High performance for high ceilings Philips Advance Optanium programmed start parallel ballasts for T5HO and T8 lamps offers improved efficiency-saving on both energy and maintenance costs. Our new addition to our high-performace, highefficiency Optanium ballasts family, these new programmed start parallel ballasts for T5HO and T8 lamps are now available as parallel-wired which provides independent lamp operation within the fixture. When one lamp reaches its end-of-life (EOL) the remaining lamps stay illuminated, which means you change out only the lamps that need to be replaced. This also maintains light levels by minimizing dark lamps, which reduces the urgency of re-lamping. These high-efficiency ballasts are engineered to optimize lighting performance and maximize energy savings by providing an exceptional package of features and benefits including all aluminum can construction with a high temperature 90 C case rating. Also, cold starting at -0 F/-9 C expands options into outdoor, cold storage, and other low temperature applications. Furthermore, these ballasts offer enhanced two-level switching to provide an additional W of energy savings when operated in low-power mode. For T5HO Philips Advance Optanium ballasts for T5HO lamps are optimized for use with Philips Energy Advantage 49W T5HO lamps and may result in 38W of energy savings in a six-lamp fixture.3 These ballasts are designed to provide optimal lighting performance while maximizing potential energy savings and minimizing maintenance costs. T5HO version reduces input watts for additional energy savings over Centium T5HO Ballasts.4 Optanium High-Efficiency Design Helps reduce maintenance costs as more lamps remain on when lamps reach end-of-life minimizing wasteful re-lamping. Independent Lamp Operation Lamps start in less than one second, improving lighting system response to occupancy sensors. Fast Programmed tartrs. Footnotes are located on the bottom of page 3.
Optanium Ballasts for 44, 49 and 54W T5HO Lamps Programmed tart No. of Lamps Input Volts Catalog Number Input Power ANI (Watts) Philips F54T5/HO 44W Energy Advantage Lamps (at 00% output) 3 4 Ballast Factor Max THD% Line Current (Amps) Minimum tarting Temp ( F/ C) * 0-77 IOP-PP54-C 46.00 5 0.39-0.8 5/-5 B 77 347-480 HOP-PP54-L 53.00 0 0.5-0. 5/-5 L 77 0-77 IOP-PP54-C 9.00 0 0.77-0.34 5/-5 B 78 347-480 HOP-PP54-L 98.00 0 0.8-0. 5/-5 L 78 0-77 IOP-4PP54-L-G 4-40.00 0.8-0.5 5/-5 G 80 347-480 HOP-4PP54-L-G 45.00 0 0.4-0.3 5/-5 G 80 0-77 IOP-4PP54-L-G 85-8.00 0.55-0.67 5/-5 G 79 347-480 HOP-4PP54-L-G 9-9.00 0 0.56-0.4 5/-5 G 79 Philips F54T5/HO 44W Energy Advantage Lamps (utilizing two level switching, 4 lamps lamps) 0-77 IOP-4PP54-L-G 90 0.85 0 0.74-0.34 5/-5 G 79 347-480 HOP-4PP54-L-G 90-9 0.85 0 0.7-0.0 5/-5 G 79 Philips F54T5/HO 49W Energy Advantage Lamps (at 00% output) 3 4 0-77 IOP-PP54-C 57.00 0 0.47-0. -0/-9 B 78 347-480 HOP-PP54-L 54-5.00 0 0.6-0.0-0/-9 L 78 0-77 IOP-PP54-C 09-05.00 0 0.9-0.38-0/-9 B 78 347-480 HOP-PP54-L 06-00.00 0 0.3-0.0-0/-9 L 78 0-77 IOP-4PP54-L-G 6-59.00 0.35-0.58-0/-9 G 80 347-480 HOP-4PP54-L-G 60-54.00 0 0.47-0.3-0/-9 G 80 0-77 IOP-4PP54-L-G 4-08.00 0.79-0.76-0/-9 G 79 347-480 HOP-4PP54-L-G 4-06.00 0 0.6-0.43-0/-9 G 79 Philips F54T5/HO 49W Energy Advantage Lamps (utilizing two level switching, 4 lamps lamps F54T5/HO 54W 3 4 0-77 IOP-4PP54-L-G 97-96 0.85 5 0.8-0.36-0/-9 G 79 347-480 HOP-4PP54-L-G 00-96 0.85 0 0.30-0.0-0/-9 G 79 0-77 IOP-PP54-C 60.00 0 0.50-0. -0/-9 B 77 347-480 HOP-PP54-L 5-57.00 0 0.8-0. -0/-9 L 77 0-77 IOP-PP54-C 7-4.00 0 0.98-0.4-0/-9 B 78 347-480 HOP-PP54-L 6-3.00 0 0.35-0.3-0/-9 L 78 0-77 IOP-4PP54-L-G 76-74.00 0.47-0.83-0/-9 G 80 347-480 HOP-4PP54-L-G 80-74.00 0 0.53-0.36-0/-9 G 80 0-77 IOP-4PP54-L-G 35-9.00 0.96-0.83-0/-9 G 79 347-480 HOP-4PP54-L-G 40-34.00 0 0.70-0.48-0/-9 G 79 F54T5/HO 54W (utilizing two level switching, 4 lamps lamps) 0-77 IOP-4PP54-L-G 05-04 0.85 5 0.88-0.39-0/-9 G 79 347-480 HOP-4PP54-L-G -06 0.85 0 0.33-0. -0/-9 G 79 Dim. Wiring Diagram * While the lamps are capable of starting at low temperatures, energy saving lamps, such as the 49W and 44W, can exhibit visible striations at temperatures of 0 C or below. At room temperature (5 C) striations disappear after few minutes.
