data Reference: amp: HCI 150 W, HQI 150, AV 150 W, and other similar commercially available 150 W lamps System wattage: 160 W ± 5 W amp wattage: 147 W ± 5 W Ballast efficiency: ~ 91 % ine voltage: 220 240 V AC Voltage range: 198 264 V AC ine frequency: 50/60 Hz ine current: 0.71 A eff @ 230 V AC Power factor λ: > 0.95 Inrush current: 70 A / 250 µs @ 50% Dim feature 3DIM (I, StepDIm and AstroDIM) Dimming range: 1) 100 %. 60 % of lamp power amp Burn: Dimming signals to be carried out after 10 minutes of lamp burn-in Max. no. of ECG @ circuit breakers 10 A (B type): 4 Max. no. of ECG @ circuit breakers 16 A (B type) : 7 Max. no. of ECG @ circuit breakers 16 A (B type) 17 in combination with EB-OS: Operating frequency (50 / 60 Hz ine frequency): 165 Hz U-OUT: 250 V Maximum working voltage between H and : 250 V Maximum working voltage between /H and 250 V earth: Ambient temperature t a : -25 C to +55 C Max. temperature at point t c : +85 C Designed ECG life time: 40 000 h (@ t c max.) or 60 000 h (@ t c = 80 C) 2) Overheating protection: Overheating protection thanks to power reduction at T at t c > 85 C and cut off Min. ECG-reset time (by mains interrupt): 0.5 seconds Wire cross section input / output line: 0.5 2.5 mm² Wire stripping: 10 11 mm Max. wiring length ECG/lamp: 1.50 m Max. capacity of wire ECG/lamp: 120 pf Mains terminals (grey): 2 terminals:, StepDIM terminal (white): 1 terminal: SD Equipotentiality terminal (pink): 1 terminal: for lightning stroke protection Secondary terminals (orange): I terminals (red): Ignition voltage: imited ignition time: Dimensions (l x b x h): Distance mounting holes: Casing: Weight: Fixture requirements (IP rating): Fixture protection class: 2012-01-19 page 1 of 5 2 terminals: H, 2 terminals:, 4.5 kv 20 min 158 x 94 x 42,5 mm 148 mm Plastic casing 900 g > IP 54 recommended ECG suitable for class I and class II fixtures
ECG outdoor protection against humidity PCB encapsulated + dust proof plastic housing Vibration tested: Tested according IEC E 60598-1 clause 4.20 Surge: / Equipotentiality terminal: >4kV -: 3kV ightning stroke protection: With connected Equipotentiality-terminal 10 surges with 10kV derived from IEC 61000-4-5 (see also additional hints below) Safety: E 61347-2-12 / IEC 61347-2-12 Radio interference suppression: E 55015 / CISPR 15 Harmonics of line current: E 61000-3-2 / IEC 61000-3-2 Immunity: E 61547 / IEC 61547 I: IEC 62386-101, -102, -203 VDE-sign (safety): 40027169 VDE-EMC-sign: 40025469 Approval marks: 1) HQI lamps excluded from dimming 2) With max. 10% failure rate Geometry 2012-01-19 page 2 of 5
Product number: reference EA 10 EA 40 4008321 956385 4008321 956392 Thermal characteristics Ballast losses and lamp heat radiation can lead to heat accumulation in a complete closed case. Therefore it is necessary to ensure, that the temperature at the measuring point t c does not exceed the maximum value. Attention For safety reasons disconnect the device before replacing the lamp. Installation by qualified electricians only. hints for the lightning protection at class I and II luminaires Hints for construction of the luminaire: ive parts of the ECG are separated by double/reinforced insulation against the outer surfaces of the ECG except in the area around the terminals. The compliance with relevant creepage distances and clearances according to IEC 60598 in this area must be guaranteed by the fixture. A minimum distance of 8 mm between any conductive part and the terminals is recommended. For the proper function of the lightning stroke protection, a minimum clearance and creepage distance of 8 mm between live parts and parts being connected to the equipotentiality terminal is recommended. ightning stroke protection: The ECG is protected against 10 kv surges. For the proper function of the lightning stroke protection, metal parts of the luminaire must be connected to the pink equipotentiality terminal. If the potential of the metal parts rises above 8 kv, an internal surge arrester directs a high current to or for a short time. Absorption of the current will limit the surge voltage. The protection circuit is capable of absorbing at least 10 asymmetric surges of 10 kv derived from IEC 61000-4-5. Class I luminaire: Accessible metal parts of the luminaire must be connected to PE. The ECG is equipped with double/reinforced insulation. Therefore the connection of PE to the ECG is not necessary for the protection against electric shock. However for the proper function of the lightning stroke protection PE respectively metal parts of the luminaire must be connected to the equipotentiality terminal. Class II luminaire: For the proper function of the lightning stroke protection metal parts of the luminaire must be connected to the equipotentiality terminal. This terminal is double insulated against live parts of the ECG. Metal parts of the luminaire which are connected to the equipotentiality terminal are safe to touch in case of normal operation or single fault. 2012-01-19 page 3 of 5
Wiring diagram Installation by qualified electricians only. Max. lamp cable length is 1.5m. Cable should be twisted for favourable EMC behaviour. I 2012-01-19 page 4 of 5
StepDIM 4. 5 kv H SD PTo 3 DIM Steuerleitung / Control Phase AstroDIM 4. 5 kv H SD PTo 3 DIM 2012-01-19 page 5 of 5