Led driver and circuit and electronic device

1 . A light-emitting diode (LED) driver circuit, comprising: a rectifier-filter circuit configured to convert an alternating voltage into a direct voltage; a valley-filling circuit connected to the rectifier-filter circuit and configured to adjust a current waveform from the rectifier-filter circuit; a ringing choke converter (RCC) circuit connected to the valley-filling circuit and configured to control a direct current (DC) output; and a DC output unit connected to the RCC circuit and configured to rectify and filter an output signal from the RCC circuit so as to drive an LED load. 2 . The LED driver circuit according to claim 1 , wherein the current waveform from the rectifier-filter circuit is adjusted by the valley-filling circuit from a narrow pulse waveform to an approximate sinusoidal waveform. 3 . The LED driver circuit according to claim 1 , further comprising an electromagnetic interference (EMI) filtering unit, an input end of which is configured to receive the alternating voltage and an output end of which is connected to the rectifier-filter circuit, so as to suppress EMI. 4 . The LED driver circuit according to claim 3 , wherein the EMI filtering unit comprises a safety fuse, a differential mode (DM) or a common mode (CM) inductor, and a safety capacitor. 5 . The LED driver circuit according to claim 1 , wherein the rectifier-filter circuit comprises a bridge rectifier, a rectifier-filter DM inductor and a rectifier-filter capacitor; the valley-filling circuit comprises a first valley-filling electrolytic capacitor, a second valley-filling electrolytic capacitor, a first valley-filling diode, a second valley-filling diode, a third valley-filling diode and a valley-filling resistor; the bridge rectifier is connected to the output end of the EMI filtering unit and an input end of the valley-filling circuit; a second end of the rectifier-filter DM inductor is connected to a negative end of the LED load through the rectifier-filter capacitor; a positive plate of the first valley-filling electrolytic capacitor is connected to a first end of the rectifier-filter DM inductor, and a negative plate of the first valley-filling electrolytic capacitor is connected to a cathode of the first valley-filling diode; an anode of the first valley-filling diode is connected to the negative end of the LED load; an anode of the second valley-filling diode is connected to the cathode of the first valley-filling diode, and a cathode of the second valley-filling diode is connected to an anode of the third valley-filling diode through the valley-filling resistor; a cathode of the third valley-filling diode is connected to the first end of the rectifier-filter DM inductor; and a positive plate of the second valley-filling electrolytic capacitor is connected to the anode of the third valley-filling diode, and a negative plate of the second valley-filling electrolytic capacitor is connected to the negative end of the LED load. 6 . The LED driver circuit according to claim 1 , wherein the RCC circuit comprises a startup circuit, a self-oscillation circuit and an oscillation control circuit. 7 . The LED driver circuit according to claim 6 , wherein the startup circuit comprises a high-voltage startup resistor; the self-oscillation circuit comprises a transformer, which comprises a primary winding and a secondary winding, and a switching tube, and the switching tube is a metal oxide semiconductor (MOS) tube; and the oscillation control circuit comprises a timing unit for controlling turn-off time and turn-on time of the switching tube, a voltage application unit for applying a driving voltage to the switching tube, and a switch control unit for controlling an on or off state of the switching tube. 8 . The LED driver circuit according to claim 7 , wherein the timing unit comprises a timing resistor and a timing capacitor connected in series to each other; the voltage application unit comprises a first voltage stabilizing diode and a voltage application resistor connected in parallel to each other; the switch control unit comprises a current sampling resistor and a first transistor; a first end of the high-voltage startup resistor is connected to the second end of the rectifier-filter DM inductor; a first electrode of the switching tube is connected to the first end of the high-voltage startup resistor, and a gate electrode of the switching tube is connected to a second end of the high-voltage startup resistor; a first end of the secondary winding is connected to the gate electrode of the switching tube through the timing unit; a first end of the current sampling resistor is connected to a second end of the secondary winding, and a second end of the current sampling resistor is connected to a second electrode of the switching tube; a base electrode of the first transistor is connected to the second electrode of the switching tube, a collector of the first transistor is connected to the gate electrode of the switching tube, and an emitter of the first transistor is connected to the first end of the current sampling resistor; an anode of the first voltage stabilizing diode is connected to the emitter of the first transistor, and a cathode of the first voltage stabilizing diode is connected to the collector of the first transistor; a first end of the current sampling resistor is connected to a first end of the primary winding, and a second end of the primary winding is connected to a positive end of the LED load; and the first and second ends of the primary winding are both connected to the negative end of the LED load through the DC output unit. 9 . The LED driver circuit according to claim 1 , further comprising an output open-circuit protection circuit connected to the RCC circuit and configured to control, when an output open circuit occurs, the RCC circuit to stop outputting a DC signal to the DC output unit. 10 . The LED driver circuit according to claim 1 , further comprising a power-limited protection circuit connected to the RCC circuit and configured limit input power. 11 . The LED driver circuit according to claim 9 , wherein the output open-circuit protection circuit comprises a second voltage stabilizing diode, a second transistor, an open-circuit protection resistor, an open-circuit protection capacitor and an open-circuit protection diode; a base electrode of the second transistor is connected to an anode of the second voltage stabilizing diode, a collector of the second transistor is connected to the gate electrode of the switching tube, and an emitter of the second transistor is connected to the second end of the secondary winding through the open-circuit protection capacitor; a cathode of the second voltage stabilizing diode is connected to the second end of the primary winding through the open-circuit protection resistor; and an anode of the open-circuit protection diode is connected to the emitter of the second transistor, and a cathode of the open-circuit protection diode is connected to the first end of the secondary winding. 12 . The LED driver circuit according to claim 10 , wherein the power-limited protection circuit comprises a third voltage stabilizing diode, a third transistor, a power-limited protection diode, a power-limited protection resistor and a power-limited protection capacitor; a base electrode of the third transistor is connected to an anode of the third voltage stabilizing diode, a collector of the third transistor is connected to the gate electrode of the switching tube, and an emitter of the third transistor is connected to the first end of the current sampling resistor; and a cathode of the power-limited protection di