EATON – Conformity certificate with central battery systems 1. OT 24V - Indoor 1.1 OT 50/220-240/24 2. OTi non isolated 2.1 OTi 60/220-240/550 D LT2 L 2.2 OTi 90/220-240/1A0 D LT2 L 3. OT FIT SELV 3.1 OT FIT 35/220-240/700 CS L 3.2 OT FIT 50/220-240/1A0 CS L 3.3 OT FIT 80/220-240/1A6 CS L 4. OT FIT non-isolated 4.1 OT FIT 30/220-240/125 D L 4.2 OT FIT 50/220-240/250 D L 4.3 OT FIT 50/220-240/350 D L 5. OT FIT Compact SELV 5.1 OT FIT 15/220-240/350 CS 5.2 OT FIT 25/220-240/500 CS 5.3 OT FIT 35/220-240/700 CS 5.4 OT FIT 50/220-240/1A0 CS (VII/2015) Requirements for electronic non-dimmable control gears for fluorescent lamps and LED Manufacturer: Osram GmbH Marcel-Breuer-Straße 6 D-80807 München Specifications: Version 0 Type / Description: Constant current LED controlgear Control gear: OT 50/220-240/24 CEAG data: Explanation: Fulfilled: (Yes / No) 186V - 275V DC Possible voltage range of the battery in emergency mode. (Not for AT-S + Systems required ) Switch-over time: 180 ms - 450 ms Typical switch over time of EATON CPS/LPS-devices YES starting characteristic controlgear: Stable current consumption after less than 1.6 sec. maximum. Necessary for selective control ∆ I < 12,5 mA per luminaire, at max. 20 luminaires for one current circuit ∆ I sum < 250 mA YES Fullfilled the standard*: DIN EN 62384 DC. Or AC supplied electronic control gear for LED modules performance requirements YES Fullfilled the standard*: DIN EN 61347-2-13 Lamp controlgear — Part 2‑13: Particular requirements for d. c. or a. c. supplied electronic controlgear for LED modules YES Fullfilled the standard*: DIN EN 55015 (Messung bei AC und DC) Limits and methods of measurement of radio disturbance characteristics of electrical lighting and similar equipment YES Fullfilled the standard*: DIN EN 61000-3-2 Electromagnetic compatibility (EMC) — Part 3-2: Limits— Limits for harmonic current emissions (equipment input current ≤ 16 A per phase) YES Fullfilled the standard*: DIN EN 61000-3-2, Pkt. 7.3 a.) is forceful necessary for AT-S+ Systems special for LED drivers!! (sinusoidal current draw) YES Fullfilled the standard*: DIN EN 61547 Equipment for general lighting purposes — EMC immunity requirements YES Fullfilled the standard*: DIN EN 62031 LED modules for general lighting — Safety specifications N/A Voltagerange DC Switch over time: From AC to DC YES (176-276 V) * The labeling "according to VDE 0108" is not meaningful, because it is not a ballast standard ! Specifications: EATON data: V-CG-S2: >9,4 mA oder >12,7 mA = OK No load current of the ballast V-CG-S: >16 mA oder >47 mA = OK (without tube or with defect tube) in V-CG-SE: >16 mA oder >47 mA = OK DC-operation V-CG-SUW: >47 mA = OK CG-K: >16 mA oder >47 mA = OK voltage dependent = No load current of the ballast (without or with defect LED module) in DC and AC operation*: V-CG-S2: <5,8 mA oder <7,9 mA = n.OK V-CG-S: <10 mA oder <28 mA = n.OK V-CG-SK: <10 mA oder <28 mA = n.OK V-CG-SUW: <28 mA = n.OK CG-K: <10 mA oder <28 mA = n.OK Max. inrush current each converter/luminaire in AC-operation: Max. permitted inrush current per circuit: SKU 2 x 3A (CG) => 120 A SKU 1 x 6A (CG) => 180 A SKU 4 x 1,5A CG-S => 60 A SKU 2 x 3A CG-S => 250 A SKU 1 x 6A CG-S => 250 A SOU CG-S // S+ => 250 A SU S+ => 250 A Lightoutput in DC-operation at 186 V in comparison to 230 V AC operation Manufacturer specification: Explanation: - selection aid for monitoring modules also for identification of the max. luminaire quantity per circuit and the required battery capacity. these values are not allowed to be failed below def. limits for the voltagerange of: 186 - 275V DC und 189 - 264 V AC (for AT-S+ Systems must be the current draw sinusoidal See DIN EN 61000-3-2, clause 7.3 a.) AC:YES, TO BE TESTED WITH EATON SYSTEM DC: YES, TO BE TESTED WITH EATON SYSTEMAC AC:YES, TO BE TESTED Selection guide for the monitoring modules. WITH CEAG SYSTEM In the voltage range of 186 - 275V DC and 189 - 264V AC the DC: YES, TO BE TESTED no-load current must be lower. WITH CEAG SYSTEM see *Important note! Describes the max. inrush current of all ballasts in a circuit, to calculate the maximum contact rating of the circuit. < 30 A / < 215 us In battery operation of the ballast, for the light calculation at 25 °C EBLF > 0,98 acc. Datasheet luminaires, which are used for emergency lighting, must be according to the standard DIN EN 60598-2-22 (particular requirements - Luminaires for emergency lighting) and DIN EN 62471 classification group 1 (Photobiological safety for lamps and lamp systems) *The modules of the family V-CG-S can controll only the input current of the LED converters, in the above defined tolerances. Individual failures of LEDs (low resistive) on the secudary side of the converters could also create input current values out of CEAG "definition", so that the CEAG modules on the input side of converters could produce wrong informations for the emergency controlling station. **ballast is switching off by temperature ta > 45°C (full load) ***)information to EN 60598-2-22 was not tested Date: 20.Oct.2014 EATON_requirements_for_LED-controlgears_OT_50 Manufacturer: OSRAM GmbH Marcel-Breuer-Str.6 D-80807 München LED controlgear type OT 50/220-240/24 Type / Description: Constant current LED controlgear Control gear: OT 50/220-240/24 Max. inrush current for ECG AC-operation Values for load range IN in AC-operation (220-240 V) IN in DC-operation (176-276 V) INoLoad in AC-operation INoLoad in DC-operation Ip = 30 A; TH = 215 μs Maximum load 