EATON (CEAG) - Conformity Declarations with Central Battery Systems QUICKTRONIC (05/16)

CEAG-Conformity Declarations with Central Battery Systems
1. QUICKTRONIC
QTi DALI DIM / QTi DIM
2. QUICKTRONIC INTELLIGENT
QTi
3. QUICKTRONIC PROFESSIONAL
QTP-DL
4. QUICKTRONIC PROFESSIONAL
QTP8
5. QUICKTRONIC PROFESSIONAL
QTP5
6. QUICKTRONIC MULTIWATT
QT-M...S(E), QTP-M
(10/2015)
Product features of OSRAM-ECG in combination with central battery- and generator applications (safety
lighting)
Manufacturer:
Type / Description:
OSRAM GmbH
81536 München
ECG product family: QUICKTRONIC QTi DALI DIM / QTi DIM
Criteria
CEAG-Data
Description
Status
done
154-276 V minimum
ignition voltage
186V - 275V at -10°C
Battery voltage range in operation with emergency current
Switching time of device:
180 ms - 450 ms
180 ms - 450 ms
Typical switching time of CEAG devices
done
In accordance with standard :
DIN EN 60929
Electronic ballasts for fluorescent tube lamps, operating on
alternating current
done
In accordance with standard1):
DIN EN 61347-2-3 (incl. annex J)
Specific requirements for electronic ballasts for fluorescent
lamps operated on alternating current
In accordance with standard1):
DIN EN 61000-3-2
In accordance with standard1):
DIN EN 61547
In accordance with standard1):
DIN EN 55015
(Measurement on AC and DC)
Operating voltage range DC:
Switching time:
from AC to DC
from DC to AC
1)
1)
Designation after VDE 0108 is insignificant due to it not being an ECG-standard.
2)
Tests not yet completed for annex J
Criteria
No-load current of ECG in DCoperation ( without or with a faulty
illuminant )
Max. inrush current per ECG
in AC-operation:
CEAG-Data:
EMC standard for electromagentic compatibility (harmonic
content)
EMC standard for electromagnetic interference, especially for
emergency lighting (immunity)
EMC standard for critical values and measuring methods for
radio shielding of electrical illumination appliances
(interference)
Description:
2)
done
done
done
done
Statement manufacturer
Nominal value of operation:
2L-CG-S: <10mA / <28mA
2L-CG (4-120W):
<10mA
2L-CG (7-120W):
<25mA
2L-CG (11-120W): <41mA
Options for luminaire/EVG-monitoring units,
CEAG-type: 2L-CG, according to catalogue
Maximum inrush current:
SKU 4 x 1A (CG) => 60A/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
Refers to a max. allowable inrush current of ECG within an
electric circuit to consider the maximum contact load of the
electric circuits' change-overs.
see register "Overview QTi
DIM"
< 10 mA
Nominal current in AC-operation:
manufacturer-specific
For ascertainment of max. quantity of ECG per electric circuit
see register "Overview QTi
DIM"
Nominal current in DC-operation:
manufacturer-specific
dito
see register "Overview QTi
DIM"
Luminous flux in DC-operation 186 V
in relation to 230 V
manufacturer-specific
ECG for emergency lighting on battery operation - for planning
100%
The OSRAM ECG mentioned above fullfill the requirements from the DIN-EN standards on this page. Explicit approval was carried out on those standards
mentioned in the identification.
OSRAM as a manufacturer of electronic control gear is not liable for the faultless function of other components for emergency lighting.
Luminaires for the operation as safety lighting must comply with norm DIN EN 60598-2-22.
