Radiation image detecting device, electronic cassette, and radiation imaging system
First Claim
1. A radiation image detecting device for detecting a radiographic image, said radiation image detecting device making communication with a control device for controlling a radiation source, said radiation image detecting device comprising:
- an imaging section having pixels arranged in two dimensions, each of said pixels converting radiation emitted from said radiation source into electric charge and accumulating said electric charge, said radiographic image being obtained by reading out said electric charge from said pixels;
a dose detection sensor for detecting a received dose of said radiation;
an automatic exposure control unit for issuing an emission continuation signal for commanding continuation of radiation emission or an emission stop signal for commanding stop of said radiation emission based on a dose detection signal from said dose detection sensor;
a wired communicator for transmitting and receiving a signal to and from said control device in a wired manner, said wired communicator being actuated in response to cable connection between said control device and said radiation image detecting device; and
a wireless communicator for transmitting and receiving said signal to and from said control device in a wireless manner, said wireless communicator being in charge of transmission of at least said emission continuation signal or said emission stop signal regardless of presence or absence of said cable connection.
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Accused Products
Abstract
An AEC signal is transmitted and received always in a wireless manner between a wireless communicator of an electronic cassette and a wireless communicator of a control device, regardless of the presence or absence of wired communication. If communication failure occurs in the wired communication and X-ray image data cannot be transmitted in a wired manner, a memory of the electronic cassette temporarily stores the X-ray image data. Since the AEC signal is wirelessly transmitted, X-ray imaging is continued even if the wired communication is unusable. A cause of the communication failure is more easily identified in wireless communication than in the wired communication. Thus, even if the communication failure occurs in the wireless communication, the wireless communication quickly recovers from the failure and downtime of an X-ray imaging system does not become too long.
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Citations
11 Claims
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1. A radiation image detecting device for detecting a radiographic image, said radiation image detecting device making communication with a control device for controlling a radiation source, said radiation image detecting device comprising:
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an imaging section having pixels arranged in two dimensions, each of said pixels converting radiation emitted from said radiation source into electric charge and accumulating said electric charge, said radiographic image being obtained by reading out said electric charge from said pixels; a dose detection sensor for detecting a received dose of said radiation; an automatic exposure control unit for issuing an emission continuation signal for commanding continuation of radiation emission or an emission stop signal for commanding stop of said radiation emission based on a dose detection signal from said dose detection sensor; a wired communicator for transmitting and receiving a signal to and from said control device in a wired manner, said wired communicator being actuated in response to cable connection between said control device and said radiation image detecting device; and a wireless communicator for transmitting and receiving said signal to and from said control device in a wireless manner, said wireless communicator being in charge of transmission of at least said emission continuation signal or said emission stop signal regardless of presence or absence of said cable connection. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A radiation imaging system comprising:
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A. a radiation source for emitting radiation to an object; B. a control device for controlling said radiation source and a radiation image detecting device, said control device having a first wired communicator and a first wireless communicator; C. said radiation image detecting device including; an imaging section having pixels arranged in two dimensions, each of said pixels converting said radiation emitted from said radiation source into electric charge and accumulating said electric charge, a radiographic image being obtained by reading out said electric charge from said pixels; a dose detection sensor for detecting a received dose of said radiation; an automatic exposure control unit for issuing an emission continuation signal for commanding continuation of radiation emission or an emission stop signal for commanding stop of said radiation emission based on a dose detection signal from said dose detection sensor; a second wired communicator being actuated when being connected to said first wired communicator through a cable, for performing transmission and reception of a signal in a wired manner; and a second wireless communicator for transmitting and receiving said signal to and from said first wireless communicator in a wireless manner, said second wireless communicator being in charge of transmission of at least said emission continuation signal or said emission stop signal regardless of presence or absence of connection of said cable.
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Specification