50W 270 mA (220V) 250 mA (240V) 266 mA (220V) 242 mA (240V 34 mA (220V) 33 mA (240V) 28mA [ 176VDC ] 24 mA [ 240VDC ] 21 mA [ 276VDC ] Requirements for electronic non-dimmable control gears for fluorescent lamps and LED Type / Description: Constant current LED controlgear Manufacturer: OSRAM GmbH Marcel-Breuer-Str.6 D-80807 München Specifications: Version 0 LED controlgear: OTi 60/220-240/550 D LT2 L LED controlgear: OTi 90/220-240/1A0 D LT2 L CEAG data: Explanation: Control gear suitable for a DC voltage range: 186V - 275V DC Possible voltage range of the battery in emergency mode. (Not for AT-S + Systems required ) Yes Control gear compatible with the switch-over time of the system? Switch-over time: 180 ms - 450 ms Typical switch-over time of CEAG systems between mains supply and emergency power supply Yes Starting behavior of the control gear: Stable current consumption after less than 1.6 sec. maximum. Necessary for an individual monitoring. ∆ I < 12,5 mA per luminaire, with max. 20 luminaires per circuit ∆ I sum < 250 mA Yes Control gear complies with the standard: DIN EN 62384 AC or DC supplied electronic control gear for LED modules Performance requirements Yes Control gear complies with the standard: DIN EN 61347-2-13 Particular requirements for AC or DC supplied electronic control gear for LED modules Yes Control gear complies with the standard: DIN EN 55015 (Measured in AC and DC) Limits and methods of measurement of radio disturbance characteristics of electrical lighting and similar equipment Yes Control gear complies with the standard: DIN EN 61000-3-2 Control gear complies with the standard: DIN EN 61000-3-2, Pkt. 7.3 a.) Control gear complies with the standard: DIN EN 61547 Equipment for general lighting purposes EMC immunity requirements LED module complies with the standard: DIN EN 62031 LED modules for general lighting Safety specifications Fulfilled: (Yes / No) Electromagnetic compatibility (EMC) Part 3-2: Limits - Limits for harmonic current emissions (equipment input current ≤ 16 A per phase) Mandatory for control gears for LED modules in combination with AT-S+ Systems! (Current consumption must be sinusoidal.) Yes Yes Yes - The labeling "according to VDE 0108" is not meaningful, because this is not a control gear standard! Manufacturer specification: Specifications: CEAG data: Explanation: Voltage-dependent Input current of the control gear incl. LED in DC and AC operation: V-CG-S2: >9,4 mA or >12,7 mA V-CG-S: >16 mA or >47 mA V-CG-SE: >16 mA or >47 mA V-CG-SUW: >47 mA CG-K: >16 mA or >47 mA = OK = OK = OK = OK = OK Selection guide for the monitoring modules as well as for the calculation of the max. number of luminaires per circuit and the necessary battery capacity. In the voltage range of 186 - 275V DC and 189 - 264V AC the input current must be higher. The current consumption must be sinusoidal for AT-S+ Systems. See DIN EN 61000-3-2, Pkt. 7.3 a.) Voltage-dependent No-load current of the control gear (without or defect LED module) in DC and AC - operation*: V-CG-S2: <5,8 mA or <7,9 mA V-CG-S: <10 mA or <28 mA V-CG-SK: <10 mA or <28 mA V-CG-SUW: <28 mA CG-K: <10 mA or <28 mA = n.OK = n.OK = n.OK = n.OK = n.OK Selection guide for the monitoring modules. In the voltage range of 186 - 275V DC and 189 - 264V AC the no-load current must be lower. The current consumption must be sinusoidal for AT-S+ Systems. See DIN EN 61000-3-2, Pkt. 7.3 a.) AC: see attachment converter overview list DC: AC: see attachment converter overview list DC: Max. permitted inrush current per circuit: SKU 2 x 3A (CG) => 120 A SKU 1 x 6A (CG) => 180 A IPK=25A Max. inrush current of each luminaire SKU 4 x 1,5A CG-S => 60 A Describes the max. inrush current of all luminaires in one in AC operation circuit to calculate the maximum contact load of the circuit tHW=240µs SKU 2 x 3A CG-S => 250 A SKU 1 x 6A CG-S => 250 A => 250 A SOU CG-S // S+ SU S+ => 250 A Luminous flux ratio: Light output in battery operation is needed for the light see attachment 186 V DC operation in comparison to calculation. converter overview list 230 V AC operation Luminaires for emergency lighting must comply with DIN EN 60598-2-22 (Particular requirements -Luminaires for emergency lighting) and DIN EN 62471 classification group 1 (Photobiological safety of lamps and lamp systems). *The modules of the V-CG-S series monitor the current consumption on the primary side of the control gear for LED modules within the specified limits. Failures of individual LEDs (low-impedance) on the secondary side do not inevitably lead to a modification of current consumption on the primary side, and in such cases cannot be detected as a failure. CEAG_Requirements OTi 60_90 Manufacturer: OSRAM GmbH Marcel-Breuer-Str.6 D-80807 München LED controlgear type OTi 60/220-240/550 D LT2 L OTi 90/220-240/1A0 D LT2 L Type / Description: Constant current LED controlgear LED controlgear: OTi 60/220-240/550 D LT2 L LED controlgear: OTi 90/220-240/1A0 D LT2 L Max. inrush current for ECG AC-operation IPK = 25 A; tHW = 240 µs IPK = 25 A; tHW = 240 µs Values for load range IN in AC-operation (220-240 V) IN in DC-operation (176-276 V) INoLoad in AC-operation INoLoad in DC-operation Maximum load Minimum load [Iout 120mA] 132 mA 59 mA (240V) 27 mA <16 mA (240V) 31 mA [ 220VAC ] 34 mA [ 240VAC ] <10mA [176VDC] <10mA [240VDC] <10mA [276VDC] Maximum load Minimum load [Iout 280mA] 262 mA 98 mA (240V) 43 mA 18 mA (240V) 31 mA [ 220VAC ] 34 mA [ 240VAC ] <10mA [176VDC] <10mA [240VDC] <10mA [276VDC] Maximum load Minimum load [Iout 550mA] 277 mA 154 mA (240V) 48mA 30 mA (240V) 31 mA [ 220VAC ] 34 mA [ 240VAC ] <10mA [176VDC] <10mA [240VDC] <10mA [276VDC] Maximum load Minimum load [Iout 280mA] Maximum load Minimum load [Iout 600 mA] Maximum load Minimum load [Iout 1000 mA] 299 mA 96 mA (240V) 393 mA 166 mA (240V) 402 mA 271 mA (240V) 60 mA 20 mA (240V) 66 mA 33 mA (240V) 75 mA 48 mA (240V) Note: IOUT is weighted with a factor of 0.15 when the ECG is operated with DC. Note: 15 percent @ Ta = 25°C and 15 percent when operated 1 hour @ T = 70°C Note: In the future there should be an option to reprogram the ECG in the factory in order to increase IOUT in DC mode. Note: POUT is limited to 27 W in case of Ta < T <= 70°C with EL flag activated Information in this document is subject to change without notice 32 mA [ 220VAC ] 35 mA [ 240VAC ] 32 mA [ 220VAC ] 35 mA [ 240VAC ] 32 mA [ 220VAC ] 35 mA [ 240VAC ] <10mA [176VDC] <10mA [240VDC] <10mA [276VDC] <10mA [176VDC] <10mA [240VDC] <10mA [276VDC] <10mA [176VDC] <10mA [240VDC] <10mA [276VDC] Requirements for electronic non-dimmable control gears for fluorescent lamps and LED Type / Description: Constant current LED controlgear Manufacturer: OSRAM GmbH Marcel-Breuer-Str.6 D-80807 München Specifications: Version 0 LED controlgear: OT FIT 35/220-240/700 CS L LED controlgear: OT FIT 50/220-240/1A0 CS L CEAG Data: Explanation: 186V - 275V DC Possible voltage range of the battery in emergency mode (Not necessary for AT-S+ System) Yes Switch-over time: 180 ms - 450 ms Typical switch-over time of CEAG systems between mains supply and emergency power supply Yes Starting behavior of the control gear: Stable current consumption after less than 1.6 sec. maximum. Necessary for an individual monitoring. D I < 12,5 mA per luminaire, with max. 20 luminaires per circuit D I sum < 250 mA Yes Control gear complies with the standard: DIN EN 62384 AC or DC supplied electronic control gear for LED modules Performance requirements Yes Control gear complies with the standard: DIN EN 61347-2-13 Control gear complies with the standard: DIN EN 55015 (Measured in AC and DC) Control gear complies with the standard: DIN EN 61000-3-2 Control gear complies with the standard: DIN EN 61000-3-2, Pkt. 7.3 a.) Control gear complies with the standard: DIN EN 61547 LED module complies with the standard DIN EN 62031 Control gear suitable for a DC voltage range: Control gear compatible with the switch-over time of the system? Fulfilled: (Yes / No) Particular requirements for AC or DC supplied electronic control gear for LED modules Yes Limits and methods of measurement of radio disturbance characteristics of electrical lighting and similar equipment Electromagnetic compatibility (EMC) Part 3-2: Limits - Limits for harmonic current emissions (equipment input current ≤ 16 A per phase) Yes Mandatory for control gears for LED modules in combination with AT-S+ Systems! (Current consumption must be sinusoidal.) Equipment for general lighting purposes — EMC immunity requirements Yes Yes Yes LED modules for general lighting — Safety specifications N/A * The labeling "according to VDE 0108" is not meaningful, because it is not a ballast standard ! Specifications: CEAG-Datas Explanation: Fulfilled: (Yes / No) AC: see attachment converter overview list DC: Voltage-dependent Input current of the control gear incl. LED in DC and AC operation: V-CG-S2: >9,4 mA or >12,7 mA = OK V-CG-S: >16 mA or >47 mA = OK V-CG-SE: >16 mA or >47 mA = OK V-CG-SUW: >47 mA = OK CG-K: >16 mA or >47 mA = OK Selection guide for the monitoring modules as well as for the calculation of the max. number of luminaires per circuit and the necessary battery capacity. In the voltage range of 186 - 275V DC and 189 - 264V AC the input current must be higher. The current consumption must be sinusoidal for AT-S+ Systems. See DIN EN 61000-3-2, Pkt. 7.3 a.) Voltage-dependent No-load current of the control gear (without or defect LED module) in DC and AC - operation*: V-CG-S2: <5,8 mA or <7,9 mA = n.OK V-CG-S: <10 mA or <28 mA = n.OK V-CG-SK: <10 mA or <28 mA = n.OK V-CG-SUW: <28 mA = n.OK CG-K: <10 mA or <28 mA = n.OK AC: Selection guide for the monitoring modules. see attachment In the voltage range of 186 - 275V DC and 189 - 264V AC the converter overview list no-load current must be lower. DC: The current consumption must be sinusoidal for AT-S+ Systems. See DIN EN 61000-3-2, Pkt. 7.3 a.) Max. permitted inrush current per circuit: SKU 2 x 3A (CG) => 120 A SKU 1 x 6A (CG) => 180 A SKU 4 x 1,5A CG-S => 60 A SKU 2 x 3A CG-S => 250 A SKU 1 x 6A CG-S => 250 A SOU CG-S // S+ => 250 A SU S+ => 250 A Describes the max. inrush current of all luminaires in one circuit to calculate the maximum contact load of the circuit Max. inrush current of each luminaire in AC operation Luminous flux ratio: 186 V DC operation in comparison to 230 V AC operation - Light output in battery operation is needed for the light calculation. IPK=20A tHW=180μs see attachment converter overview listt prep. Sniegon 07-2012 (7.2.2013) Luminaires for emergency lighting must comply with DIN EN 60598-2-22 (Particular requirements -Luminaires for emergency lighting) and DIN EN 62471 classification group 1 (Photobiological safety of lamps and lamp systems). *The modules of the V-CG-S series monitor the current consumption on the primary side of the control gear for LED modules within the specified limits. Failures of individual LEDs (low-impedance) on the secondary side do not inevitably lead