Lighting device suitable for multiple voltage sources

The invention claimed is: 1. A lighting device configured to receive a first voltage signal from a voltage source, the lighting device comprising: a first circuit coupled to input terminals for receiving the first voltage signal from the voltage source, the first circuit comprising rectifying diodes for rectifying the first voltage signal and supplying a second voltage signal, a first capacitor for buffering the second voltage signal, and a second capacitor coupled in parallel to one of the rectifying diodes of the first circuit; a second circuit receiving an input voltage signal, corresponding to the second voltage signal, and converting the input voltage into an output signal; and a light circuit receiving the output signal of the second circuit and comprising at least one light emitting diode, wherein the first circuit further comprises a fourth circuit provided parallel to the second capacitor, the fourth circuit comprising at least two fourth circuit diodes additional to the rectifying diodes and being connected by a fourth capacitor to one of the input terminals. 2. The lighting device of claim 1 , a first input terminal of the input terminals being coupled via a first rectifying diode among the rectifying diodes to a first output terminal of output terminals and further being coupled via a second rectifying diode among the rectifying diodes to a second output terminal of the output terminals, and a second input terminal of the input terminals being coupled via a third rectifying diode among the rectifying diodes to the first output terminal and further being coupled via a fourth diode among the rectifying diodes to the second output terminal. 3. The lighting device of claim 1 , further comprising a third capacitor connected directly in parallel with only another one of the rectifying diodes. 4. The lighting device of claim 3 , the first circuit comprising a fifth circuit connected in parallel to the third capacitor, the fifth circuit comprising at least two fifth circuit diodes and being connected by a fifth capacitor to another one of the input terminals. 5. The lighting device of claim 1 , wherein the buffered second voltage is no greater than 130% of a peak value of the first voltage signal. 6. The lighting device of claim 1 , wherein a sum of capacitances (in amperes*seconds/volts) of the capacitors of the first circuit, a capacitance of the first capacitor not included, is no greater than: (1) an output power (in Watts) of the light circuit multiplied by a constant value (CV) (in 1/volts), divided by (2) the multiplication of a peak value of the first voltage signal (in Volts) and a maximum first voltage signal application frequency (in Hertz). 7. The lighting device of claim 6 , wherein the constant value (CV) is in a range of 0.001 to 0.100. 8. The lighting device of claim 1 , wherein the input voltage signal is an input DC voltage signal and the output signal is an output DC signal, the second circuit being a converter for converting the input DC voltage signal into the output DC signal. 9. The lighting device of claim 8 , wherein the output DC signal is an output DC current signal for supplying current to the light circuit comprising at least one light emitting diode, wherein the second circuit is configured to measure an amplitude of the output DC current signal. 10. The lighting device of claim 6 , wherein the constant value (CV) is in the range of 0.003 to 0.03. 11. The lighting device of claim 6 , wherein the constant value (CV) is approximately 0.01. 12. An apparatus, comprising: a pair of input terminals configured to receive a first voltage signal from a voltage source; and a first circuit coupled to the input terminals, the first circuit comprising: rectifying diodes configured to rectify the first voltage signal and supply a second voltage signal, a first capacitor connected across an output of the first circuit and configured to buffer the second voltage signal, a second capacitor connected directly in parallel to exactly one of the rectifying diodes of the first circuit, a parallel circuit comprising two parallel circuit diodes connected in parallel across the second capacitor, and a third capacitor connecting the parallel circuit to one of the input terminals. 13. The apparatus of claim 12 , further comprising: a second circuit configured to receive an input voltage signal, corresponding to the second voltage signal, and converting the input voltage into an output signal; and a light circuit receiving the output signal of the second circuit and comprising at least one light emitting diode. 14. The apparatus of claim 12 , wherein the first circuit further comprises a fourth capacitor connected directly in parallel to exactly another one of the rectifying diodes of the first circuit. 15. The apparatus of claim 14 , wherein the first circuit further comprises: a second parallel circuit comprising two second parallel circuit diodes connected in parallel across the fourth capacitor, and a fifth capacitor connecting the second parallel circuit is to another one of the input terminals. 16. The apparatus of claim 12 , further comprising a coupling circuit configured to couple an output of the voltage source to the input terminals, the coupling circuit including a series combination of a coupling resistor and a coupling capacitor connected across the output of the voltage source. 17. The apparatus of claim 16 , wherein the coupling circuit further comprises a series combination of a second coupling resistor and a coupling inductor connected in series between an output terminal of the voltage source and one of the input terminals. 18. An apparatus, comprising: a pair of input terminals configured to receive a first voltage signal from a voltage source; and a first circuit coupled to the input terminals, the first circuit comprising: rectifying diodes configured to rectify the first voltage signal and supply a second voltage signal, a first capacitor connected across an output of the first circuit and configured to buffer the second voltage signal, a parallel circuit comprising a second capacitor and an additional diode connected in series with each other, the parallel circuit being connected directly in parallel to exactly one of the rectifying diodes of the first circuit. 19. The apparatus of claim 18 , further comprising a further diode connected between a first one of the input terminals and a node between the second capacitor and the additional diode. 20. The apparatus of claim 18 , further comprising a third capacitor connected between the first one of the input terminals and an output terminal of the first circuit.