CEAG
CEAG-Requirement Profile
Overview
Manufacturer:
Type / Description:
OSRAM GmbH
81536 München
ECG type
QTi DALI 1x18 DIM
QTi DALI 1x36 DIM
QTi DALI 1x58 DIM
QTi DALI 2x18 DIM
QTi DALI 2x36 DIM
QTi DALI 2x58 DIM
QTi DALI 3x18 DIM
QTi DALI 4x18 DIM
ECG product family: QUICKTRONIC QTi DALI DIM / QTi DIM
Max. inrush current per ECG in AC operation
Nominal current in AC-operation:
Nominal current in DC-operation:
IP=24A
TH=174µs
IP=24A
TH=174µs
IP=24A
TH=174µs
IP=35A
TH=179µs
IP=45A
TH=204µs
IP=45A
TH=204µs
IP=25A
TH=175µs
IP=35A
TH=180µs
0.08A 1xL 18
0.08A 1xDL 18
0.16A 1xL 36
0.16A1xDL 36
0.08A 1xL 18
0.08A 1xDL 18
0.16A 1xL 36
0.16A1xDL 36
0.25A 1xL 58
0.25A 1xL 58
0.16A 2xL 18
0.16A2xDL 18
0.31A 2xL 36
0.31A 2xDL 36
0.16A 2xL 18
0.16A2xDL 18
0.31A 2xL 36
0.31A 2xDL 36
0.47A 2xL 58
0.47A 2xL 58
0.24A 3xL 18
0.24A 3xDL 18
0.31A 4xL 18
0.31A 4xDL 18
0.07A 1xHE 14
0.11A 1xHO 24
0.11A 1xFC 22
0.11A 1xHE 21
0.18A 1xHO 39
0.29A 1xF 70
0.14A 1xHE 28
0.26A1xHO 54
0.17A 1xHE 35
0.24A 1xHO 49
0.39A 1xHO 80
0.14A 2xHE 14
0.22A 2xHO 24
0.22A 2xFC 22
0.24A 3xL 18
0.24A 3xDL 18
0.31A 4xL 18
0.31A 4xDL 18
0.07A 1xHE 14
0.11A 1xHO 24
0.11A 1xFC 22
0.11A 1xHE 21
0.18A 1xHO 39
0.29A 1xF 70
0.14A 1xHE 28
0.26A1xHO 54
0.17A 1xHE 35
0.24A 1xHO 49
0.39A 1xHO 80
0.14A 2xHE 14
0.22A 2xHO 24
0.22A 2xFC 22
QTi DALI 1x14/24 DIM
IP=24A
TH=174µs
QTi DALI 1x21/39 DIM
IP=24A
TH=174µs
QTi DALI 1x28/54 DIM
IP=24A
TH=174µs
QTi DALI 1x35/49/80 DIM
IP=28A
TH=224µs
QTi DALI 2x14/24 DIM
IP=35A
TH=179µs
OSRAM GmbH 10/2015
CEAG-Requirement Profile
Overview
QTi DALI 2x21/39 DIM
QTi DALI 2x28/54 DIM
QTi DALI 2x35/49 DIM
IP=45A
TH=204µs
IP=45A
TH=204µs
IP=45A
TH=204µs
QTi DALI 2x35/49/80 DIM
IP=60A
TH=230µs
QTi DALI 3x14/24 DIM
IP=35A
TH=180µs
QTi DALI 4x14/24 DIM
IP=45A
TH=205µs
OSRAM GmbH 10/2015
0.21A 2xHE21
0.36A 2xHO39
0.56A 2xF 70
0.27A 2xHE 28
0.51A 2xHO 54
0.33A 2xHE 35
0.45A 2xHO 49
0.34A 2xHE 35
0.46A 2xHO 49
0.74A 2xHO 80
0.20A 3xHE 14
0.32A 3xHO 24
0.32A 3xFC 22
0.27A 4xHE 14
0.43A 4xHO 24
0.43A 4xFC 22
0.21A 2xHE21
0.36A 2xHO39
0.56A 2xF 70
0.27A 2xHE 28
0.51A 2xHO 54
0.33A 2xHE 35
0.45A 2xHO 49
0.34A 2xHE 35
0.46A 2xHO 49
0.74A 2xHO 80
0.20A 3xHE 14
0.32A 3xHO 24
0.32A 3xFC 22
0.27A 4xHE 14
0.43A 4xHO 24
0.43A 4xFC 22
Product features of OSRAM-ECG in combination with central battery- and generator applications (safety
lighting)
Manufacturer:
Type / Description:
OSRAM GmbH
81536 München
ECG product family: QUICKTRONIC INTELLIGENT QTi
Criteria
CEAG-Data
Description
Status
186V - 275V at -10°C
Battery voltage range in operation with emergency current
done
Switching time of device:
180 ms - 450 ms
180 ms - 450 ms
Typical switching time of CEAG devices
done
In accordance with standard :
DIN EN 60929
Electronic ballasts for fluorescent tube lamps, operating on
alternating current
done
In accordance with standard1):
DIN EN 61347-2-3 (incl. annex J)
Specific requirements for electronic ballasts for fluorescent
lamps operated on alternating current
In accordance with standard1):
DIN EN 61000-3-2
In accordance with standard1):
DIN EN 61547
In accordance with standard1):
DIN EN 55015
(Measurement on AC and DC)
Operating voltage range DC:
Switching time:
from AC to DC
from DC to AC
1)
1)
Designation after VDE 0108 is insignificant due to it not being an ECG-standard.
