OMIA CEMA amps Power* Efficacy* Power* Efficacy* umen class. W lm/w W lm/w lm(5ºc) EEI T5 HE W HF-R T T A T5 HE 8W HF-R T 8 T A T5 HE 8W HF-R T 8 T A T5 HE 35W HF-R T 35 T A T5 HE 35W HF-R T 35 T A T5 HE 39W HF-R T 39 T A T5 HE 39W HF-R T 39 T A T5 HE 9W HF-R T 9 T A T5 HE 9W HF-R T 9 T A T5 HE 5W HF-R T 5 T A T5 HE 5W HF-R T 5 T A T5C W HF-R T T5C A T5C 0W HF-R T 9 T5C A T5C 55W HF-R T 5 T5C A T5C 60W HF-R T 5 T5C A T-D 8W 3 HF-R T 3/8 TD A T-D 8W HF-R T 3/8 TD A T-D 36W HF-R T 36 TD A T-D 36W HF-R T 36 TD A T-D 58W HF-R T 58 TD A T-D 58W HF-R T 58 TD A * At 00% power (5 C/830) S S DA S S HF BAAST lamp HF BAAST lamps HF BAAST 3 lamps x TD S S HF BAAST lamps x TD / x T 5 Connecting wiring is greatly simplified trough use of insert contacts; Wire cross-section: Mains connector [Orange] 0.5mm.5mm Control connector [Blue] 0.5mm.5mm amp(s) connector [gray] 0.5mm.5mm Strip length mm Wiring diagram: Phase installation 6.5 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.55

29 Electronics (Dimming) HF-Regulator Touch and Dim (T) Electronics (Dimming) HF-Regulator Touch and Dim (T) PE S S..n PE otes:. Data is based on a mains supply with an impedance of 00 m (equal to 5 m cable of.5 mm and another 0 m to the middle of the power distribution), under worst case conditions.with an impedance of 800 m the number of ballasts can be increased by 0%.. Measurements will be verified in real installations; therefore data are subject to change 3. In some cases the maximum number of ballasts is not determined by the MCB but by the maximum electrical load of the lighting installation.. ote that the maximum number of ballasts is given when these are all switched on the same moment, i.e. by a wall switch. 3 Phase installation PE 3 S S..n PE 3 5. Measurements were carried out on single-pole MCB s. For multi-pole MCB s it is advisable to reduce the number of ballasts by 0%. 6. lp-lp between lamp wires Typical capacitance m wires close together (spacing 0.5 mm) 6pF Typical capacitance 0.5 m wires close together (spacing 0.5 mm) 3pF lp-lg between lamp wires and ground Typical capacitance m wires close together (spacing 0.5 mm) 7pF Typical capacitance 0.5 m wires close together (spacing 0.5 mm) 38pF Ordering and packing data Ballast Piece Bulkpacking EAcode Weight Qty. Dimensions Volume Weight EAcode EOC l xwxh gross kg pcs cm m 3 kg HF-R T T x.0x HF-R T 8 T x9.8x HF-R T 8 T x9.8x HF-R T 35 T x9.8x HF-R T 35 T x9.8x HF-R T 39 T x9.8x HF-R T 39 T x9.8x HF-R T 9 T x9.8x HF-R T 9 T x9.8x HF-R T 5 T x9.8x HF-R T 5 T x9.8x HF-R T T5C x.x HF-R T 0 T5C x.x HF-R T 55 T5C x.x HF-R T 60 T5C x.x HF-R T 3/8 T-D x.0x HF-R T 36 T-D x9.8x HF-R T 36 T-D x9.8x HF-R T 58 T-D x9.8x HF-R T 58 T-D x9.8x Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.57

30 Electronics (Dimming) HF-Regulator Touch and Dim (P) Electronics (Dimming) HF-Regulator Touch and Dim (P) HF-R Touch and Dim HF-R Touch and Dim Touch and Dim Product description Slimline or Compact, lightweight high-frequency electronic regulating ballast, using a specific digital HF-Regulator Touch and Dim protocol. A dedicated range for P-, P-T and P-C fluorescent lamps. Features and benefits Easy personal control, creating your personal lighting level at the touch of a button. Simple installation diagram. o control device required, ballast will work in combination with any standard retractive / push-to-make switch. A short push represents the On/Off command, and personal light level preference can be stored in the internal memory by a firm longer push on the button. Failure proof (on volatile) memory ensures that ballast always remembers your setting when next time switched on, or in case of power failure. Presets can be selected and adjusted between 3% and 00% light output by a long push. Quick programmed soft-start: 0.5 sec, fading to default (00%) or fading to preset level. Striation-free operation. System reset/alignment by means of long push min 0 Sec. ight will adjust to 35% value. Smart power: constant light independent of mains voltage fluctuations. All Philips HF-Regulator electronic ballast s are equipped with α-control.this is a dedicated integrated circuit that ensures independent control of each electrode and, in doing so, takes care that: a. lamp life is unaffected by dimming position b.lamp burning is stable in every dimming position; and c. energy savings, when dimming are maximised Applications Typical areas of application include: Office applications were a simple and easy to install dim system or personal light level adjustment is required. Examples: Cellular office, free-floor standing luminaries. Open plan offices(up to 3 luminaires). Small conference rooms, ecture theatres. Hotels, restaurants. Hospitals, Medical consultancy rooms. Schools. Philips quality This applies optimum quality with respect to: System supplier As manufacturers of lamps electronic control gear and lighting control equipment, Philips ensures that, from the earliest development stage, optimum performance is maintained. International standards Philips HF electronic regulating ballast s comply with a relevant international rules and regulations. Compliance s and approvals RFI<30 MHz: E 5505* RFI>30 MHz: E 550 B Harmonics: E Immunity: E 657 Safety: E Performance: E 6099 Vibration & bump tests: IEC FC IEC Eb Quality standard: ISO 900 Environmental standard: E 00 Approval marks: EEC,VDE-EMV, Temp. declared thermally protected E 637- CE marking * Tested with ballast functional ground connected to earth. Technical data for installation Mains operation Rated mains voltage 0-0 V With tolerances for safety: +/- 0% 98-6 V Tolerances for performance +6%-8% 0-5 V Mains frequency 50/60 Hz Operating frequency > khz Power factor 0.95 at 00% power Smart power: with AC mains voltage fluctuations, 0-5 V uminous flux varies by ± % max. DC voltage operation (during emergency back-up) Required battery voltage for guaranteed ignition 98V - 5V Required battery voltage for burning lamps 76V - 5V ominal light output is obtained at a voltage of 0V - 0V otes:. For continuous DC application, an external fuse should be used in the luminaire. Continuous low DC voltages (<98V) can influence the lifetime of the ballast 0 Mains current at 30V Ballast Input current A HF-R T 8 P-T/C 0.09 HF-R T 8 P-T/C 0.7 HF-R T 6 P-T/C 0.3 HF-R T 6 P-T/C 0. HF-R T P-T 0. HF-R T P-T 0. HF-R T 55 P- 0.5 HF-R T 55 P Earth leakage current < 0.5 ma per ballast Dimensions in mm B A A D C B D A A B C Product ID A A B B C D inear amp amps Square amp amps Maximum number of ballast s which can be connected to one Residual Current Detector of 30 ma 30 Overvoltage protection Automatic restart after lamp replacement or voltage dip 8 hrs at 30 V AC hrs at 350 V AC 5 min. at 380 V AC yes 6.58 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.59

31 Electronics (Dimming) HF-Regulator Touch and Dim (P) Electronics (Dimming) HF-Regulator Touch and Dim (P) Inrush current Ballast Max.quantity of ballast per Inrush current Miniature Circuit Breaker / value time at typical Type B6 A mains impedance HF-R T 8 P-T/C 8 0A/0 µs HF-R T 8 P-T/C 8 35A/0 µs HF-R T 6 P-T/C 8 0A/0 µs HF-R T 6 P-T/C 8 35A/0 µs HF-R T P-T 8 0A/0 µs HF-R T P-T 5A/70 µs HF-R T 55 P- 3A/300 µs HF-R T 55 P- 3A/300 µs Insulation resistance 500 V DC from ine/eutral to Earth test (not between ine and eutral) ote: Ensure that the neutral is reconnected again after above mentioned test is carried out and before the installation is put in operation amp wiring Ignition time Advised maximum cable capacity for optimum performance and EMI Suppression Control input The use of 500 V rated components and Wiring is advised for T-5 and P-T W types Typical 0.5 sec. max. 30 pf*: between two sets of lamp wires (each set of lamp wires is connected to one electrode of the lamp) max. 75 pf: between one set of lamp wires (connected to one electrode of the lamp) and earth. Care has to be taken for symmetrical wiring Mains input signal Retractive push-tomake switch - Ignore status, < 0.0 sec. To avoid reaction on mains spikes! - Short push, between 0.0 sec. and 0.5 sec. Switch On / Off - ong push, between 0.5 sec. and 0 sec. Dim Up / Down - Reset push, >0 Sec. Set light to mid value (35% output) The dim function will toggle after each individual push. Except when the value is lower than 0% it will always dim up, and when the light output is higher than 70% it will always dim down to perform according human perception. Regulating level (lamp power) 3 to 00% Protected against accidental mains voltage connection Yes Conversion table for max. quatities of ballasts on other types of Miniature Circuit Breaker MCB Type Relative quantity of ballasts B 6A 00%(see tableabove) B 0A 63% C 6A 70% C 0A 0%, I 6A 08%, I 0A 65% G, U, II 6A % G, U, II 0A 7% K, III 6A 5% K, III 0A 5% Technical data for design and mounting in fixtures Temperatures Temperature range to ignite lamp* +0ºC to +50ºC With ignition aid Sable lamp operation assured > 5ºC Striation possible < 5ºC Max t case 75ºC * value for TD and P- +5ºC to +50ºC Earthing Class II luminaires Hum and noise level Earthing of the HF ballast in a luminaire is necessary for EMC (electromagnetic compatibility) and perfect lamp ignition. This application is not advisable; only with extensive tests on luminaires can the correct operation be verified inaudible Permitted humidity is tested according to E637- clause ote that no moisture or condensation may enter the ballast. Technical data in relation to energy saving amp Qty. of Ballast System amp OMIA CEMA amps Power* Efficacy* Power* Efficacy* umen class. W lm/w W lm/w lm(5ºc) EEI P-C 8W HF-R T 8 P-T/C A P-T 8W HF-R T 8 P-T/C A P-C 8W HF-R T 8 P-T/C A P-T 8W HF-R T 8 P-T/C A P-C 6W HF-R T 6 P-T/C A P-T 6W HF-R T 6 P-T/C A P-C 6W HF-R T 6 P-T/C A P-T 6W HF-R T 6 P-T/C A P-T W HF-R T P-T A P-T W HF-R T P-T A P- 55W HF-R T 55 P A P- 55W HF-R T 55 P A * At 00% power S HF BAAST -lamp HF- Vorschaltgerät DA S -lampig HF- Vorschaltgerät -lampig HF- Vorschaltgerät -lampig S S Wiring diagram: Phase installation PE PE 3 S S..n S S..n PE 3 Phase installation Control input insulation, basic insulation According E clause 5 Maximum ballast connected in one circuit (Switched by one or multiple switches) < 500V 3 Pcs. Connecting wiring is greatly simplified trough use of insert contacts; Wire cross-section: Mains connector [Orange] 0.5mm.5mm Control connector [Blue] 0.5mm.5mm amp(s) connector [gray] 0.5mm.5mm Strip length mm PE Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.6

Electronics (Dimming) HF-Regulator Touch and Dim (P) Electronics (Dimming) otes:. Data is based on a mains supply with an impedance of 00 m (equal to 5 m cable of.

32 Electronics (Dimming) HF-Regulator Touch and Dim (P) Electronics (Dimming) otes:. Data is based on a mains supply with an impedance of 00 m (equal to 5 m cable of.5 mm and another 0 m to the middle of the power distribution), under worst case conditions.with an impedance of 800 m the number of ballasts can be increased by 0%.. Measurements will be verified in real installations; therefore data are subject to change 3. In some cases the maximum number of ballasts is not determined by the MCB but by the maximum electrical load of the lighting installation.. ote that the maximum number of ballasts is given when these are all switched on the same moment, i.e. by a wall switch. 5. Measurements were carried out on single-pole MCB s. For multi-pole MCB s it is advisable to reduce the number of ballasts by 0%. 6. lp-lp between lamp wires Typical capacitance m wires close together (spacing 0.5 mm) 6pF Typical capacitance 0.5 m wires close together (spacing 0.5 mm) 3pF lp-lg between lamp wires and ground Typical capacitance m wires close together (spacing 0.5 mm) 7pF Typical capacitance 0.5 m wires close together (spacing 0.5 mm) 38pF Ordering and packing data Ballast Piece Bulkpacking EAcode Weight Qty. Dimensions Volume Weight EAcode EOC l xwxh gross kg pcs cm m 3 kg HF-R T 8 P-T/C x.x HF-R T 8 P-T/C x.x HF-R T 6 P-T/C x.x HF-R T 6 P-T/C x.x HF-R T P-T x.x HF-R T P-T x.x HF-R T 55 P x9.8x HF-R T 55 P x9.8x Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.63

33 Electronics HF-Performer P- Electronics HF-Performer P- HF-P/P- Product description Slim, lightweight high-frequency electronic ballast for P- fluorescent lamps, based on EII technology. Features and benefits Programmed start: warm start circuit preheating the lamp electrodes; this enables the lamps to be switched on and off without reducing useful life 50% longer lamp life than with conventional ballasts Up to 5% reduction in energy consumption at constant luminous flux compared with conventional gear Smart power: constant light independent of mains voltage fluctuations Unit is protected against excessive mains voltages and incorrect connections Automatic stop circuit is activated within five seconds in case of lamp failure (safety stop); once the lamp has been replaced, the ballast resets automatically Equipped with connectors suitable for automatic wiring machines. Compliances and approvals RFI < 30 MHz E 5505 RFI > 30 MHz E 550 B Harmonics E Immunity E 657 Safety E Performance E 6099 Vibration & bump tests IEC Fc IEC Eb Quality standard ISO Environmental standard ISO 00 Approval marks EEC-VDE-EMV CE marking Temperature declared thermally protected IEC637-0 Technical data:(all typical values at Vmains =30V) amp Qty.of Ballast System amp Ballast OMIA EEI lamps Power Power osses amp W W W umen lm P- 36 W HF-P 36 P- EII A P- 36 W HF-P 36 P- EII A P- 0 W HF-P 0 P- EII A P- 0 W HF-P 0 P- EII A P- 55 W HF-P 55 P- EII A Dimensions in mm D A A B C Applications Typical areas of application include: Department stores, shops, supermarkets Suitable for use with infrared remote control systems Airports, railway stations Outdoor lighting Office buildings, for example, insurance companies, banks, government ministries Hospitals Hotels Industrial premises Emergency installations with VDE 008 with re-ignition < 0.5 s. Philips quality This assures optimum quality regarding: System supplier As manufacturers of lamps and electronic control gear, Philips ensures that, from the earliest development stage, optimum lamp/ballast performance is maintained European standards Philips HF electronic ballast complies with all relevant international rules and regulations. Product ID A A B C D P- 55 W HF-P 55 P- EII A Technical date for installation Mains operation Rated mains voltage 0 0V With tolerances for performance: +6%-8 0 5V With tolerances for safety +/- 0% 98 6V Mains frequency 50/60Hz Operation frequency (typical) > khz (5 khz) Power factor > 0.96 DC voltage operation during emergency back-up Required battery voltage for guaranteed ignition 98-5 V Required battery voltage for burning lamps 76-5 V ominal light output is obtained at the DC voltage of 0-0 V otes:. For a continuous DC application, an external fuse should be used in the luminaire.. Continuous low DC voltages (< 98 V) can influence the lifetime of the ballast Earth leakage current Ignition time Constant light operation Overvoltage protection Dual fixture; master-slave operation < 0,5 ma per ballast < 0.5 s In case of mains voltage fluctuations within 0-5 V, the luminous flux changes by a maximum of ± % 8 hrs at 30 V AC hrs at 350V AC Possible, in general a maximum of 3m of lamp wires between ballast and lamp is allowed Cable capacity Automatic restart after lamp replacement or voltage dip Insulation resistance test: Max. 00 pf between lamp wires, max. 00 pf between lamp wires and earth EMI precautions have to be taken Yes; tested with a dip down to 30% with a duration of 0 mains cycles 500 V DC from both mains inputs to Earth (not between ine and eutral) ote: Ensure that the neutral is reconnected again after above mentioned test is carried out and before the installation is put into operation. Mains current at 30V Ballast amp Input current A HF-P 36 P- EII P- 36W 0.6 HF-P 36 P- EII P- 36W 0.30 HF-P 0 P- EII P- 0W 0.9 HF-P 0 P- EII P- 0W 0.36 HF-P 55 P- EII P- 55W 0.5 HF-P 55 P- EII P- 55W Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.65

