Voltage conversion device

What is claimed is: 1 . A voltage conversion device configured to provide an output voltage and an output current to a load according to an input voltage, the voltage conversion device comprising: a voltage conversion unit comprising: an input rectifier circuit comprising an input end, a first output end, a second output end, and a ground end, wherein the input end receives the input voltage; a storage capacitor electrically coupled between the second output end and the ground end of the input rectifier circuit; a storage inductor comprising a first end and a second end, wherein the first end of the storage inductor is electrically coupled to the first output end of the input rectifier circuit; a transformer comprising a first end, a second end, and a third end, wherein the transformer has a non-isolation structure, the first end of the transformer is electrically coupled to the second output end of the input rectifier circuit, and the second end of the transformer is electrically coupled to the second end of the storage inductor; a switch electrically coupled to the third end of the transformer; and a rectifier component electrically coupled between the third end of the transformer and the load; and a control unit electrically coupled to the voltage conversion unit, wherein the control unit is configured to provide a control signal to the switch according to a switch current passing through the switch and at least one of the output voltage and the output current. 2 . The voltage conversion device according to claim 1 , wherein the transformer comprises: a first winding, wherein a first end of the first winding is electrically coupled to the second output end of the input rectifier circuit, and a second end of the first winding is electrically coupled to the second end of the storage inductor; and a second winding, wherein a first end of the second winding is electrically coupled to the second end of the first winding, and a second end of the second winding is electrically coupled to the switch; wherein the polarities of the second end of the first winding and the second end of the second winding are identical. 3 . The voltage conversion device according to claim 2 , wherein in each time period of the input voltage, a time duration of the input current passing through the storage inductor corresponds to a ratio of turns of the first and second windings. 4 . The voltage conversion device according to claim 2 , wherein a power factor of the voltage conversion device corresponds to a ratio of turns of the first and second windings. 5 . The voltage conversion device according to claim 1 , wherein the transformer comprises: a third winding, wherein a first end of the third winding is electrically coupled to the control unit, a second end of the third winding is electrically coupled to the ground end, the third winding couples to the first winding and the second winding, and the polarities of the second end of the first winding, the second end of the second winding, and the first end of the third winding are identical. 6 . The voltage conversion device according to claim 5 , wherein the third winding is configured to provide a second sensing signal to the control unit when a current passing through the first winding and a current passing through the second winding are equal to zero, so as to make the control unit accordingly provide the control signal to the switch. 7 . The voltage conversion device according to claim 1 , wherein the control unit comprises: a determining module configured to receive a first sensing signal, a second sensing signal, and a third reference voltage, and output a first trigger signal, wherein under a case that both of the first sensing signal and the second sensing signal are smaller than the third reference voltage, the first trigger signal has a high voltage level. 8 . The voltage conversion device according to claim 7 , wherein the control unit further comprises: an output module configured to receive the first trigger signal, and turn on the switch when the first trigger signal has the high voltage level. 9 . The voltage conversion device according to claim 1 , wherein the control unit comprises: an output module configured to receive a clock signal and output the control signal, which corresponds to a first trigger signal, according to the clock signal. 10 . The voltage conversion device according to claim 1 , wherein the control unit comprises: a comparator, wherein a first end of the comparator is configured to receive a second sensing signal corresponding to the switch current, a second end of the comparator is configured to receive a voltage threshold corresponding to a current threshold, an output end of the comparator is configured to output a second trigger signal, and under a case that the switch current is greater than the current threshold, the second trigger signal has a high voltage level. 11 . The voltage conversion device according to claim 10 , wherein the control unit further comprises: an output module configured to receive the second trigger signal, and turn off the switch when the second trigger signal has the high voltage level. 12 . The voltage conversion device according to claim 10 , wherein the control unit further comprises: an adjusting module configured to adjust the voltage threshold according to at least one of the output voltage and the output current. 13 . The voltage conversion device according to claim 12 , wherein the adjusting module comprises: a sensing circuit configured to determine whether at least one of the output voltage and the output current is greater than a predetermined threshold, and output a determining signal accordingly; and an adjusting circuit configured to adjust the voltage threshold according to the determining signal. 14 . The voltage conversion device according to claim 13 , wherein the adjusting circuit comprises: a voltage source; a current source; a transmitting component, wherein an anode end of the transmitting component is electrically coupled to the voltage source, and a cathode end of the transmitting component is configured to receive the determining signal and generate a coupling signal; and a receiving component, wherein a first end of the receiving component is electrically coupled to the current source, a second end of the receiving component is coupled to a ground, the receiving component is configured to change a voltage level of the first end of the receiving component corresponding to the coupling signal, and the voltage level of the first end of the receiving component corresponds to the voltage threshold. 15 . The voltage conversion device according to claim 13 , wherein the sensing circuit comprises: a first amplifier configured to receive a third sensing signal corresponding to the output current and a first reference voltage, and output a first amplifier signal; a second amplifier configured to receive a fourth sensing signal corresponding to the output voltage and a second reference voltage, and output a second amplifier signal; and an OR-gate circuit configured to receive the first amplifier signal and the second amplifier signal, perform a logic OR operation on the first amplifier signal and the second amplifier signal to select one of the first amplifier signal and the second amplifier signal, whichever has a lower voltage level, to serve as the determining signal. 16 . The voltage conversion device according to claim 1 , wherein the voltage conversion unit further comprises: an output capacitor electrically coupled be