2)
Tests not yet completed for annex J
Criteria
No-load current of ECG in DCoperation ( without or with a faulty
illuminant )
Max. inrush current per ECG
in AC-operation:
CEAG-Data:
EMC standard for electromagentic compatibility (harmonic
content)
EMC standard for electromagnetic interference, especially for
emergency lighting (immunity)
EMC standard for critical values and measuring methods for
radio shielding of electrical illumination appliances
(interference)
Description:
2)
done
done
done
done
Statement manufacturer
Nominal value of operation:
2L-CG-S: <10mA / <28mA
2L-CG (4-120W):
<10mA
2L-CG (7-120W):
<25mA
2L-CG (11-120W): <41mA
Options for luminaire/EVG-monitoring units,
CEAG-type: 2L-CG, according to catalogue
Maximum inrush current:
SKU 4 x 1A (CG) => 60A/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
Refers to a max. allowable inrush current of ECG within an
electric circuit to consider the maximum contact load of the
electric circuits' change-overs.
see register "Overview QTi"
< 10 mA
Nominal current in AC-operation:
manufacturer-specific
For ascertainment of max. quantity of ECG per electric circuit
see register "Overview QTi"
Nominal current in DC-operation:
manufacturer-specific
dito
see register "Overview QTi"
Luminous flux in DC-operation 186 V
in relation to 230 V
manufacturer-specific
ECG for emergency lighting on battery operation - for planning
> 75 %
The OSRAM ECG mentioned above fullfill the requirements from the DIN-EN standards on this page. Explicit approval was carried out on those standards
mentioned in the identification.
OSRAM as a manufacturer of electronic control gear is not liable for the faultless function of other components for emergency lighting.
Luminaires for the operation as safety lighting must comply with norm DIN EN 60598-2-22.
CEAG
CEAG-Requirement Profile
Overview
Manufacturer:
Type / Description:
OSRAM GmbH
81536 München
ECG type
ECG product family: QUICKTRONIC INTELLIGENT QTi
Max. inrush current per ECG in AC operation
QTi 1x14/24/21/39
Ip = 1.5 A; TH = 500 ms
QTi 1x28/54
Ip = 1.5 A; TH = 500 ms
OSRAM GmbH 10/2015
Nominal current in AC-operation:
Nominal current in DC-operation:
HE 14: 0.08 A
HE 21: 0.11 A
HE 28: 0.15 A
HE 35: 0.18 A
HO 24: 0.12A
HO 39: 0.19 A
L18: 0.09 A
L30: 0.15 A
L36: 0.16 A
DL 18: 0.09 A
DL 24: 0.12 A
DL 36: 0.16 A
DL 40: 0.20 A
DF 18: 0.09 A
DF 24: 0.12 A
DF 36: 0.16 A
FC 22: 0.12 A
FC 40: 0.19 A
HE 14: 0.08 A
HE 21: 0.11 A
HE 28: 0.15 A
HE 35: 0.18 A
HO 54: 0.27 A
L58: 0.26 A
L70: 0.29 A
HE 14: 0.08 A
HE 21: 0.11 A
HE 28: 0.15 A
HE 35: 0.18 A
HO 24: 0.12A
HO 39: 0.19 A
L18: 0.09 A
L30: 0.15 A
L36: 0.16 A
DL 18: 0.09 A
DL 24: 0.12 A
DL 36: 0.16 A
DL 40: 0.20 A
DF 18: 0.09 A
DF 24: 0.12 A
DF 36: 0.16 A
FC 22: 0.12 A
FC 40: 0.19 A
HE 14: 0.08 A
HE 21: 0.11 A
HE 28: 0.15 A
HE 35: 0.18 A
HO 54: 0.27 A
L58: 0.26 A
L70: 0.29 A
CEAG-Requirement Profile
Overview
QTi 1x35/49/80
Ip = 1.5 A; TH = 500 ms
QTi 2x14/24/21/39
Ip = 1.5 A; TH = 500 ms
QTi 2x28/54
Ip = 1.5 A; TH = 500 ms
QTi 2x35/49
Ip = 1.5 A; TH = 500 ms
OSRAM GmbH 10/2015
HE 14: 0.08 A
HE 21: 0.11 A
HE 28: 0.15 A
HE 35: 0.18 A
HO 49: 0.24 A
HO 80: 0.38 A
DL 55: 0.30 A
DL 80: 0.39 A
FC 55: 0.27 A
HE 14: 0.15 A
HE 21: 0.21 A
HE 28: 0.28 A
HE 35: 0.35 A
HO 24: 0.24A
HO 39: 0.36 A
L18: 0.18 A
L30: 0.29 A
L36: 0.32 A
DL 18: 0.17 A
DL 24: 0.24 A
DL 36: 0.31 A
DL 40: 0.39 A
DF 18: 0.16 A
DF 24: 0.22 A
DF 36: 0.29 A
FC 22: 0.23 A
FC 40: 0.39 A
HE 14: 0.15 A
HE 21: 0.21 A
HE 28: 0.28 A
HE 35: 0.35 A