34 Electronics HF-Performer P- Electronics HF-Performer P- Inrushcurrent Ballast Max.quantityof Inrushcurrent ballast per value time at Miniature Circuit typical mains Breaker impedance Type B6A Type C6A HF-P 36 P- EII A / 50 µs HF-P 36 P- EII A / 50 µs HF-P 0 P- EII A / 50 µs HF-P 0 P- EII 0 3 A / 350 µs HF-P 55 P- EII A / 50 µs HF-P 55 P- EII 0 3 A / 350 µs Conversion table for max.quantities of ballasts on other types of Miniature Circuit Breaker MCBtype Relative number of ballasts B 6A 00% (see table above) B 0A 63% C 0A 0%, I 6A 08%, I 0A 65% G, U, II 6A % G, U, II 0A 7% K, III 6A 5% K, III 0A 5% Ordering and packing data Ballast Piece Bulkpacking EAcode Weight Qty. Dimensions Volume Weight EAcode EOC l xwxh gross kg cm m 3 kg HF-P 36 P- EII X 0.6 X HF-P 36 P- EII X 0.6 X HF-P 0 P- EII X 0.6 X HF-P 0 P- EII X 0.6 X HF-P 55 P- EII X 0.6 X HF-P 55 P- EII X 0.6 X ~ ~ HF BAAST lamp 3 ~ ~ HF BAAST lamps wiring diagrams Technical data for design and mounting HF ballasts in fixtures Temperatures Temperature range to ignite lamp -5ºC to +50ºC with ignition aid Max.Tcase = 75ºC ifetime of a ballast depends on the temperature of the ballast.this means there is a relation between the Tc point on the ballast and its lifetime.the HF-Performer II ballast for P- applications has a specified lifetime of hrs, with a maximum of 0% failures guaranteed, at a measured Tcase of 75ºC. Hum and noise level inaudible Permitted humidity is tested according to E637- par.. ote that no moisture or condensation may enter the ballast. The ballasts that are thermally protected use a protective method of another type providing equivalent thermal protection. Connector types: Wago universal connector. Suitable for both automatic wiring (AF and ADS) and manual wiring Wiring diagram lamps: Connector can be connected, but this is not necessary Wire cross-section: ower connector On the mains side: mm On the lamp side: mm Upper connector On the mains side: 0.5 mm solid wire; 0.75 mm stranded wire On the lamp side: 0.5 mm solid wire; 0.75 mm stranded wire Strip length: 8-9 mm otes. Data is based on a main supply with an impedance of 00 m (equal to 5 m cable of,5 mm and another 0 m to the middle of the power distribution), under worst case conditions. With an impedance of 800 m the number of ballasts can be increased by 0%.. Measurements will be verified in real installations; therefore data are subject to change. 3. In some cases the maximum number of ballasts is not determined by the MCB but by the maximum electrical load of the lighting installation.. ote that the maximum number of ballasts is given when these are all switched on at the same moment, i.e. by a wall switch. 5. Measurements were carried out on single-pole MCB s. For multi-pole MCB s it is advisable to reduce the number of ballasts by 0%. 6. The maximum number of ballasts wich can be connected to one Residual Current Detector of 30 ma is Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.67

35 Electronics HF-Performer II T-D Electronics HF-Performer II T-D Product description Slim, lightweight high-frequency electronic ballast for T-D fluorescent lamps, based on EII technology. Technical data:(all typical values at Vmains =30V) amp Qty.of Ballast System amp Ballast OMIA EEI lamps Power Power osses amp Features and benefits Programmed start: warm start circuit preheating the lamp electrodes; this enables the lamps to be switched on and off without reducing useful life 50% longer lamp life than with conventional ballasts Up to 5% reduction in energy consumption at constant luminous flux compared with conventional gear Smart power: constant light independent of mains voltage fluctuations Unit is protected against excessive mains voltages and incorrect connections Automatic stop circuit is activated within five seconds in case of lamp failure (safety stop); once the lamp has been replaced, the ballast resets automatically Equipped with connectors suitable for automatic wiring machines. W W W umen lm T-D 8 W HF-P 8 T-D EII A T-D 8 W HF-P 8 T-D EII A T-D 8 W 3 HF-P 3/8 T-D EII A T-D 8 W HF-P 3/8 T-D EII A T-D 36 W HF-P 36 T-D EII A T-D 36 W HF-P 36 T-D EII A T-D 58 W HF-P 58 T-D EII A T-D 58 W HF-P 58 T-D EII A T-D 70 W HF-P 70 T-D EII A T-D 70 W HF-P 70 T-D EII A HF-P // T-D Dimensions in mm D A Applications Typical areas of application include: Department stores, shops, supermarkets Suitable for use with infrared remote control systems Airports, railway stations Outdoor lighting Office buildings, for example, insurance companies, banks, government ministries Hospitals Hotels Industrial premises Emergency installations with VDE 008 with re-ignition < 0.5 s. Philips quality This assures optimum quality regarding: System supplier As manufacturers of lamps and electronic control gear, Philips ensures that, from the earliest development stage, optimum lamp/ballast performance is maintained European standards Philips HF electronic ballast complies with all relevant international rules and regulations. Compliances and approvals RFI < 30 MHz E 5505 RFI > 30 MHz E 550 B* Harmonics E Immunity E 657 Safety E Performance E 6099 Vibration & bump tests IEC Fc IEC Eb Quality standard ISO Environmental standard ISO 00 Approval marks EEC-VDE-EMV CE marking Temperature declared thermally protected IEC637- *HF-P 70 T-D EII E 550 A 0 Technical data for installation Mains operation Rated mains voltage 0 0V With tolerances for performance: +6%-8 0 5V With tolerances for safety +/- 0% 98 6V Mains frequency 50/60Hz Operation frequency (typical) > khz (5 khz) Power factor > 0.96 DC voltage operation during emergency back-up Required battery voltage for guaranteed ignition Required battery voltage for burning lamps ominal light output is obtained at the DC voltage of 98-5 V 76-5 V 0-0 V otes:. For a continuous DC application, an external fuse should be used in the luminaire.. Continuous low DC voltages (< 98 V) can influence the lifetime of the ballast Earth leakage current Ignition time Constant light operation Overvoltage protection Dual fixture; master-slave operation < 0,5 ma per ballast < 0.5 s B In case of mains voltage fluctuations within 0-5 V, the luminous flux changes by a maximum of ± % 8 hrs at 30 V AC hrs at 350V AC Possible, in general a maximum of 3m of lamp wires between ballast and lamp is allowed Automatic restart after lamp replacement or voltage dip Insulation resistance test: Mains current at 30V Yes; tested with a dip down to 30% with a duration of 0 mains cycles 500 V DC from both mains inputs to Earth (not between ine and eutral) ote: Ensure that the neutral is reconnected again after abovementioned test is carried out and before the installation is put into operation. Ballast Qty.of Input current lamps A HF-P 8 T-D EII 0.09 HF-P 8 T-D EII 0.9 HF-P 3/8 T-D EII HF-P 3/8 T-D EII 0.33 HF-P 36 T-D EII 0.6 HF-P 36 T-D EII 0.3 HF-P 58 T-D EII 0. HF-P 58 T-D EII 0.8 HF-P 70 T-D EII 0.30 HF-P 70 T-D EII 0.59 A C Product ID A A B C D 8/36/58/ /36/58/ / Cable capacity Max. 00 pf between lamp wires, max. 00 pf between lamp wires and earth EMI precautions have to be taken 6.68 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.69

36 Electronics HF-Performer II T-D Electronics HF-Performer II T-D Inrushcurrent Ballast Max.quantityof Inrushcurrent ballast per value time at Miniature Circuit typical mains Breaker impedance Type B6A Type C6A HF-P 36 T-D EII A / 50 µs HF-P 8 T-D EII A / 50 µs HF-P 8 T-D EII A / 50 µs HF-P 3/8 T-D EII 0 3 A / 350 µs HF-P 36 T-D EII A / 50 µs HF-P 36 T-D EII A / 50 µs HF-P 58 T-D EII A / 50 µs HF-P 58 T-D EII 0 3 A / 350 µs HF-P 70 T-D EII A / 50 µs HF-P 70 T-D EII 0 3 A / 350 µs ~ ~ ~ ~ HF BAAST lamp HF BAAST lamps Conversion table for max.quantities of ballasts on other types of Miniature Circuit Breaker MCBtype Relative number of ballasts B 6A 00% (see table above) B 0A 63% C 0A 0%, I 6A 08%, I 0A 65% G, U, II 6A % G, U, II 0A 7% K, III 6A 5% K, III 0A 5% ~ ~ ~ ~ wiring diagrams HF BAAST 3 lamps HF BAAST lamps Technical data for design and mounting HF ballasts in fixtures Temperatures Temperature range to ignite lamp -5ºC to +50ºC with ignition aid Max.Tcase = 75ºC ifetime of a ballast depends on the temperature of the ballast.this means there is a relation between the Tc point on the ballast and its lifetime.the HF-Performer II ballast for T-D applications has a specified lifetime of hrs, with a maximum of 0% failures guaranteed, at a measured Tcase of 75ºC. Hum and noise level Ordering and packing data inaudible Permitted humidity is tested according to E637- par.. ote that no moisture or condensation may enter the ballast. The ballasts that are thermally protected use a protective method of another type providing equivalent thermal protection. Connector types: Wago universal connector. Suitable for both automatic wiring (AF and ADS) and manual wiring Wire lengths: For circuits keep wires to terminals 3 and short For circuits keep wires to terminals,, 6 and 7 short For 3 & circuits keep wires to terminals,, 9 and 0 short Wiring diagram lamps: Connector can be connected, but this is not necessary Wire cross-section: ower connector On the mains side: mm On the lamp side: mm Upper connector On the mains side: 0.5 mm solid wire; 0.75 mm stranded wire On the lamp side: 0.5 mm solid wire; 0.75 mm stranded wire Strip length: 8-9 mm otes. Data is based on a main supply with an impedance of 00 m (equal to 5 m cable of,5 mm and another 0 m to te middle of the power distribution), under worst case conditions.with an impedance of 800 m the number of ballasts can be increased by 0%.. Measurements will be verified in real installations; therefore data are subject to change. 3. In some cases the maximum number of ballasts is not determined by the MCB but by the maximum electrical load of the lighting installation.. ote that the maximum number of ballasts is given when these are all switched on at het same moment, i.e. by a wall switch. 5. Measurements were carried out on single-pole MCB s. For multi-pole MCB s it is advisable to reduce the number of ballasts by 0%. 6.The maximum number of ballasts wich can be connected to one Residual Current Detector of 30 ma is 30. Ballast Piece Bulkpacking EAcode Weight Qty. Dimensions Volume Weight EAcode EOC l xwxh gross kg cm m 3 kg HF-P 8 T-D EII X 0.6 X HF-P 8 T-D EII X 0.6 X HF-P 3/8 T-D EII X. X HF-P 36 T-D EII X 0.6 X HF-P 36 T-D EII X 0.6 X HF-P 58 T-D EII X 0.6 X HF-P 58 T-D EII X 0.6 X HF-P 70 T-D EII X 0.6 X HF-P 70 T-D EII X 0.6 X Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.7

Electronics HF-Performer P-H Electronics HF-Performer P-H HF-P P-H Product description Compact, high power, lightweight, high-frequency electronic ballast for P-H lamps.

37 Electronics HF-Performer P-H Electronics HF-Performer P-H HF-P P-H Product description Compact, high power, lightweight, high-frequency electronic ballast for P-H lamps. Features and benefits High light output compact fluorescent system Programmed start: flicker-free warm start Constant light independent on mains fluctuations One multi-wattage ballast for three lamps (60, 85, 0 W) Applications Typical areas of application include: Shopping centers Public buildings Industrial environments Transport buildings Offices, indirect lighting Philips quality This implies optimum quality regarding: System supplier As manufacturers of lamps and electronic control gear, Philips ensures that, from the earliest development stage, optimum lamp/ballast performance is maintained International standards Philips HF electronic ballasts comply with all relevant international rules and regulations. Compliances and approvals RFI < 30 MHz E 5505* Harmonics E Immunity E 657 Safety E Performance E 6099-E Vibration & bump tests IEC FC IEC Eb Quality standard ISO Environmental standard ISO 00 Approval marks EEC-VDE-EMV CE marking 0 Temperature declared thermally protected IEC 637- Technical data:(all typical values at Vmains = 30V) amp Qty. of Ballast System amp Ballast amp EEI lamps power Power losses umen W W W lm P-H 60W HF-P P-H A P-H 85W HF-P P-H A P-H 0W HF-P P-H A Ballast amp Power Max. cable cap ) Tc Oper ) factor lp-lp/lp-gnd max Freq. (khz) pf C HF-P P-H 60-0 P-H 60W / HF-P P-H 60-0 P-H 85W / HF-P P-H 60-0 P-H 0W / ) lp-lp = between lamp wires Typical wire capacitance 50 pf/m (spacing between wires 0.5 mm) lp-lgnd = between lamp wires and ground Typical wire capacitance 7 pf/m (spacing between wires 0.5 mm) ) Tolerance ± 3 khz Technical data for installation Mains operation Rated mains voltage 0-0 V with tolerances for safety: +/- 0% 98-6 V with tolerances for performance: +6% -8% 0-5 V Mains frequency 50/60 Hz DC voltage operation (during emergency back-up) Required battery voltage for guaranteed ignition 98-5 V DC Required battery voltage for burning lamps 76-5 V DC ominal light output is obtained at a voltage of 0-0 V DC otes:. For a continuous DC application, an external fuse should be used in the luminaire.. Continuous low DC voltages (< 98 V) can influence the lifetime of the ballast. Smart power: constant light operation Earth leakage current in case of mains voltage fluctuations within 0-5 V, the luminous flux changes by a maximum of ± % < 0.5 ma per ballast Mains current / Emergency operation Ballast amp Input current A HF-P 60-0 P-H P-H 60 W 0.30 HF-P 60-0 P-H P-H 85 W 0.0 HF-P 60-0 P-H P-H 0 W 0.60 Mains current / energy classification/ emergency operation Ballast Max. quantity of Inrush current ballasts per / value time Miniature Circuit at typical Breaker mains impedance type B 6 A HF-P P-H A/50 µs * Tested with ballast functional ground connected to earth Ignition time < 0.5 s Dimensions in mm A D Overvoltage protection Dual fixture; master-slave operation 8 hrs at 30 V AC hrs at 350 V AC no Automatic restart after lamp replacement or voltage dip yes: tested with a dip down to 30% with a duration of 0 mains cycles Conversion table for max.quantities of ballasts on other types of Miniature Circuit Breaker MCB type Relative number of ballasts B 6 A 00% (see table above) B 0 A 63% C 6 A 70% C 0 A 0%, I 6 A 08% B A C B Product ID A A B B C D Insulation resistance test 500 V DC from ine/eutral to Earth (not between ine and eutral) ote: Ensure that the eutral is reconnected again after abovementioned test is carried out and before the installation is put into operation., I 0 A 65% G, U, II 6 A % G, U, II 0 A 7% K, III 6 A 5% K, III 0 A 5% 6.7 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.73

Electronics HF-Performer P-H Electronics Wiring diagrams HF BAAST lamp Technical data for design and mounting HF ballasts in fixtures: Temperature range to ignite -5 C.

38 Electronics HF-Performer P-H Electronics Wiring diagrams HF BAAST lamp Technical data for design and mounting HF ballasts in fixtures: Temperature range to ignite -5 C.. allowed maximum ballast lamp without ignition aid temperature Max.Tcase = 75ºC ifetime of a ballast depends on the temperature of the ballast.this means there is a relation between the Tc point on the ballast and its lifetime. The HF-Performer ballast for P-H applications has a specified lifetime of hrs, with a maximum of 0% failures guaranteed, at a measured Tcare of 75ºC. This to enable acceptable lifetimes when the 0W lamp is used in all kind of fixtures. For more information on this issue please consult the P-H OEM guide. 3 otes. Data is based on a mains supply with an impedance of 00 m (equal to 5 m cable of.5 mm and another 0 m to the middle of the power distribution), under worst case conditions.with an impedance of 800 m the number of ballasts can be increased by 0%.. Measurements will be verified in real installations; therefore data are subject to change 3. In some cases the maximum number of ballasts is not determined by the MCB but by the maximum electrical load of the lighting installation.. ote that the maximum number of ballasts is given when these are all switched on the same moment, i.e. by a wall switch. 5. Measurements were carried out on single-pole MCB s. For multi-pole MCB s it is advisable to reduce the number of ballasts by 0%. 6. The maximum number of ballasts which can be connected to one Residual Current Detector of 30 ma is 30. Class II luminaires Outdoor EMI precautions have to be taken ballast IP=3. In outdoor the luminaire has to be sufficiently IP rated Permitted humidity is tested according to E 6098 par.. ote that no moisture or condensation may enter the ballast. The ballasts that are thermally protected use a protective method of another type providing equivalent thermal protection. Wire cross-section: On the mains side: mm On the lamp side: mm Strip length: mm Ordering and packing data Ballast Piece Bulkpacking EAcode Weight Qty. Dimensions Volume Weight EAcode EOC l xwxh gross kg pcs cm m 3 kg HF-P 60-0 PH x7.3x Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.75

39 Electronics HF-Performer P- Electronics HF-Performer P- Product description Compact, lightweight, High Frequency electronic ballasts for P- compact fluorescent 8 W and W lamps Features and benefits Programmed start: flicker-free, warm-start circuit 50% longer lamp life than with conventional ballasts Up to 5% energy saving at constant luminous flux compared with conventional ballasts Constant light independent of mains voltage fluctuations Protected against excessive mains voltages Automatic stop circuit (safety stop) is activated within 5 seconds in case of lamp failure; ballast resets automatically after lamp replacement Preferred selection Product ID Cable-Cap outputwires to earth [pf] Celma classification ength A [mm] Automatic restart Weight (kg) Fixing Hole Distance A ength [mm] CE declaration Cable-Cap outputwires mutual [pf] Battery voltage running lamps [V] umber of amps [x] HF-Performer 8- P- 0-0V 50/60Hz 00 A 3.0 Yes Yes Product ID Battery EEC Constant T-case T-case Rated Width Fixing Hole Conn.type VDE-EMV Conn.type voltage lamp ignition [V] certificate wattage deviation life [ C] maximum [ C] amptype B [mm] Distance B Width [mm] input terminals certificate output terminals HF-Performer 8- P- 0-0V 50/60Hz 98-5 Yes -%/+% P Insert o Insert HF-P Applications Ideal for applications with high switching frequency, for example: Use with infrared remote control systems (e.g. movement detection) Department stores, shops, supermarkets, hotels, hospitals, office buildings, industrial premises Airports, railway stations Outdoor lighting; in general suitable for Class I applications Suitable for installations with emergency back-up according to VDE / E with re-ignition <0.5 s Product ID HF-Performer 8- P- 0-0V 50/60Hz Product ID Inrush current Peak [A] Height C [mm] Inrush current Width [ms] Earth leakage current [ma] Dual fixture Master/Slave Max. cable length Device/amp [m] Humidity conditions Maximum ballast number on MCB [x] Fixing Hole Diameter D [mm] Mains voltage performance (AC) Strip ength [mm] o Yes.5-8%/+6% Mains voltage safety (AC) Bump test Vibration conditions Wcs Input terminals [mm ] Operating frequency [khz] Wcs Output terminals [mm ] Overvoltage protection 30Vac [h] Overvoltage protection 350Vac [h] PowerFactor 00% output power HF-Performer 8- P- 0-0V 50/60Hz -0%/+0% IEC Eb IEC Fc HF-P Product ID Power losses gear [W] Preheat time [s] EOC ine Frequency [Hz] ine Voltage [V] Rated Ballast- amp Power umber of amps X Ballast Power Packaging Configuration Packaging Type Comm Code HF-Performer 8- P- 0-0V 50/60Hz / UP HFP8P00 Dimensions in mm Product ID A A B B C D lamp lamps Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.77

Electronics HF-Performer T5 Circular Electronics HF-Performer T5 Circular Product description Compact, lightweight, high-frequency electronic standard ballasts for T5 Circular lamps.

