Product features of OSRAM-ECG in combination with systems operating with central batteries Manufacturer: Type / Description: OSRAM GmbH 81536 München ECG product family: QUICKTRONIC PROFESSIONAL QTP5 GII Features: Operating voltage range DC: CEAG data: Comment: Complies: 186 V - 275 V at -10 °C Battery voltage range in emergency power operation Yes from AC to DC from DC to AC Installation switching times: 180 ms - 450 ms 180 ms - 450 ms Typical CEAG-installation-switching time Yes In accordance with standard*: DIN EN 60929 AC operated ECGs for tubular fluorescent lamps Yes In accordance with standard*: DIN EN 61347-2-3 (incl. annex J) Specific requirements of AC operated ECGs for fluorescent lamps Yes In accordance with standard*: DIN EN 61000-3-2 In accordance with standard*: DIN EN 61547 In accordance with standard*: DIN EN 55015 (measurement on AC and DC) Switching time: EMC standard for electromagnetic compatibility (harmonic content) EMC standard for electromagnetic interference, especially for emergency lighting (immunity) EMC standard for critical values and measuring systems for radio shielding of electrical illumination appliances (interference) Yes Yes Yes *VDE 0108 is not a standard for ECG, marking is not applicable . No-load current of the ECG (without or faulty lamp) in DC operation Max. inrush current per ECG (AC operation): CEAG data: Comment: Manufacturer's instructions: Nominal value of operation: 2L-CG-S: <10 mA / <28 mA 2L-CG (4-120 W): <10 mA 2L-CG (7-120 W): <25 mA 2L-CG (11-120 W): <41 mA Options for luminaire/ECG-monitoring units, CEAG type: 2L-CG, according to catalog Total inrush current permitted at: SKU 4 x 1A (CG) => 60 A/ms per circuit SKU 2 x 3A (CG) => 120 A/ms per circuit SKU 1 x 6A (CG) => 180 A/ms SKU 2 x 3A CG-S => 250 A/ms per circuit SKU 1 x 6A CG-S => 250 A/ms Relates to a max. permitted inrush current of the ECGs within an electric circuit and allows consideration of the max. contact load when switching circuits see "Overview QTP5" < 10 mA Line current (AC operation): Specific to manufactuer For ascertainment of max.quantity of ECGs per electric circuit see "Overview QTP5" Line current (DC operation): Specific to manufactuer dito see "Overview QTP5" Ratio of luminous flux DC operation 186 V compared to 230 V Specific to manufactuer ECGs for emergency lighting on battery operation (for specifiers) > 75 % The OSRAM ECGs above comply with the DIN-EN standards on this page. Explicit approval was carried out on those standards only. OSRAM as simply a manufacturer of electronic control gears is not liable for the faultless function of other components for emergency lighting. Luminaires, for the operation as safety lighting must comply with standard DIN EN 60598-2-22. CEAG-requirement profile Overview Manufacturer: OSRAM GmbH 81536 München ECG type Type / Description: ECG product family: QUICKTRONIC PROFESSIONAL QTP5 GII Max. inrush current per ECG in AC operation Line current AC operation Line current DC operation HE 14: 0.08 A, HE 21: 0.11 A, HE 28: 0.14 A, HE 35: 0.17 A, DL 28: 0.14 A 2xHE 14: 0.14 A, 2xHE 21: 0.20 A, 2xHE 28: 0.26 A, 2xHE 35: 0.33 A, 2xDL 28: 0.26 A HO 24: 0.12 A, HO 39: 0.18 A; L30: 0.15 A 2xHO 24: 0.23 A, 2xHO 39: 0.36 A; 2xL30: 0.27 A HE 14: 0.08 A, HE 21: 0.11 A, HE 28: 0.14 A, HE 35: 0.17 A, DL 28: 0.14 A 2xHE 14: 0.14 A, 2xHE 21: 0.20 A, 2xHE 28: 0.26 A, 2xHE 35: 0.33 A, 2xDL 28: 0.26 A HO 24: 0.12 A, HO 39: 0.18 A; L30: 0.15 A 2xHO 24: 0.23 A, 2xHO 39: 0.36 A; 2xL30: 0.27 A QTP5 1x14-35 Ip = 24 A; TH = 230 µs QTP5 2x14-35 Ip = 40 A; TH = 200 µs QTP5 1x24-39 Ip = 24 A; TH = 230 µs QTP5 2x24-39 Ip = 40 A; TH = 200 µs QTP5 3x14, 4x14 Ip = 40 A; TH = 200 µs 3xHE 14: 0.22 A; 4xHE 14: 0.28 A 3xHE 14: 0,22 A; 4xHE 14: 0,28 A QTP5 1x49 Ip = 24 A; TH = 230 µs HO 49: 0.24 A HO 49: 0.24 A QTP5 2x49 Ip = 53 A; TH = 190 µs 2x HO 49: 0.49 A 2x HO 49: 0.49 A QTP5 1x54 Ip = 40 A; TH = 200 µs HO 54: 0.26 A HO 54: 0.26 A QTP5 2x54 Ip = 53 A; TH = 190 µs 2xHO 54: 0.50 A 2xHO 54: 0.50 A QTP5 1x80 Ip = 40 A; TH = 200 µs HO 80: 0.38 A, DL 80: 0.38 A HO 80: 0.38 A, DL 80: 0.38 A 19.10.2010