to a modification of current consumption on the primary side, and in such cases cannot be detected as a failure. PFC inside OT FIT 35/220-240/700 CS L OT FIT 50/220-240/700 CS L c: Hummel/Sniegon page 1 of 2 OSRAM Manufacturer: OSRAM GmbH Marcel-Breuer-Str.6 D-80807 München LED controlgear type OT FIT 35/220-240/700 CS L OT FIT 50/220-240/1A0 CS L OT FIT 35/220-240/700 CS L OT FIT 50/220-240/1A0 CS L c: Hummel / Sniegon Type / Description: Constant current LED controlgear LED controlgear: OT FIT 35/220-240/700 CS L LED controlgear: OT FIT 50/220-240/1A0 CS L Max. inrush current for ECG AC-operation Values for load range IN in AC-operation (220-240 V) IN in DC-operation (176-276 V) INoLoad in AC-operation INoLoad in DC-operation Ip = 20 A; TH = 150 µs Maximum load Minimum load [Iout 500mA] 139mA 82 mA (240V) 131 mA 69 mA (240V) 41 mA [ 220VAC ] 42 mA [ 240VAC ] 19 mA [ 176VDC ] 16 mA [ 240VDC ] 14 mA [ 276VDC ] Maximum load Minimum load [Iout 600mA] 161 mA 93 mA (240V) 153 mA 82 mA (240V) 44 mA [ 220VAC ] 43 mA [ 240VAC ] 21 mA [ 176VDC ] 17 mA [ 240VDC ] 16 mA [ 276VDC ] Maximum load Minimum load [Iout 700mA] 172 mA 110 mA (240V) 166 mA 100 mA (240V) 45 mA [ 220VAC ] 46 mA [ 240VAC ] 25 mA [ 176VDC ] 20 mA [ 240VDC ] 18 mA [ 276VDC ] Maximum load Minimum load [Iout 700mA] 200 mA 120 mA (240V) 193 mA 110 mA (240V) 45 mA [ 220VAC ] 45 mA [ 240VAC ] 24 mA [ 176VDC ] 20 mA [ 240VDC ] 17 mA [ 276VDC ] Maximum load Minimum load [Iout 825 mA] 239 mA 1125 mA (240V) 234 mA 128 mA (240V) 45 mA [ 220VAC ] 46 mA [ 240VAC ] 24 mA [ 176VDC ] 20 mA [ 240VDC ] 17 mA [ 276VDC ] Maximum load Minimum load [Iout 1050 mA] 268 mA 156 mA (240V) 265 mA 149 mA (240V) 45 mA [ 220VAC ] 46 mA [ 240VAC ] 25 mA [ 176VDC ] 20 mA [ 240VDC ] 18 mA [ 276VDC ] Ip = 20 A; TH = 150 µs page 2 of 2 OSRAM Requirements for electronic non-dimmable control gears for fluorescent lamps and LED Manufacturer: OSRAM GmbH Marcel-Breuer-Str.6 D-80807 München Specifications: Version 0 Type / Description: Constant current LED controlgear LED controlgear: OT FIT 80/220-240/1A6 CS L CEAG data: Explanation: Control gear suitable for a DC voltage range: 186V - 275V DC Possible voltage range of the battery in emergency mode. (Not for AT-S + Systems required ) Yes Control gear compatible with the switch-over time of the system? Switch-over time: 180 ms - 450 ms Typical switch-over time of CEAG systems between mains supply and emergency power supply Yes Starting behavior of the control gear: Stable current consumption after less than 1.6 sec. maximum. Necessary for an individual monitoring. ∆ I < 12,5 mA per luminaire, with max. 20 luminaires per circuit ∆ I sum < 250 mA Yes Control gear complies with the standard: DIN EN 62384 AC or DC supplied electronic control gear for LED modules Performance requirements Yes Control gear complies with the standard: DIN EN 61347-2-13 Particular requirements for AC or DC supplied electronic control gear for LED modules Yes Control gear complies with the standard: DIN EN 55015 (Measured in AC and DC) Limits and methods of measurement of radio disturbance characteristics of electrical lighting and similar equipment Yes Control gear complies with the standard: DIN EN 61000-3-2 Control gear complies with the standard: DIN EN 61000-3-2, Pkt. 7.3 a.) Control gear complies with the standard: DIN EN 61547 Equipment for general lighting purposes EMC immunity requirements Yes LED module complies with the standard: DIN EN 62031 LED modules for general lighting Safety specifications N/A Fulfilled: (Yes / No) Electromagnetic compatibility (EMC) Part 3-2: Limits - Limits for harmonic current emissions (equipment input current ≤ 16 A per phase) Mandatory for control gears for LED modules in combination with AT-S+ Systems! (Current consumption must be sinusoidal.) Yes Yes The labeling "according to VDE 0108" is not meaningful, because this is not a control gear standard! Manufacturer specification: Specifications: CEAG data: Explanation: Voltage-dependent Input current of the control gear incl. LED in DC and AC operation: V-CG-S2: >9,4 mA or >12,7 mA V-CG-S: >16 mA or >47 mA V-CG-SE: >16 mA or >47 mA V-CG-SUW: >47 mA CG-K: >16 mA or >47 mA = OK = OK = OK = OK = OK Selection guide for the monitoring modules as well as for the calculation of the max. number of luminaires per circuit and the necessary battery capacity. In the voltage range of 186 - 275V DC and 189 - 264V AC the input current must be higher. The current consumption must be sinusoidal for AT-S+ Systems. See DIN EN 61000-3-2, Pkt. 7.3 a.) Voltage-dependent No-load current of the control gear (without or defect LED module) in DC and AC - operation*: V-CG-S2: <5,8 mA or <7,9 mA V-CG-S: <10 mA or <28 mA V-CG-SK: <10 mA or <28 mA V-CG-SUW: <28 mA CG-K: <10 mA or <28 mA = n.OK = n.OK = n.OK = n.OK = n.OK Selection guide for the monitoring modules. In the voltage range of 186 - 275V DC and 189 - 264V AC the no-load current must be lower. The current consumption must be sinusoidal for AT-S+ Systems. See DIN EN 61000-3-2, Pkt. 7.3 a.) AC: see attachment converter overview list DC: AC: see attachment converter overview list DC: Max. permitted inrush current per circuit: SKU 2 x 3A (CG) => 120 A SKU 1 x 6A (CG) => 180 A IPK=32A Max. inrush current of each luminaire SKU 4 x 1,5A CG-S => 60 A Describes the max. inrush current of all luminaires in one in AC operation circuit to calculate the maximum contact load of the circuit tHW=200µs SKU 2 x 3A CG-S => 250 A SKU 1 x 6A CG-S => 250 A => 250 A SOU CG-S // S+ SU S+ => 250 A Luminous flux ratio: Light output in battery operation is needed for the light see attachment 186 V DC operation in comparison to calculation. converter overview list 230 V AC operation Luminaires for emergency lighting must comply with DIN EN 60598-2-22 (Particular requirements -Luminaires for emergency lighting) and DIN EN 62471 classification group 1 (Photobiological safety of lamps and lamp systems). *The modules of the V-CG-S series monitor the current consumption on the primary side of the control gear for LED modules within the specified limits. Failures of individual LEDs (low-impedance) on the secondary side do not inevitably lead to a modification of current consumption on the primary side, and in such cases cannot be detected as a failure. PFC inside CEAG_Requirements OT FIT 80 1A6 CS L Manufacturer: OSRAM GmbH Marcel-Breuer-Str.6 D-80807 München LED controlgear type OT FIT 80/220-240/1A6 CS L Type / Description: Constant current LED controlgear LED controlgear: OT FIT 80/220-240/1A6 CS L Maximum load Minimum load [Iout 1200mA] IN in AC-operation (220-240 V) 312mA 175mA (240V) IN in DC-operation (176-276 V) 307 mA 166 mA (240V) Maximum load Minimum load [Iout 1400mA] 362 mA 201 mA (240V) Maximum load Minimum load [Iout 1550mA] 385 mA 228 mA (240V) Max. inrush current for ECG AC-operation Values for load range IPK = 32 A; tHW = 200 µs Note: IOUT is not reduced when ECG is DC operated. IOUT is limited to 820 mA in case of Ta < T <= 70°C Note: 100 percent @ Ta = 25°C and more than 50 percent when operated 1 hour @ T = 70°C Information in this document is subject to change without notice INoLoad in AC-operation INoLoad in DC-operation 77 mA [ 220VAC ] 76 mA [ 240VAC ] 26 mA [ 176VDC ] 22 mA [ 240VDC ] 16 mA [ 276VDC ] 357 mA 193 mA (240V) 77 mA [ 220VAC ] 76 mA [ 240VAC ] 26 mA [ 176VDC ] 22 mA [ 240VDC ] 16 mA [ 276VDC ] 417 mA 241 mA (240V) 77 mA [ 220VAC ] 76 mA [ 240VAC ] 26 mA [ 176VDC ] 22 mA [ 240VDC ] 16 mA [ 276VDC ] Requirements for electronic non-dimmable control gears for fluorescent lamps and LED Type / Description: Constant current LED controlgear LED controlgear: OT FIT 30/220-240/125 D L LED controlgear: OT FIT 50/220-240/250 D L LED controlgear: OT FIT 50/220-240/350 D L Manufacturer: OSRAM GmbH Marcel-Breuer-Str.6 D-80807 München Specifications: Version 0 CEAG data: Explanation: Control gear suitable for a DC voltage range: 186V - 275V DC Possible voltage range of the battery in emergency mode. (Not for AT-S + Systems required ) Yes Control gear compatible with the switch-over time of the system? Switch-over time: 180 ms - 450 ms Typical switch-over time of CEAG systems between mains supply and emergency power supply Yes Starting behavior of the control gear: Stable current consumption after less than 1.6 sec. maximum. Necessary for an individual monitoring. ∆ I < 12,5 mA per luminaire, with max. 20 luminaires per circuit ∆ I sum < 250 mA Yes Control gear complies with the standard: DIN EN 62384 AC or DC supplied electronic control gear for LED modules Performance requirements Yes Control gear complies with the standard: DIN EN 61347-2-13 (incl. Attachement J) Particular requirements for AC or DC supplied electronic control gear for LED modules Yes Control gear complies with the standard: DIN EN 55015 (Measured in AC and DC) Limits and methods of measurement of radio disturbance characteristics of electrical lighting and similar equipment Yes Control gear complies with the standard: DIN EN 61000-3-2 Control gear complies with the standard: DIN EN 61000-3-2, Pkt. 7.3 a.) Control gear complies with the standard: DIN EN 61547 Equipment for general lighting purposes EMC immunity requirements Yes LED module complies with the standard: DIN EN 62031 LED modules for general lighting Safety specifications N/A Fulfilled: (Yes / No) Electromagnetic compatibility (EMC) Part 3-2: Limits - Limits for harmonic current emissions (equipment input current ≤ 16 A per phase) Mandatory for control gears for LED modules in combination with AT-S+ Systems! (Current consumption must be sinusoidal.) Yes Yes The labeling "according to VDE 0108" is not meaningful, because this is not a control gear standard! Manufacturer specification: Specifications: CEAG data: Explanation: Voltage-dependent Input current of the control gear incl. LED in DC and AC operation: V-CG-S2: >9,4 mA or >12,7 mA V-CG-S: >16 mA or >47 mA V-CG-SE: >16 mA or >47 mA V-CG-SUW: >47 mA CG-K: >16 mA or >47 mA = OK = OK = OK = OK = OK Selection guide for the monitoring modules as well as for the calculation of the max. number of luminaires per circuit and the necessary battery capacity. In the voltage range of 186 - 275V DC and 189 - 264V AC the input current must be higher. The current consumption must be sinusoidal for AT-S+ Systems. See DIN EN 61000-3-2, Pkt. 7.3 a.) Voltage-dependent No-load current of the control gear (without or defect LED module) in DC and AC - operation*: V-CG-S2: <5,8 mA or <7,9 mA V-CG-S: <10 mA or <28 mA V-CG-SK: <10 mA or <28 mA V-CG-SUW: <28 mA CG-K: <10 mA or <28 mA = n.OK = n.OK = n.OK = n.OK = n.OK Selection guide for the monitoring modules. In the voltage range of 186 - 275V DC and 189 - 264V AC the no-load current must be lower. The current consumption must be sinusoidal for AT-S+ Systems. See DIN EN 61000-3-2, Pkt. 7.3 a.) AC: see attachment converter overview list DC: AC: see attachment converter overview list DC: Max. permitted inrush current per circuit: SKU 2 x 3A (CG) => 120 A SKU 1 x 6A (CG) => 180 A Max. inrush current of each luminaire SKU 4 x 1,5A CG-S => 60 A Describes the max. inrush current of all luminaires in one IPK=20A in AC operation circuit to calculate the maximum contact load of the circuit tHW=100μs SKU 2 x 3A CG-S => 250 A SKU 1 x 6A CG-S => 250 A => 250 A SOU CG-S // S+ SU S+ => 250 A Luminous flux ratio: Light output in battery operation is needed for the light 186 V DC operation in comparison to > 50% calculation. 