40 Electronics HF-Performer T5 Circular Electronics HF-Performer T5 Circular Product description Compact, lightweight, high-frequency electronic standard ballasts for T5 Circular lamps. Technical data (all typical values at Vmains = 30 V) amp Qty. of Ballast System amp Ballast OMIA lamps power Power losses amp EEI HF-P T5 circular Features and benefits Programmed start: flicker-free warm start, ideal for areas with high switching frequency Up to 50% longer lamp life than with conventional ballasts Up to 5% reduction in energy consumption at constant luminous flux compared with conventional gear Smart power: constant light independent of mains voltage fluctuations. Applications Typical areas of application include: Office buildings with, e.g. executive and managers offices and conference / meeting rooms Shops and retail premises, e.g. fashion / boutiques and local shops Hospitality, including hotels / motels and restaurants Public buildings, e.g. banks, galleries and museums. W W W umen lm T5C W HF-P -0 T5C A T5C 0 W HF-P -0 T5C A T5C 55 W HF-P 55 T5C A T5C 60 W HF-P 60 T5C A T5C +0W HF-P +0 T5C* A * For use with one W and one 0W lamp Ballast amp Qty. of Power Max. cable cap ) Tc Oper ) lamps factor lp-lp/lp-gnd max Freq. khz pf C HF-P -0 T5C T5C W / HF-P -0 T5C T5C 0 W / HF-P 55 T5C T5C 55 W / HF-P 60 T5C T5C 60 W / HF-P +0 T5C T5C +0W / Dimensions in mm Philips quality This implies optimum quality regarding: System supplier As manufacturers of lamps and electronic control gear, Philips ensures that, from the earliest development stage, optimum lamp/ballast performance is maintained International standards Philips HF electronic ballasts comply with all relevant international rules and regulations. Compliances and approvals RFI < 30MHz E 5505* Harmonics E Immunity E 657 Safety E Performance E 6099-E Vibration & bump tests IEC FC IEC Eb Quality standard ISO Environmental standard ISO 00 Approval marks EEC VDE-EMV CE marking. Temperature declared thermally protected IEC 637- * Tested with ballast functional ground connected to earth ) lp-lp = between lamp wires Typical wire capacitance 50 pf/m (spacing between wires 0.5 mm) lp-lgnd = between lamp wires and ground Typical wire capacitance 7 pf/m (spacing between wires 0.5 mm) ) Tolerance ± 3 khz Technical data for installation Mains operation Rated mains voltage 0-0 V with tolerances for safety: +/- 0% 98-6 V with tolerances for performance: +6% -8% 0-5 V Mains frequency 50/60 Hz DC voltage operation (during emergency back-up) Required battery voltage for guaranteed ignition 98-5V DC Required battery voltage for burning lamps 76-5V DC ominal light output is obtained at a voltage of 0-0V DC otes:. For a continuous DC application, an external fuse should be used in the luminaire.. Continuous low DC voltages (< 98 V) can influence the lifetime of the ballast. Smart power: constant light operation Earth leakage current Ignition time Overvoltage protection in case of mains voltage fluctuations within 0-5 V, the luminous flux changes by a maximum of ± % < 0.5 ma per ballast <. s 8 hrs at 30 V AC hrs at 350 V AC Mains current / Emergency operation Ballast amp Input current A HF-P -0 T5C W 0. HF-P -0 T5C 0W 0.9 HF-P 55 T5C 55W 0.6 HF-P 60 T5C 60W 0.8 HF-P +0 T5C W + 0W 0.3 Inrush current Ballast Max. quantity of Inrush current ballasts per / value time Miniature Circuit at typical Breaker mains impedance Type B 6 A HF-P -0 T5C 8 0A/70 µs HF-P 55 T5C 8 0A/70 µs HF-P 60 T5C 8 0A/70 µs HF-P +0 T5C 8 0A/70 µs Conversion table for max.quantities of ballasts on other types of Miniature Circuit Breaker MCB type Relative number of ballasts B 6 A 00% (see table above) B A A D B C Product ID A A B B C D Automatic restart after lamp replacement or voltage dip yes: tested with a dip down to 30% with a duration of 0 mains cycles Insulation resistance test 500 V DC from ine/eutral to Earth (not between ine and eutral) ote: Ensure that the eutral is reconnected again after abovementioned test is carried out and before the installation is put into operation. B 0 A 63% C 6 A 70% C 0 A 0%, I 6 A 08%, I 0 A 65% G, U, II 6 A % G, U, II 0 A 7% K, III 6 A 5% K, III 0 A 5% 6.78 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.79

41 Electronics HF-Performer T5 Circular Electronics HF-Performer T5 Circular Ordering and packing data Ballast Piece Bulkpacking EAcode Weight Qty. Dimensions Volume Weight EAcode EOC l xwxh gross kg pcs cm m 3 kg HF-P -0 T5C x.0 x HF-P 55 T5C x.0 x HF-P 60 T5C x.0 x HF-P +0 T5C x. x HF BAAST 3 HF BAAST lamp lamps Wiring diagrams Technical data for design and mounting HF ballasts in fixtures Temperature range to ignite -5 C.. allowed maximum ballast lamp without ignition aid temperature Ignition aid For optimum ignition T5 lamps should be mounted at a maximum distance of 6 mm from a metal plate.the metal plate should be electrically connected to the ballasts functional ground Max. tcase = 75 C (except HF-P +0 T5C) ifetime of a ballast depends on the temperature of the ballast.this means there is a relation between the Tc point on the ballast and its lifetime. For more information regarding this subject consult the Philips Application guide to fluorescent lamp control gear. Class II luminaires EMI precautions have to be taken otes. Data is based on a main supply with an impedance of 00 mω (equal to 5 m cable of,5 mm and another 0 m to te middle of the power distribution), under worst case conditions. With an impedance of 800 mω the number of ballasts can be increased by 0%.. Measurements will be verified in real installations; therefore data are subject to change. 3. In some cases the maximum number of ballasts is not determined by the MCB but by the maximum electrical load of the lighting installation.. ote that the maximum number of ballasts is given when these are all switched on at het same moment, i.e. by a wall switch. 5. Measurements were carried out on single-pole MCB s. For multi-pole MCB s it is advisable to reduce the number of ballasts by 0%. 6.The maximum number of ballasts wich can be connected to one Residual Current Detector of 30 ma is 30. Outdoor use Ballast IP 0. In outdoor applications the luminaire has to be sufficiently IP rated. Permitted humidity is tested according to E 6098 par.. ote that no moisture or condensation may enter the ballast. The ballasts that are thermally protected use a protective method of another type providing equivalent thermal protection. Wire cross-section: On the mains side: mm On the lamp side: mm Strip length: 9 mm 6.80 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.8

Electronics HF-Performer P-T/C/Q Electronics HF-Performer P-T/C/Q Product description Compact, lightweight, high-frequency electronic ballasts for P-T, P- C and P-Q compact fluorescent lamps

42 Electronics HF-Performer P-T/C/Q Electronics HF-Performer P-T/C/Q Product description Compact, lightweight, high-frequency electronic ballasts for P-T, P- C and P-Q compact fluorescent lamps Technical data: (all typical values at Vmains = 30V) amp Qty. of Ballast System amp Ballast OMIA EEI lamps power Power losses amp W W W umen lm P-T 3 W HF-P 3 P-T/C A3 P-T 3 W HF-P 3 P-T/C A3 P-T 8 W HF-P 8 P-T/C A P-T 8 W HF-P 8 P-T/C A P-T 6 W HF-P 6- P-T/C A P-T 6 W HF-P 6- P-T/C A P-T 3 W HF-P 6- P-T/C A P-T 3 W HF-P 6- P-T/C A P-T W HF-P 6- P-T/C A P-T W HF-P 6- P-T/C A P-T 57 W HF-P 57 P-T A P-T 57 W HF-P 57 P-T A P-C 0 W HF-P 3 P-T/C A P-C 0 W HF-P 3 P-T/C A P-C 3 W HF-P 3 P-T/C A3 P-C 3 W HF-P 3 P-T/C A3 P-C 8 W HF-P 8 P-T/C A P-C 8 W HF-P 8 P-T/C A P-C 6 W HF-P 6- P-T/C A P-C 6 W HF-P 6- P-T/C A P-Q 38 W HF-P 38 P-Q A Features and benefits Programmed start: flicker-free warm start, ideal for areas with high switching frequency up to 50% longer lamp life than with conventional ballasts Up to 5% reduction in energy consumption at constant luminous flux compared with conventional gear Smart power: constant light independent of mains voltage fluctuations. HF-P P-T/C/Q Applications Typical areas of application include: Department stores, shops, supermarkets Installations with infrared remote control systems Airports, railway stations Office buildings of, for example, insurance companies, banks, government ministries Hospitals Hotels Philips quality This implies optimum quality regarding: System supplier As manufacturers of lamps and electronic control gear, Philips ensures that, from the earliest development stage, optimum lamp/ballast performance is maintained International standards Philips HF electronic ballasts comply with all relevant international rules and regulations. Technical data: (all typical values at Vmains = 30V) Ballast amp Qty. of Power Max. cable cap ) Tc Oper ) lamps factor lp-lp/lp-gnd max Freq. khz pf C HF-P 3 P-T/C P-T 3 W / HF-P 3 P-T/C P-T 3 W / HF-P 8 P-T/C P-T 8 W / HF-P 8 P-T/C P-T 8 W / HF-P 6- P-T/C P-T 6 W / HF-P 6- P-T/C P-T 6 W / HF-P 6- P-T/C P-T 3 W / HF-P 6- P-T P-T 3 W / HF-P 6- P-T/C P-T W / HF-P 6- P-T P-T W / HF-P 57 P-T P-T 57 W / HF-P 57 P-T P-T 57 W / HF-P 3 P-T/C P-C 0 W / HF-P 3 P-T/C P-C 0 W / HF-P 3 P-T/C P-C 3 W / HF-P 3 P-T/C P-C 3 W / HF-P 8 P-T/C P-C 8 W / HF-P 8 P-T/C P-C 8 W / HF-P 6- P-T/C P-C 6 W / HF-P 6- P-T/C P-C 6 W / HF-P 38 P-Q P-Q 38 W /65 75 ) lp-lp = between lamp wires Typical wire capacitance 50 pf/m (spacing between wires 0.5 mm) lp-lgnd = between lamp wires and ground Typical wire capacitance 7 pf/m (spacing between wires 0.5 mm) ) Tolerance ± 3 khz Compliances and approvals RFI < 30 MHz E 5505* Harmonics E Immunity E 657 Safety E Performance E 6099-E Vibration & bump tests IEC FC IEC Eb Quality standard ISO Environmental standard ISO 00 Approval marks EEC-VDE-EMV CE marking Temperature declared thermally protected IEC 637- * Tested with ballast functional ground connected to earth Dimensions in mm B A D B Product ID A A B B C D 3/8/38/ /8/ C A 6.8 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.83

43 Electronics HF-Performer P-T/C/Q Electronics HF-Performer P-T/C/Q Technical data for installation Mains operation Rated mains voltage 0-0 V with tolerances for safety: +/- 0% 98-6 V with tolerances for performance: +6% -8% 0-5 V Mains frequency 50/60 Hz Mains current at 30V Ballast amp Input current A HF-P 3 P-T/C P-T/C 0W 0.05 HF-P 3 P-T/C P-T/C 0W 0. HF-P 3 P-T/C P-T/C 3W 0.06 Conversion table for max.quantities of ballasts on other types of Miniature Circuit Breaker MCBtype Relative number of ballasts B 6 A 00% (see table above) B 0 A 63% DC voltage operation (during emergency back-up) Required battery voltage for guaranteed ignition Required battery voltage for burning lamps ominal light output is obtained at a voltage of See table See table 0-0 V DC HF-P 3 P-T/C P-T/C 3W 0. HF-P 8 P-T/C P-T/C 8W 0.09 HF-P 8 P-T/C P-T/C 8W 0.8 HF-P 6- P-T/C P-T/C 6W 0.3 HF-P 6- P-T/C P-T/C 6W 0. C 6 A 70% C 0 A 0%, I 6 A 08%, I 0 A 65% G, U, II 6 A % otes:. For a continuous DC application, an external fuse should be used in the luminaire.. Continuous low DC voltages (< 98 V) can influence the lifetime of the ballast. Smart power: constant light operation Earth leakage current Ignition time Overvoltage protection Dual fixture; master-slave operation in case of mains voltage fluctuations within 0-5 V, the luminous flux changes by a maximum of ± % < 0.5 ma per ballast <. s < 0.5 s (HF-P 8 P-T/C HF-P 57 P-T) HF-P 6- P-T/C HF-P 6- P-T/C 8 hrs at 30 V AC hrs at 350 V AC no Automatic restart after lamp yes: tested with a dip down to 30% replacement or voltage dip with a duration of 0 mains cycles Insulation resistance test 500 V DC from ine/eutral to Earth (not between ine and eutral) ote: Ensure that the eutral is reconnected again after abovementioned test is carried out and before the installation is put into operation HF-P 6- P-T/C P-T 3W 0.7 HF-P 6- P-T/C P-T 3W 0.30 HF-P 6- P-T/C P-T W 0. HF-P 6- P-T/C P-T W 0.5 HF-P 57 P-T P-T 57W 0.7 HF-P 57 P-T P-T 57W 0.50 HF-P 38 P-Q P-Q 0W 0.7 DCvoltage operation (during emergencyback-up) Ballast Ignition ormal operation HF-P 3 P-T/C V V HF-P 3 P-T/C V V HF-P 3 P-T/C V V HF-P 3 P-T/C V V HF-P 8 P-T/C 98 5 V 76 5 V HF-P 8 P-T/C 98 5 V 76 5 V HF-P 6- P-T/C 98 5 V 76 5 V HF-P 6- P-T/C 98 5 V 76 5 V HF-P 6- P-T/C 98 5 V 76 5 V HF-P 6- P-T/C 98 5 V 76 5 V HF-P 6- P-T/C 98 5 V 76 5 V HF-P 6- P-T/C 98 5 V 76 5 V HF-P 57 P-T V V HF-P 57 P-T 98 5 V 76 5 V HF-P 38 P-Q V V Inrushcurrent Ballast Max.quantityof Inrushcurrent ballasts per /value time Miniature Circuit at typical Breaker mains impedance type B6A HF-P 3 P-T/C 8 0 A/70 µs HF-P 3 P-T/C 8 0 A/70 µs HF-P 8 P-T/C 8 7 A/50 µs HF-P 8 P-T/C 8 7 A/50 µs G, U, II 0 A 7% K, III 6 A 5% K, III 0 A 5% Wiring diagrams HF BAAST lamp HF BAAST lamps 3W ~/ ~/ lamp HF BAAST lamps 8W HF BAAST 7 lamps 6, 3, W (multi) lamps 57W ~ ~ HF-P 38 P-Q 8 0 A/70 µs HF-P 6- P-T/C 8 7 A/50 µs HF-P 6- P-T/C 6 35 A/350 µs HF-P 57 P-T 8 0 A/70 µs HF-P 57 P-T 0 0 A/00 µs 6.8 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.85

44 Electronics HF-Performer P-T/C/Q Electronics Technical data for design and mounting HF ballasts in fixtures: Temperature range to ignite -5 C.. allowed maximum ballast lamp without ignition aid temperature Max.Tcase = see table ifetime of a ballast depends on the temperature of the ballast.this means there is a relation between the Tc point on the ballast and its lifetime.the HF-Performer ballast for P-T/C applications have a specified lifetime of hours, with a maximum of 0% failures guaranteed, at a measured maximum Tcase as given in the table on page. Class II luminaires Outdoor use EMI precautions have to be taken Ballast IP 0. In outdoor applications the luminaire has to be sufficiently IP rated. Permitted humidity is tested according to E 6098 par.. ote that no moisture or condensation may enter the ballast. The ballasts that are thermally protected use a protective method of another type providing equivalent thermal protection. Wire cross-section: On the mains side: mm On the lamp side: mm Strip length: mm Extra features HF-P8;6-;6-;57P-T/C: o & marking: Mains can be connected in either way RFI >30 MHz: E 550 B Extra features HF-P6-;57P-T/C: Wiring: Connector can be connected, but this is not necessary otes. Data is based on a mains supply with an impedance of 00 m (equal to 5 m cable of.5mm and another 0m to the middle of the power distribution), under worst case conditions.with an impedance of 800 m the number of ballasts can be increased by 0%.. Measurements will be verified in real installations; therefore data are subject to change 3. In some cases the maximum number of ballasts is not determined by the MCB but by the maximum electrical load of the lighting installation.. ote that the maximum number of ballasts is given when these are all switched on the same moment, i.e. by a wall switch. 5. Measurements were carried out on single-pole MCB s. For multi-pole MCB s it is advisable to reduce the number of ballasts by 0%. 6.The maximum number of ballasts which can be connected to one Residual Current Detector of 30 ma is 30. Ordering and packing data Ballast Piece Bulkpacking EAcode Weight Qty. Dimensions Volume Weight EAcode EOC l xwxh gross kg pcs cm m3 kg HF-P 3 P-T/C x.0x HF-P 8 P-T/C x.7x HF-P 38 P-Q x0.5x HF-P 6- P-T/C x.7x HF-P 3 P-T/C x.x HF-P 8 P-T/C x.5x HF-P 6- P-T/C x.5x HF-P 57 P-T x.0x HF-P 57 P-T x.5x Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.87

