Uconverter CBI W 1/3/ ma phase-cut/1 V lp BASIC series Product description Dimmable built-in ED Driver Constant current Output current 1, 3 or ma Max. output power W ominal life-time up to, h SEV Dimmable via leading edge and trailing edge phase dimmers Dimmable via 1... V Output dimmed analogue (current amplitude) Dimming range typ. to % (depending on dimmer) For luminaires of protection class I and protection class II Temperature protection as per E 1347--13 C5e 5-year guarantee Properties Casing: polycarbonat, white Type of protection IP Push-in terminals Functions Overload protection Short-circuit protection o-load protection o output current overshoot at mains on/off È Standards, page 3 Wiring diagrams and installation examples, page 4 www.tridonic.com 1
Uconverter CBI W 1/3/ ma phase-cut/1 V lp BASIC series Technical data Rated supply voltage V Input voltage, AC 19 4 V Typ. rated current (at V, Hz, full load).5 A Power factor at full load 1.95 Power factor at min. load 1.9 Mains frequency Hz Overvoltage protection V AC, 1 h Max. input power 13 W Output power 5 W THD (at V, Hz, full load) < % THD (at V, Hz, min. load) < % Control input 1... V, potentiometer kω Output current tolerance (at V, Hz, full load) ± 7.5 % Output current tolerance (at V, Hz, min. load) ± % Typ. current ripple (at V, Hz, full load) ± % Turn on time (at V, Hz, full load).5 s Turn off time (at V, Hz, full load). s Hold on time at power failure s Ambient temperature ta -... + C Ambient temperature ta (at life-time, h) C Max. casing temperature tc 5 C Storage temperature ts -... +5 C Dimensions x W x H 139 x x 1 mm Ø4,3 Ordering data Type 139 Article number Packaging, carton 1 Packaging, low volume Packaging, high volume Weight per pc. CBI W 1mA phase-cut/1 V lp 7 pc(s). 9 pc(s)., pc(s)..4 kg CBI W 3mA phase-cut/1 V lp 73 pc(s). 9 pc(s)., pc(s).. kg CBI W ma phase-cut/1 V lp 74 pc(s). 9 pc(s)., pc(s)..4 kg Specific technical data Type Output current Efficiency at full load 1 Efficiency at min. load 1 Min. forward Max. forward Max. output voltage 1 voltage 1 voltage Max. repetitive output peak current at full load Max. repetitive output peak current at min. load Max. non-repetitive output peak current at full load Max. non-repetitive output peak current at min. load CBI W 1mA phase-cut/1 V lp 1 ma 79 % 7 % V 5 V 5 V ma 3 ma ma 3 ma CBI W 3mA phase-cut/1 V lp 3 ma 7 % 75 % 14 V V 45 V ma 5 ma ma 5 ma CBI W ma phase-cut/1 V lp ma 77 % 73 % V V 35 V 7 ma ma 7 ma ma 1 Test result at V, Hz without dimmer connected. 1... V DC source with double or reinforced insulation with respect to AC mains. Max. source current:.1 ma. Suitable for passiv and active control. www.tridonic.com
Standards E 515 E -3- E -3-3 E 1347-1 E 1347--13 E 1547 E 34 Overload protection If the output voltage range is exceeded the reduces the ED output current. After elimination of the overload the nominal operation is restored automatically. Short-circuit behaviour In case of a short circuit on the secondary side (ED) the switches off. After elimination of the short circuit the nominal operation is restored automatically. o-load operation The works in burst working mode to provide a constant output voltage regulation which allows the application to be able to work safely when ED string open due a failure. In no-load operation the output voltage will not exceed the specified max. output voltage (see page ). Dimming Dimming range % to % Control with: Potentiometer 1... V Both phase cut and 1... V dimmer connect together in one device is not permitted and may cause flicker. In 1... V dimming applications, the system SEV depends on the dimmer. If a SEV 1... V dimmer is used, the system will be SEV. Wrong polarity input to the 1 V interface will damage the ED converter. 1... V function The light intensity of the EDs vary proportionally to the signal sent to the terminal. Potentiometer function By rotating the potentiometer there is variation of the ED light intensity in a proportinate or logarithmic way depending on the model of potentiometer used. The use of a logarithmic potentiometer is recommended. Humidity: 5 % up to max. 5 %, not condensed (max. 5 days/year at 5 %) Storage temperature: - C up to max. +5 C The devices have to be within the specified temperature range (ta) before they can be operated. Glow wire test according to E 59-1 with increased temperature of 9 C passed. Expected life-time Type ta C C C CBI W xxxma phase-cut/1 V lp tc 55 C 5 C x ife-time, h, h x The ED Drivers are designed for a life-time stated above under reference conditions and with a failure probability of less than %. Maximum loading of automatic circuit breakers Automatic circuit Inrush current breaker type C C13 C1 C B B13 B1 B Installation Ø 1.5 mm 1.5 mm 1.5 mm.5 mm 1.5 mm 1.5 mm 1.5 mm.5 mm Imax Time CBI W 1mA phase-cut/1 V lp 1 45 A µs CBI W 3mA phase-cut/1 V lp 1 45 A µs CBI W ma phase-cut/1 V lp 1 45 A µs Harmonic distortion in the mains supply (at V / Hz and full load) in % THD 3. 5. 7. 9. 11. CBI W 1mA phase-cut/1 V lp 9 7 5 3 CBI W 3mA phase-cut/1 V lp 7 5 3 CBI W ma phase-cut/1 V lp 11 7 5 3 www.tridonic.com 3
