A control apparatus, system, method and program that enable simultaneous measurement of counts of multiple energy ranges in an efficient configuration are provided. A control apparatus 200 for controlling an X-ray detector 100 and outputting a measurement result comprises a setting section 220 configured to set the energy range of X-rays to be detected for each unit region of the X-ray detector 100, a data management section 250 configured to acquire a count value of the set energy range for each unit region as measurement data by a result of the X-ray measurement, and an outputting section 270 configured to output the measurement data. Thus, counting of multiple energy ranges can simultaneously be measured.

A control apparatus, system, method and program that enable simultaneous measurement of counts of multiple energy ranges in an efficient configuration are provided. A control apparatus 200 for controlling an X-ray detector 100 and outputting a measurement result comprises a setting section 220 configured to set the energy range of X-rays to be detected for each unit region of the X-ray detector 100, a data management section 250 configured to acquire a count value of the set energy range for each unit region as measurement data by a result of the X-ray measurement, and an outputting section 270 configured to output the measurement data. Thus, counting of multiple energy ranges can simultaneously be measured.

There is provided a radiation detection apparatus capable of effectively discriminating between noise and X-ray signal. The radiation detection apparatus includes a detector for detecting radiation and producing a detector output signal, a first differential filter having a time constant and operative to differentiate and convert the detector output signal into a first pulsed signal, a second differential filter having a time constant greater than that of the first differential filter and operative to differentiate and convert the detector output signal into a second pulsed signal, and a noise detection section for detecting noise based on the difference in timing between peaks of the first and second pulsed signals.

There is provided a radiation detection apparatus capable of effectively discriminating between noise and X-ray signal. The radiation detection apparatus includes a detector for detecting radiation and producing a detector output signal, a first differential filter having a time constant and operative to differentiate and convert the detector output signal into a first pulsed signal, a second differential filter having a time constant greater than that of the first differential filter and operative to differentiate and convert the detector output signal into a second pulsed signal, and a noise detection section for detecting noise based on the difference in timing between peaks of the first and second pulsed signals.

A radiation imaging apparatus executes a correction value determination operation of reading out a signal from a pixel once or more in a state where radiation is not emitted onto the apparatus, and determining a correction value that is based on the signal read out from the pixel, and a radiation dose determination operation of reading out a signal from the pixel while radiation is emitted, and determining a dose of radiation that is being emitted, using a value of the signal read out from the pixel and the correction value. The apparatus executes the correction value determination operation and executes the radiation dose determination operation using the correction value in a case where it is determined that the correction value determination operation is to be executed, and otherwise executes the radiation dose determination operation without executing the correction value determination operation.

A radiation imaging apparatus executes a correction value determination operation of reading out a signal from a pixel once or more in a state where radiation is not emitted onto the apparatus, and determining a correction value that is based on the signal read out from the pixel, and a radiation dose determination operation of reading out a signal from the pixel while radiation is emitted, and determining a dose of radiation that is being emitted, using a value of the signal read out from the pixel and the correction value. The apparatus executes the correction value determination operation and executes the radiation dose determination operation using the correction value in a case where it is determined that the correction value determination operation is to be executed, and otherwise executes the radiation dose determination operation without executing the correction value determination operation.

A radiation imaging apparatus comprising pixels, a driver configured to control the pixels via drive lines, a detector configured to detect radiation irradiation, and an image processor configured to generate image data based on signals read out from the pixels via column signal lines is provided. The pixels are divided into at least two pixel groups connected to drive lines different from each other. Each column signal line is shared by pixels forming two columns in the pixels. During a time until the detector detects a start of radiation irradiation, the driver causes the pixels to sequentially perform a reset operation, and after an end of radiation irradiation, the image processor generates preview image data from image signals output from the pixel group that does not include pixels that perform the reset operation when the detector detects radiation irradiation.

A radiation imaging apparatus comprising pixels, a driver configured to control the pixels via drive lines, a detector configured to detect radiation irradiation, and an image processor configured to generate image data based on signals read out from the pixels via column signal lines is provided. The pixels are divided into at least two pixel groups connected to drive lines different from each other. Each column signal line is shared by pixels forming two columns in the pixels. During a time until the detector detects a start of radiation irradiation, the driver causes the pixels to sequentially perform a reset operation, and after an end of radiation irradiation, the image processor generates preview image data from image signals output from the pixel group that does not include pixels that perform the reset operation when the detector detects radiation irradiation.

A radiographic imaging apparatus comprising pixels, a drive circuit configured to control the pixels through drive lines and a detection unit configured to detect a start of radiation irradiation is provided. The drive circuit comprises a shift circuit configured to perform a shift operation of changing the drive line to be activated, among the drive lines, in response to a shift control signal input to the drive circuit. The drive circuit has a mode of activating a second drive line among the drive lines in response to the shift control signal input for a second time after a first drive line among the drive lines is activated during a period up to when the detection unit detects the start of radiation irradiation, at least two drive lines of the drive lines being disposed between the first drive line and the second drive line.

A radiographic imaging apparatus comprising pixels, a drive circuit configured to control the pixels through drive lines and a detection unit configured to detect a start of radiation irradiation is provided. The drive circuit comprises a shift circuit configured to perform a shift operation of changing the drive line to be activated, among the drive lines, in response to a shift control signal input to the drive circuit. The drive circuit has a mode of activating a second drive line among the drive lines in response to the shift control signal input for a second time after a first drive line among the drive lines is activated during a period up to when the detection unit detects the start of radiation irradiation, at least two drive lines of the drive lines being disposed between the first drive line and the second drive line.