T T TC-DE TC-SE TC-TE TC-F TC- TC-DD Tc EM, 0 40 V 0/0 Hz PRO version Product description Emergency lighting supply unit with DAI interface and automatic test function For linear and compact fluorescent lamps ow-profile casing ( x 0 mm cross-section) Properties DAI interface for testing and feedback or h rated duration Compatible with all electronic ballasts (dimmable and non-dimmable) -pole technology: 4-pole lamp changeover and delayed power switching for the ballast High-frequency ac operation of the lamp Power control technology ensures maximum emergency ballast lumen factors for all lamps on a given module Gentle on the lamp thanks to permanent cathode heating in emergency mode. min. boost start for rapid heating of the lamp, more light in the startup phase and optimum lamp life Standard and high ballast lumen factor for hour types Electronic multi-level charge system Rest mode function Addressing function, patented ( EZ easy addressing ) EZ addressing tool can be supplied Deep discharge protection Short-circuit-proof battery connection Polarity reversal protection for battery Two-colour status display Maximum ballast lumen factors (BF) for all lamps s: Status of the battery Status of the lamp Charge condition Function test Service life test Batteries High-temperature cells icd or imh batteries D or Cs cells Blade terminals for simple connection Technical data Rated supply voltage 0 40 V Mains frequency 0 / 0 Hz Mains current 0 ma Rated power < 0 W Overvoltage protection 0 V (for h) Maximum operating voltage (U-OUT of the ECG) 40 V Battery charging time / h / 0 h Discharge current, Standard BF. A Discharge current, High Output BF. A eakage current (PE) 0. ma Ambient temperature ta -... 0 C Max. casing temperature tc 0 C Mains voltage changeover threshold according to E 09-- Min. lamp starting temperature (emergency operation) - C of protection IP0 Article number umber of cells carton pallet Weight per pc. Rated operating time h, Standard BF EM 4 9000 4 pc(s). 4 pc(s). 0.9 kg EM 9000 pc(s). 4 pc(s). 0.9 kg EM 90004 pc(s). 4 pc(s). 0.9 kg Rated operating time h, Standard BF EM 4 9000 4 pc(s). 4 pc(s). 0.9 kg EM 9000 pc(s). 4 pc(s). 0.9 kg EM 9000 pc(s). 4 pc(s). 0.9 kg Data sheet 0/-940- www.tridonic.com
È Standards, page 0 For wiring diagrams and installation examples, page 0 Article number umber of cells carton pallet Weight per pc. Rated operating time h, High Output BF EM 4 HO 90009 4 pc(s). 4 pc(s). 0. kg EM HO 90000 pc(s). 4 pc(s). 0. kg EM HO 9000 pc(s). 4 pc(s). 0.9 kg Specific technical data Battery charge time Charge current Initial charge Fast charge Trickle charge Rated operating time h, Standard BF EM 4 h 0 ma 0 ma 0 ma EM h 0 ma 0 ma 0 ma EM h 0 ma 0 ma 0 ma Rated operating time h, Standard BF EM 4 0 h 0 ma 0 ma 0 ma EM 0 h 0 ma 0 ma 0 ma EM 0 h 0 ma 0 ma 0 ma Rated operating time h, High Output BF EM 4 HO h 0 ma 0 ma 0 ma EM HO h 0 ma 0 ma 0 ma EM HO h 0 ma 0 ma 0 ma ACCESSO- RIES switch EM Product description For connection to the emergency lighting unit For checking the device function Article number bag carton Weight per pc. switch EM 90 pc(s). 00 pc(s). 0.0 kg Data sheet 0/-940- www.tridonic.com
ACCESSO- RIES Status indication bi-colour Product description Two-colour status display Green: system OK, red: fault Article number bag carton Weight per pc. EM bi-colour 9990 pc(s). 00 pc(s). 0.0 kg EM bi-colour, high brightness 999 pc(s). 00 pc(s). 0.0 kg ACCESSO- RIES Addressing tool Product description Provides simple addressing for the EM PRO units Uses the bi-colour for device identification Article number carton Weight per pc. EM PRO addressing tool 999 pc(s). 0.0 kg Data sheet 0/-940- www.tridonic.com