Installation instructions The ED module and all contact points within the wiring must be sufficiently insulated against. kv surge voltage. Air and creepage distance must be maintained. Replace ED module 1. Mains off. Remove ED module 3. Wait for seconds 4. Connect ED module again Hot plug-in or secondary switching of EDs is not permitted and may cause a very high current to the EDs. Wiring diagram V Hz Phase-cut dimmer PRI Uconverter CBI... BASIC lp SEC + ED ED + Umodule Wiring type and cross section The wiring can be stranded wires with ferrules or rigid wires with a cross section of.5 1.5 mm². Strip.5 9.5 mm of insulation from the cables to ensure perfect operation of the push-wire terminals (WAGO ). V Hz wire preparation:.5 1.5 mm².5 9.5 mm PRI Uconverter CBI... BASIC lp SEC + ED ED + Umodule 1 V dimmer Release of the wiring Press down the push button and remove the cable from front. Mounting of device Max. torque for fixing:.5 m/m4 Wiring guidelines All connections must be kept as short as possible to ensure good EMI behaviour. Mains leads should be kept apart from and other leads (ideally 5 cm distance) Max. lenght of output wires is m. Secondary switching is not permitted. Incorrect wiring can demage ED modules. The wiring must be protected against short circuits to earth (sharp edged metal parts, metal cable clips, louver, etc.). 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 59-1 Annex Q (informative only!) or EEC 3-Annex A, each luminaire should be submitted to an isolation test with V DC for 1 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 59-1 Annex Q describes a test of the electrical strength with V AC (or 1.414 x V DC). To avoid damage to the electronic devices this test must not be conducted. Additional information Additional technical information at www.tridonic.com Technical Data Guarantee conditions at www.tridonic.com Services o warranty if device was opened. www.tridonic.com 4
Diagrams CBI W 1mA phase-cut/1 V lp Efficiency [%] Efficiency vs load 75 ormalized Output voltage [%] THD vs load Power factor 1..9.9.94.9....4.. Power factor vs load 75 ormalized output voltage [%] Input current vs load THD [%] 1 1 14 1 4 75 ormalized Output voltage [%] Iin [ma] 55 45 35 5 75 oad [%] Input power vs load Output current vs dimming resistance Pin [W] 13 1 11 9 7 5 75 oad [%] Phase cut dimming curve (depends dimmer) Output current vs dimming angle Iout [%] 1 1 1 1 Resistor [kω] 1 V dimming curve Output current vs dimming voltage 1 1 1 1 1 1 Conducted angle [ ] 1 1 3 4 5 7 9 11 Vdim [V] www.tridonic.com 5
Diagrams CBI W 3mA phase-cut/1 V lp Efficiency [%] Efficiency vs load 75 ormalized output voltage [%] THD vs load Power factor 1..9.9.94.9....4.. Power factor vs load 75 ormalized output voltage [%] Input current vs load THD [%] 1 1 14 1 4 75 ormalized output voltage [%] Iin [ma] 55 45 35 5 75 oad [%] Input power vs load Output current vs dimming resistance Pin [W] 13 1 11 9 7 5 75 oad [%] Phase cut dimming curve (depends dimmer) Output current vs dimming angle Iout [%] 1 1 1 1 Resistor [kω] 1 V dimming curve Output current vs dimming voltage 1 1 1 1 1 1 Conducted angle [ ] 1 1 3 4 5 7 9 11 Vdim [V] www.tridonic.com
Diagrams CBI W ma phase-cut/1 V lp Efficiency [%] Efficiency vs load 75 ormalized output voltage [%] THD vs load Power factor 1..9.9.94.9....4.. Power factor vs load 75 ormalized output voltage [%] Input current vs load THD [%] 1 1 14 1 4 75 ormalized output voltage [%] Iin [ma] 55 45 35 5 75 oad [%] Input power vs load Output current vs dimming resistance Pin [W] 13 1 11 9 7 5 75 oad [%] Phase cut dimming curve (depends dimmer) Output current vs dimming angle Iout [%] 1 1 1 1 Resistor [kω] 1 V dimming curve Output current vs dimming voltage 1 1 1 1 1 1 Conducted angle [ ] 1 1 3 4 5 7 9 11 Vdim [V] www.tridonic.com 7