Apparatuses for processing signals for a plurality of energy regions, and systems and methods for detecting radiation of a plurality of energy regions

We claim: 1. An apparatus for processing signals for a plurality of energy regions, comprising: a first processor, configured to receive a signal from a detector and process the received signal to generate a gated signal, wherein a turn-on period of the gated signal represents magnitude of the received signal; and a second processor, configured to receive the gated signal from the first processor, and determine one of the plurality of energy regions to which the received signal belongs according to the turn-on period of the gated signal, so as to count signals within the determined energy region, wherein the first processor is further configured to: turn on the gated signal while it is found that the amplitude of the received signal reaches a peak; and attenuate the received signal from the peak according to a predetermined attenuation scheme, and turn off the gated signal while the received signal is attenuated to a predetermined threshold. 2. The apparatus of claim 1 , wherein the first processor is implemented with a Application Specific Integrated Circuit (ASIC). 3. The apparatus of claim 1 , wherein the second processor further comprises: a clock, configured to generate a clock signal; a counter, configured to receive the gated signal from the first processor, and count the gated signal according to a frequency of the clock signal within the turn-on period of the gated signal to obtain a count value, wherein one of the plurality of energy regions to which the received signal belongs is determined by the count value; and a plurality of energy region registers corresponding to the plurality of energy regions respectively and connected with the counter, and configured to add a register value of a respective energy region register corresponding to an energy region determined according to the count value with 1. 4. The apparatus of claim 1 , wherein the second processor is implemented with a Field Programmable Gate Array (FPGA). 5. The apparatus of claim 1 , wherein the predetermined attenuation scheme comprises a scheme of attenuating the received signal linearly according to a specified linearity. 6. The apparatus of claim 1 , wherein the predetermined attenuation scheme comprises a scheme of attenuating the received signal exponentially, and the first processor is further configured to modify the generated gated signal. 7. The apparatus of claim 1 , wherein the first processor further comprises an amplifier and/or a filter and a shaper. 8. A system for detecting radiation of a plurality of energy regions, comprising: a detector, configured to receive rays transmitted through a detected object and generate a signal according to the received rays; and an apparatus for processing signals for the plurality of energy regions, comprising: a first processor; configured to receive the signal from the detector and process the received signal to generate a gated signal, wherein a turn-on period of the gated signal represents magnitude of the received signal; and a second processor, configured to receive the gated signal from the first processor, and determine one of the plurality of energy regions to which the received signal belongs according to the turn-on period of the gated signal, so as to count signals within the determined energy region, wherein the first processor is further configured to: turn on the gated signal while it is found that the amplitude of the received signal reaches a peak; and attenuate the received signal from the peak according to a predetermined attenuation scheme, and turn off the gated signal the received signal is attenuated to a predetermined threshold. 9. A method for detecting radiation of a plurality of energy regions, comprising: receiving a signal; processing the received signal to generate a gated signal; wherein a turn-on period of the gated signal represents magnitude of the received signal; and determining one of the plurality of energy regions to which the received signal belongs according to the turn-on period of the gated signal, so as to count signals within the determined energy region, wherein generating a gated signal comprises: turning on the gated signal while it is found that the amplitude of the received signal reaches a peak; and attenuating the received signal from the peak according to a predetermined attenuation scheme, and turning off the gated signal while the received signal is attenuated to a predetermined threshold.