HO 54: 0.54 A
L58: 0.49 A
HE 14: 0.15 A
HE 21: 0.21 A
HE 28: 0.28 A
HE 35: 0.35 A
HO 49: 0.52 A
HE 14: 0.08 A
HE 21: 0.11 A
HE 28: 0.15 A
HE 35: 0.18 A
HO 49: 0.24 A
HO 80: 0.38 A
DL 55: 0.30 A
DL 80: 0.39 A
FC 55: 0.27 A
HE 14: 0.15 A
HE 21: 0.21 A
HE 28: 0.28 A
HE 35: 0.35 A
HO 24: 0.24A
HO 39: 0.36 A
L18: 0.18 A
L30: 0.29 A
L36: 0.32 A
DL 18: 0.17 A
DL 24: 0.24 A
DL 36: 0.31 A
DL 40: 0.39 A
DF 18: 0.16 A
DF 24: 0.22 A
DF 36: 0.29 A
FC 22: 0.23 A
FC 40: 0.39 A
HE 14: 0.15 A
HE 21: 0.21 A
HE 28: 0.28 A
HE 35: 0.35 A
HO 54: 0.54 A
L58: 0.49 A
HE 14: 0.15 A
HE 21: 0.21 A
HE 28: 0.28 A
HE 35: 0.35 A
HO 49: 0.52 A
CEAG-Requirement Profile
Overview
QTi 2x35/49/80
OSRAM GmbH 10/2015
Ip = 60 A; TH = 230µs
HE 35: 0.34 A
HO 49: 0.52 A
HO 80: 0.74 A
DL 80: 0.74 A
HE 35: 0.34 A
HO 49: 0.52 A
HO 80: 0.74 A
DL 80: 0.74 A
Product features of OSRAM-ECG in combination with central battery- and generator applications (safety
lighting)
Manufacturer:
Type / Description:
OSRAM GmbH
81536 München
ECG product family: QUICKTRONIC PROFESSIONAL QTP-DL
Criteria
CEAG-Data
Description
186V - 275V at -10°C
Battery voltage range in operation with emergency current
Switching time of device:
180 ms - 450 ms
180 ms - 450 ms
Typical switching time of CEAG devices
In accordance with standard :
DIN EN 60929
Electronic ballasts for fluorescent tube lamps, operating on
alternating current
In accordance with standard1):
DIN EN 61347-2-3 (incl. annex J)
Specific requirements for electronic ballasts for fluorescent
lamps operated on alternating current
In accordance with standard1):
DIN EN 61000-3-2
In accordance with standard1):
DIN EN 61547
In accordance with standard1):
DIN EN 55015
(Measurement on AC and DC)
Operating voltage range DC:
Status
done
Switching time:
from AC to DC
from DC to AC
1)
1)
Designation after VDE 0108 is insignificant due to it not being an ECG-standard.
2)
Tests not yet completed for annex J
Criteria
No-load current of ECG in DCoperation ( without or with a faulty
illuminant )
Max. inrush current per ECG
in AC-operation:
CEAG-Data:
EMC standard for electromagentic compatibility (harmonic
content)
EMC standard for electromagnetic interference, especially for
emergency lighting (immunity)
EMC standard for critical values and measuring methods for
radio shielding of electrical illumination appliances
(interference)
Description:
see register "Overview QTPDL"
done
2)
done
done
done
done
Statement manufacturer
Nominal value of operation:
2L-CG-S: <10mA / <28mA
2L-CG (4-120W):
<10mA
2L-CG (7-120W):
<25mA
2L-CG (11-120W): <41mA
Options for luminaire/EVG-monitoring units,
CEAG-type: 2L-CG, according to catalogue
Maximum inrush current:
SKU 4 x 1A (CG) => 60A/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
Refers to a max. allowable inrush current of ECG within an
electric circuit to consider the maximum contact load of the
electric circuits' change-overs.
see register "Overview QTPDL"
< 10 mA
Nominal current in AC-operation:
manufacturer-specific
For ascertainment of max. quantity of ECG per electric circuit
see register "Overview QTPDL"
Nominal current in DC-operation:
manufacturer-specific
dito
see register "Overview QTPDL"
Luminous flux in DC-operation 186 V
in relation to 230 V
manufacturer-specific
ECG for emergency lighting on battery operation - for planning
>75%
The OSRAM ECG mentioned above fullfill the requirements from the DIN-EN standards on this page. Explicit approval was carried out on those standards
mentioned in the identification.
