Low order filter circuit having frequency correction function, frequency correction method for the low order filter circuit, and high order filter circuit

What is claimed is: 1. A low order filter circuit having a frequency correction function, including: a second order filter unit for receiving an inputted signal and filtering the inputted signal to retrieve a predetermined band signal and output the predetermined band signal; an analog-to-digital converter (ADC) having a first working status and a second working status, for detecting a peak of the predetermined band signal from the second order filter unit and digitalizing the peak when the ADC is in the first working status, and for detecting and converting the predetermined band signal from the second order filter unit to a digital signal and outputting the digital signal when the ADC is in the second working status; and a digital correction unit for comparing the digitalized peak with a default value and generating a comparison result, and according to the comparison result, the digital correction unit generating a frequency control signal and a working status control signal and sending them as feedbacks respectively to the second order filter unit for adjusting its working frequency and to the ADC for switching its working status, wherein the digital correction unit includes: a register unit for storing the digitalized peak; a comparison unit for comparing the digitalized peak with the default value and generating a comparison result; a control unit for generating the working status control signal and a counting mode control signal according to the comparison result from the comparison unit; and a counting unit for performing forward or backward counting according to the counting mode control signal from the control unit to generate the frequency control signal. 2. The low order filter circuit having a frequency correction function according to claim 1 , wherein the second order filter unit is a second order notch filter unit or a second order band-pass filter unit, and the working frequency is a notch center frequency of the notch filter unit or a band-pass center frequency of the band-pass filter unit. 3. The low order filter circuit having a frequency correction function according to claim 2 , wherein the second order notch filter unit includes a preamplifier, a low-pass filter, a notch filter and a post-amplifier, which are connected in a cascade. 4. The low order filter circuit having a frequency correction function according to claim 2 , wherein the second order band-pass filter unit includes a preamplifier, a low-pass filter, a band-pass filter and a post-amplifier, which are connected in a cascade. 5. The low order filter circuit having a frequency correction function according to claim 1 , wherein the second order filter unit is made up of an operational transconductance amplifier (OTA). 6. The low order filter circuit having a frequency correction function according to claim 5 , wherein the working frequency of the second order filter unit is adjusted by changing transconductance of the OTA. 7. A frequency correction method for the low order filter circuit having a frequency correction function according to claim 1 , including the steps of: setting an initial frequency control signal via the counting unit, and with the initial frequency control signal, allowing the ADC to detect a peak of a predetermined band signal outputted from the second order filter unit and digitalize the peak to form a first digitalized peak that is stored in the register unit and serves as the default value; using the counting unit to continuously form a next frequency control signal, and with this frequency control signal, allowing the ADC to detect a peak of a predetermined band signal outputted from the second order filter unit and digitalize the peak to form a second digitalized peak that is outputted to and stored in the register unit; using the comparison unit to compare the second digitalized peak with the first digitalized peak and generate a comparison result, wherein if the comparison result matches a predetermined setting, the control unit operates to have the counting unit stay in a current counting mode without changing its counting direction and then to generate and send a working status control signal to the second order filter unit for adjusting its working frequency, and the comparison unit keeps performing comparison; and if the comparison result does not match the predetermined setting, the control unit operates to change the counting mode of the counting unit in a way of changing its counting direction to count reversely and then to generate and send a working status control signal to the second order filter unit for adjusting its working frequency; and determining if a number of times for the counting unit to change its counting mode has reached a predetermined number, if yes, ending the method; if no, repeating the step of having the comparison unit compare the second digitalized peak with the first digitalized peak. 8. The frequency correction method for the low order filter circuit having a frequency correction function according to claim 7 , wherein the second order filter unit is a second order notch filter unit, and in the step of having the comparison unit compare the second digitalized peak with the first digitalized peak, if the second digitalized peak is smaller than the first digitalized peak, it means the comparison result matches the predetermined setting; or the second order filter unit is a second order band-pass filter unit, and in the step of having the comparison unit compare the second digitalized peak with the first digitalized peak, if the second digitalized peak is larger than the first digitalized peak, it means the comparison result matches the predetermined setting.