Multi-stage power converter using pulse width modulator to convert sampled second-stage power parameters into digital pulse width modulation signals and control method thereof

What is claimed is: 1. A multi-stage power converter, comprising: a first-stage power conversion circuit; a second-stage power conversion circuit comprising a transformer, a primary side circuit and a secondary side circuit, wherein the primary side circuit is connected between the first-stage power conversion circuit and a primary winding of the transformer, and the secondary side circuit is connected with a secondary winding of the transformer; a second-stage analog sampler connected with the secondary side circuit for sampling at least one second-stage power parameter from the secondary side circuit; a pulse width modulator for receiving a sampling result from the second-stage analog sampler and converting the at least one second-stage power parameter into at least one pulse width modulation signal with at least one corresponding duty ratio; a first isolator connected with the pulse width modulator for receiving the at least one pulse width modulation signal; a pulse width analyzer connected with the first isolator, wherein the pulse width analyzer receives the at least one pulse width modulation signal through the first isolator in an isolation manner, calculates the duty ratio of the at least one pulse width modulation signal according to a rising edge and a falling edge of the at least one pulse width modulation signal, and calculates the at least one second-stage power parameter according to the duty ratio; a control unit connected with the first-stage power conversion circuit, the primary side circuit and the pulse width analyzer, wherein the control unit controls operations of the first-stage power conversion circuit, and controls operations of the primary side circuit according to the at least one second-stage power parameter that is obtained by the pulse width analyzer; a second isolator, wherein the second isolator is connected between the control unit and the secondary side circuit, wherein the control unit generates a control signal according to the at least one second-stage power parameter that is obtained by the pulse width analyzer, and transmits the control signal to the secondary side circuit through the second isolator so as to control operations of the secondary side circuit; and an analog-digital converter connected between the second-stage analog sampler and the pulse width modulator, wherein after the at least one second-stage power parameter is sampled by the second-stage analog sampler, the at least one sampled second-stage power parameter is converted into a digital signal by the analog-digital converter and the digital signal is transmitted to the pulse width modulator. 2. The multi-stage power converter according to claim 1 , wherein the multi-stage power converter is included in a vehicle charging system. 3. The multi-stage power converter according to claim 1 , further comprising a first-stage analog sampler, wherein the first-stage analog sampler is connected with the first-stage power conversion circuit and the control unit for sampling at least one first-stage power parameter from the first-stage power conversion circuit and issues a sampling result to the control unit, wherein the control unit controls operations of the first-stage power conversion circuit according to the sampling result of the first-stage analog sampler. 4. The multi-stage power converter according to claim 1 , wherein the at least one second-stage power parameter sampled by the second-stage analog sampler includes plural second-stage power parameters, and the at least one pulse width modulation signal obtained by the pulse width modulator includes plural pulse width modulation signals, wherein the first isolator comprises plural isolation channels between the pulse width modulator and the pulse width analyzer, and the plural pulse width modulation signals are transmitted from the pulse width modulator to the pulse width analyzer through the corresponding isolation channels. 5. The multi-stage power converter according to claim 4 , wherein the pulse width modulator is a fixed-frequency pulse width modulator. 6. The multi-stage power converter according to claim 4 , wherein the pulse width modulator is a variable-frequency pulse width modulator. 7. The multi-stage power converter according to claim 1 , wherein the at least one second-stage power parameter sampled by the second-stage analog sampler includes plural second-stage power parameters, and the at least one pulse width modulation signal obtained by the pulse width modulator includes plural pulse width modulation signals that are generated in a time division manner, wherein the first isolator comprises a single isolation channel, and the pulse width modulation signals with different frequencies are transmitted from the pulse width modulator to the isolation channel in a time division manner, wherein the plural pulse width modulation signals have fixed or variable cycle numbers. 8. The multi-stage power converter according to claim 7 , further comprising a sequence controller, wherein the sequence controller is connected with the pulse width modulator for controlling sequences and frequencies of the plural pulse width modulation signals that are transmitted from the pulse width modulator to the first isolator in a time-interleaving manner. 9. The multi-stage power converter according to claim 7 , wherein the pulse width modulator comprises: a first register storing a preset cycle value; a second register storing the plural second-stage power parameters; a phase-locked loop circuit for generating a clock signal with a first clock frequency, wherein the first clock frequency is adjustable; and a pulse width modulation signal generator connected with the first register, the second register and the phase-locked loop circuit, wherein the pulse width modulation signal generator receives the preset cycle value and the plural second-stage power parameters, up-counts by 1from zero to the preset cycle value, and generates the corresponding pulse width modulation signal according to a result of comparing the second-stage power parameter of the second register with a current count value. 10. The multi-stage power converter according to claim 9 , wherein the pulse width analyzer comprises: a count value register storing a preset count value; an edge trigger connected with the first isolator for receiving the plural pulse width modulation signals from the first isolator and generating a triggering signal according to a rising edge and a falling edge of each pulse width modulation signal; a main counter connected with the count value register and the edge trigger, and storing a second clock frequency, wherein the main counter obtains a first count value corresponding to a time period of receiving the triggering signal twice; an edge counter connected with the edge trigger and the control unit, wherein the edge counter generates a second count value according to a number of times the triggering signal is received; and a duty ratio calculator connected with the main counter and the edge counter, wherein the duty ratio calculator acquires a cycle count value and a high level count value of each pulse width modulation signal according to the first count value, a rising information or a falling information of the edge trigger and the second count value, and calculates a duty ratio of each pulse width modulation signal, so that each second-stage power parameter is obtained. 11. The multi-stage power converter according to claim 10 , wherein if the first count value corresponding to the time period of receiving the triggering signal twice is larger than the preset count value, the main counter generates an error signal. 12. The multi-s