Method, apparatus and system for controlling standing wave linear accelerator

What is claimed is: 1. An apparatus for controlling a standing wave linear accelerator, wherein the standing wave linear accelerator comprises an accelerating tube, a motor, and a microwave power source connected between the accelerating tube and the motor, the apparatus comprising: a main processor configured to: receive an envelope signal of a reflected wave signal output by the accelerating tube, determine whether an amplitude of the envelope signal of the reflected wave signal output by the accelerating tube is greater than an envelope threshold, and if it is determined that the amplitude of the envelope signal of the reflected wave signal output by the accelerating tube is less than the envelope threshold, determine whether to change a rotation direction of the motor by comparing the amplitude of the envelope signal of the reflected wave signal output by the accelerating tube with an envelope reference signal stored in a memory; and the memory connected to the main processor and configured to store the envelope threshold and the envelope reference signal; wherein the main processor is a digital signal processor. 2. The apparatus according to claim 1 , wherein the main processor is further configured to: determine to change the rotation direction of the motor if the amplitude of the envelope signal of the reflected wave signal output by the accelerating tube is greater than the envelope reference signal; and determine to keep the rotation direction of the motor unchanged if the amplitude of the envelope signal of the reflected wave signal output by the accelerating tube is not greater than the envelope reference signal. 3. The apparatus according to claim 2 , wherein the main processor is further configured to: replace the envelope reference signal with the amplitude of the envelope signal of the reflected wave signal output by the accelerating tube, and store the amplitude of the envelope signal of the reflected wave signal output by the accelerating tube in the memory. 4. The apparatus according to claim 3 , wherein the microwave power source is a magnetron or a klystron. 5. The apparatus according to claim 2 , wherein the microwave power source is a magnetron or a klystron. 6. The apparatus according to claim 1 , wherein the main processor is further configured to: if it is determined that the amplitude of the envelope signal of the reflected wave signal output by the accelerating tube is greater than the envelope threshold, receive a digital pulse current signal from the microwave power source, determine a preset position of the motor based on the digital pulse current signal, and adjust the motor to the preset position. 7. The apparatus according to claim 6 , wherein the main processor is further configured to: determine the preset position of the motor by searching a pre-stored mapping relation table between the digital pulse current signal and the preset position based on the digital pulse current signal. 8. The apparatus according claim 6 , wherein the microwave power source is a magnetron or a klystron. 9. The apparatus according to claim 1 , further comprising: a first preprocessor connected between the main processor and the accelerating tube, wherein the first preprocessor is configured to: receive the reflected wave signal from the accelerating tube, process the reflected wave signal to generate the envelope signal of the reflected wave signal output by the accelerating tube, and transmit the envelope signal of the reflected wave signal output by the accelerating tube to the main processor; and a second preprocessor connected between the main processor and the microwave power source, wherein the second preprocessor is configured to: receive an analog pulse current signal from the microwave power source, process the analog pulse current signal to generate the digital pulse current signal, and transmit the digital pulse current signal to the main processor. 10. The apparatus according to claim 9 , wherein the first pre-processor comprises an attenuator, a detector, a first analog-to-digital converter, and a filter, wherein: the attenuator is connected to the accelerating tube and configured to attenuate the reflected wave signal to generate an attenuated signal; the detector is connected to the attenuator and configured to detect the attenuated signal to generate a detected signal representing an envelope of the attenuated signal; the first analog-to-digital converter is connected to the detector and configured to perform an analog-to-digital conversion on the detected signal to generate a first converted signal; and the filter is connected between the first analog-to-digital converter and the main processor and configured to filter the first converted signal to generate a first filtered signal as the envelope signal of the reflected wave signal output by the accelerating tube. 11. The apparatus according to claim 9 , wherein the second pre-processor comprises a second analog-to-digital converter and a filter, wherein: the second analog-to-digital converter is connected to the microwave power source and configured to perform an analog-to-digital conversion on the analog pulse current signal to generate a second converted signal; and the filter is connected between the second analog-to-digital converter and the main processor and configured to filter the second converted signal to generate a second filtered signal as the digital pulse current signal. 12. The apparatus according to claim 1 , wherein the microwave power source is a magnetron or a klystron. 13. A method of controlling a standing wave linear accelerator, wherein the standing wave linear accelerator comprises an accelerating tube, a motor, and a microwave power source connected between the accelerating tube and the motor, the method comprising: receiving an envelope signal of a reflected wave signal output by the accelerating tube; and determining whether an amplitude of the envelope signal of the reflected wave signal output by the accelerating tube is greater than an envelope threshold, and if it is determined that the amplitude of the envelope signal of the reflected wave signal output by the accelerating tube is less than the envelope threshold, determining whether to change a rotation direction of the motor by comparing the amplitude of the envelope signal of the reflected wave signal output by the accelerating tube with an envelope reference signal stored in a memory; wherein the envelope signal of the reflected wave signal output by the accelerating tube is a digital signal. 14. The method according to claim 13 , wherein the determining whether to change a rotation direction of the motor by comparing the amplitude of the envelope signal of the reflected wave signal output by the accelerating tube with an envelope reference signal comprises: determining to change the rotation direction of the motor if the amplitude of the envelope signal of the reflected wave signal output by the accelerating tube is greater than the envelope reference signal; and determining to keep the rotation direction of the motor unchanged if the amplitude of the envelope signal of the reflected wave signal output by the accelerating tube is not greater than the envelope reference signal. 15. The method according to claim 14 , further comprising: replacing the envelope reference signal with the amplitude of the envelope signal of the reflected wave signal output by the accelerating tube, and storing the amplitude of the envelope signal of the reflected wave signal output by the accelerating tube in the memory. 16. The m