230 V AC operation Luminaires for emergency lighting must comply with DIN EN 60598-2-22 (Particular requirements -Luminaires for emergency lighting) and DIN EN 62471 classification group 1 (Photobiological safety of lamps and lamp systems). *The modules of the V-CG-S series monitor the current consumption on the primary side of the control gear for LED modules within the specified limits. Failures of individual LEDs (low-impedance) on the secondary side do not inevitably lead to a modification of current consumption on the primary side, and in such cases cannot be detected as a failure. CEAG_Requirements OT FIT 30_50 Manufacturer: OSRAM GmbH Marcel-Breuer-Str.6 D-80807 München LED controlgear type Type / Description: Constant current LED controlgear LED controlgear: OT FIT 30/220-240/125 D L LED controlgear: OT FIT 50/220-240/250 D L LED controlgear: OT FIT 50/220-240/350 D L Max. inrush current for ECG AC-operation OT FIT 30/220-240/125 D L IPK = 20 A tHW < 100 μs OT FIT 50/220-240/250 D L IPK = 20 A tHW < 100 μs OT FIT 50/220-240/350 D L IPK = 20 A tHW < 100 μs Values for load range Maximum load Minimum load [Iout 125mA] Maximum load Minimum load [Iout 250mA] Maximum load Minimum load [Iout 350mA] IN in AC-operation (220-240 V) 140 mA > 28 mA (230V) 270 mA > 47 mA (230V) 270 mA > 47 mA (230V) Note: IOUT is not reduced when ECG is DC operated. Note: POUT is 100 percent @ Ta = 25°C and more than 50 percent when operated 1 hour @ T = 70°C Information in this document is subject to change without notice IN in DC-operation (176-276 V) 140 mA > 16 mA (240V) 270 mA > 47 mA (240V) 270 mA > 47 mA (240V) INoLoad in AC-operation < 28 mA (230V) < 47 mA (230V) < 28 mA (230V) INoLoad in DC-operation < 10mA [186VDC] < 10mA [240VDC] < 10mA [275VDC] < 10mA [186VDC] < 10mA [240VDC] < 10mA [275VDC] < 10mA [186VDC] < 10mA [240VDC] < 10mA [275VDC] Requirements for electronic non-dimmable control gears for fluorescent lamps and LED Manufacturer: OSRAM GmbH Marcel-Breuer-Str.6 D-80807 München Version 8 Type / Description: Constant current LED controlgear OT FIT 15/220-240/350 CS OT FIT 50/220-240/1A0 CS Specifications: CEAG Data: Explanation: Control gear suitable for a DC voltage range: 186V - 260V DC (for Lead-Battery) 186V - 275V DC (for NiCD-Battery) Possible voltage range of the battery in emergency mode (Not necessary for AT-S+ System) Yes Switch-over time: 180 ms - 450 ms Typical switch-over time of CEAG systems between mains supply and emergency power supply Yes Stable current consumption after less than 1.6 sec. maximum. Necessary for an individual monitoring. D I < 12,5 mA per luminaire, with max. 20 luminaires per circuit D I sum < 250 mA Yes DIN EN 60929 AC and/or DC-supplied electronic control gear for tubular fluorescent lamps - Performance requirements N/A Control gear compatible with the switch-over time of the system? Starting behavior of the control gear: only for fluorescent lamps: Control gear complies with the standard: only for fluorescent lamps: Control gear complies with the standard: only for LED: Control gear complies with the standard: only for LED: Control gear complies with the standard: Fulfilled: (Yes / No) DIN EN 61347-2-3 (incl. Attachment J) Particular requirements for AC and/or DC supplied electronic control gear for fluorescent lamps N/A DIN EN 62384 AC or DC supplied electronic control gear for LED modules Performance requirements N/A DIN EN 61347-2-13 Particular requirements for AC or DC supplied electronic control gear for LED modules Yes Control gear complies with the standard: DIN EN 55015 (Measured in AC and DC) Limits and methods of measurement of radio disturbance characteristics of electrical lighting and similar equipment Control gear complies with the standard: DIN EN 61000-3-2 Control gear complies with the standard: DIN EN 61000-3-2, Pkt. 7.3 a.) Control gear complies with the standard: DIN EN 61547 Electromagnetic compatibility (EMC) Part 3-2: Limits - Limits for harmonic current emissions (equipment input current ≤ 16 A per phase) see *Important note! Yes Yes Yes Equipment for general lighting purposes EMC immunity requirements Yes * The labeling "according to VDE 0108" is not meaningful, because it is not a ballast standard ! Specifications: Important for functiontest: Voltage-dependent Input current of the control gear incl. LED in DC and AC operation: CEAG-Datas V-CG-S2: >9,4 mA or >12,7 mA = OK V-CG-S: >16 mA or >47 mA = OK V-CG-SE: >16 mA or >47 mA = OK V-CG-SUW: >47 mA = OK CG-K: >16 mA or >47 mA = OK Explanation: In the voltage range of 186 - 275V DC and 189 - 264V AC the input current must be higher. see *Important note! Important for functiontest: Voltage-dependent No-load current of the control gear (without or defect LED module) in DC and AC - operation*: V-CG-S2: <5,8 mA or <7,9 mA = n.OK V-CG-S: <10 mA or <28 mA = n.OK V-CG-SK: <10 mA or <28 mA = n.OK V-CG-SUW: <28 mA = n.OK CG-K: <10 mA or <28 mA = n.OK Selection guide for the monitoring modules. In the voltage range of 186 - 275V DC and 189 - 264V AC the no-load current must