45 Electronics HF-Performer (flat) T5 Electronics HF-Performer (flat) T5 HF-P (flat) T5 Dimensions in mm D A A B C Product description Flat, slim, multi wattage, lightweight high-frequency electronic ballast for T5 fluorescent lamps. Features and benefits The combination HF-Performer and T5 lamps offers opportunities for miniaturisation and reduced cost of ownership, thanks to the limited dimensions and the high system efficacy Programmed start: warm start circuit preheating the lamp electrodes; this enables the lamps to be switched on and off without reducing useful life Equipped with electrode heating cut-off circuit, ensuring optimal lamp operation with respect to lumen curve of lamp and reduction in system energy losses ow energy consumption Smart power: constant light independent of mains voltage fluctuations Unit is protected against excessive mains voltages and incorrect connections Automatic stop circuit is activated within five seconds in case of lamp failure (safety stop); once the lamp has been replaced, the ballast resets automatically. Equipped with terminations suitable for automatic wiring machines Applications Typical areas of application include: Department stores, shops, supermarkets Airports, railway stations Office buildings, for example, insurance companies, banks, government ministries Hospitals Hotels Suitable for emergency installations with VDE 008 with re-ignition < 0.5 s. Suitable for use with infrared remote control systems Philips quality This implies optimum quality regarding: System supplier As manufacturers of lamps and electronic control gear, Philips ensures that, from the earliest development stage, optimum lamp/ballast performance is maintained International standards Philips HF electronic ballasts comply with all relevant international rules and regulations. Compliances and approvals RFI < 30 MHz E 5505 RFI > 30 MHz E 550 A Harmonics E Immunity E 657 Safety E Performance E 6099-E Vibration & bump tests IEC FC IEC Eb Quality standard ISO Environmental standard ISO 00 Approval marks EEC VDE-EMV CE marking. Temperature declared thermally protected IEC 637- Product ID A A B C D amps amps ote: for update of information see catalogue on 0 Technical data for installation Mains operation Rated mains voltage 0-0 V with tolerances for safety: +/- 0% 98-6 V tolerances for performance: +6% V Mains frequency 50/60 Hz Operating frequency See table DC voltage operation (during emergency back-up) Required battery voltage for guaranteed ignition 98-5V DC Required battery voltage for burning lamps 76-5V DC ominal light output is obtained at a voltage of 0-0V DC otes:. For a continuous DC application, an external fuse should be used in the luminaire.. Continuous low DC voltages (< 98 V) can influence the lifetime of the ballast. Earth leakage current Ignition time Smart power: constant light operation amp wiring for HF-P..T5 Dual fixture; master-slave operation Automatic restart after lamp replacement or voltage dip Overvoltage protection Insulation resistance test < 0.5 ma per ballast < 0.5 s in case of mains voltage fluctuations within 0-5 V, the luminous flux varies by a maximum of ± % amp wiring to both lamps must be inside one luminaire; length of wires to lamp must be same (±0%) as length of wires to lamp (wires to terminals and must be short and equal in length to wires 6 and 7; wires to terminals 3 and must be long and equal in length to wires to terminals and 5); max. length of lamp wiring to be equal to length of longest lamp (35 W/ 9 W), plus normal length needed for assembly (in practice, max..8 to m). For HF-P..T5 it is advised to use 500 V rated components and wiring. 500 V rated components and wiring are required with HF-P..T5. not advised yes: tested with a dip down to 30% with a duration of 0 mains cycles 8 hr at 30 V AC hr at 350 V AC 500 V DC from ine/eutral to Earth (not between ine and eutral) ote: Ensure that the neutral is reconnected again after abovementioned test is carried out and before the installation is put into operation. The ballasts that are thermally protected use a protective method of another type providing equivalent thermal protection. Mains current /Emergencyoperation Ballast amp Input current A HF-P -35 T5 HE T5 W 0.08 HF-P -35 T5 HE T5 W 0.5 HF-P -35 T5 HE T5 W 0. HF-P -35 T5 HE T5 W 0.0 HF-P -35 T5 HE T5 8W 0.5 HF-P -35 T5 HE T5 8W 0.7 HF-P -35 T5 HE T5 35W 0.8 HF-P -35 T5 HE T5 35W 0.3 HF-P -35 T5 HO T5 W 0. HF-P -35 T5 HO T5 W 0.3 HF-P -35 T5 HO T5 39W 0.0 HF-P -35 T5 HO T5 39W 0.35 HF-P 9 T5 HO T5 9W 0.5 HF-P 9 T5 HO T5 9W 0.9 HF-P 5 T5 HO T5 5W 0.7 HF-P 5 T5 HO T5 5W 0.5 Inrushcurrent Ballast Max.quantityof Inrushcurrent ballasts per /value time Miniature Circuit at typical Breaker mains impedance type B6A C6A HF-P -35 T5 HE 8 8 A/50µs HF-P -35 T5 HE 5 0 3A/300µs HF-P -39 T5 HO 8 8 A/50µs HF-P -39 T5 HO 5 0 3A/300µs HF-P 9 T5 HO 8 8 A/50µs HF-P 9 T5 HO 5 0 3A/300µs HF-P 5 T5 HO 8 8 A/50µs HF-P 5 T5 HO 5 0 3A/300µs Conversion table for max.quantities of ballasts on other types of Miniature Circuit Breaker MCBtype Relative number of ballasts B 6 A 00% (see table above) B 0 A 63% C 0 A 0%, I 6 A 08%, I 0 A 65% G, U, II 6 A % G, U, II 0 A 7% K, III 6 A 5% K, III 0 A 5% 6.88 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.89

46 Electronics HF-Performer (flat) T5 Electronics HF-Performer (flat) T5 Technical data (all typical values at Vmains = 30V) OMIA amp Qty. of Ballast System amp Ballast amp EEI lamps power Power losses umen W W W lm T5 HE W HF-P -35 T5 HE A T5 HE W HF-P -35 T5 HE A T5 HE W HF-P -35 T5 HE A T5 HE W HF-P -35 T5 HE A T5 HE 8W HF-P -35 T5 HE A T5 HE 8W HF-P -35 T5 HE A T5 HE 35W HF-P -35 T5 HE A T5 HE 35W HF-P -35 T5 HE A T5 HO W HF-P -39 T5 HO A T5 HO W HF-P -39 T5 HO A T5 HO 39W HF-P -39 T5 HO A T5 HO 39W HF-P -39 T5 HO A T5 HO 9W HF-P 9 T5 HO A T5 HO 9W HF-P 9 T5 HO A T5 HO 5W HF-P 5 T5 HO A T5 HO 5W HF-P 5 T5 HO A * Typical values for /830 colors at 5 C lamp ambient temperature Ballast amp Qty. of Power Max. cable cap ) Tc Oper lamps factor lp-lp/lp-gnd max Freq. khz pf C HF-P -35 T5 HE T5 HE W / HF-P -35 T5 HE T5 HE W / HF-P -35 T5 HE T5 HE W / HF-P -35 T5 HE T5 HE W / HF-P -35 T5 HE T5 HE 8W / HF-P -35 T5 HE T5 HE 8W / HF-P -35 T5 HE T5 HE 35W / HF-P -35 T5 HE T5 HE 35W / HF-P -39 T5 HO T5 HO W / HF-P -39 T5 HO T5 HO W / HF-P -39 T5 HO T5 HO 39W / HF-P -39 T5 HO T5 HO 39W / HF-P 9 T5 HO T5 HO 9W / HF-P 9 T5 HO T5 HO 9W / HF-P 5 T5 HO T5 HO 5W / HF-P 5 T5 HO T5 HO 5W / * On the HF-P -35 T5 HE any combination of HE lamps can be used (e.g. &8; 35&; etc) ) lp-lp = between lamp wires Typical wire capacitance 50 pf/m (spacing between wires 0.5 mm) lp-lgnd = between lamp wires and ground Typical wire capacitance 7 pf/m (spacing between wires 0.5 mm) HF BAAST lamp 3 HF BAAST Technical data for design and mounting HF ballasts in fixtures: Temperatures Temperature range to -5 to +50 C ignite lamp with ignition aid Max. tcase = 75 C ifetime of a ballast depends on the temperature of the ballast.this means there is a relation between the Tc point on the ballast and its lifetime. For more information regarding this subject consult the Philips Application guide to fluorescent lamp control gear. Class II luminaires Outdoor Ignition aid Earthing Hum and noise level EMI precautions have to be taken ballast IP=3. In outdoor the luminaire has to be sufficiently IP rated Permitted humidity is tested according to E 6098 par.. ote that no moisture or condensation may enter the ballast. for optimum ignition the T5 lamps should be mounted at a maximum distance of 6 mm from a metal plate. The metal plate should be electrically connected to the ballast housing earthing of the HF ballast in a luminaire is necessary for EMC (electromagnetic compatibility) inaudible Permitted humidity is tested according to E 6098 par.. ote that no moisture or condensation may enter the ballast. The ballasts that are thermally protected use a protective method of another type providing equivalent thermal protection. Connector types: Wago universal connector. Suitable for both automatic wiring (AF and ADS) and manual wiring Wire lengths: lamp version: keep wires to terminals and short lamp version: keep wires to terminals,, 6 and 7 short Wire cross-section: on the mains side: mm Strip length: on the lamp side: mm 8-9 mm otes:. Data is based on a main supply with an impedance of 00 m (equal to 5 m cable of,5 mm and another 0 m to te middle of the power distribution), under worst case conditions. With an impedance of 800 m the number of ballasts can be increased by 0%.. Measurements will be verified in real installations; therefore data are subject to change. 3. In some cases the maximum number of ballasts is not determined by the MCB but by the maximum electrical load of the lighting installation.. ote that the maximum number of ballasts is given when these are all switched on at het same moment, i.e. by a wall switch. 5. Measurements were carried out on single-pole MCB s. For multi-pole MCB s it is advisable to reduce the number of ballasts by 0%. 6.The maximum number of ballasts wich can be connected to one Residual Current Detector of 30 ma is 30. Ordering and packing data Ballast Piece Bulk packing EA code Weight Qty. Dimensions Volume Weight EA code EOC l x w x h gross kg pcs. cm m 3 kg HF-P -35 T5 HE x0.8x HF-P -35 T5 HE x0.8x HF-P -39 T5 HO x0.8x HF-P -39 T5 HO x0.8x HF-P 9 T5 HO x0.8x HF-P 9 T5 HO x0.8x HF-P 5 T5 HO x0.8x HF-P 5 T5 HO x0.8x Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.9

Electronics HF-Performer // (flat) T5 Electronics HF-Performer // (flat) T5 Product description Flat, Slim, lightweight high-frequency electronic ballast for T-5 fluorescent lamps, based on EII

47 Electronics HF-Performer // (flat) T5 Electronics HF-Performer // (flat) T5 Product description Flat, Slim, lightweight high-frequency electronic ballast for T-5 fluorescent lamps, based on EII technology. Technical data:(all typical values at Vmains =30V) amp Qty.of Ballast System amp Ballast OMIA* CEMA amps Power Power osses amp class. W W W umen EEI Im T5 HE W HF-P -35 T5 HE EII 30 x 00 A T5 HE W 3 HF-P 3/ T5 EII 7 3x 5 00 A T5 HE W HF-P 3/ T5 EII 6 x 6 00 A T5 HE W HF-P -35 T5 HE EII 6 x 900 A T5 HE W 3 HF-P 3/ T5 EII 70 3x A T5 HE 8W HF-P -35 T5 HE EII 6 x A T5 HE 35W HF-P -35 T5 HE EII 76 x A T5 HO W HF-P -39 T5 HO EII 9 x 750 A T5 HO W 3 HF-P 3/ T5/P- EII 75 3x A T5 HO W HF-P 3/ T5/P- EII 00 x A P- W 3 HF-P 3/ T5/P- EII 75 3x (**) A P- W HF-P 3/ T5/P- EII 98 x (**) A T5 HO 39W HF-P -39 T5 HO EII 86 x A T5 HO 9W HF-P 9 T5 HO EII 09 x A T5 HO 5W HF-P 5 T5 HO EII 0 x5 50 A T5 HO 80W HF-P 80 T5/P- EII 88 x A T5 HO 80W HF-P 80 T5/P- EII 7 x A P- 80W HF-P 80 T5/P- EII 88 x (**) A P- 80W HF-P 80 T5/P- EII 7 x (**) A * Typical values for /830 at 5ºC lamp ambient temperature ** P- values are published at 5ºC lamp ambient temperature amp Qty.of Ballast Max.Cable cap Oper amps lp-lp/lp-gnd Freq. pf khz T5 HE W HF-P -35 T5 HE EII 00/00 5 T5 HE W 3 HF-P 3/ T5 EII 00/00 7 T5 HE W HF-P 3/ T5 EII 00/00 7 T5 HE W HF-P -35 T5 HE EII 00/00 5 T5 HE W 3 HF-P 3/ T5 EII 00/00 7 T5 HE 8W HF-P -35 T5 HE EII 00/00 5 T5 HE 35W HF-P -35 T5 HE EII 00/00 5 T5 HO W HF-P -39 T5 HO EII 00/00 53 T5 H0 W 3 HF-P 3/ T5/P- EII 50/50 5 T5 H0 W HF-P 3/ T5/P- EII 50/50 5 P- W 3 HF-P 3/ T5/P- EII 50/50 5 P- W HF-P 3/ T5/P- EII 50/50 5 T5 HO 39W HF-P -39 T5 HO EII 00/00 5 T5 HO 9W HF-P 9 T5 HO EII 00/00 5 T5 HO 5W HF-P 5 T5 HO EII 00/00 5 T5 HO 80W HF-P 80 T5/P- EII 50/50 5 T5 HO 80W HF-P 80 T5/P- EII 50/50 5 P- 80W HF-P 80 T5/P- EII 50/50 5 P- 80W HF-P 80 T5/P- EII 50/50 5 ) lp-lp = between lamp wires Typical wire capacitance 50 pflm (spacing between wires 0.5 mm) lp-lgnd = between lamp wires and ground Typical wire capacitance 7 pflm (spacing between wires 0.5 mm) HF-P // (flat) T5 Dimensions in mm D A A B C Features and benefits The combination of HF-Performer and T5 lamps offers opportunities for miniaturization and reduced cost of ownership, thanks to the limited dimensions and the high system efficacy Quick programmed start: 0.5 sec, flicker-free warm start, preheating the lamp electrodes; this enables the lamps to be switched on and off without reducing useful life Equipped with electrode heating cut-off circuit, ensuring optimal lamp operation with respect to lumen curve of the lamp and reduction in system energy losses Smart power: constant light independent of mains voltage fluctuations ow energy consumption due to the use of EII technology Unit is protected against excessive mains voltages and incorrect connections Automatic stop circuit is activated within five seconds in case of lamp failure (Safety stop); once the lamp has been replaced, the ballast resets automatically Equipped with terminations suitable for automatic wiring machines Applications Typical areas of application include: Department stores, shops, supermarkets Industrial premises Airports, railway stations Outdoor lighting Office buildings, for example insurance companies, banks, government ministries Hospitals, Hotels Suitable for use with infrared remote control systems Suitable for emergency installations with VDE 008 with re-ignition < 0.5 s Philips quality This assures optimum quality regarding: System supplier As manufacturer of lamps, electronic control gear and lighting control equipment, Philips ensures that, from the earliest development stage, optimum lamp/ballast performance is maintained. International standards Philips HF electronic regulating ballast s complies with all relevant international rules and regulations. Compliances and approvals RFI < 30 MHz E 5505 RFI > 30 MHz E 550 B Harmonics E Immunity E 657 Safety E Performance E 6099 Vibration & bump tests IEC Fc IEC Eb Quality standard ISO Environmental standard ISO 00 Approval marks EEC EMV-VDE CE marking Temperature declared thermally protected IEC 637- Product ID A A B C D amps amps / amps ote: for update of information see catalogue on 0 Technical data for installation Mains operation Rated mains voltage 0-0 V Tolerances for performance +6%-8% 0-5 V With tolerances for safety: +/ 0% 98-6 V Mains frequency 50/60 Hz Power factor > 0.95 DC voltage operation (during emergency back-up) Required battery voltage for guaranteed ignition Required battery voltage for burning lamps ominal light output is obtained at a voltage of 98-5V DC 76-5V DC 0-0V DC otes:. For a continuous DC application, an external fuse should be used in the luminaire.. Continuous low DC voltages (< 98 V) can influence the lifetime of the ballast. Earth leakage current Ignition time Constant light operation < 0.5 ma per ballast 0.5 sec. In case of AC mains voltage fluctuations, within 0-5 V, the luminous flux changes by a maximum of + % 6.9 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.93

