| 摘要 |
The electronic device arranged to periodically power a light emitting diode is intended to be arranged between the light emitting diode and a battery forming an electrical power source, and includes a boost type voltage converter and an electrical energy storage capacitor, arranged downstream of the voltage converter parallel to the diode, a current source and a switch controlled by a control unit of the electronic device. The current source and the switch are arranged in series between said storage capacitor and a lower voltage terminal on the electrical path provided for powering the light emitting diode. The current source is arranged to impose, when actuated, a constant current corresponding to the operating current provided for the diode. |
| 主权项 |
1. An electronic device for powering a light emitting diode and intended to be arranged between said light emitting diode and a battery forming an electrical power source, said electronic device including a boost type voltage converter arranged between an input terminal intended to be connected to the battery and an output terminal intended to be connected to the light emitting diode;
wherein the electronic device further includes an electrical energy storage capacitor, arranged downstream of the voltage converter parallel to said output terminal, a current source and a switch controlled by the control unit of said electronic device, said current source and said switch being arranged in series, between said storage capacitor and a lower voltage terminal, on the electrical path provided for powering the light emitting diode; wherein the current source is arranged to impose, when actuated, a substantially constant current corresponding to the operating current provided for the light emitting diode; and wherein the control unit is arranged to control said switch so as to render the switch alternately non-conductive during first periods and conductive during second periods; the value of the storage capacitor, a higher voltage across the terminals of said storage capacitor at the start of each second period and the first and second periods being selected so that, on the one hand, the voltage across the storage capacitor terminals in each second period remains higher than or equal to a minimum supply voltage, equal to the sum of the light emitting diode operating voltage for said operating current and a minimum current source actuation voltage, and so that, on the other hand, the voltage across the storage capacitor terminals at the end of each first period is at least equal to said higher voltage, the voltage converter being selected with a multiplier factor making it possible to attain at least said higher voltage across the storage capacitor terminals for said battery. |