Ballast lumen factor (BF) in % EM for linear lamps, or h Duration h Standard h High Output h Cells 4 cells cells cells 4 cells cells cells 4 cells cells cells EM 4 EM EM EM 4 EM EM EM 4 HO EM HO EM HO Article no. 9000 9000 90004 9000 9000 9000 90009 90000 9000 amp type Wattage BF in emergency lighting mode in % for rated operating time Technology and capacity icd 4 Ah D-cells imh Ah Cs-cells imh 4 Ah Cs-cells Design umber of cells T W 9 9 0 W 40 40 W 4 4 T FH 4 W 4 4 4 W 4 W 9 W 0 T FQ 4 W.. 9 9 W.. 0 49 W.. 0 4 W.. 0 W 4. 4. T W W 0 W 4 W 9. 9. 0 W W.. 0 W 4. 4. Article number Assignable batteries Stick 4 Accu-iCd 4A 90009 Side by side 4 Accu-iCd 4B 999 Stick Stick Accu-iCd 4C 999 Stick Accu-iCd A 999 Stick Stick Accu-iCd C 900090 Stick Stick Accu-iCd C 999 Stick 4 Accu-iMH C 4A 99900 Stick Accu-iMH C A 9990 Stick Accu-iMH C A 9990 Stick Stick Accu-iMH C C 9990 Stick 4 Accu-iMH 4 Ah C 4A 9990 Stick Accu-iMH 4 Ah C A 999 Stick Accu-iMH 4 Ah C A 999 Stick Stick Accu-iMH 4 Ah C C 999 ote: 0 C batteries also available (see seperate datasheet at www.tridonic.com) Maximum battery housing temperature 0 C. Data sheet 0/-940- www.tridonic.com 4
Ballast lumen factor (BF) in % EM for compact lamps, or h Duration h Standard h High Output h Cells 4 cells cells cells 4 cells cells cells 4 cells cells cells EM 4 EM EM EM 4 EM EM EM 4 HO EM HO EM HO Article no. 9000 9000 90004 9000 9000 9000 90009 90000 9000 amp type Wattage BF in emergency lighting mode in % for rated operating time TC-DD 0 W W 4 4 W W 4 4 W.. W.. TC-SE W 4 4 4 9 W 4 W TC-DE 0 W 0 0 44 W 4 W W 4.4 4.4 TC-TE W W. /.0 / 0. (GE). /.0 / 0. (GE) / 0 W. / 0.4 / / 4.0. / 0.4 / / 4.0 / W 4 /. /.0 4 /. /.0 / 4 W.4 /..4 /. / 9 W. /.. /., /, Tc W.. 40 W.. W.4.4 TC-F W 4 W 4 W TC- W 0 4 W 4 W 4 40 W.. W 4. 4. 9 Article number Assignable batteries Technology and capacity Design umber of cells Stick 4 Accu-iCd 4A 90009 Side by side 4 Accu-iCd 4B 999 icd 4 Ah D-cells Stick Stick Accu-iCd 4C 999 Stick Accu-iCd A 999 Stick Stick Accu-iCd C 900090 Stick Stick Accu-iCd C 999 Stick 4 Accu-iMH C 4A 99900 imh Ah Cs-cells Stick Accu-iMH C A 9990 Stick Accu-iMH C A 9990 Stick Stick Accu-iMH C C 9990 Stick 4 Accu-iMH 4 Ah C 4A 9990 imh 4 Ah Cs-cells Stick Accu-iMH 4 Ah C A 999 Stick Accu-iMH 4 Ah C A 999 Stick Stick Accu-iMH 4 Ah C C 999 ote: 0 C batteries also available (see seperate datasheet at www.tridonic.com) Maximum battery housing temperature 0 C. The first figure is related to non-amalgam lamps, the second figure is realted to amalgam lamps (e.g. 4 / 9,). For best performance of W and W TC lamps, and especially amalgam filled lamps, we recommend the use of EM resp. EM. Data sheet 0/-940- www.tridonic.com
Emergency Ballast umen Factor (EBF) in % EM, or h Duration h Standard h High Output h Cells 4 cells cells cells 4 cells cells cells 4 cells cells cells EM 4 EM EM EM 4 EM EM EM 4 HO EM HO According to E 4--: 00 The first figure is related to non-amalgam lamps, the second figure is realted to amalgam lamps (e.g. 4 / 9,). For best performance of W and W TC lamps, and especially amalgam filled lamps, we recommend the use of EM resp. EM. EM HO Article no. 9000 9000 90004 9000 9000 9000 90009 90000 9000 amp type Wattage EBF in emergency lighting mode in % for rated operating time T W W W 4, T FH 4 W 4 W W 4 4 W 0. 0. T FQ 4 W.. 9 W.. 49 W.4.4 4 W.. 0 W 4. 4., T W.. W.. 0 W 9. 9. W 9 W 0. 0. W.., 0 W.. TC-DD 0 W 9 9 W.. W W.. W.. W.. TC-SE W 44 9 W.. 4 W 4 TC-DE 0 W.. 9 W.0 4 W.. 0 W.0, TC-TE W W / 0. /.0 / 0. /.0 / W 0.4 /.9 / 9. /. 0.4 /.9 / 9. /. / W. / 4. /.. / 4. /. / 4 W. /.. /. / 9 W.0 /..0 /. /, Tc W.. 40 W, W.. 9, TC-F W.., 4 W 9. 9. 0, W, TC- W 4 W.., W 0. 0. 40 W.4.4 W 4. 4., Data sheet 0/-940- www.tridonic.com