48 Electronics HF-Performer // (flat) T5 Electronics HF-Performer // (flat) T5 Overvoltage protection Dual fixture: master-slave operation Mains current at 30V Inrushcurrent Ballast amp Qty.of Max.quantity Inrush lamps of ballasts current / per Miniature value time at Circuit typical mains Breaker impedance type B6A HF-P -35 T5 HE EII T5 HE W 8 8A/50 µs HF-P 3/ T5 EII T-5 HE W 3 8 8A/50 µs HF-P 3/ T5 EII T-5 HE W 8 8A/50 µs HF-P 3/ T5 EII T5 HE W 3 8 8A/50 µs HF-P -35 T5 HE EII T5 HE W 8 8A/50 µs HF-P -35 T5 HE EII T5 HE 8W 8 8A/50 µs HF-P -35 T5 HE EII T5 HE 35W 8 8A/50 µs HF-P -39 T5 HO EII T5 HO W 5 3A/350 µs HF-P 3/ T5/P- EII T5 W 3 3A/350 µs HF-P 3/ T5/P- EII T5 W 3A/350 µs HF-P 3/ T5/P- EII P- W 3 3A/350 µs HF-P 3/ T5/P- EII P- W 3A/350 µs HF-P -39 T5 HO EII T5 HO 39W 5 3A/350 µs HF-P 9 T5 HO EII T5 HO 9W 5 3A/350 µs HF-P 5 T5 HO EII T5 HO 5W 5 3A/350 µs HF-P 80 T5/P- EII T5 HO 80W 3A/350 µs HF-P 80 T5/P- EII T5 HO 80W 0A/00 µs HF-P 80 T5/P- EII P- 80W 3A/350 µs HF-P 80 T5/P- EII P- 80W 0A/00 µs Wiring diagrams Wiring diagram 8 hrs at 30 V AC hrs at 350 V AC ot advised Automatic restart after lamp Yes: tested with a dip down to 30% with a replacement or voltage dip duration of 0 mains cycles Insulation resistance test 500 V DC from both mains inputs to earth (not between ine and eutral) ote: Ensure that the neutral is reconnected again after above mentioned test is carried out and before the installation is put in operation amp wiring The use of 500 V rated components and wiring are required with HF-PERFORMER T5 ~ ~ HF BAAST 3 Mains current at 30V Ballast amp Qty.of lamps Input current A HF-P -35 T5 HE EII T5 HE W 0. HF-P 3/ T5 EII T5 HE W HF-P 3/ T5 EII T5 HE W 0.6 HF-P 3/ T5 EII T5 HE W HF-P -35 T5 HE EII T5 HE W 0. HF-P -35 T5 HE EII T5 HE 8W 0.7 HF-P -35 T5 HE EII T5 HE 35W 0.33 HF-P -39 T5 HO EII T5 HO W 0. HF-P 3/ T5/P- EII T5 HO W HF-P 3/ T5/P- EII T5 HO W 0. HF-P 3/ T5/P- EII P- W HF-P 3/ T5/P- EII P- W 0.3 HF-P -39 T5 HO EII T5 HO 39W 0.39 HF-P 9 T5 HO EII T5 HO 9W 0.9 HF-P 5 T5 HO EII T5 HO 5W 0.5 HF-P 80 T5/P- EII T5 HO 80W 0.38 HF-P 80 T5/P- EII T5 HO 80W 0.75 HF-P 80 T5/P- EII P- 80W 0.38 HF-P 80 T5/P- EII P- 80W 0.75 Conversion table for max.quatities of ballasts on other types of Miniature Circuit Breaker MCBtype Relative number of ballasts B 6A 00%(see table above) B 0A 63% C 6A 70% C 0A 0%, I 6A 08%, I 0A 65% G, U, II 6A % G, U, II 0A 7% K, III 6A 5% K, III 0A 5% Wiring diagram 3 Wiring diagram Technical data for design and mounting HF ballasts in fixtures Temperatures Temperature range to ignite lamp with ignition aid 5ºC..+50ºC Max t case 75ºC ifetime of a ballast depends on the temperature of the ballast. This means there is a relation between the Tc point on the ballast and its lifetime.this ballast range has a specified lifetime of hrs, with a maximum of 0% failures guaranteed, at a measured T case of 75ºC. For more information regarding this subject consult the Philips Application guide to fluorescent lamp control gear Hum and noise level inaudible Permitted humidity is tested according to E637- par.. ote that no moisture or condensation may enter the ballast. The ballasts that are thermally protected use a protective method of another type providing equivalent thermal protection Wiring diagram Wire lengths: For optimal performance, note that following wires need to be kept short: For one lamp circuits keep wires to terminals and short For two lamp circuits keep wires to terminals,, 6 and 7 short For triple and quad lamp circuits keep wires to terminals,, 3 and short Wire cross-section: ower connector: Mains amp(s) connector Double insert lower connector 0.5mm.0mm Double insert lower connector 0.5mm.0mm Upper connector: Mains & Control connector Double insert upper connector 0.5mm 0.75mm (*) amp(s) connector Double insert lower connector 0.5mm 0.75mm (*) (*) Stranded wire otes Connector type:. Data is based on a mains supply with an impedance of 00 mω Connection wiring is greatly simplified through use of WAGO universal (equal to 5 m cable of.5mm and another 0m to the middle of connector. Suitable for both automatic wiring (AF and ADS) and manual the power distribution), under worst case conditions.with an wiring; earth connection can be made via the earth terminal on the mains impedance of 800 mω the number of ballasts can be increased by 0%. side.. Measurements will be verified in real installations; therefore data are Please note: subject to change With the HF-P 3 / lamp ballasts (,W) earth connection must be 3. In some cases the maximum number of ballasts is not determined by made via the housing. the MCB but by the maximum electrical load of the lighting installation.. ote that the maximum number of ballasts is given when these are all switched on the same moment, i.e. by a wall switch. 5. Measurements were carried out on single-pole MCB s. For multi-pole MCB s it is advisable to reduce the number of ballasts by 0%. 6.The maximum number of ballasts which can be connected to one Residual Current Detector of 30mA is 30. Ordering and packing data Ballast Piece Bulkpacking EAcode Weight Qty. Dimensions Volume Weight EAcode EOC pcs xwxh Gross kg cm m 3 kg HF-P -35 T5 HE EII ,8x0.8x HF-P 3 / T5 HE EII ,8x0.8x HF-P -39 T5 HO EII ,8x0.8x HF-P 3/ T5/P- EII ,8x0.8x HF-P 9 T5 HO EII ,8x0.8x HF-P 5 T5 HO EII ,8x0.8x HF-P 80 T5/P ,8x0.8x HF-P 80 T5/P ,8x0.8x Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.95

49 Electronics HF-MatchboxRED Electronics HF-MatchboxRED HF-MatchboxRED Square HF-MatchboxBUE Square Product description Compact, lightweight, high-frequency electronic ballast for T (8-3W), and compact fluorescent P (7-8 W) lamps. Features and benefits The HF-MatchboxRED is a new generation of electronic energy-saving ballasts for systems up to 5 W. As well as saving energy, they enhance design freedom for the Original Equipment Manufacturer. Programmed start: flicker-free, warm-start circuit preheating (0,8 s) the lamp electrodes; this enables the lamps to be switched frequently without reducing useful life. Up to 50% longer lamp life then with electromagnetic ballasts. Energy savings of more than 5% (at equal luminous flux) compared with electromagnetic gear Multi-lamp ballast: one type can be used to drive a single lamp of different types and wattages, e.g. a P-C 0 or 3 W or a P-S W lamp can be connected to the HF-MatchboxRED 3 P-S/P-C ballast Compact power IC gives the ballast compact dimensions and low weight compared to electromagnetic ballasts that this design replaces Fixing centres for mounting remain same as equivalent electromagnetic ballasts. HF-MatchboxRED ballasts can be supplied either as an encased ballast or open printed circuit board ready for building into a luminaire, in doing so ensuring optimum safety and lowest cost. Applications HF-MatchboxRED ballasts are designed for areas with high switching frequency Typical areas of application in indoor and outdoor situations with movement/presence detection. Suitable for installations with emergency back-up, according to VDE 008. For luminaires with protection class I and II; class I metal luminaires with earth connection require special measures for EMC compliance. Philips quality This implies optimum quality with regard to: System supplier: As manufacturer of lamps and electronic control gear, Philips ensures that, from the earliest development stage, optimum lamp/ballast performance is maintained International standards: Philips electronic ballasts comply with relevant international rules and regulations. Compliances and approvals RFI < 30 MHz: E 5505 Harmonics: E Immunity: E 657 Technical data in relation to energysaving Safety E 6098 E Performance E 6099 Vibration & bump tests IEC Fc IEC Eb Quality standard ISO Environmental standard: ISO 00 Approval marks: EEC KEMA CE marking. Temperature declared thermally protected IEC amp Ballast type Energy System amp Power Mains amp efficiency power power factor current current Square index W W ma ma T 8W HF-MatchboxRED 09 SH/SP T/P-S A T 3W HF-MatchboxRED SH/SP T/T5 A T5 W HF-MatchboxRED SH/SP T/T5 A P-S 7W HF-MatchboxRED 09 SH/SP T/P-S A P-S 9W HF-MatchboxRED 09 SH/SP T/P-S A P-S W HF-MatchboxRED 3 SH/SP P-S/P-C A P-C 0W HF-MatchboxRED 3 SH/SP P-S/P-C A P-C 3W HF-MatchboxRED 3 SH/SP P-S/P-C A P-C 8W HF-MatchboxRED 8 SH/SP P-C/P-T A P-T 3W HF-MatchboxRED 3 SH/SP P-S/P-C A P-T 8W HF-MatchboxRED 8 SH/SP P-C/P-T A T-D 8W HF-MatchboxRED SH/SP T/T5/P- A P- 8W HF-MatchboxRED SH/SP T/T5/P- A P- W HF-MatchboxRED SH/SP T/T5/P- A T5 W HF-MatchboxRED SH/SP T/T5/P- A T5 CW HF-MatchboxRED SH/SP T/T5/P- A Dimensions in mm D C D A A A B C Product ID A A B C C D W H Square housing Square pcb Technical data for installation Mains operation Rated mains voltage with tolerances for safety: +/- 0% tolerances for performance: +6% -8% Mains frequency Operating frequency DC voltage operation during emergency back-up (external fuse is required): Required battery voltage for guaranteed ignition and burning ifetime At t c 65 C with 0% failures Ignition time 30-0 V 07-6 V -5 V 50/60 Hz < 30 khz 9-5 V hrs 0.8 s Overvoltage protection Max t case 75ºC amp end-of-life detection/shut-off Automatic restart after lamp replacement or voltage dip However, stop circuit will be activated (to protect ballast) in case of rectifying lamp or broken glass, and manual restart is required Cable capacity Insulation resistance test not applicable yes yes to be advised not relevant 6.96 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.97

50 Electronics HF-MatchboxRED Electronics HF-MatchboxRED Supplyoptions HF-MatchboxRED ballasts can be ordered either encased or as printed circuit board. Encased ballasts are supplied fitted with plastic housings, and are either linear or square in shape. Encased ballasts are delivered in cardboard cartons. Printed circuit boards (pcb s) have the same shape as the housings, and are supplied in multiple boards. Multiple boards will be supplied in cardboard cartons. A detailed 'Instructions for use' is included in the packing of the printed circuit boards. The ballasts that are thermally protected use a protective method of another type providing equivalent thermal protection. Color coding Type Mains terminal color code HF-MatchboxRED 09 Orange/black/orange HF-MatchboxRED 3 Orange/grey/orange HF-MatchboxRED Orange/blue/orange HF-MatchboxRED 8 Orange/orange/orange HF-MatchboxRED Orange/red/orange To facilitate physical identification of pcb s, mains connector terminals are color-coded.the central connector terminal is colored according to type. Ordering and packing data Ballast Piece Bulkpacking EACode Weight Qty Dimensions Volume Weight EAcode EOC l xwxh gross kg pcs cm m 3 kg Square housed HF-MatchboxRED 09 SH T/P-S x 7.5 x HF-MatchboxRED 3 SH P-S/P-C x 7.5 x HF-MatchboxRED SH T/P-S x 7.5 x HF-MatchboxRED 8 SH P-C/P-T x 7.5 x HF-MatchboxRED SH T/T5/P x 0.0 x Square pcb HF-MatchboxRED 09 SP T/P-S x 3.5 x HF-MatchboxRED 3 SP P-S/P-C x 3.5 x HF-MatchboxRED SP T/P-S x 3.5 x HF-MatchboxRED 8 SP P-C/P-T x 3.5 x HF-MatchboxRED SH T/T5/P x 3.5 x BAAST 3 BAAST 3 Wiring diagram Technical data for design and mounting HF ballasts in fixtures Temperature range to ignite lamp -0 to +0ºC (ignition aid is not required) Hum and noise level inaudible Max. tcase = 75 C ifetime of a ballast depends on the temperature of the ballast.this means there is a relation between the Tc point on the ballast and its lifetime. For more information regarding this subject consult the Philips Application guide to fluorescent lamp control gear. Wire cross-section: On the mains side: mm On the lamp side: mm Strip length: 8-9 mm Wire lengths: Distance between mains wires and lamp wires: > 5 cm Keep wires to terminals and as short as possible (< 30 cm) Keep wires to terminals 3 and shorter than 50 cm 6.98 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.99

51 Electronics EB-Standard T5 Electronics EB-Standard T5 EB-S 8 T5 EB-S 35 T5 EB-S T5 Dimensions in mm EB-S 3 T5 Product description Compact, lightweight, high frequency electronic standard ballast for T5 fluorescent lamps. Features and benefits Warm preheat start; flicker-free, ideal for areas with high switching frequencies onger lamp life than with conventional gear Up to 0% reduction in energy consumption at equal luminous flux compared with conventional gear. Applications Typical areas of application include: Office buildings Hospitals Retail supermarkets Hotels Industrial premises Airports, railway stations Outdoor lighting: In general suitable for class applications Installations with infrared remote control systems Philips quality This implies optimum quality regarding: System supplier As manufacturers of lamps and electronic control gear, Philips ensures that, from the earliest development stage, optimum lamp/ballast performance is maintained International standards Philips EB-S electronic ballasts comply with all relevant international rules and regulations. Compliances and approvals RFI < 30 MHz E 5505 Harmonics E Immunity E 657 Safety E Vibration & bump tests IEC FC IEC Eb Quality standard ISO 900 Environmental standard ISO 00 CE marking EEC CCC AS/ZS EE=A Technical data for installation Mains operation Rated mains voltage 0-0 V With tolerances for safety + 5% - 0% 8-6 V With tolerances for performance +6% -8% - V Mains frequency 50/60 Hz Operating frequency > khz Power factor 0.96 Earth leakage current Ignition time Dual fixture; master-slave operation Cable capacity Automatic restart after voltage dip Insulation resistance test < 0.5 ma per ballast < s possible, in general maximum m length of lamp wires between ballast and lamp max. 50pF between lamp wires and earth EMI precautions have be taken Yes:Tested with a dip down lamp to 30% with a duration of 0 mains cycles 500 V DC from ine/eutral to Earth (not between ine and eutral) ote: Ensure that the neutral is reconnected again after above mentioned test is carried out and before the installation is put into operation. Technical data for design and mounting ballasts in fixtures Temperatures Temperature range to ignite lamp with ignition aid 5º to 50ºC Max t case 65ºC Hum and noise level 30dB at m inaudible Permitted humidity is tested according to E par.. ote that no moisture or condensation may enter the ballast. Connection wiring is greatly simplified by the use of insert contacts with push buttons Wire cross-section: On the mains side: 0.5mm.5mm On the lamp side: 0.5mm.5mm Strip length: mm Mains current at 30V Ballast Input current A EB-S T EB-S T EB-S 3 T EB-S T EB-S T EB-S T EB-S 8 T EB-S 8 T EB-S 35 T EB-S 35 T Inrushcurrent Ballast Max.quantityof ballasts per Miniature Circuit Breaker A EB-S T EB-S T EB-S 3 T EB-S T EB-S T EB-S T EB-S 8 T EB-S 8 T EB-S 35 T EB-S 35 T otes. Data is based on a mains supply with an impedance of 00 m (equal to 5 m cable of.5 mm and another 0 m to the middle of the power distribution), under worst case conditions.with an impedance of 800 m the number of ballasts can be increased by 0%.. Measurements will be verified in real installations; therefore data are subject to change 3. In some cases the maximum number of ballasts is not determined by the MCB but by the maximum electrical load of the lighting installation.. ote that the maximum number of ballasts is given when these are all switched on the same moment, i.e. by a wall switch. 5. Measurements were carried out on single-pole MCB s. For multi-pole MCB s it is advisable to reduce the number of ballasts by 0%. 6. The maximum number of ballasts which can be connected to one Residual Current Detector of 30 ma is Data is measured with merlin jerin C5/C0. Product ID W H P Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.0

52 Electronics EB-Standard T5 Electronics EB-Standard T5 Technical data in relation to energysaving amp Qty.of Ballast System amp Ballast Wiring amps Power Power Efficacy umen* osses diagram W W lm/w lm W Fig. T5 W EB-S T T5 W EB-S T T5 W 3 EB-S 3 T T5 W EB-S T T5 W EB-S T T5 W EB-S T T5 8W EB-S 8 T T5 8W EB-S 8 T T5 35W EB-S 35 T T5 35W EB-S 35 T * Typical values for /830 and /80 colors Ordering and packing data Ballast Ordering Single unit Carton packing Pallet unit number Weight Qty. Dimensions Weight net l xwxh gross kg pcs cm kg Carton/pcs EB-S T x 6 x /050 EB-S T x 8 x /750 EB-S 3 T x 8 x /600 EB-S T x 8 x /600 EB-S T x 6 x /050 EB-S T x 8 x /750 EB-S 8 T x 6 x /050 EB-S 8 T x 8 x /750 EB-S 35 T x 6 x /050 EB-S 35 T x 8 x /750 Fig. T5 amp Fig. T5 amps Fig. 3 T5 3 amps Fig. T5 amps Wiring diagrams Caution: After finishing system installation, please check carefully before you turn the power on.. Check whether lamp, ballast model and wiring are compatible according to Philips EB-Standard T5 datasheet.. Ballasts and fixtures must be well grounded.this requires the ballast to be grounded to the fixture via the input connectors GD pin.the GD pin can be identified by the earthing symbol marked on the ballast label, in no case shall the earthing resistance exceed 0.5 (according to IEC clause 7..3). 6.0 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.03

Electronics EB-Standard TD/P Electronics EB-Standard TD/P EB-S 38 TD/P EB-S 36 TD/P EB-S 8 TD/P Dimensions in mm EB-S 36 TD/P Product description Compact, lightweight, highfrequency electronic

53 Electronics EB-Standard TD/P Electronics EB-Standard TD/P EB-S 38 TD/P EB-S 36 TD/P EB-S 8 TD/P Dimensions in mm EB-S 36 TD/P Product description Compact, lightweight, highfrequency electronic standard ballast for TD fluorescent lamps. Features and benefits Rapid start; flicker-free warm start, ideal for areas with high switching frequencies onger lamp life than with conventional gear Up to 0% reduction in energy consumption at equal luminous flux compared with conventional gear. Applications Typical areas of application include: Department stores, shops, supermarkets Installations with infrared remote control systems Airports, railway stations Outdoor lighting: In general suitable for class applications Office buildings, for example, insurance companies, banks, government ministries Hospitals Hotels Industrial premises Philips quality This implies optimum quality regarding: System supplier As manufacturers of lamps and electronic control gear, Philips ensures that, from the earliest development stage, optimum lamp/ballast performance is maintained International standards Philips EB-S electronic ballasts comply with all relevant international rules and regulations. Compliances and approvals RFI < 30 MHz E 5505 Harmonics E Immunity E 657 Safety E 6098 Performance E 6099 Vibration & bump tests IEC FC IEC Eb Quality standard ISO 900 Environmental standard ISO 00 Approval marks PSB CE marking Technical data for installation Mains operation Rated mains voltage 0-0 V With tolerances for safety + 5% - 0% 8-6 V With tolerances for performance +6% -6% 6 - V Mains frequency 50/60 Hz Operating frequency > khz Power factor 0.95 Earth leakage current Ignition time Over voltage protection Dual fixture; master-slave operation < 0.5 ma per ballast < s < 350 V AC possible, in general maximum m length of lamp wires between ballast and lamp Cable capacity max. 00pF between lamp wires and earth EMI precautions have be taken Automatic restart after Yes:Tested with a dip down to 30% voltage dip with a duration of 0 mains cycles Insulation resistance test 500 V DC from ine/eutral to Earth (not between ine and eutral) ote: Ensure that the neutral is reconnected again after above mentioned test is carried out and before the installation is put into operation. Technical data for design and mounting ballasts in fixtures Temperatures Temperature range to 0º to 50ºC ignite lamp with ignition aid Max t case 65ºC Hum and noise level inaudible Permitted humidity is tested according to E6098 par.. ote that no moisture or condensation may enter the ballast. Connection wiring is greatly simplified by the use of insert contacts with push buttons Wire cross-section: On the mains side: On the lamp side: Strip length: 0.5.5mm 0.5.5mm 9 0mm Mains current at 30V Ballast Input current A EB-S 8 TD EB-S 8 TD EB-S 38 TD EB-S 8 TD EB-S 3 TD EB-S 36 TD EB-S 36 TD EB-S 336 TD EB-S 58 TD EB-S 58 TD Inrushcurrent Ballast Max.quantityof ballasts per Miniature Circuit Breaker 6A EB-S 8 TD EB-S 8 TD EB-S 38 TD EB-S 8 TD EB-S 3 TD EB-S 36 TD EB-S 36 TD EB-S 336 TD EB-S 58 TD EB-S 58 TD otes. Data is based on a mains supply with an impedance of 00 m (equal to 5 m cable of.5 mm and another 0 m to the middle of the power distribution), under worst case conditions.with an impedance of 800 m the number of ballasts can be increased by 0%.. Measurements will be verified in real installations; therefore data are subject to change 3. In some cases the maximum number of ballasts is not determined by the MCB but by the maximum electrical load of the lighting installation.. ote that the maximum number of ballasts is given when these are all switched on the same moment, i.e. by a wall switch. 5. Measurements were carried out on single-pole MCB s. For multi-pole MCB s it is advisable to reduce the number of ballasts by 0%. 6. The maximum number of ballasts which can be connected to one Residual Current Detector of 30 ma is Data is measured with merlin jerin C5/C0. Product ID W H P 8W TD/P W TD W TD/P W P W TD Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.05