OSRAM as a manufacturer of electronic control gear is not liable for the faultless function of other components for emergency lighting.
Luminaires for the operation as safety lighting must comply with norm DIN EN 60598-2-22.
CEAG
CEAG-Requirement Profile
Overview
Manufacturer:
Type / Description:
OSRAM GmbH
81536 München
ECG type
QTP-DL 1x18-24
QTP-DL 1x36-40
QTP-DL 1x55
QTP-DL 2x18-24
QTP-DL 2x36-40
QTP-DL 2x55
OSRAM GmbH 10/2015
ECG product family: QUICKTRONIC PROFESSIONAL QTP-DL
Switching time
automatic re-start unattached to
the period of the power failure.
ignition 1 second after
connecting to the input voltage
automatic re-start unattached to
the period of the power failure.
ignition 1 second after
connecting to the input voltage
CEAG requirements fulfilled
automatic re-start unattached to
the period of the power failure.
ignition 1 second after
connecting to the input voltage
automatic re-start unattached to
the period of the power failure.
ignition 1 second after
connecting to the input voltage
CEAG requirements fulfilled
Max. inrush current per ECG in AC operation
Nominal current in AC-operation:
Nominal current in DC-operation:
Ip = 13 A; TH = 320 µs
DL/DF 18W: 0.085 A
DL/DF 24W: 0.115 A
DL/DF 18W: 0.085 A
DL/DF 24W: 0.115 A
Ip = 13 A; TH = 320 µs
DL/DF 36W: 0.17 A
DL 40W: 0.21 A
DL/DF 36W: 0.17 A
DL 40W: 0.21 A
Ip = 23 A; TH = 250 µs
0.28 A
0.28 A
Ip = 13 A; TH = 320 µs
DL/DF 18W: 0.16 A
DL/DF 24W: 0.22 A
DL/DF 18W: 0.16 A
DL/DF 24W: 0.22 A
Ip = 23 A; TH = 250 µs
DL/DF 36W: 0.33 A
DL 40W: 0.41 A
DL/DF 36W: 0.33 A
DL 40W: 0.41 A
Ip = 28 A; TH = 230 µs
0.55 A
0.55 A
Product features of OSRAM-ECG in combination with central battery- and generator applications (safety
lighting)
Manufacturer:
Type / Description:
OSRAM GmbH
81536 München
ECG product family: QUICKTRONIC PROFESSIONAL QTP8
Criteria
CEAG-Data
Description
Status
176 V-276 V
lamp re-start
above 198V Voltage range
DC saturated
186V - 275V at -10°C
Battery voltage range in operation with emergency current
Switching time of device:
180 ms - 450 ms
180 ms - 450 ms
Typical switching time of CEAG devices
done
In accordance with standard :
DIN EN 60929
Electronic ballasts for fluorescent tube lamps, operating on
alternating current
done
In accordance with standard1):
DIN EN 61347-2-3 (incl. annex J)
Specific requirements for electronic ballasts for fluorescent
lamps operated on alternating current
done
In accordance with standard1):
DIN EN 61000-3-2
In accordance with standard1):
DIN EN 61547
In accordance with standard1):
DIN EN 55015
(Measurement on AC and DC)
Operating voltage range DC:
Switching time:
from AC to DC
from DC to AC
1)
1)
Designation after VDE 0108 is insignificant due to it not being an ECG-standard.