amp current in emergency operation in ma EM, or h Duration h Standard h High Output h Cells 4 cells cells cells 4 cells cells cells 4 cells cells cells EM 4 EM EM EM 4 EM EM The first figure is related to non-amalgam lamps, the second figure is realted to amalgam lamps (e.g. / ). EM 4 HO EM HO EM HO Article no. 9000 9000 90004 9000 9000 9000 90009 90000 9000 amp type Wattage amp current in emergency operation in ma for rated operating time T W 49 49 9 W 40 40 W T FH 4 W W W 9 9 W 9 T FQ 4 W 9 W 4 4 49 W 4 4 4 W 4 0 W T W 4 4 4 W 9 0 W 4 4 W 0 W W 9 9 49 0 W TC-DD 0 W 9 9 W W W 0 0 W 4 4 W TC-SE W 4 4 9 9 W 44 44 90 W 4 TC-DE 0 W 40 40 W W W 0 0 TC-TE W / / / 4 W / / / / / W / / / / / 4 W / 9 / / 9 / / 4 W 4 / 4 / 4 / 44 W / / 4 / Tc W 40 W 9 W 9 TC-F W 40 40 4 W 4 4 W TC- W 9 9 4 W W 40 W 4 W Data sheet 0/-940- www.tridonic.com
ing: DAI Control A DAI command from a suitable control unit can be used to initiate function and duration tests at individually selected times. Status flags are set for report back and data logging of results. When a DAI bus has not been connected or when a DAI bus is connected but the DAI default DEAY and ITERVA times have not been re-set by sending appropriate DAI commands, then the EM will conduct self-tests in accordance with the default times set within the EEPROM. These default times are factory pre-set, in accordance with the DAI standard E -0, to conduct an automatic function test every days and a duration test every weeks. Since the DEAY time is factory pre-set to Zero, all units are tested at the same time. times can be changed with a command over the DAI bus. The DEAY and ITERVA time values must be re-set when the emergency system test times are to be scheduled by a DAI control and monitoring system. ote that once the default values have been set to Zero, tests will only be conducted following a command from the control system. If the DAI bus is disconnected the EM does not revert to self-testing mode. Addressing The EM includes the new EZ easy addressing system which allows addressing and identification by using the bi-colour in conjunction with the EM PRO addressing tool. Binary address codes given by the can be simply converted to the DAI addresses 0 to. For single handed addressing using this method it is necessary to send a broadcast ident command every to 9 seconds. During this command the main fluorescent lamp will be switched off and the will flash the bit binary address preceded by a second start indication period. Functional test The time of day and frequency of the 0 seconds function test can be set by the DAI controller. The default setting is a 0 seconds test on a weekly basis. Duration test The time of day and frequency of the duration test can be set by the DAI controller. The default setting is a duration test conducted every weeks. Prolong time Prolong time can be set by the DAI controller. This is the delay time between return of the mains supply and the end of the emergency operation. The default prolong time is set as 0 minutes as specified within the DAI standard. Rest Mode Rest mode can be initiated by the DAI controller. The appropriate command should be sent after the mains supply has been disconnected and whilst the module is in emergency operation. A mains reset is required to exit the rest mode. EM does not support the re-light command via the DAI bus. switch An optional test switch can be wired to each EM. This can be used to initiate a 0 seconds function test by a short press < second. DAI Controller DAI controllers and hardware/software solutions are available from Tridonic. Please refer to the ighting controls section. Service life Average service life 0,000 hours under rated conditions with a failure rate of less than 0 %. Average failure rate of 0. % per 000 operating hours. Mechanical details Channel manufactured from galvanised steel. Cover manufactured from white pre-coated steel. bi-colour status indicator