54 Electronics EB-Standard TD/P Electronics EB-Standard TD/P Ordering and packing data Ballast Ordering Single unit Carton packing Pallet unit number Weight Qty. Dimensions Weight EB-S BAAST 3 EB-S BAAST net l xwxh gross kg pcs cm kg Carton/pcs EB-S 8 TD x x /750 EB-S 8 TD x x /750 EB-S 38 TD x x /750 EB-S 8 TD x x /750 EB-S 3 TD x x /750 Fig. Fig. EB-S 36 TD x x /750 EB-S 36 TD x x /750 EB-S 336 TD x x /750 EB-S 58 TD x x /750 EB-S 58 TD x x /750 EB-S BAAST EB-S BAAST Fig. 3 Fig. Wiring diagrams EB-S BAAST 3 EB-S BAAST Fig. 5 Fig. 6 Wiring diagrams Technical data in relation to energysaving amp Qty.of Ballast System amp Ballast Wiring amps Power Power Efficacy umen* osses diagram W W lm/w lm W Fig. TD 8W EB-S 8 TD TD 8W EB-S 8 TD TD 8W 3 EB-S 38 TD TD 8W EB-S 8 TD TD 3W EB-S 3 TD TD 36W EB-S 36 TD TD 36W EB-S 36 TD TD 36W 3 EB-S 336 TD TD 58W EB-S 58 TD TD 58W EB-S 58 TD P 8W EB-S 8 TD P 8W EB-S 8 TD P 36W EB-S 36 TD P 36W EB-S 36 TD P 55W EB-S 58 TD P 55W EB-S 58 TD * Typical values for /830 and /80 colors 6.06 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.07

Electronics EB-Standard PT/PC Electronics EB-Standard PT/PC EB-Standard PT/PC Dimensions in mm Product description Compact, lightweight, high-frequency electronic ballast for P-T, P-C compacted

55 Electronics EB-Standard PT/PC Electronics EB-Standard PT/PC EB-Standard PT/PC Dimensions in mm Product description Compact, lightweight, high-frequency electronic ballast for P-T, P-C compacted fluorescent lamps. Features and benefits The combination of EB-Standard and P-T/P-C lamps offers opportunities for miniaturization and reduced cost of ownership, thanks to the limited dimensions and the high system efficacy. Programmed start: flicker-free warm start, preheating the lamp electrodes; this enables the lamps to be switched on and off without reducing useful life. Equipped with electrode heating cut-off circuit, ensuring optimal lamp operation with respect to lumen curve of the lamp and reduction in system energy losses. Automatic stop circuit is activated within five seconds in case of lamp failure (safety stop); once the lamp has been replaced, the ballast resets automatically. Up to 50% longer lamp life than with conventional ballasts. Up to 0% reduction in energy consumption at constant luminous flux compared with conventional gear. ow energy consumption due to the use of EII technology. Smart power: constant light independent of mains voltage fluctuations. Applications Typical areas of application include: Department stores, shops, supermarkets Office buildings, for example, insurance companies, banks, government ministries Hotels Airports, railway stations Hospitals Philips quality This implies optimum quality regarding: System supplier As manufacturers of lamps, electronic control gear and lighting control equipment, Philips ensures that, from the earliest development stage, optimum lamp/ballast performance is maintained. International standards Philips EB-S electronic ballasts comply with all relevant international rules and regulations. Compliances and approvals RFI < 30 MHz E 5505 (IEC) * Harmonics E (IEC) Immunity E 657 (IEC) Safety E (IEC) Performance Vibration & bump tests E 6099 (IEC) E Fc (IEC) E Eb (IEC) Quality standard ISO 900 Environmental standard ISO 00 Approval marks EEC KEMA CCC AS/ZS CE marking * Tested with ballast functional ground connected to earth Technical data: (all typical values at Vmains = 30V) amp Qty. of Ballast System amp Ballast OMIA EEI lamps Power Power osses amp W W W umen m P-T 3 W EB-S 3 PT/C A3 P-T 3 W EB-S 3 PT/C A P-T 8 W EB-S 8 PT/C A P-T 8 W EB-S 8 PT/C A P-T 36 W EB-S 6 PT/C A P-T 36 W EB-S 6 PT/C A P-C 3 W EB-S 3 PT/C A3 P-C 3 W EB-S 3 PT/C A P-C 8 W EB-S 8 PT/C A P-C 8 W EB-S 8 PT/C A P-C 36 W EB-S 6 PT/C A P-C 36 W EB-S 6 PT/C A Ballast amp Qty. of Power Max. cable cap ) Tc Oper ) lamps factor lp-lp/lp-gnd max Freq. khz pf C EB-S 3 P/C P-T 3 W / EB-S 3 P/C P-T 3 W / EB-S 8 P/C P-T 8 W / EB-S 8 P/C P-T 8 W / EB-S 6 P/C P-T 6 W / EB-S 6 P/C P-T 6 W / EB-S 3 P/C P-C 3 W / EB-S 3 P/C P-C 3 W / EB-S 8 P/C P-C 8 W / EB-S 8 P/C P-C 8 W / EB-S 6 P/C P-C 6 W / EB-S 6 P/C P-C 6 W / ) lp-lp = between lamp wires Typical wire capacitance 50 pf/m (spacing between wires 0.5 mm) lp-lgnd = between lamp wires and ground Typical wire capacitance 7 pf/m (spacing between wires 0.5 mm) ) Tolerance ± 3 khz Product ID A A B B C D 3/8/6 PT/C /8/6 PT/C Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.09

56 Electronics EB-Standard PT/PC Electronics EB-Standard PT/PC Technical data for installation Mains operation Rated mains voltage 0-0 V with tolerances for safety: +0%, -5% 87-6 V with tolerances for performance: +6% -8% 0-5 V Mains frequency 50/60 Hz Operating frequency (typical) > K Hz (5K Hz) Power factor > 0.95 Mains current at 30V Ballast QTY Input current amp A EB-S 3 PT/C 0.07 EB-S 3 PT/C 0. EB-S 8 PT/C 0.08 EB-S 8 PT/C 0.7 EB-S 6 PT/C 0. EB-S 6 PT/C 0.5 Wiring diagram Wiring diagram Smart power: with AC mains voltage fluctuations, 0-5V uminous flux varies by +/-% max DC voltage operation (during emergency back-up) Yes for limited time (8hrs) only Required battery voltage for guaranteed ignition Required battery voltage for burning lamps ominal light output is obtained at DC voltage of 98-5V DC 76-5V DC 0-0V DC otes:. For a continuous DC application, an external fuse should be used in the luminaire.. Continuous low DC voltages (< 98 V) can influence the lifetime of the ballast. Ignition time Earth leakage current Overvoltage protection Dual fixture; master-slave operation <.0 s < 0.7 ma (peak) per ballast 8 hrs at 76 V AC hrs at 30 V AC not advisable Automatic restart after lamp yes: tested with a dip down to 30% replacement or voltage dip with a duration of 0 mains cycles Insulation resistance test 500 V DC from ine/eutral to Earth (not between ine and eutral) ote: Ensure that the eutral is reconnected again after above mentioned test is carried out and before the installation is put into operation. Inrushcurrent Ballast Max.quantityof Inrushcurrent ballasts per value time Miniature Circuit at typical Breaker mains impedance Type B6A EB-S 3 PT/C 8 8A/50 µs EB-S 3 PT/C 8 8A/50 µs EB-S 8 PT/C 8 8A/50 µs EB-S 8 PT/C 8 8A/50 µs EB-S 6 PT/C 8 8A/50 µs EB-S 6 PT/C 8 8A/50 µs Conversion table for max.quantities of ballasts on other types of Miniature Circuit Breaker MCBtype Relative number of ballasts B 6 A 00% (see table above) B 0 A 63% C 6 A 70% C 0 A 0%, I 6 A 08%, I 0 A 65% G, U, II 6 A % G, U, II 0 A 7% K, III 6 A 5% K, III 0 A 5% otes. Data is based on a main supply with an impedance of 00 mω (equal to 5 m cable of.5mm and another 0m to te middle of the power distribution), under worst-case conditions. With an impedance of 800 mω the number of ballasts can be increased by 0%.. Measurements will be verified in real installations; therefore data are subject to change. 3. In some cases the maximum number of ballasts is not determined by the MCB but by the maximum electrical load of the lighting installation.. ote that the maximum number of ballasts is given when these are all switched on at het same moment, i.e. by a wall switch. 5. Measurements were carried out on single-pole MCB s. For multi-pole MCB s it is advisable to reduce the number of ballasts by 0%. Technical data for design and mounting HF ballasts in fixtures Temperatures Temperature range to ignite lamp 0º 50ºC with ignition aid Max. tcase 65 C ifetime of a ballast depends on the temperature of the ballast.this means there is a relation between the Tc point on the ballast and its lifetime.the EB-Standard ballast for P-T/C applications has a specified lifetime of 50,000 hrs, with a maximum of 0% failures guaranteed, at a measured T-case of 65ºC. Hum and noise level inaudible Permitted humidity is tested according to E637- par.. ote that no moisture or condensation may enter the ballast. The ballasts that are thermally protected use a protective method of another type providing equivalent thermal protection. (C)*: not connected Connector types: Connectiion wiring is greatly specified by the use of insert contacts with push buttons Wire cross-section: -lamp circuit, keep & lead wires short -lamp circuit, keep,, 3 & 5 lead wires short On the mains side: mm On the lamp side: mm Strip length: mm ote: For optimal performance, please ensure correct earthing and wiring before power on. Ordering and packing data Ballast Ordering Single unit Carton packing Pallet unit number Weight Qty. Dimensions Weight net l xwxh gross kg pcs cm kg Cartons/pcs EB-S 3 PT/C x.5 x /576 EB-S 3 PT/C x.8 x /576 EB-S 8 PT/C x.5 x /576 EB-S 8 PT/C x.8 x /576 EB-S 6 PT/C x.5 x /576 EB-S 6 PT/C x.8 x / Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.

57 Electronics EB-Standard Micropower Electronics EB-Standard Micropower Product description Compact, lightweight, high-frequency electronic ballast designed for T ( - 8 W),T5 ( - W) and compact fluorescent P (5 - W) lamps. EB-S inear Features and benefits The EB-Standard Micropower is a new generation of electronic energy-saving ballasts for systems up to 5W. As well as saving energy, they enhance design freedom for the Original Equipment Manufacturer. Instant start: flicker-free starting, ideal for lighting applications with long burning hours and infrequent switching (up to three times per day); optimum lifetime of lamps compared to electromagnetic gear circuits is achieved in applications with long burning hours (IEC cycle). EB-S Micropower should not be used in combination with movement/presence detection Energy savings of more than 5%(at equal luminous flux) compared with electromagnetic gear Multi-lamp ballast: one type can be used to drive a single lamp of different types and wattages, e.g.a T 6 or 8 W, or a PS 7 or 9W lamp can be connected to the EB-S 09 T/PS ballast Fixing centres for mounting remain same as equivalent electromagnetic ballasts EB-Standard Micropower ballasts can be supplied either as an encased ballast or open printed circuit board ready for building into a luminaire, in doing so ensuring optimum safety and lowest cost. Applications EB-Standard Micropower ballasts are designed for areas where the lighting is switched on and off infrequently Typical areas of application in indoor residential situations include living rooms, kitchens (under cupboards), studies (desk-top), bedrooms, halls, staircases and garages Typical outdoor residential situations include driveways, porches, front doors and galleries For luminaires with protection class I and II; class I metal luminaires with earth connection require special measures, for EMC compliance EB-S Square EB-S inear (PCB) EB-S Square (PCB) Philips quality This implies optimum quality with regard to: System supplier: As manufacturer of lamps and electronic control gear, Philips ensures that, from the earliest development stage, optimum lamp/ballast performance is maintained International standards: Philips electronic ballasts comply with relevant international rules and regulations Compliances and approvals RFI < 30 MHz E 5505 Harmonics E Immunity E 657 Safety E Quality standard ISO 900 Environmental standard ISO 00 CE marking Technical data in relation to energysaving amp Ballast type System amp Power Mains amp power power factor current current Square inear W W ma ma T W EB-S 05 T/PS SH/SP EB-S 05 T/PS H/P T 6W EB-S 09 T/PS SH/SP EB-S 09 T/PS H/P T 8W EB-S 09 T/PS SH/SP EB-S 09 T/PS H/P T 3W EB-S T/T5/P SH/SP EB-S T/T5/P H/P TD 0W EB-S T/T5/P SH/SP EB-S T/T5/P H/P TD 8W EB-S T/T5/P SH/SP EB-S T/T5/P H/P T5 W HE EB-S T/T5/P SH/SP EB-S T/T5/P H/P T5 W HE - EB-S T5 H/P T5C W HO EB-S T/T5/P SH/SP EB-S T/T5/P H/P T5 W HO EB-S T/T5/P SH/SP EB-S T/T5/P H/P PS 5W EB-S 05 T/PS SH/SP EB-S 05 T/PS H/P PS 7W EB-S 09 T/PS SH/SP EB-S 09 T/PS H/P PS 9W EB-S 09 T/PS SH/SP EB-S 09 T/PS H/P PS W EB-S T/T5/P SH/SP EB-S T/T5/P H/P PC 0W EB-S T/T5/P SH/SP EB-S T/T5/P H/P PC 3W EB-S T/T5/P SH/SP EB-S T/T5/P H/P PC 8W EB-S 8 PC/PT SH/SP PT 8W EB-S 8 PC/PT SH/SP P 8W EB-S T/T5/P SH/SP EB-S T/T5/P H/P P W EB-S T/T5/P SH/SP EB-S T/T5/P H/P Dimensions in mm EB-S inear Product ID 3 W H inear housing 05/ / EB-S Square Square housing 05/ / inear pcb 05/ / Square pcb 05/ / Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.3

58 Electronics EB-Standard Micropower Electronics EB-Standard Micropower Technical data for installation Mains operation Rated mains voltage 0 0V Tolerances for safety +/- 0% 98 6V Tolerances for performance: +6%-8% 0 5V Mains frequency 50/60Hz Operation frequency < 30 khz DC voltage operation during emergency back-up (external fuse is required) Required battery voltage for guaranteed ignition 98-5 V Required battery voltage for burning lamps 76-5 V Ignition time Over voltage protection < 0.5 s Max t case 75ºC amp end-of-life detection/ shut-off Automatic restart after lamp replacement or voltage dip Cable capacity Insulation resistance test Temperature range to ignite lamp (ignition aid is not required) up to 6V yes no; manual restart required to be advised not relevant -0 to +0ºC Sypplyoptions EB-Standard Micropower ballasts can be ordered either encased or as printed circuit board. Encased ballasts are supplied fitted with plastic housings, and are either linear or square in shape. Encased ballasts are delivered in cardboard cartons. Printed Circuit Boards (PCB s) have the same shape as the housings, and are supplied in multiple boards. Multiple boards will be supplied in cardboard cartons. A detailed Instructions for use is included in the package of the printed circuit boards. The ballasts that are thermally protected use a protective method of another type providing equivalent thermal protection. Coloring coding Type Mains terminal color code EB-STADARD Micropower 05 orange/black/orange EB-STADARD Micropower 09 orange/bue/orange EB-STADARD Micropower orange/grey/orange EB-STADARD Micropower 8 orange/orange/orange EB-STADARD Micropower orange/orange/orange EB-STADARD Micropower orange/yellow/orange To facilitate physical identification of pcb s, mains connector terminals are color-coded.the central connector terminal is colored according to type. Ordering and packing data Ballast Ordering Single unit Carton packing Pallet unit number Weight Qty. Dimensions Weight net l xwxh gross kg pcs cm kg Carton/pcs EB-S H x 6.0 x /0000 EB-S SH x 7.5 x /0000 EB-S P x 7.3 x /0000 EB-S SP x 7.3 x /0000 EB-S H x 6.0 x /0000 EB-S SH x 7.5 x /0000 EB-S P x 7.3 x.3. 00/0000 EB-S SP x 7.3 x /0000 EB-S 0-0 H x 6.0 x /0000 EB-S 0-0 SH x 7.5 x /0000 EB-S 0-0 P x 7.3 x /0000 EB-S 0-0 SP x 7.3 x /0000 EB-S SH x 7.5 x /0000 EB-S SP x 7.3 x.3. 00/0000 EB-S 0-0 H x 6.0 x /0000 EB-S 0-0 P x 7.3 x.3. 00/0000 EB-S 0-0 H x 6.0 x /0000 EB-S 0-0 SH x 7.5 x /0000 EB-S 0-0 P x 7.3 x.3. 00/0000 EB-S 0-0 SP x 7.3 x /0000 Hum and noise level inaudible Connection wiring is greatly simplified by the use of insert contacts Wire cross-section: On the mains side: 0.5.5mm On the lamp side: 0.5.5mm Strip length: Distance between mains wires and lamp wires ength of lamp wires: Keep wires to terminals and as short as possible Keep wires to terminals 3 and shorter than 8 9mm > 5 cm ( < 30 cm) 50 cm HF BAAST 3 P lamp Wiring diagrams 6. Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.5