2)
Tests not yet completed for annex J
Criteria
No-load current of ECG in DCoperation ( without or with a faulty
illuminant )
Max. inrush current per ECG
in AC-operation:
CEAG-Data:
EMC standard for electromagentic compatibility (harmonic
content)
EMC standard for electromagnetic interference, especially for
emergency lighting (immunity)
EMC standard for critical values and measuring methods for
radio shielding of electrical illumination appliances
(interference)
Description:
done
done
done
Statement manufacturer
Nominal value of operation:
2L-CG-S: <10mA / <28mA
2L-CG (4-120W):
<10mA
2L-CG (7-120W):
<25mA
2L-CG (11-120W): <41mA
Options for luminaire/EVG-monitoring units,
CEAG-type: 2L-CG, according to catalogue
Maximum inrush current:
SKU 4 x 1A (CG) => 60A/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
Refers to a max. allowable inrush current of ECG within an
electric circuit to consider the maximum contact load of the
electric circuits' change-overs.
see register "Overview
QTP8"
< 10 mA
Nominal current in AC-operation:
manufacturer-specific
For ascertainment of max. quantity of ECG per electric circuit
see register "Overview
QTP8"
Nominal current in DC-operation:
manufacturer-specific
dito
see register "Overview
QTP8"
Luminous flux in DC-operation 186 V
in relation to 230 V
manufacturer-specific
ECG for emergency lighting on battery operation - for planning
> 75 %
The OSRAM ECG mentioned above fullfill the requirements from the DIN-EN standards on this page. Explicit approval was carried out on those standards
mentioned in the identification.
OSRAM as a manufacturer of electronic control gear is not liable for the faultless function of other components for emergency lighting.
Luminaires for the operation as safety lighting must comply with norm DIN EN 60598-2-22.
CEAG
CEAG-Requirement Profile
Overview
Manufacturer:
Type / Description:
OSRAM GmbH
81536 München
ECG product family: QUICKTRONIC PROFESSIONAL QTP8
ECG type
Max. inrush current per ECG in AC operation
Nominal current in AC-operation:
Nominal current in DC-operation:
QTP8 1x18
Ip = 14 A; TH = 140 µs
0.09 A
0.09 A
QTP8 1x36
Ip = 0.16 A; TH = 155 µs
0.16 A
0.16 A
QTP8 1x58
Ip = 20 A; TH = 210 µs
0.24 A
0.24 A
QTP8 2x18
Ip = 17 A; TH = 155 µs
0.17 A
0.17 A
QTP8 2x36
Ip = 20 A; TH = 210 µs
0.31 A
0.31 A
QTP8 2x58
Ip = 28 A; TH = 230 µs
0.45 A
0.45 A
QTP8 3x/4x18
Ip = 20 A; TH = 210 µs
0.26 A (3x18)
0.32 A (4x18)
0.26 A (3x18)
0.32 A (4x18)
OSRAM GmbH 10/2015
Product features of OSRAM-ECG in combination with central battery- and generator applications (safety
lighting)
Manufacturer:
Type / Description:
OSRAM GmbH
81536 München
ECG product family: QUICKTRONIC PROFESSIONAL QTP5
Criteria
CEAG-Data
Description
Status
186V - 275V at -10°C
Battery voltage range in operation with emergency current
done
Switching time of device:
180 ms - 450 ms
180 ms - 450 ms
Typical switching time of CEAG devices
done
In accordance with standard :
DIN EN 60929
Electronic ballasts for fluorescent tube lamps, operating on
alternating current
done
In accordance with standard1):
DIN EN 61347-2-3 (incl. annex J)
Specific requirements for electronic ballasts for fluorescent
lamps operated on alternating current
In accordance with standard1):
DIN EN 61000-3-2
In accordance with standard1):
DIN EN 61547
In accordance with standard1):
DIN EN 55015
(Measurement on AC and DC)
Operating voltage range DC:
Switching time:
from AC to DC
from DC to AC
1)
1)
Designation after VDE 0108 is insignificant due to it not being an ECG-standard.
2)
Tests not yet completed for annex J
Criteria
No-load current of ECG in DCoperation ( without or with a faulty
illuminant )
Max. inrush current per ECG
in AC-operation:
CEAG-Data:
EMC standard for electromagentic compatibility (harmonic
content)
EMC standard for electromagnetic interference, especially for
emergency lighting (immunity)
EMC standard for critical values and measuring methods for
radio shielding of electrical illumination appliances
(interference)
Description:
2)
done
done
done
done
Statement manufacturer
Nominal value of operation:
2L-CG-S: <10mA / <28mA
2L-CG (4-120W):
<10mA
2L-CG (7-120W):
<25mA
2L-CG (11-120W): <41mA
Options for luminaire/EVG-monitoring units,
CEAG-type: 2L-CG, according to catalogue
Maximum inrush current:
SKU 4 x 1A (CG) => 60A/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
Refers to a max. allowable inrush current of ECG within an
electric circuit to consider the maximum contact load of the
electric circuits' change-overs.
see register "Overview
QTP8"
< 10 mA
Nominal current in AC-operation:
manufacturer-specific
For ascertainment of max. quantity of ECG per electric circuit
see register "Overview
QTP5"
Nominal current in DC-operation:
manufacturer-specific
dito
see register "Overview
QTP5"
Luminous flux in DC-operation 186 V
in relation to 230 V
manufacturer-specific
ECG for emergency lighting on battery operation - for planning
> 75 %
The OSRAM ECG mentioned above fullfill the requirements from the DIN-EN standards on this page. Explicit approval was carried out on those standards
mentioned in the identification.
