Device and method for impedance analysis

What is claimed is: 1. An impedance analysis device, adapted to on object under test (OUT) and comprising: a signal generator, configured to supply a pulse signal to the OUT; a signal analysis unit, configured to acquire a response signal which the OUT responds to the pulse signal, and then analyze the response signal to obtain an analysis parameter; and a processing unit, coupled to the signal analysis unit and configured to receive the analysis parameter from the signal analysis unit, so as to obtain an impedance variation characteristic of the OUT; and wherein the signal analysis unit comprises: a buffer unit, configured to receive the response signal to output a buffer signal; a signal amplifying unit, coupled to the buffer unit and configured to amplify a gain of the buffer signal to output an amplified signal; a computing unit, coupled to the signal amplifying unit and configured to receive the amplified signal, and according to the amplified signal and a time difference signal, analyze the response signal to output the analysis parameter; and wherein the computing unit comprises: a first switch having a first end, a second end and a control end, the first end of the first switch receiving the buffer signal, and the control end of the first switch being controlled with a first control signal, so as to control the second end of the first switch to output the buffer signal; a second switch having a first end, a second end and a control end, the first end of the second switch being coupled to the first end of the first switch, and the control end of the second switch being controlled with a second control signal, so as to control the second end of the second switch to output the buffer signal; a capacitor having a first end and a second end, and the first end of the capacitor being coupled to the second end of the first switch and the second end of the second switch; a third switch having a first end, a second end and a control end, the first end of the third switch being coupled to the second end of the capacitor, the second end of the third switch being grounded, and the control end of the third switch being controlled with the first control signal, so as to couple the first end of the third switch to the second end of the third switch; a fourth switch having a first end, a second end and a control end, the first end of the fourth switch being coupled to the second end of the capacitor, and the control end of the fourth switch being controlled with the first control signal, so as to couple the first end of the fourth switch to the second end of the fourth switch; a subtracter having a first input end, a second input end and an output end, the first input end of the subtracter being coupled to the second end of the fourth switch, the output end of the subtracter being coupled to the second input end of the subtracter for outputting a computing signal; a control unit configured to output the first control signal in a first time period, to output the second control signal in a second time period, and to output the time difference signal associated with a difference between the first time period and the second time period, and the first time period preceding the second time period; and a divider coupled to the control unit and the output end of the subtracter and configured to receive the computing signal and the time difference signal and perform division on the computing signal and the time difference signal to generate the analysis parameter. 2. The impedance analysis device according to claim 1 , wherein the buffer unit comprises: a first operation amplifier having a first input end, a second input end and an output end, the first input end of the first operation amplifier receiving the response signal, the second input end of the first operation amplifier coupled to the output end of the first operation amplifier for outputting the buffer signal. 3. The impedance analysis device according to claim 1 , wherein the signal amplifying unit comprises: a first resistor having a first end and a second end, the first end of the first resistor receiving the buffer signal; a second operation amplifier having a first input end, a second input end and an output end, the first input end of the second operation amplifier being grounded, the second input end of the second operation amplifier being coupled to the second end of the first resistor, and the output end of the second operation amplifier outputting the amplified signal; and a second resistor having a first end and a second end, the first end of the second resistor being coupled to the second end of the second operation amplifier, and the second end of the second resistor being coupled to the output end of the second operation amplifier. 4. The impedance analysis device according to claim 1 , wherein the pulse signal is a positive pulse, a negative pulse or a positive pulse plus a negative pulse. 5. The impedance analysis device according to claim 1 , wherein amplitude and width of the pulse signal are flexible. 6. The impedance analysis device according to claim 1 , wherein the OUT is a battery module, the processing unit further estimates state of charge (SOC) and state of health (SOH) of the OUT or physical characteristics of the OUT according to the impedance variation characteristic and a temperature signal of the OUT. 7. The impedance analysis device according to claim 1 , wherein the OUT is a human body module, the processing unit further estimates interface state and SOH of the OUT or physical characteristics of the OUT according to the impedance variation characteristic and a temperature signal of the OUT. 8. The impedance analysis device according to claim 1 , wherein the impedance analysis device analyzes the OUT on line in real time. 9. The impedance analysis device according to claim 1 , wherein the impedance analysis device is integrated into a chip which is disposed on a human body module or a device having a battery. 10. The impedance analysis device according to claim 1 , wherein the signal analysis unit performs a slope analysis procedure to obtain the analysis parameter specifying a slope. 11. An impedance analysis method, adapted to an OUT and comprising: providing a signal generator, configured to supply a pulse signal to the OUT; providing a signal analysis unit, configured to acquire a response signal which the OUT responds to the pulse signal, and then analyze the response signal to obtain an analysis parameter; and providing a processing unit, coupled to the signal analysis unit and configured to receive the analysis parameter from the signal analysis unit, so as to obtain an impedance variation characteristic of the OUT; and wherein the signal analysis unit comprises: a buffer unit, configured to receive the response signal to output a buffer signal; a signal amplifying unit, coupled to the buffer unit and configured to amplify a gain of the buffer signal to output an amplified signal; a computing unit, coupled to the signal amplifying unit and configured to receive the amplified signal, and according to the amplified signal and a time difference signal, analyze the response signal to output the analysis parameter; and wherein the computing unit comprises: a first switch having a first end, a second end and a control end, the first end of the first switch receiving the buffer signal, and the control end of the first switch being controlled with a first control signal, so as to control the second end of the first switch to output the buffer signal; a second switch having a first end, a second end and a control end, the first end of the second switch being coupled to the first end of the first switc