59 Electronics EB-Economy TD Electronics EB-Economy TD Product description Compact, lightweight, highfrequency electronic standard ballast for TD fluorescent lamps, ideal for applications with low switching frequency. Features and benefits Flicker-free rapid start, ideal for areas with low switching frequency (maximum 3 times a day) Up to 0% reduction in energy consumption at equal luminous flux compared with conventional gear. EB-E 8 TD EB-E 8 TD Applications Typical areas of application include: Department stores, shops, supermarkets with long lamp burning hours Industrial premises with long lamp burning hours Railway stations Offices Corridors Outdoor lighting: in general suitable for class applications Philips quality This assures optimum quality regarding: System supplier As manufacturers of lamps and electronic control gear, Philips ensures that, from the earliest development stage, optimum lamp/ballast performance is maintained Compliances and approvals RFI < 30 MHz E 5505 Harmonics E Safety E Vibration & bump tests IEC FC IEC Eb Quality standard ISO 900 Environmental standard ISO 00 CCC Fig. Fig. Wiring diagrams Technical data in relation to energy saving amp Qty. of Ballast System amp Ballast Wiring amps Power Power Efficacy umen* osses diagram W W lm/w lm W Fig. TD 8W EB-E 8 TD TD 8W EB-E 8 TD TD 36W 3 EB-E 36 TD TD 36W EB-E 36 TD * Typical values for /830 and /80 colors Technical data for installation Mains operation Rated mains voltage 0 30V With tolerances for safety +5% -0% 76 6V With tolerances for performance: +6%-6% 6 V Mains frequency 50/60Hz Operation frequency > khz Power factor 0.95 Earth leakage current < 0.5 ma per ballast Mains current at 0V Ballast Input current T D A EB-E 36 TD EB-E 36 TD EB-E 8 TD EB-E 8 TD Inrush current Ballast Max. quantity of Ignition time < s ballasts per Miniature Circuit Dimensions in mm Fig A Over voltage protection Dual fixture: master-slave operation 8 hrs at 70V AC possible, in general maximum m length of lamp wires between ballast and lamp Breaker 6A EB-E 36 TD EB-E 36 TD EB-E 8 TD Fig B Product ID W H Fig A B A B Cable capacity Insulation resistance test Automatic restart after lamp replacement Max. 0PF between lamp wires and earth 500 V DC from ine/eutral to Earth (not between ine and eutral) ote: Ensure that the neutral is reconnected again after above mentioned test is carried out and before the installation is put into operation. Yes EB-E 8 TD Technical data for design and mounting ballasts in fixtures Temperatures Temperature range to 0º to 50ºC ignite lamp with ignition aid Max t case 65ºC (70ºC for 36) Hum and noise level inaudible Permitted humidity is tested according to E par.. ote that no moisture or condensation may enter the ballast. Connection wiring is greatly simplified by the use of insert contacts with push buttons Wire cross-section: On the mains side: 0.5.5mm On the lamp side: 0.5.5mm Strip length: 9 0mm 6.6 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.7

60 Electronics EB-Economy TD Electronics EB-Economy T5 otes. Data is based on a mains supply with an impedance of 00 m (equal to 5 m cable of.5 mm and another 0 m to the middle of the power distribution), under worst case conditions.with an impedance of 800 m the number of ballasts can be increased by 0%.. Measurements will be verified in real installations; therefore data are subject to change 3. In some cases the maximum number of ballasts is not determined by the MCB but by the maximum electrical load of the lighting installation.. ote that the maximum number of ballasts is given when these are all switched on the same moment, i.e. by a wall switch. 5. Measurements were carried out on single-pole MCB s. For multi-pole MCB s it is advisable to reduce the number of ballasts by 0%. 6. The maximum number of ballasts which can be connected to one Residual Current Detector of 30 ma is Data is measured with merlin jerin C5/C0. Ordering and packing data Caution: After finishing system installation, please check carefully before you turn the power on.. Check whether lamp, ballast model and wiring are compatible according to Philips EB-Economy TD datasheet.. Be sure the ground terminal of ballast are connected with metal luminaries or batten and earthed. Ballast Ordering Single unit Carton packing Pallet unit number Weight Qty. Dimensions Weight net l xwxh gross kg pcs cm kg Carton/pcs EB-E 8 TD x.0 x /00 EB-E 8 TD x.0 x /600 EB-E 36 TD x.0 x /00 EB-E 36 TD x.0 x /600 EB-E 8 T5 EB-E 8 T5 Product description ightweight, highfrequency electronic standard ballast for T5 fluorescent lamps, ideal for applications with low switching frequency. Features and benefits The combination of EB-Economy and T5 lamps offers opportunities for miniaturization and reduced cost of ownship, thanks to the limited dimensions and the high system efficacy ow energy consumption Flicker-free start, ideal for areas with low switching frequency (maximum 3 times a day) Applications Typical areas of application include: Small shops Small offices Home sites Philips quality This assures optimum quality regarding: System supplier As manufacturers of lamps and electronic control gear, Philips ensures that, from the earliest development stage, optimum lamp/ballast performance is maintained Compliances and approvals RFI < 30 MHz E 5505 Harmonics E Safety E Vibration & bump tests IEC FC IEC Eb Quality standard ISO 900 Environmental standard ISO 00 CCC Dimensions in mm Product ID W H Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.9

61 Electronics EB-Economy T5 Electronics EB-Economy T5 Fig. Fig. Wiring diagrams Technical data in relation to energy saving amp Qty. of Ballast System amp Ballast Wiring amps Power Power Efficacy umen* osses diagram W W lm/w lm W Fig. T5 W EB-E T T5 W EB-E T T5 W EB-E T T5 8W EB-E 8 T T5 8W EB-E 8 T * Typical values for /830 and /80 colors Technical data for installation Mains operation Mains current at 0V Ballast Input current T D Rated mains voltage 0 30V A With tolerances for safety +5% -0% 8 53V EB-E T With tolerances for performance: +6%-8% 0 33V EB-E T Mains frequency 50 Hz EB-E T Operation frequency EB-E / 0-30 KHz EB-E 8 T EB-E 8//8 > 0 KHz EB-E 8 T otes. Data is based on a mains supply with an impedance of 00 m (equal to 5 m cable of.5 mm and another 0 m to the middle of the power distribution), under worst case conditions.with an impedance of 800 m the number of ballasts can be increased by 0%.. Measurements will be verified in real installations; therefore data are subject to change 3. In some cases the maximum number of ballasts is not determined by the MCB but by the maximum electrical load of the lighting installation.. ote that the maximum number of ballasts is given when these are all switched on the same moment, i.e. by a wall switch. 5. Measurements were carried out on single-pole MCB s. For multi-pole MCB s it is advisable to reduce the number of ballasts by 0%. 6. Data is measured with merlin jerin C5/C0. Ordering and packing data Caution: After finishing system installation, please check carefully before you turn the power on.. Check whether lamp, ballast model and wiring are compatible according to Philips EB-Economy T5 datasheet.. Be sure the ground terminal of ballast are connected with metal luminaries or batten and earthed. Ballast Ordering Single unit Carton packing Pallet unit number Weight Qty. Dimensions Weight net l x w x h gross kg pcs cm kg Carton/pcs EB-E T x 0.0 x /0000 EB-E T x 3. x /080 EB-E T x 0.0 x /0000 EB-E 8 T x 8.8 x /0 EB-E 8 T x 3. x /080 Power factor EB-E / 0.60 EB-E 8//8 > 0.90 Earth leakage current Ignition time Over voltage protection Dual fixture master-slave operation Cable capacity Automatic restart after lamp lamp replacement Insulation resistance test < 0.7 ma peak per ballast < s hrs at 70V AC possible, in general maximum m length of lamp wires between ballast and lamp max. 0pF between lamp wires and earth o 500 V DC from ine/eutral to Earth (not between ine and eutral) ote: Ensure that the neutral is reconnected again after above mentioned test is carried out and before the installation is put into operation. Inrush current Ballast Max. quantity of ballasts per Miniature Circuit Breaker 6A EB-E T EB-E T EB-E T EB-E 8 T EB-E 8 T Technical data for design and mounting ballasts in fixtures Temperatures Temperature range to for -5ºC to 50ºC for / ignite lamp with ignition aid for 0ºC to 50ºC for /8/8 Max t case 65ºC Hum and noise level < 30dB at m distance Permitted humidity is tested according to E par.. ote that no moisture or condensation may enter the ballast. Connection wiring is greatly simplified by the use of insert contacts with push buttons Wire cross-section: On the mains side: 0.5.5mm On the lamp side: 0.5.5mm Strip length: mm 6.0 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.

Electronics EB-Economy TE Electronics EB-Economy TE Product description Compact, lightweight, highfrequency electronic standard ballast forte T5 fluorescent lamps, for applications with low switching

62 Electronics EB-Economy TE Electronics EB-Economy TE Product description Compact, lightweight, highfrequency electronic standard ballast forte T5 fluorescent lamps, for applications with low switching frequency. Features and benefits Flicker-free rapid start, ideal for areas with low switching frequency (maximum 3 times a day) Up to 0% reduction in energy consumption at equal luminous flux compared with conventional gear. Applications Typical areas of application include: Department stores, shops, supermarkets with long lamp burning hours Industrial premises with long lamp burning hours Kitchens Bathrooms Corridors Outdoor lighting: in general suitable for class applications Fig. TE EB-E Technical data in relation to energy saving mm Wiring diagrams amp Qty. of Ballast System amp Ballast Wiring amps Power Power Efficacy umen* osses diagram W W lm/w lm W Fig. EB-E TE Philips quality This assures optimum quality regarding: System supplier As manufacturers of lamps and electronic control gear, Philips ensures that, from the earliest development stage, optimum lamp/ballast performance is maintained Compliances and approvals RFI < 30 MHz E 5505 Harmonics E Safety E Vibration & bump tests IEC FC IEC Eb Quality standard ISO 900 Environmental standard ISO 00 CCC marking 0V/30V 0V/30V 0V/30V TE W EB-E TE / 0/ /050 3 TE 3W EB-E 3 TE /37 30/ /660 5 * Typical values for philips 830 and 80 colors Technical data for installation Mains operation Rated mains voltage 0 30V With tolerances for safety +5% -0% 76 6V With tolerances for performance: +6%-6% 6 V Mains frequency 50/60 Hz Operation frequency > KHz Power factor 0.95 Mains current at 0V Ballast Input current T E A EB-E TE EB-E 3 TE Inrush current Ballast Max. quantity of Earth leakage current < 0.5 ma per ballast ballasts per Miniature Circuit Ignition time < s Breaker 6A Over voltage protection 8 hrs at 70V AC EB-E TE EB-E 3 TE Dual fixture master-slave operation Cable capacity possible, in general maximum m length of lamp wires between ballast and lamp max. 50pF between lamp wires and earth Technical data for design and mounting ballasts in fixtures Temperatures Temperature range to -0ºC to 50ºC ignite lamp with ignition aid Max t case 70ºC Dimensions in mm W Automatic restart after lamp lamp replacement Insulation resistance test yes 500 V DC from ine/eutral to Earth (not between ine and eutral) ote: Ensure that the neutral is reconnected again after above mentioned test is carried out and before the installation is put into operation. Hum and noise level inaudible Permitted humidity is tested according to E par.. ote that no moisture or condensation may enter the ballast. Connection wiring is greatly simplified by the use of insert contacts with push buttons Wire cross-section: On the mains side: 0.5.5mm On the lamp side: 0.5.5mm Strip length: 9 0mm H Product ID 3 W H Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.3

63 Electronics EB-Economy TE Electronics otes. Data is based on a mains supply with an impedance of 00 m (equal to 5 m cable of.5 mm and another 0 m to the middle of the power distribution), under worst case conditions.with an impedance of 800 m the number of ballasts can be increased by 0%.. Measurements will be verified in real installations; therefore data are subject to change 3. In some cases the maximum number of ballasts is not determined by the MCB but by the maximum electrical load of the lighting installation.. ote that the maximum number of ballasts is given when these are all switched on the same moment, i.e. by a wall switch. 5. Measurements were carried out on single-pole MCB s. For multi-pole MCB s it is advisable to reduce the number of ballasts by 0%. 6. The maximum number of ballasts which can be connected to one Residual Current Detector of 30 ma is Data is measured with merlin jerin C5/C0. Caution: After finishing system installation, please check carefully before you turn the power on.. Check whether lamp, ballast model and wiring are compatible according to Philips EB-Economy datasheet.. Be sure the ground terminal of ballast are connected with metal luminaries or batten and earthed. Ordering and packing data Ballast Ordering Single unit Carton packing Pallet unit number Weight Qty. Dimensions Weight net l xwxh gross kg pcs cm kg Carton/pcs EB-E TE x 6.5 x /00 EB-E 3 TE x 6.5 x /00 6. Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.5

Electromagnetic BTA EM ballasts for T fluorescent lamps Electromagnetic BTA EM ballasts for T fluorescent lamps Product description All BTA ballasts to be applied in circuits for T,TD,TE,TU

64 Electromagnetic BTA EM ballasts for T fluorescent lamps Electromagnetic BTA EM ballasts for T fluorescent lamps Product description All BTA ballasts to be applied in circuits for T,TD,TE,TU fluorescent lamps and operating on nominal mains supply as indicated Features and benefits Reliable electrical and mechanical performance ong life Compact dimensions Quick and easy wiring Optimum lamp performance under optimum temperature conditions Features Complies with IEC / IEC9 Tw marking 30ºC (average life time of 0 years of continuous operation) Double insert and screw contacts for solid core wire mm, strip length +/-8mm, insulation diameter max..6mm Embossed mounting plate for noise reduction Applications Department stores, shops, supermarkets Office buildings Industry Airports, railway stations Philips quality This implies optimum quality regarding: System supplier As manufacturers of lamps and control gear, Philips ensures that, from the earliest development stage, optimum lamp/ballast performance is maintained International standards Philips BTA electromagnetic ballasts comply with all relevant international rules and regulations. Technical data. Standard range for T and TD amp Qty Ballast Watt Input Mains Power Capacitor Wiring Starter tw t of loss power current factor diagram type lamps during operation W W ma F/V Fig. ºC ºC TD 8W/T 0W BTA 8W 0V C SC / > ±0%, 50V S0(-E) BTA 8W 0V C DI / > ±0%, 50V S0(-E) BTA 8W 0V/60Hz C SC 8 6/8 35 > ±0%, 50V S0(-E) BTA 8W 0V/60Hz C DI 8 6/8 35 > ±0%, 50V S0(-E) BTA 8W 30V C SC 9 7/9 36 > ±0%, 50V S0(-E) BTA 8W 30V C DI 9 7/9 36 > ±0%, 50V S0(-E) BTA 8W 0V C SC / > ±0%, 50V S0(-E) BTA 8W 0V C DI / > ±0%, 50V S0(-E) BTA 36W 0V C SC > ±0%, 50V S(-E) BTA 36W 0V C DI > ±0%, 50V S(-E) BTA 36W 0V/60Hz C SC > ±0%, 50V S(-E) BTA 36W 0V/60Hz C DI > ±0%, 50V S(-E) BTA 36W 30V C SC 9 5 > ±0%, 50V S(-E) BTA 36W 30V C DI 9 5 > ±0%, 50V S(-E) BTA 36W 0V C SC > ±0%, 50V S(-E) BTA 36W 0V C DI > ±0%, 50V S(-E) TD 30W BTA 30W 0V C SC > ±0%, 50V S0(-E) BTA 30W 0V C DI > ±0%, 50V S0(-E) BTA 30W 30V C SC > ±0%, 50V S0(-E) BTA 30W 30V C DI > ±0%, 50V S0(-E) BTA 30W 0V C SC > ±0%, 50V S0(-E) BTA 30W 0V C DI > ±0%, 50V S0(-E) TD 36W/T 0W BTA 36W 0V C SC 8.8.8/8.8 0 > ±0%, 50V S0(-E) BTA 36W 0V C DI 8.8.8/8.8 0 > ±0%, 50V S0(-E) BTA 36W 0V/60Hz C SC 8.3.3/8.3 0 > ±0%, 50V S0(-E) BTA 36W 0V/60Hz C DI 8.3.3/8.3 0 > ±0%, 50V S0(-E) BTA 36W 30V C SC 9 5/9 > ±0%, 50V S0(-E) BTA 36W 30V C DI 9 5/9 > ±0%, 50V S0(-E) BTA 36W 0V C SC 9. 5./9. > ±0%, 50V S0(-E) BTA 36W 0V C DI 9. 5./9. > ±0%, 50V S0(-E) TD 58W/T 65W BTA 58W 0V C SC 70/77 6 > ±0%, 50V S0(-E) BTA 58W 0V C DI 70/77 6 > ±0%, 50V S0(-E) BTA 58W 0V/60Hz C SC. 69./76. 6 > ±0%, 50V S0(-E) BTA 58W 0V/60Hz C DI. 69./76. 6 > ±0%, 50V S0(-E) BTA 58W 30V C SC 3 7/78 6 > ±0%, 50V S0(-E) BTA 58W 30V C DI 3 7/78 6 > ±0%, 50V S0(-E) BTA 58W 0V C SC 3. 7./78. 6 > ±0%, 50V S0(-E) BTA 58W 0V C DI 3. 7./78. 6 > ±0%, 50V S0(-E) BTA 58W BTA 36W Dimensions in mm Fig A Fig B Product ID A A B C Fig 8W A W A 30W A 3W A 36W A 58W B 6.6 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.7