OSRAM as a manufacturer of electronic control gear is not liable for the faultless function of other components for emergency lighting.
Luminaires for the operation as safety lighting must comply with norm DIN EN 60598-2-22.
CEAG
CEAG-Requirement Profile
Overview
Manufacturer:
Type / Description:
OSRAM GmbH
81536 München
ECG type
ECG product family: QUICKTRONIC PROFESSIONAL QTP5
Max. inrush current per ECG in AC operation
Nominal current in AC-operation:
Nominal current in DC-operation:
HE 14: 0.08 A
HE 21: 0.11 A
HE 28: 0.14 A
HE 35: 0.18 A
HE 14: 0.15 A
HE 21: 0.21 A
HE 28: 0.28 A
HE 35: 0.35 A
HO 24: 0.12 A
HO 39: 0.20 A
HE 14: 0.08 A
HE 21: 0.11 A
HE 28: 0.14 A
HE 35: 0.18 A
HE 14: 0.15 A
HE 21: 0.21 A
HE 28: 0.28 A
HE 35: 0.35 A
HO 24: 0.12 A
HO 39: 0.20 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 1x49
Ip = 33 A; TH = 180 µs
HO 49: 0.24 A
HO 49: 0.24 A
QTP5 1x54
Ip = 37 A; TH = 200 µs
HO 54: 0.27A
HO 54: 0.27A
QTP5 1x80
Ip = 57 A; TH = 150 µs
HO 80: 0.39 A
HO 80: 0.39 A
QTP5 2x24-39
Ip = 57 A; TH = 150 µs
HO 24: 0.22 A
HO 39: 0.36 A
HO 24: 0.22 A
HO 39: 0.36 A
QTP5 2x49
Ip = 53 A; TH = 190 µs
HO 49: 0.48 A
HO 49: 0.48 A
QTP5 2x54
Ip = 50 A; TH = 160 µs
HO 54: 0.53 A
HO 54: 0.53 A
OSRAM GmbH 10/2015
Product features of OSRAM ECGs in combination with central batteries systems
Manufacturer:
Type / Description:
OSRAM GmbH
81536 München
Criteria:
Operating voltage range DC:
ECG product family: QUICKTRONIC MULTIWATT QT-M...S(E), QTP-M
CEAG-Data
186 V - 275 V at -10 °C
Description
Fulfilled
Battery voltage range in operation with emergency current
YES
Typical switching time of CEAG devices
YES
YES
Switching time:
from AC to DC
from DC to AC
Switching time of device:
180 ms - 450 ms
180 ms - 450 ms
In accordance with standard1):
DIN EN 60929
Electronic ballasts for fluorescent tube lamps, operating on
alternating current
1)
In accordance with standard :
DIN EN 61347-2-3 (incl. annex J)
Specific requirements for electronic ballasts for fluorescent
lamps operated on alternating current
In accordance with standard1):
DIN EN 61000-3-2
1)
In accordance with standard :
DIN EN 61547
1)
In accordance with standard :
DIN EN 55015
(Measurement on AC and DC)
1)
Designation after VDE 0108 is insignificant due to it not being an ECG standard
2)
Tests not yet completed for annex J
Features:
No-load current of ECG in DCoperation ( without or with a faulty
illuminant )
Max. inrush current per ECG
in AC-operation:
CEAG-Data:
EMC standard for electromagentic compatibility (harmonic
content)
EMC standard for electromagnetic interference, especially for
emergency lighting (immunity)
EMC standard for critical values and measuring methods for
radio shielding of electrical illumination appliances (interference)
Explanation:
2)
YES
YES
YES
YES
Manufacturer's statement:
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/EVG-monitoring units,
CEAG-type: 2L-CG, according to catalog
Maximum inrush current:
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
Refers to a max. allowable inrush current of ECG within an
electric circuit to consider the maximum contact load of the
electric circuits' change-overs.
see register "Overview"
< 10 mA
Nominal current in AC-operation:
manufacturer-specific
For ascertainment of max. quantity of ECG per electric circuit
see register "Overview"
Nominal current in DC-operation:
manufacturer-specific
dito
see register "Overview"
Luminous flux in DC-operation 186 V
in relation to 230 V
manufacturer-specific
ECG for emergency lighting on battery operation - for planning
> 75 %
The OSRAM ECGs mentioned above fullfill the requirements from the DIN-EN standards on this page. Explicit approval was carried out on those standards
mentioned in the identification.
