Signal processing apparatus, optical line terminal, and communications system

What is claimed is: 1. A signal processing apparatus, comprising: a signal input interface, a signal output interface, a reset signal generator, a signal amplification and equalization circuit, an enable signal generator, and N direct-current offset calibration loop circuits, wherein N is a positive integer; wherein the signal input interface is connected to the signal amplification and equalization circuit, the signal amplification and equalization circuit is connected to the signal output interface and the enable signal generator, the enable signal generator is connected to the N direct-current offset calibration loop circuits, the N direct-current offset calibration loop circuits are connected to the signal amplification and equalization circuit, and the reset signal generator is connected to the N direct-current offset calibration loop circuits; the signal input interface is configured to receive a first signal; the reset signal generator is configured to output a reset signal to the N direct-current offset calibration loop circuits when an interval time occurs in a data burst block occurs in the first signal; the signal amplification and equalization circuit is configured to: adjust, based on a second signal output by the N direct-current offset calibration loop circuits, the first signal received from the signal input interface, and amplify and equalize the first signal; the enable signal generator is configured to: detect a differential voltage corresponding to a signal output by the signal amplification and equalization circuit, and output an enable signal to the N direct-current offset calibration loop circuits based on the differential voltage; the N direct-current offset calibration loop circuits are configured to: perform resetting when receiving the reset signal output by the reset signal generator, and when receiving the enable signal output by the enable signal generator, start to output the second signal to the signal amplification and equalization circuit based on a clock signal; and the signal output interface is configured to output the output signal adjusted, amplified, and equalized by the signal amplification and equalization circuit. 2. The signal processing apparatus according to claim 1 , wherein the enable signal generator is further configured to output the clock signal to the N direct-current offset calibration loop circuits based on the enable signal. 3. The signal processing apparatus according to claim 1 , wherein the reset signal generator comprises a signal detector and a further reset signal generator that are sequentially connected, wherein the signal detector is configured to output an indication signal to the further reset signal generator when detecting that an interval time occurs in the data burst block in the first signal; and the further reset signal generator is configured to output the reset signal to the N direct-current offset calibration loop circuits when receiving the indication signal output by the signal detector. 4. The signal processing apparatus according to claim 3 , wherein the signal amplification and equalization circuit comprises N signal adders, at least one limiting amplifier (LA), M continuous time linear equalizers (CTLEs), and K low frequency equalizers (LFEQs), wherein M and K are positive integers; each signal adder is configured to add the first signal and the second signal; the at least one LA is configured to amplify a signal in the amplification and equalization circuit; and the at least one CTLE and the at least one LFEQ are configured to equalize the signal in the amplification and equalization circuit. 5. The signal processing apparatus according to claim 3 , wherein each of the N direct-current offset calibration loop circuits comprises a counter, a digital-to-analog converter (DAC), and a voltage controlled mirror current source sequentially connected to each other, wherein each counter is configured to zero out when receiving the reset signal, and each DAC is configured to output a reference voltage minimum value when receiving the reset signal. 6. The signal processing apparatus according to claim 4 , wherein each of the N direct-current offset calibration loop circuits comprises a counter, a digital-to-analog converter (DAC), and a voltage controlled mirror current source sequentially connected to each other, wherein each counter is configured to zero out when receiving the reset signal, and each DAC is configured to output a reference voltage minimum value when receiving the reset signal. 7. The signal processing apparatus according to claim 3 , wherein the enable signal generator comprises a voltage detector, further enable signal generator, and a clock controller, wherein the voltage detector is configured to detect the differential voltage corresponding to the signal output by the signal amplification and equalization circuit; the further enable signal generator is configured to output the enable signal to the N direct-current offset calibration loop circuits based on the differential voltage detected by the voltage detector; the clock controller is configured to: process an original clock signal based on the enable signal output by the further enable signal generator, and output the processed clock signal to the N direct-current offset calibration loop circuits; each direct-current offset calibration loop circuit is further configured to: when receiving the enable signal output by the enable signal generator, output the second signal based on the clock signal output by the clock controller; each DAC is further configured to output a voltage based on a counting result output by a corresponding counter; each voltage controlled mirror current source is configured to output the second signal based on a voltage output by a corresponding DAC and a reference voltage medium value of the corresponding DAC; and the clock controller is further configured to: when the voltage detector detects that a bias voltage inverses for an (N+1) th time, stop, based on the enable signal output by the further enable signal generator, outputting the clock signal to the N counters. 8. The signal processing apparatus according to claim 4 , wherein the enable signal generator comprises a voltage detector, further enable signal generator, and a clock controller, wherein the voltage detector is configured to detect the differential voltage corresponding to the signal output by the signal amplification circuit; the further enable signal generator is configured to output the enable signal to the N direct-current offset calibration loop circuits based on the differential voltage detected by the voltage detector; the clock controller is configured to: process an original clock signal based on the enable signal output by the further enable signal generator, and output the processed clock signal to the N direct-current offset calibration loop circuits; each direct-current offset calibration loop circuit is further configured to: when receiving the enable signal output by the enable signal generator, output the second signal based on the clock signal output by the clock controller; each DAC is further configured to output a voltage based on a counting result output by a corresponding counter; each voltage controlled mirror current source is configured to output the second signal based on a voltage output by a corresponding DAC and a reference voltage medium value of the corresponding DAC; and the clock controller is further configured to: when the voltage detector detects that a bias voltage inverses for an (N+1) th time, stop, based on the enable signal output by the further enable signal generator, outputting the clock signal to the N counters. 9. The signal pr