Add to ORKGThis paper presents comparative investigation of the operation of buck LED drivers both in CCM and DCM. The first section of paper briefly describes the controllability parameters of the converter in DCM and their comparison with the converters in CCM. The impact of DCM on the losses based on experiments is presented next. Weight and size of the LED drivers operated in DCM is also briefly estimated. Finally, conclusions about using DCM for LED lamps are drawn
LED elements always require some electronic ballast that may consist of a primary power supply and a...
This paper presents comparative investigation of both voltage and current fed buck converters. This ...
A novel single-stage single-switch (S4) LED driver is proposed in this paper. The paper focuses on t...
The paper focuses on electronic circuits for light regulation with arrays of light emitting diodes (...
This paper deals with a design and experimental verification of 400-W class light-emitting diode (LE...
The significant improvements recently achieved in LED technology in terms of lifetime, luminous effi...
This paper deals with a design and experimental verification of 400-W class light-emitting diode (LE...
Problems in swithing converter and power losses in this circuit describe these master’s theses. Powe...
This paper presents the design of a driver for 6 W residential LED luminaries with a Flyback topolog...
The trend of utilizing light emitting diodes (LEDs) in a number of applications has attracted the at...
Thanks to a very high luminous efficacy of LED lamps (over 160 lm/W) they are the most preferred lig...
LEDs must be externally driven by power sources to emit light. One problem associated with driving L...
The paper deals with current and light regulators for luminaries with Light Emitting Diodes. Several...
AbstractA novel single-stage single-switch (S4) LED driver is proposed in this paper. The paper focu...
Control and driving high luminous LED is an issue that is dealt, because the technology of LED have ...
LED elements always require some electronic ballast that may consist of a primary power supply and a...
This paper presents comparative investigation of both voltage and current fed buck converters. This ...
A novel single-stage single-switch (S4) LED driver is proposed in this paper. The paper focuses on t...
The paper focuses on electronic circuits for light regulation with arrays of light emitting diodes (...
This paper deals with a design and experimental verification of 400-W class light-emitting diode (LE...
The significant improvements recently achieved in LED technology in terms of lifetime, luminous effi...
This paper deals with a design and experimental verification of 400-W class light-emitting diode (LE...
Problems in swithing converter and power losses in this circuit describe these master’s theses. Powe...
This paper presents the design of a driver for 6 W residential LED luminaries with a Flyback topolog...
The trend of utilizing light emitting diodes (LEDs) in a number of applications has attracted the at...
Thanks to a very high luminous efficacy of LED lamps (over 160 lm/W) they are the most preferred lig...
LEDs must be externally driven by power sources to emit light. One problem associated with driving L...
The paper deals with current and light regulators for luminaries with Light Emitting Diodes. Several...
AbstractA novel single-stage single-switch (S4) LED driver is proposed in this paper. The paper focu...
Control and driving high luminous LED is an issue that is dealt, because the technology of LED have ...
LED elements always require some electronic ballast that may consist of a primary power supply and a...
This paper presents comparative investigation of both voltage and current fed buck converters. This ...
A novel single-stage single-switch (S4) LED driver is proposed in this paper. The paper focuses on t...