65 Electromagnetic BTA EM ballasts for T fluorescent lamps Electromagnetic BTA EM ballasts for T fluorescent lamps Technical data. Standard range for T and TD amp Qty Ballast Watt Input Mains Power Capacitor Wiring Starter tw t of loss power current factor diagram type lamps during operation W W ma F/V Fig. ºC ºC TD 8W/T 0W BTA 8W 0V B SC / > ±0%, 50V S0(-E) BTA 8W 0V B DI / > ±0%, 50V S0(-E) BTA 8W 0V/60Hz B SC 8 6/8 36 > ±0%, 50V S0(-E) BTA 8W 0V/60Hz B DI 8 6/8 355 > ±0%, 50V S0(-E) BTA 8W 30V B SC > ±0%, 50V S0(-E) BTA 8W 30V B DI > ±0%, 50V S0(-E) BTA 8W 0V B SC > ±0%, 50V S0(-E) BTA 8W 0V B DI > ±0%, 50V S0(-E) BTA 8W 0V B SC 5. 3./5. 36 > ±0%, 50V S0(-E) BTA 8W 0V B DI 5. 3./5. 36 > ±0%, 50V S0(-E) BTA 8W 30V B SC / > ±0%, 50V S0(-E) BTA 8W 30V B DI / > ±0%, 50V S0(-E) BTA 8W 0V B SC 5. 3./5. 36 > ±0%, 50V S0(-E) BTA 8W 0V B DI 5. 3./5. 36 > ±0%, 50V S0(-E) BTA 36W 0V B SC 8 > ±0%, 50V S(-E) BTA 36W 0V B DI 8 > ±0%, 50V S(-E) BTA 36W 0V/60Hz B SC 8 > ±0%, 50V S(-E) BTA 36W 0V/60Hz B DI 8 > ±0%, 50V S(-E) BTA 36W 30V B SC > ±0%, 50V S(-E) BTA 36W 30V B DI > ±0%, 50V S(-E) BTA 36W 0V B SC > ±0%, 50V S(-E) BTA 36W 0V B DI > ±0%, 50V S(-E) TD 30W BTA 30W 0V B SC > ±0%, 50V S0(-E) BTA 30W 0V/60Hz B SC > ±0%, 50V S0(-E) BTA 30W 0V/60Hz B DI > ±0%, 50V S0(-E) TD 36W/T 0W BTA 36W 0V B SC 8 /8 > ±0%, 50V S0(-E) BTA 36W 0V B DI 8 /8 > ±0%, 50V S0(-E) BTA 36W 0V/60Hz B SC 8 /8 > ±0%, 50V S0(-E) BTA 36W 0V/60Hz B DI 8 /8 > ±0%, 50V S0(-E) BTA 36W 30V B SC > ±0%, 50V S0(-E) BTA 36W 30V B DI > ±0%, 50V S0(-E) BTA 36W 0V B SC > ±0%, 50V S0(-E) BTA 36W 0V B DI > ±0%, 50V S0(-E) BTA 36W 0V B SC 5.3.3/5.3 > ±0%, 50V S0(-E) BTA 36W 0V B DI 5.3.3/5.3 > ±0%, 50V S0(-E) BTA 36W 30V B SC /5.35 > ±0%, 50V S0(-E) BTA 36W 30V B DI /5.35 > ±0%, 50V S0(-E) BTA 36W 0V B SC 5.5.5/5.5 > ±0%, 50V S0(-E) BTA 36W 0V B DI 5.5.5/5.5 > ±0%, 50V S0(-E) TD 58W/T 65W BTA 58W 0V B SC. 69./ > ±0%, 50V S0(-E) BTA 58W 30V B SC > ±0%, 50V S0(-E) BTA 58W 30V B DI > ±0%, 50V S0(-E) BTA 58W 0V B SC > ±0%, 50V S0(-E) BTA 58W 0V B DI > ±0%, 50V S0(-E) Fig. Fig. Fig. 3 Wiring diagrams Technical data 3. Standard and premium range for TE amp Qty Ballast Watt Input Mains Power Capacitor Wiring Starter tw t of loss power current factor diagram type lamps during operation W W ma F/V Fig. ºC ºC TE W BTA W 0V C SC > ±0%, 50V 3 S0(-E) BTA W 0V C DI > ±0%, 50V 3 S0(-E) BTA W 30V C SC > ±0%, 50V 3 S0(-E) BTA W 30V C DI > ±0%, 50V 3 S0(-E) BTA W 0V C SC > ±0%, 50V 3 S0(-E) BTA W 0V C DI > ±0%, 50V 3 S0(-E) BTA W 0V B SC > ±0%, 50V 3 S0(-E) BTA W 0V/60Hz B SC > ±0%, 50V 3 S0(-E) BTA W 0V/60Hz B DI > ±0%, 50V 3 S0(-E) TE 3W BTA 3W 0V C SC > ±0%, 50V 3 S0(-E) BTA 3W 0V C DI > ±0%, 50V 3 S0(-E) BTA 3W 30V C SC 0 6 > ±0%, 50V 3 S0(-E) BTA 3W 30V C DI 0 6 > ±0%, 50V 3 S0(-E) BTA 3W 0V C SC 0 6 > ±0%, 50V 3 S0(-E) BTA 3W 0V C DI 0 6 > ±0%, 50V 3 S0(-E) BTA 3W 0V B SC 9 30 > ±0%, 50V 3 S0(-E) BTA 3W 0V/60Hz B SC > ±0%, 50V 3 S0(-E) BTA 3W 0V/60Hz B DI > ±0%, 50V 3 S0(-E) ) In accordance with IEC9 tw indicates the maximum permissible temperature of the windings. ) Temperature measurements (average values) in accordance with IEC9. 3) Temperature marking tw/ t in accordance with IEC9. ) To obtain HPF circuit (cos 0.85) by means of a parallel capacitor across the main. Capacitor tolerance ±0%. 6.8 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.9

66 Electromagnetic BTA EM ballasts for T fluorescent lamps Electromagnetic BTA EM ballasts for T fluorescent lamps Ordering and packing data.standard and range for Tand TD Ballast Ordering Weight Boxpacking Pallet unit number net Qty. Dimensions Weight l xwxh gross kg pcs cm kg Cartons/pcs BTA 8W 0V C SC x 6.0 x /78 BTA 8W 0V C DI x 6.0 x /78 BTA 8W 0V/60Hz C SC x 6.0 x /78 BTA 8W 0V/60Hz C DI x 6.0 x /78 BTA 8W 30V C SC x 6.0 x /78 BTA 8W 30V C DI x 6.0 x /78 BTA 8W 0V C SC x 6.0 x /78 BTA 8W 0V C DI x 6.0 x /78 BTA 36W 0V C SC x 6.0 x /78 BTA 36W 0V C DI x 6.0 x /78 BTA 36W 0V/60Hz C SC x 6.0 x /78 BTA 36W 0V/60Hz C DI x 6.0 x /78 BTA 36W 30V C SC x 6.0 x /78 BTA 36W 30V C DI x 6.0 x /78 BTA 36W 0V C SC x 6.0 x /78 BTA 36W 0V C DI x 6.0 x /78 BTA 30W 0V C SC x 6.0 x /78 BTA 30W 0V C DI x 6.0 x /78 BTA 30W 30V C SC x 6.0 x /78 BTA 30W 30V C DI x 6.0 x /78 BTA 30W 0V C SC x 6.0 x /78 BTA 30W 0V C DI x 6.0 x /78 BTA 58W 0V C SC x 9.5 x /960 BTA 58W 0V C DI x 9.5 x /960 BTA 58W 0V/60Hz C SC x 9.5 x /960 BTA 58W 0V/60Hz C DI x 9.5 x /960 BTA 58W 30V C SC x 9.5 x /960 BTA 58W 30V C DI x 9.5 x /960 BTA 58W 0V C SC x 9.5 x /960 BTA 58W 0V C DI x 9.5 x /960 BTA 8W 0V B SC x 6.0 x /78 BTA 8W 0V B DI x 6.0 x /78 BTA 8W 0V/60Hz B SC x 6.0 x /78 BTA 8W 0V/60Hz B DI x 6.0 x /78 BTA 8W 30V B SC x 6.0 x /78 BTA 8W 30V B DI x 6.0 x /78 BTA 8W 0V B SC x 6.0 x /78 BTA 8W 0V B DI x 6.0 x /78 BTA 8W 0V B SC x 9.5 x.5.3 0/960 BTA 8W 0V B DI x 9.5 x.5.3 0/960 BTA 8W 30V B SC x 9.5 x.5.3 0/960 BTA 8W 30V B DI x 9.5 x.5.3 0/960 BTA 8W 0V B SC x 9.5 x.5.3 0/960 BTA 8W 0V B DI x 9.5 x.5.3 0/960 BTA 30W 0V B SC x 8. x /78 BTA 30W 0V/60Hz B SC x 8. x /78 BTA 30W 0V/60Hz B DI x 8. x /78 BTA 36W 0V B SC x 8. x /78 BTA 36W 0V B DI x 8. x /78 BTA 36W 0V/60Hz B SC x 8. x /78 BTA 36W 0V/60Hz B DI x 8. x /78 BTA 36W 30V B SC x 8. x /78 BTA 36W 30V B DI x 8. x /78 BTA 36W 0V B SC x 8. x /78 BTA 36W 0V B DI x 8. x /78 Ordering and packing data Ballast Ordering Weight Boxpacking Pallet unit number net Qty. Dimensions Weight l xwxh gross kg pcs cm kg Cartons/pcs BTA 36W 0V B SC x 9.5 x.5.3 0/960 BTA 36W 0V B DI x 9.5 x.5.3 0/960 BTA 36W 30V B SC x 9.5 x.5.3 0/960 BTA 36W 30V B DI x 9.5 x.5.3 0/960 BTA 36W 0V B SC x 9.5 x.5.3 0/960 BTA 36W 0V B DI x 9.5 x.5.3 0/960 BTA 58W 0V B SC x 9.5 x /960 BTA 58W 30V B SC x 9.5 x /960 BTA 58W 30V B DI x 9.5 x /960 BTA 58W 0V B SC x 9.5 x /960 BTA 58W 0V B DI x 9.5 x /960 Ordering and packing data.standard and premium range for TE Ballast Ordering Weight Boxpacking Pallet unit number net Qty. Dimensions Weight l xwxh gross kg pcs cm kg Cartons/pcs BTA W 0V C SC x 6.0 x /38 BTA W 0V C DI x 6.0 x /38 BTA W 30V C SC x 6.0 x /38 BTA W 30V C DI x 6.0 x /38 BTA W 0V C SC x 6.0 x /38 BTA W 0V C DI x 6.0 x /38 BTA W 0V B SC x 6.0 x /38 BTA W 0V/60Hz B SC x 6.0 x /38 BTA W 0V/60Hz B DI x 6.0 x /38 BTA 3W 0V C SC x 6.0 x /38 BTA 3W 0V C DI x 6.0 x /38 BTA 3W 30V C SC x 6.0 x /38 BTA 3W 30V C DI x 6.0 x /38 BTA 3W 0V C SC x 6.0 x /38 BTA 3W 0V C DI x 6.0 x /38 BTA 3W 0V B SC x 6.0 x /38 BTA 3W 0V/60Hz B SC x 6.0 x /38 BTA 3W 0V/60Hz B DI x 6.0 x /38 Installation option Installation option 6.30 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.3

Electromagnetic BP EM ballasts for Compact fluorescent lamps Electromagnetic BP EM ballasts for Compact fluorescent lamps Product description All BP ballasts to be applied in circuits for PC, P-T or

67 Electromagnetic BP EM ballasts for Compact fluorescent lamps Electromagnetic BP EM ballasts for Compact fluorescent lamps Product description All BP ballasts to be applied in circuits for PC, P-T or PS compact fluorescent lamps and operating on nominal mains supply as indicated BP 8W Benefits Reliable electrical and mechanical performance ong life Compact dimensions Quick and easy wiring Optimum lamp performance under optimum temperature conditions Features Complies with IEC / IEC9 Tw marking 30ºC (average life time of 0 years of continuous operation) Double insert and screw contacts for solid core wire mm, strip length +/-8mm, insulation diameter max..6mm Embossed mounting plate for noise reduction Applications Department stores, shops, supermarkets Office buildings Industry Airports, railway stations Philips quality This implies optimum quality regarding: System supplier As manufacturers of lamps and control gear, Philips ensures that, from the earliest development stage, optimum lamp/ballast performance is maintained International standards Philips BTA electromagnetic ballasts comply with all relevant international rules and regulations. Fig. Fig. Wiring diagrams Technical data amp Qty Ballast Watt Input Mains Power Capacitor Wiring tw t of loss power current factor diagram lamps during operation W W ma F/V Fig. ºC ºC P-S 7W/9W/W BP 9W 0V B SC/DI.7.7/3.7/5.7 60/70/50 > ±0%, 50V P-S 7W BP 9W 0V B SC/DI > ±0%, 50 V P-C 3W BP 3W 0V B SC/DI 7 65 > ±0%, 50 V P-S 7W/9W BP 3W 0V B SC/DI 8/ 0/70 > ±0%, 50 V P-C 3W BP 3W 0V B SC 7 65 > ±0%, 50 V P-S 7W/9W BP 3W 0V B SC 8/ 0/70 > ±0%, 50 V P-C 8W BP 8W 0V B SC/DI > ±0%, 50 V P-C 8W BP 8W 0V B SC > ±0%, 50 V P-C 6W BP 6W 0V B SC/DI > ±0%, 50 V BP 6W P-S 7W/9W/W BP 9W 0V/60Hz B SC.5.5/3.5/5.5 60/70/50 > ±0%, 50V P-S 7W BP 9W 0V/60Hz B SC > ±0%, 50 V P-C 3W BP 3W 0V/60Hz B SC >0.85. ±0%, 50 V P-S 7W/9W BP 3W 0V/60Hz B SC /.8 0/70 >0.85. ±0%, 50 V P-C 3W BP 3W 0V/60Hz B SC >0.85. ±0%, 50 V P-S 7W/9W BP 3W 0V/60Hz B SC /.8 0/70 >0.85. ±0%, 50 V P-C 8W BP 8W 0V/60Hz B SC > ±0%, 50 V P-C 8W BP 8W 0V/60Hz B SC > ±0%, 50 V Dimensions in mm Fig A P-S 7W/9W/W BP 9W 30V B SC/DI 5.././6. 60/70/50 > ±0%, 50V P-S 7W BP 9W 30V B SC/DI > ±0%, 50 V P-C 3W BP 3W 30V B SC > ±0%, 50 V P-S 7W/9W BP 3W 30V B SC. 8./. 0/70 > ±0%, 50 V P-C 3W BP 3W 30V B SC > ±0%, 50 V P-S 7W/9W BP 3W 30V B SC. 8./. 0/70 > ±0%, 50 V P-C 8W BP 8W 30V B SC/DI > ±0%, 50 V P-C 8W BP 8W 30V B SC/DI > ±0%, 50 V P-C 6W BP 6W 30V B SC/DI > ±0%, 50 V P-S 7W/9W/W BP 9W 0V B SC 5.././6. 60/70/50 > ±0%, 50V P-S 7W BP 9W 0V B SC > ±0%, 50 V P-C 3W BP 3W 0V B SC > ±0%, 50 V P-S 7W/9W BP 3W 0V B SC. 8./. 0/70 > ±0%, 50 V P-C 3W BP 3W 0V B SC > ±0%, 50 V P-S 7W/9W BP 3W 0V B SC. 8./. 0/70 > ±0%, 50 V P-C 8W BP 8W 0V B SC > ±0%, 50 V P-C 8W BP 8W 0V B SC > ±0%, 50 V P-C 6W BP 6W 0V B SC/DI > ±0%, 50 V Fig B Product ID A A B C Fig 9W A 3W A 8W A 6W B otes: On Fig A pf BP sheet, length A is to taken off. ) In accordance with IEC9 tw indicates the maximum permissible temperature of the windings. ) Temperature measurements (average values) in accordance with IEC9. 3) Temperature marking tw/ t in accordance with IEC9. ) To obtain HPF circuit (cos 0.85) by means of a parallel capacitor across the main. Capacitor tolerance ±0%. 6.3 Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.33

Electromagnetic BP EM ballasts for Compact fluorescent lamps Installation option Installation option Ordering and packing data Ballast Ordering Weight Boxpacking Pallet unit number net Qty.

68 Electromagnetic BP EM ballasts for Compact fluorescent lamps Installation option Installation option Ordering and packing data Ballast Ordering Weight Boxpacking Pallet unit number net Qty. Dimensions Weight l xwxh gross kg pcs cm kg Carton/pcs BP 9W 0V B SC x 8.8 x /768 BP 9W 0V B DI x 3.8 x /576 BP 3W 0V B SC x 8.8 x.8.7 6/768 BP 3W 0V B DI x 3.8 x.8.7 /576 BP 3W 0V B SC x 8.8 x.8.7 6/768 BP 8W 0V B SC x 8.8 x.8.7 6/768 BP 8W 0V B DI x 3.8 x.8.7 /576 BP 8W 0V B SC x 8.8 x.8.7 6/768 BP 6W 0V B SC x 5.7 x /38 BP 6W 0V B DI x 5.7 x /38 BP 9W 0V/60Hz B SC x 8.8 x /768 BP 3W 0V/60Hz B SC x 8.8 x /768 BP 3W 0V/60Hz B SC x 8.8 x /768 BP 8W 0V/60Hz B SC x 8.8 x.8.7 6/768 BP 8W 0V/60Hz B SC x 8.8 x.8.7 6/768 BP 9W 30V B SC x 8.8 x.8.7 6/768 BP 9W 30V B DI x 0.6 x.8.7 /576 BP 3W 30V B SC x 8.8 x.8.7 6/768 BP 3W 30V B DI x 0.6 x.8.7 /576 BP 3W 30V B SC x 8.8 x.8.7 6/768 BP 8W 30V B SC x 8.8 x /768 BP 8W 30V B DI x 3.8 x.8 5. /576 BP 8W 30V B SC x 8.8 x /768 BP 8W 30V B DI x 0.6 x.8 5. /576 BP 6W 30V B SC x 5.7 x /38 BP 6W 30V B DI x 5.7 x /38 BP 9W 0V B SC x 8.8 x.8.5 6/768 BP 3W 0V B SC x 8.8 x.8.7 6/768 BP 3W 0V B SC x 8.8 x.8.7 6/768 BP 8W 0V B SC x 8.8 x.8 6 6/768 BP 8W 0V B SC x 8.8 x.8 6 6/768 BP 6W 0V B SC x 5.7 x /38 BP 6W 0V B DI x 5.7 x / Fluorescent and compact fluorescent lamps control gear amps and Gear amps and Gear Fluorescent and compact fluorescent lamps control gear 6.35

LE Fluorescent Ballast

LE Fluorescent Ballast HF-PERFORMER II Electronic ballasts (flat) for TL5 lamps Definition Flat, Slim, lightweight highfrequency electronic ballast for TL-5 fluorescent lamps, based on EII technology. Description The combination