Green / red Mounting hole. mm dia ead length 000 mm Insulation rating: 90 C switch Mounting hole.0 mm dia ead length 0 mm Battery leads Quantity: red and black ength: 00 mm Wire type: 0. mm² solid conductor Insulation rating: 90 C Battery end termination: push on 4. mm receptacle to suit battery spade fitted with insulating cover Module end termination:.0 mm stripped insulation Two-piece batteries are supplied with a 00 mm lead with 4. mm receptacles at each end and insulating covers to connect the separate sticks together. Batteries Connection method: 4. x 0. mm spade tag welded to end of cell For stick packs this connection is accessible after the battery caps have been fitted. To inhibit inverter operation disconnect the batteries by removing the connector from the battery spade tag. For battery data see separate data sheet. Status indication System status is indicated by a bi-colour and by a DAI status flag. Permanent green Fast flashing green Slow flashing green Permanent red Fast flashing red Slow flashing red Double pulsing green Status System OK Function test underway Duration test underway amp fault Charging fault Battery fault Inhibit mode Accu-iCd Case temperature range 0 C to C to ensure 4 years design life Battery voltage/cell. V Capacity D 4. / 4. Ah Max. short term temperature (reduced lifetime) 0 C Packing quantity pcs. per carton Accu-iMh Case temperature range (to ensure 4 years design life).0 Ah Cs 0 C to C 4.0 Ah Cs 0 C to 0 C Battery voltage Capacity Cs. V.0 Ah 4.0 Ah Max. short term temperature (reduced lifetime) 0 C Packing quantity pcs. per carton Data sheet 0/-940- www.tridonic.com
Isolation and electric strength testing of luminaires Electronic devices can be damaged by high voltage. This has to be considered during the routine testing of the luminaires in production. According to IEC 09- Annex Q (informative only!) or EEC 0-Annex A, each luminaire should be submitted to an isolation test with 00 VDC for second. This test voltage should be connected between the interconnected phase and neutral terminals and the earth terminal. The isolation resistance must be at least MΩ. As an alternative, IEC 09- Annex Q describes a test of the electrical strength with,00 VAC (or,44 x,00 VDC). To avoid damage to the electronic devices this test must not be conducted. ote: Basic insulation between supply and battery circuit. Electrical connections An earthed starting aid is recommended. The module should be earthed by the fixings used to attach it to the luminaire. Wiring amp/ballast/supply wire preparation: 0. 0. mm² 9 mm IDC interface solid wire with a cross section of 0. mm² according to the specification from WAGO Horizontal interface solid wire with a cross section of 0.0. mm² according to the specification from WAGO solid wire with a cross section of.0 mm² with an insulation diameter up to. mm strip 9 mm of insulation from the cables loosen wire through twisting and pulling Batteries// switch push terminal with button release: 0. mm². mm strip Maximum lamp lead capacitance terminals and (* hot leads) 00 pf ) terminals and 4 00 pf ) Wiring guidelines To ensure that a luminaire containing high frequency emergency units complies with E 0 for radio frequency conducted interference in both normal and emergency mode it is essential to follow good practice in the wiring layout. Within the luminaire the switched and unswitched 0 Hz supply wiring must be routed as short as possible and be kept as far away as possible from the lamp leads. This means, for example, in a linear T or T luminaire the mains wiring should be routed along one side of the luminaire body, while the wires to the emergency lamp from the emergency module are routed along the other side. oosen wire through twisting and pulling The high