be lower. see *Important note! Important for the contact load SKU: Max. inrush current of each luminaire in AC operation Max. permitted inrush current per circuit: SKU 2 x 3A (CG) => 120 A SKU 1 x 6A (CG) => 180 A SKU 4 x 1,5A CG-S => 60 A SKU 2 x 3A CG-S => 250 A SKU 1 x 6A CG-S => 250 A SOU CG-S // S+ => 250 A SU S+ => 250 A Describes the max. inrush current of all luminaires in one circuit to calculate the maximum contact load of the circuit. Important for lighting design: Luminous flux ratio: 186 V DC operation in comparison to 230 V AC operation - Fulfilled: (Yes / No) AC: see attachment Selection guide for the monitoring modules as well as for the calculation of the max. number of luminaires per circuit and the converter overview list DC: necessary battery capacity. Light output in battery operation is needed for the light calculation. AAC: see attachment converter overview list DC: IPK=25A tHW=200μs a>50% prep. Egger 12-2013 Luminaires for emergency lighting must comply with DIN EN 60598-2-22 (Particular requirements -Luminaires for emergency lighting) *Important note! For AT-S+ systems and for battery systems (ZB-S / LP-STAR) with active preliminary time for AC about 300 seconds (EOL detection of T5 lamps) for the function test, the current consumption must be sinusoidal, t.m. all control gears (<25W as well) must have an active PFC! See DIN EN 61000-3-2, Pkt. 7.3 a.) Note EOL detection (T5 > 14Watt): The AC preliminary time is valid for the complete system (e.g. ZB-S), not possible for individual circuits. **The modules of the V-CG-S series monitor the current consumption on the primary side of the control gear for LED modules within the specified limits. Failures of individual LEDs (low-impedance) on the secondary side do not inevitably lead to a modification of current consumption on the primary side, and in such cases cannot be detected as a failure. OT FIT 15/220-240/350 CS and OT FIT 50/220-240/1A0 CS c: Egger/Sniegon page 1 of 2 OSRAM Manufacturer: OSRAM GmbH Marcel-Breuer-Str.6 D-80807 München LED controlgear type OT FIT 15/220-240/350 CS Type / Description: Constant current LED controlgear OT FIT 15/220-240/350 CS OT FIT 50/220-240/1A0 CS Max. inrush current for ECG AC-operation IPK = 15 A; tHW = 275 μs Values for load range IN in AC-operation (220-240 V) IN in DC-operation (176-276 V) INoLoad in AC-operation INoLoad in DC-operation Maximum load Minimum load [Iout 250mA] 71 mA 53 mA (240V) 65 mA 44 mA (240V) 29 mA [ 220VAC ] 31 mA [ 240VAC ] 17 mA [ 176VDC ] 12 mA [ 240VDC ] 11 mA [ 276VDC ] Maximum load Minimum load [Iout 300mA] 85 mA 58 mA (240V) 80 mA 50 mA (240V) 29 mA [ 220VAC ] 31 mA [ 240VAC ] 17 mA [ 176VDC ] 12 mA [ 240VDC ] 11 mA [ 276VDC ] Maximum load Minimum load [Iout 350mA] 101 mA 67 mA (240V) 97 mA 60 mA (240V) 29 mA [ 220VAC ] 31 mA [ 240VAC ] 17 mA [ 176VDC ] 12 mA [ 240VDC ] 11 mA [ 276VDC ] Maximum load 198 mA 194 mA 43 mA [ 220VAC ] Minimum load 127 mA 120 mA 44 mA [ 240VAC ]] [Iout 800mA] (240V) (240V) Maximum load 228 mA 224 mA 43 mA [ 220VAC ] Minimum load 141 mA 134 mA 44 mA [ 240VAC ] [Iout 900 mA] (240V) (240V) Maximum load 248 mA 245 mA 43 mA [ 220VAC ] Minimum load 162 mA 156 mA 44 mA [ 240VAC ] [Iout 1050 mA] (240V) (240V) Note: IOUT is not reduced when ECG is DC operated. IOUT is limited to 250 mA (FIT 15) / 800 mA (FIT 50) in case of Ta < T <= 70°C Note: 100 percent @ Ta = 25°C and more than 50 percent when operated 1 hour @ T = 70°C Note: The powerfactor is << 0.9 if ECG has no load. The AC current is different from DC current then. This ECG is not suitable for ATS+ system Information in this document is subject to change without notice OT FIT 50/220-240/1A0 CS IPK = 25 A; tHW = 200 μs OT FIT 15/220-240/350 CS and OT FIT 50/220-240/1A0 CS c: Egger / Sniegon 25 mA [ 176VDC ] 18 mA [ 240VDC ] 16 mA [ 276VDC ] 25 mA [ 176VDC ] 18 mA [ 240VDC ] 16 mA [ 276VDC ] 25 mA [ 176VDC ] 18 mA [ 240VDC ] 16 mA [ 276VDC ] page 2 of 2 OSRAM Requirements for electronic non-dimmable control gears for fluorescent lamps and LED Manufacturer: OSRAM GmbH Marcel-Breuer-Str.6 D-80807 München Version 8 Type / Description: Constant current LED controlgear OT FIT 25/220-240/500 CS OT FIT 35/220-240/700 CS Specifications: CEAG Data: Explanation: Control gear suitable for a DC voltage range: 186V - 260V DC (for Lead-Battery) 186V - 275V DC (for NiCD-Battery) Possible voltage range of the battery in emergency mode (Not necessary for AT-S+ System) Yes Switch-over time: 180 ms - 450 ms Typical switch-over time of CEAG systems between mains supply and emergency power supply Yes Stable current consumption after less than 1.6 sec. maximum. Necessary for an individual monitoring. Δ I < 12,5 mA per luminaire, with max. 20 luminaires per circuit Δ I sum < 250 mA Yes DIN EN 60929 AC and/or DC-supplied electronic control gear for tubular fluorescent lamps - Performance requirements N/A Control gear compatible with the switch-over time of the system? Starting behavior of the control gear: only for fluorescent lamps: Control gear complies with the standard: only for fluorescent lamps: Control gear complies with the standard: only for LED: Control gear complies with the standard: only for LED: Control gear complies with the standard: Fulfilled: (Yes / No) DIN EN 61347-2-3 (incl. Attachment J) Particular requirements for AC and/or DC supplied electronic control gear for fluorescent lamps N/A DIN EN 62384 AC or DC supplied electronic control gear for LED modules Performance requirements N/A DIN EN 61347-2-13 