Patent Number: 
Section: claims

1. A beam data processing apparatus that performs calculation processing of a state of a charged particle beam that has been accelerated by an accelerator and has been scanned by a scanning electromagnet in a particle beam therapy system for irradiating a diseased site, the beam data processing apparatus comprising:a plurality of channel data conversion units that perform A/D conversion processing in which each of a plurality of analogue signals, outputted from a position monitor that detects the passing position of the charged particle beam within the position monitor, is converted into a digital signal;an integrated control unit that controls the plurality of channel data conversion units;wherein each of the channel data conversion units includes (i) a plurality of A/D converters that sequentially operate while the charged particle beam remains stationary to irradiate an irradiation spot of the diseased site, as controlled by the integrated control unit, such that one A/D converter begins A/D conversion processing prior to another A/D converter completing A/D conversion processing, (ii) a demultiplexer that distributes the respective analogue signals to the A/D converters at different timings while the charged particle beam remains stationary, and (iii) a multiplexer that switches the respective digital signals processed by the A/D converters at different timings, andwherein said position monitor (i) is located at a downstream position with respect to said scanning electromagnet and (ii) includes a plurality of detection channels therein for detecting the passing position of the charged particle beam at the downstream location after having been scanned by said scanning electromagnet;a position size processing unit that receives the digital signals output from the multiplexer and calculates a beam position, which is the passing position of the charged particle beam within the position monitor, based on voltage information items obtained through processing by the plurality of channel data conversion units; andan abnormality determination processing unit (i) that determines whether or not the beam position within the position monitor is within a tolerance range, based on a desired position of the charged particle beam and a position allowable value, and (ii) that generates a position abnormality signal when determining that the beam position is not within the tolerance range. 2. The beam data processing apparatus according to claim 1, wherein the position size processing unit calculates a beam size of the charged particle beam that passes through the position monitor, based on voltage information items obtained through processing by the plurality of channel data conversion units; and the abnormality determination processing unit determines whether or not the beam size is within a tolerance range, based on a desired beam size of the charged particle beam and a size allowable value, and that generates a size abnormality signal when determining that the beam size is not within the tolerance range. 3. The beam data processing apparatus according to claim 1, wherein each time receiving an inter-spot travel completion signal indicating that setting of a command to the scanning electromagnet that scans the charged particle beam on the desired position has been completed and a proportion dose completion signal indicating that the dose of the charged particle beam at an irradiation spot where the charged particle beam is stationary has become a predetermined proportion of a desired dose, the integrated control unit outputs respective ADC processing starting commands to the different A/D converters so that the A/D conversion processing is started. 4. The beam data processing apparatus according to claim 1, wherein each time receiving an ADC processing starting signal indicating that one of the plurality of A/D converters has started the A/D conversion processing, the integrated control unit switches the transmission paths of the demultiplexer so that the analogue signal is transmitted to another one of the A/D converters that have not started the A/D conversion processing. 5. The beam data processing apparatus according to claim 1, wherein each time receiving an ADC processing ending signal indicating that one of the plurality of A/D converters has completed the A/D conversion processing, the integrated control unit switches the transmission paths of the multiplexer so that data from the A/D converter that is subsequently to end the A/D conversion processing is transmitted to the position size processing unit. 6. A particle beam therapy system comprising:a beam generation apparatus that generates a charged particle beam and accelerates the charged particle beam by means of an accelerator;a beam transport system that transports the charged particle beam accelerated by the accelerator; anda particle beam irradiation apparatus that irradiates the charged particle beam transported by the beam transport system onto an irradiation subject, wherein the particle beam irradiation apparatus includes a scanning electromagnet that scans a charged particle beam to be irradiated onto the irradiation subject and a beam data processing apparatus that applies calculation processing to the state of a charged particle beam that has been scanned by the scanning electromagnet; and the beam data processing apparatus is the beam data processing apparatus according to claim 1.