Mixer module

What is claimed is: 1. A mixer module, comprising: a mixer, mixing an input signal to generate a first signal; at least one DC offset circuit, generating a second signal based on the first signal; a filter, filtering out an AC portion of the second signal and generating a third signal according to a DC portion of the second signal; and a controller, controlling the at least one DC offset circuit based on the third signal to reduce a DC portion of the first signal. 2. The mixer module according to claim 1 , further comprising: an analog-to-digital converter, receiving the second signal and converting the second signal into a digital output signal; and a digital signal processor, receiving the digital output signal and generating a first correction value based on the digital output signal, wherein the controller generates a first control signal based on the third signal or the first correction value to control the at least one DC offset circuit. 3. The mixer module according to claim 2 , wherein the controller comprises: a first control circuit, generating a second correction value based on the third signal; and a multiplexer, having an output terminal coupled to a digital input terminal of the first control circuit, a first terminal receiving the second correction value, a second terminal receiving the first correction value, and a control terminal controlled by the digital signal processor, wherein the digital signal processor controls the multiplexer to select one of the first correction value and the second correction value as an output to the first control circuit, wherein the first control circuit generates the first control signal based on the output of the multiplexer. 4. The mixer module according to claim 1 , further comprising: at least one amplifier, coupled between the at least one DC offset circuit and the filter, and the at least one amplifier amplifying the second signal to output an amplified second signal. 5. The mixer module according to claim 4 , further comprising: an analog-to-digital converter, receiving the amplified second signal and converting the amplified second signal into a digital output signal; and a digital signal processor, receiving the digital output signal and generating a first correction value based on the digital output signal, wherein the controller generates a first control signal based on the third signal or the first correction value to control the at least one DC offset circuit. 6. The mixer module according to claim 5 , wherein the controller comprises: a first control circuit, generating a second correction value based on the third signal; and a multiplexer, having an output terminal coupled to a digital input terminal of the first control circuit, a first terminal receiving the second correction value, a second terminal receiving the first correction value, and a control terminal controlled by the digital signal processor, wherein the digital signal processor controls the multiplexer to select one of the first correction value and the second correction value as an output to the first control circuit, wherein the first control circuit generates the first control signal based on the output of the multiplexer. 7. The mixer module according to claim 1 , wherein the controller comprises: a first control circuit, generating a first control signal based on the third signal, wherein the at least one DC offset circuit reduces the DC portion of the first signal based on the first control signal. 8. The mixer module according to claim 7 , wherein the first control circuit comprises: a comparator, comparing the third signal with a predetermined voltage to generate the first control signal. 9. The mixer module according to claim 7 , wherein the third signal comprises a fourth signal and a fifth signal, and the fourth signal and the fifth signal are differential signals to each other, and the first control circuit comprises: a comparator, comparing the fourth signal with the fifth signal to generate the first control signal, wherein the first control signal comprises a pair of differential signals. 10. The mixer module according to claim 7 , wherein the first control circuit comprises: a comparator, comparing the third signal with a predetermined voltage to generate a comparison result; a counter, receiving a clock signal to count a value; a register, generating a second correction value according to the comparison result and the value; and a digital-to-analog converter, converting the second correction value into the first control signal. 11. The mixer module according to claim 7 , wherein the third signal comprises a fourth signal and a fifth signal, the fourth signal and the fifth signal are differential signals to each other, and the first control circuit comprises: a comparator, comparing the fourth signal and the fifth signal to generate a comparison result; a counter, receiving a clock signal to count a value; a register, generating a second correction value according to the comparison result and the value; and a digital-to-analog converter, converting the second correction value into the first control signal, wherein the first control signal comprises a pair of differential signals. 12. The mixer module according to claim 7 , wherein the controller further comprises: a second control circuit, generating a second control signal based on the third signal, wherein the at least one DC offset circuit, further based on the second control signal, reduces the DC portion of the first signal, wherein the first control circuit is configured to perform a coarse adjustment operation to the at least one DC offset circuit, and the second control circuit is configured to perform a fine adjustment operation to the at least one DC offset circuit. 13. The mixer module according to claim 12 , wherein the second control circuit comprises a transconductance amplifier. 14. The mixer module according to claim 1 , wherein the mixer further receives a local oscillation signal to mix the input signal. 15. The mixer module according to claim 1 , wherein the at least one DC offset circuit comprises: a first controllable current source, comprising a first terminal coupled to a first reference voltage terminal; a second controllable current source, comprising a second terminal coupled to a second reference voltage terminal; and a resistor, comprising a first terminal and a second terminal respectively coupled to a second terminal of the first controllable current source and a first terminal of the second controllable current source, and one of the first terminal and the second terminal of the resistor is further coupled to an output terminal of the mixer, the other one of the first terminal and the second terminal of the resistor are further coupled to the filter, wherein the first controllable current source and the second controllable current source are controlled by the controller. 16. The mixer module according to claim 15 , wherein the at least one DC offset circuit further comprises: a third controllable current source, comprising a first terminal coupled to the first reference voltage terminal; and a fourth controllable current source, comprising a second terminal coupled to the second reference voltage terminal, wherein the first terminal and the second terminal of the resistor are further respectively coupled to a first terminal of the fourth controllable current source and a second terminal of the third controllable current source, wherein the third controllable current source and the fourth controllable current