Particular requirements for AC or DC supplied electronic control gear for LED modules Yes Control gear complies with the standard: DIN EN 55015 (Measured in AC and DC) Limits and methods of measurement of radio disturbance characteristics of electrical lighting and similar equipment Control gear complies with the standard: DIN EN 61000-3-2 Control gear complies with the standard: DIN EN 61000-3-2, Pkt. 7.3 a.) Control gear complies with the standard: DIN EN 61547 Yes Electromagnetic compatibility (EMC) Part 3-2: Limits - Limits for harmonic current emissions (equipment input current ≤ 16 A per phase) see *Important note! Yes Yes Equipment for general lighting purposes EMC immunity requirements Yes * The labeling "according to VDE 0108" is not meaningful, because it is not a ballast standard ! Specifications: CEAG-Datas Important for functiontest: Voltage-dependent Input current of the control gear incl. LED in DC and AC operation: V-CG-S2: >9,4 mA or >12,7 mA = OK V-CG-S: >16 mA or >47 mA = OK V-CG-SE: >16 mA or >47 mA = OK V-CG-SUW: >47 mA = OK CG-K: >16 mA or >47 mA = OK Explanation: Selection guide for the monitoring modules as well as for the calculation of the max. number of luminaires per circuit and the necessary battery capacity. In the voltage range of 186 - 275V DC and 189 - 264V AC the input current must be higher. see *Important note! Important for functiontest: Voltage-dependent No-load current of the control gear (without or defect LED module) in DC and AC - operation*: V-CG-S2: <5,8 mA or <7,9 mA = n.OK V-CG-S: <10 mA or <28 mA = n.OK V-CG-SK: <10 mA or <28 mA = n.OK V-CG-SUW: <28 mA = n.OK CG-K: <10 mA or <28 mA = n.OK Selection guide for the monitoring modules. In the voltage range of 186 - 275V DC and 189 - 264V AC the no-load current must be lower. see *Important note! Important for the contact load SKU: Max. inrush current of each luminaire in AC operation Max. permitted inrush current per circuit: SKU 2 x 3A (CG) => 120 A SKU 1 x 6A (CG) => 180 A SKU 4 x 1,5A CG-S => 60 A SKU 2 x 3A CG-S => 250 A SKU 1 x 6A CG-S => 250 A SOU CG-S // S+ => 250 A SU S+ => 250 A Describes the max. inrush current of all luminaires in one circuit to calculate the maximum contact load of the circuit. Fulfilled: (Yes / No) AC: see attachment converter overview list DC: AAC: see attachment converter overview list DC: IPK=25A tHW=200μs Important for lighting design: Light output in battery operation is needed for the light Luminous flux ratio: calculation. 186 V DC operation in comparison to 230 V AC operation prep. Egger 12-2013 Luminaires for emergency lighting must comply with DIN EN 60598-2-22 (Particular requirements -Luminaires for emergency lighting) a>50% *Important note! For AT-S+ systems and for battery systems (ZB-S / LP-STAR) with active preliminary time for AC about 300 seconds (EOL detection of T5 lamps) for the function test, the current consumption must be sinusoidal, t.m. all control gears (<25W as well) must have an active PFC! See DIN EN 61000-3-2, Pkt. 7.3 a.) Note EOL detection (T5 > 14Watt): The AC preliminary time is valid for the complete system (e.g. ZB-S), not possible for individual circuits. **The modules of the V-CG-S series monitor the current consumption on the primary side of the control gear for LED modules within the specified limits. Failures of individual LEDs (low-impedance) on the secondary side do not inevitably lead to a modification of current consumption on the primary side, and in such cases cannot be detected as a failure OT FIT 25/220-240/500 CS and OT FIT 35/220-240/700 CS c: Egger/Sniegon page 1 of 2 OSRAM Manufacturer: OSRAM GmbH Marcel-Breuer-Str.6 D-80807 München LED controlgear type OT-FIT 25/220-240/500 CS Type / Description: Constant current LED controlgear OT FIT 25/220-240/500 CS OT FIT 35/220-240/700 CS Max. inrush current for ECG AC-operation IPK = 15 A; tHW = 275 μs Values for load range IN in AC-operation (220-240 V) IN in DC-operation (176-276 V) INoLoad in AC-operation INoLoad in DC-operation Maximum load Minimum load [Iout 400mA] 115 mA 70 mA (240V) 109 mA 60 mA (240V) 34 mA [ 220VAC ] 35 mA [ 240VAC ] 17 mA [ 176VDC ] 14 mA [ 240VDC ] 13 mA [ 276VDC ] Maximum load Minimum load [Iout 450mA] 125 mA 76 mA (240V) 120 mA 67 mA (240V) 34 mA [ 220VAC ] 35 mA [ 240VAC ] 17 mA [ 176VDC ] 14 mA [ 240VDC ] 13 mA [ 276VDC ] Maximum load Minimum load [Iout 300mA] 131 mA 84 mA (240V) 126 mA 76 mA (240V) 34 mA [ 220VAC ] 35 mA [ 240VAC ] 17 mA [ 176VDC ] 14 mA [ 240VDC ] 13 mA [ 276VDC ] Maximum load 150 mA 140 mA 45 mA [ 220VAC ] Minimum load 92 mA 80 mA 46 mA [ 240VAC ] [Iout 550mA] (240V) (240V) Maximum load 160 mA 150 mA 45 mA [ 220VAC ] Minimum load 98 mA 87 mA 46 mA [ 240VAC ] [Iout 600 mA] (240V) (240V) Maximum load 180 mA 170 mA 45 mA [ 220VAC ] Minimum load 114 mA 105 mA 46 mA [ 240VAC ] [Iout 700 mA] (240V) (240V) Note: IOUT is not reduced when ECG is DC operated. IOUT is limited to 400 mA (FIT 25) / 550 mA (FIT 35) in case of Ta < T <= 70°C Note: 100 percent @ Ta = 25°C and more than 50 percent when operated 1 hour @ T = 70°C Note: 100 percent @ Ta = 25°C and more than 50 percent when operated 1 hour @ T = 70°C Information in this document is subject to change without notice OT-FIT 35/220-240/700 CS IPK = 25 A; tHW = 200 μs OT FIT 25/220-240/500 CS and OT FIT 35/220-240/700 CS c: Egger / Sniegon 23 mA [ 176VDC ] 19 mA [ 240VDC ] 17 mA [ 276VDC ] 23 mA [ 176VDC ] 19 mA [ 240VDC ] 17 mA [ 276VDC ] 23 mA [ 176VDC ] 19 mA [ 240VDC ] 17 mA [ 276VDC ] page 2 of 2 OSRAM