Optanium Ballasts for 5, 8 and 3W Lamps Programmed tart No. of Lamps Input Volts Catalog Number Philips F3T8 (3W) High Ballast Factor Input Power ANI (Watts) Ballast Factor Max THD% Line Current (Amps) Minimum tarting Temp ( F/ C) * 347-480 HOP-PP3-HLL 79.0 0 0.3-0.7 0/-8 L 78 4 347-480 HOP-4PP3-HLG 5-5.7 0 0.44-0.3 0/-8 G 8 Philips F3T8/E (5W) High Ballast Factor 347-480 HOP-PP3-HLL 6-6.7 0 0.8-0.4 60/6 L 78 4 347-480 HOP-4PP3-HLG -.6-.7 0 0.36-0.6 60/6 G 8 Philips F3T8/E (8W) High Ballast Factor 347-480 HOP-PP3-HLL 68-69.6 0 0.0-0.5 60/6 L 78 4 347-480 HOP-4PP3-HLG 33.6 0 0.36-0.8 60/6 G 8 Dim. Wiring Diagram Dimensions A C A C D D B B Figure B Figure G Figure A B C D B.8.70 8.90 9.50 G.8.70 6.34 6.70 L.00.8 6.34 6.70 A C D B Figure L
Wiring Diagrams * * * Diag. 77 Diag. 78 GRAY/ neutral or any hot ON OFF 4 ON ON ( and /) / BROWN / GRAY/ neutral or any hot ON OFF 3 ON ON ( and /) / BROWN* / Diag. 79 Diag. 80 *INULATE BROWN LEAD INDIVIDUALLY FOR 600V / BROWN Diag. 8 *For all HOP ballasts hot leads are black with orange stripes and black with white stripes.
Ballast pecifications ection I - Physical Characteristics. Ballast shall be provided with integral leads color-coded per ANI C8.. ection II - Performance Requirements. Ballast shall be Programmed tart with lamp ignition in less than.0 second.. Ballast shall provide Independent Lamp Operation for Programmed tart ballasts allowing remaining lamp(s) to maintain full light output when one or more lamps reach end-of-lamp-life..3 Ballast shall contain auto restart circuitry in order to restart lamps without resetting power..4 Ballast shall operate from 60 Hz input source of 0V through 77V or 347V through 480V with sustained variations of +/- 0% (voltage and frequency)..5 Ballast shall be high frequency electronic type and operate lamps at a frequency between 4kHz and 5kHz to avoid interference with infrared devices, eliminate visible flicker and avoid Article urveillance ystem, such as antitheft devices..6 Ballast shall have a Power Factor greater than 0.98 for primary lamp..7 Ballast shall have a.0 ballast factor for primary lamp application..8 Ballast shall provide for a Lamp Current Crest Factor of.7 or less, generally recommended by lamp manufacturers..9 Ballast input current shall have Total Harmonic Distortion (THD) of less than 0% when operated at nominal line voltage with primary lamp at 00% output..0 Ballast shall have a Class A sound rating for all 4-foot lamps and smaller.. Ballast shall have a minimum starting temperature of -0 F (-9 C) for 49W energy-saving T5HO lamps.. Ballast shall tolerate sustained open circuit and short circuit output conditions. ection III - Regulatory Requirements 3. Ballast shall not contain any Polychlorinated Biphenyl (PCB). 3. Ballast shall be Underwriters Laboratories (UL) listed, Class P and Type Outdoor; and Canadian tandards Association (CA) certified where applicable. 3.3 Ballast shall comply with ANI C6.4 Category A for transient protection. 3.4 Ballast shall comply with ANI C8. where applicable. 3.5 Ballast shall comply with the requirements of the Federal Communications Commission (FCC) rules and regulations, Title 47 CFR part 8, Non-Consumer (Class A) for EMI/RFI (conducted and radiated). ection IV - Other 4. Ballast shall be manufactured in a factory certified to IO 900 Quality ystem tandards. 4. Ballast shall carry a limited warranty from date of manufacture against defects in material or workmanship. This warranty is conditioned upon operation at a maximum case temperature of 90 C, among other items. (Go to our website for up-to-date warranty information, www.philips.com/advancewarranty). 4.3 Manufacturer shall have a twenty-year history of producing electronic ballasts for the North American market. 4.4 Ballast shall be Philips Advance part # or approved.. Energy savings is based on input watts of Centium T5HO ballasts and Input watts of a Optanium T5HO) ballasts using standard 54W lamps. Based on the properties of independent lamp operation which allows you to replace only the failed lamps.. Based on input watts of Philips Advance IOP-4PP54-L-G with Philips 49W T5HO Lamps (96W) subtracted from the input watts of Philips Advance ICN-454-90C-L-G with Philips 54W T5HO Lamps (7W)= W energy saved. 3. Based on input watts of Philips Advance ICN-54 (7W) and ICN-454 (34W) with Philips 54W T5HO Lamps subtracting from the input watts of Philips Advance IOP-PP54 (05W) + IOP-4PP54 (08W)with Philips 49W T5HO Lamps (7+34)-(05+08) = 38W. 4. Energy savings is based on input watts of a -lamp Centium T5HO ballasts (7W) and Input watts of a Optanium T5HO ballasts (4W) using 54W lamps.
03 Philips Lighting Electronics N.A. A Division of Philips Electronics North America Corporation. All rights reserved. Printed in the UA Form No. EL-57-C Philips Lighting Electronics N.A. 075 West Higgins Road Rosemont, IL 6008 Tel: 800-3-086 Fax: 888-43-88 Customer upport/technical ervice: 800-37-333 OEM upport: 866-95-5886 www.philips.com/advance