frequency emergency lamp wiring contains hot leads at pins and, which have high voltage to earth. These should be kept as short as possible and separated from other wiring to minimize coupling. They also have a restriction on capacitance to other wiring and earth of 00 pf, which must be observed to ensure good lamp starting. With an earth connection of the metal case of the emergency module the noise suppression can be further improved. The wiring of the earth should be kept as short as possible. Through wiring may affect the emc performance of the luminaire. ) ote: care should be taken not to exceed the total maximum lamp lead capacitance for HF ballast. eads should always be kept as short as possible. With the use of the fifth pole possible compatibility problems between the products can be prevented. Depending on the luminaire wiring the radio suppression in the emergency mode of operation can be further improved. Capacitive loading limits of lamp leads must not be exceeded. ote the capacitance of the emergency lamp leads adds to the capacitance of the leads from the ballast to the EM module when considering ballast loading. The and test switch wiring should be routed separately and kept as far away as possible from the high frequency lamp leads to avoid coupling. EM FT filter When the EM is used in a remote appli-cation, where the lamp leads and indicator leads are routed together in close proximity, it is possible to have electrical interference picked up in the indicator leads. Under certain conditions this interference can cause a lock-up of the EM micro-controller. EM FT filter 0,4 4, To overcome this problem in such applications it is necessary to fit the filter EM FT between the indicator and the EM unit. To be effective the filter must be connected close to the EM module.,, For further information please contact Tridonic. 4, 4, Technical data: Push wire terminals 0.. mm² solid conductor 0,4 Circuit diagram with EM FT filter, Article number carton pallet Weight per pcs. EM FT 99994 0 pieces,000 pieces 0.0 kg EM FT out in D EM D EMERGECY MODUE 4 Batteries Data sheet 0/-940- www.tridonic.com 9
Standards acc. to E 0 acc. to E 09-- E 4-- E 04 E 0 E 000-- E 000-- IE 4 E 00--4 E 00--9 E 00--0 IEC (according to DAI standard V) EM emergency module wiring diagrams ot for use with magnetic ballasts and switch start circuits ed line out to ballast ine in from switch eutral DAI control DAI control Permanent line out in D D EM... EMERGECY MODUE 4 ed line out to ballast ine in from switch eutral DAI control DAI control Permanent line out in D D EM... EMERGECY MODUE 4 orange () pink () Battery orange () pink () Battery eutral to ballast eutral to ballast HF BAAST U-OUT max. 40 V HF BAAST U-OUT max. 40 V amp Wiring diagram for single lamp high frequency ballasts Wiring diagram for twin lamp high frequency ballasts with terminals ed line out to ballast ine in from switch eutral DAI control DAI control Permanent line out in D D orange () pink () EM... EMERGECY MODUE Battery 4 ed line out to ballast ine in from switch eutral DAI control DAI control Permanent line out in D D orange () pink () EM... EMERGECY MODUE Battery 4 eutral to ballast HF BAAST U-OUT max. 40 V eutral to ballast HF BAAST U-OUT max. 40 V amp amp Wiring diagram for twin lamp high frequency ballasts with terminals Wiring diagram for twin lamp high frequency ballasts with terminals o connection to be made eutral DAI control DAI control Permanent line out in D D EM... EMERGECY MODUE 4 ote: All hot leads normally marked with an * should be kept as short as possible. For comprehensive wiring diagrams and instructions consult the Tridonic website www.tridonic.com orange () pink () Battery Wiring diagram for non-maintained operation Data sheet 0/-940- www.tridonic.com 0