OSRAM as a manufacturer of electronic control gear is not liable for the faultless function of other components for emergency lighting.
Luminaires for the operation as safety lighting must comply with norm DIN EN 60598-2-22.
CEAG
CEAG requirements
overview
Manufacturer:
Type / Description:
OSRAM GmbH
81536 München
ECG type
ECG product family: QUICKTRONIC MULTIWATT QT-M...S(E), QTP-M
Max. inrush current per ECG in AC operation
QTP-M 1x26-42/220-240
Ip = 15 A; TH = 200 µs
QT-M 1x26-42/230-240 SE
Ip = 20 A; TH = 210 µs
QTP-M 2x26-32/220-240
Ip = 25 A; TH = 250 µs
QT-M 2x26-42/220-240 S
Ip = 28 A; TH = 230 µs
OSRAM GmbH 10/2015
Nominal current in ACoperation:
DD/(T)E 26: 0.12 A
DT/E 32: 0.16 A
DT/E 42: 0.20 A
DL/DF 18: 0.09 A
DL/DF 24: 0.12 A
DL/DF 36: 0.15 A
DL 40: 0.19 A
L18: 0.10 A
L36: 0.16 A
FC 22: 0.12 A
FC 40: 0.19 A
HO 24: 0.12 A
HO 39: 0.18 A
DD/(T)E 26: 0.12 A
DT/E 32: 0.15 A
DT/E 42: 0.20 A
DL/DF 18: 0.09 A
DL/DF 24: 0.12 A
DL/DF 36: 0.15 A
DL 40: 0.19 A
L18: 0.09 A
L36: 0.15 A
FC 22: 0.11 A
FC 40: 0.18 A
HO 24: 0.12 A
HO 39: 0.17 A
DD/(T)E 26: 0.24 A
DT/E 32: 0.30 A
DT/E 42: 0.20 A
FSMH-57 (DT/E 57): 0.27 A
DL/DF 18: 0.16 A
DL/DF 24: 0.22 A
DL/DF 36: 0.30 A
L18: 0.17 A
FC 22: 0.22 A
FC 22 + 40: 0.30 A
HO 24: 0.23 A
DD/(T)E 26: 0.23 A
DT/E 32: 0.30 A
DT/E 42: 0.39 A
DL/DF 24: 0.23 A
DL/DF 36: 0.30 A
L36: 0.30 A
FC 22: 0.23 A
FC 22 + 40: 0.30 A
FQ 24: 0.23 A
FC 40: 0.38 A
Nominal current in DCoperation:
DD/(T)E 26: 0.12 A
DT/E 32: 0.16 A
DT/E 42: 0.20 A
DL/DF 18: 0.09 A
DL/DF 24: 0.12 A
DL/DF 36: 0.16 A
DL 40: 0.19 A
L18: 0.10 A
L36: 0.16 A
FC 22: 0.12 A
FC 40: 0.19 A
HO 24: 0.12 A
HO 39: 0.8 A
DD/(T)E 26: 0.12 A
DT/E 32: 0.15 A
DT/E 42: 0.20 A
DL/DF 18: 0.09 A
DL/DF 24: 0.12 A
DL/DF 36: 0.15 A
DL 40: 0.19 A
L18: 0.09 A
L36: 0.15 A
FC 22: 0.11 A
FC 40: 0.18 A
HO 24: 0.12 A
HO 39: 0.17 A
DD/(T)E 26: 0.24 A
DT/E 32: 0.30 A
DT/E 42: 0.20 A
FSMH-57 (DT/E 57): 0.27 A
DL/DF 18: 0.16 A
DL/DF 24: 0.22 A
DL/DF 36: 0.30 A
L18: 0.17 A
FC 22: 0.22 A
FC 22 + 40: 0.30 A
HO 24: 0.23 A
DD/(T)E 26: 0.23 A
DT/E 32: 0.30 A
DT/E 42: 0.39 A
DL/DF 24: 0.23 A
DL/DF 36: 0.30 A
L36: 0.30 A
FC 22: 0.23 A
FC 22 + 40: 0.30 A
FQ 24: 0.23 A
FC 40: 0.38 A