Radiographic imaging device and method with stop timing based on dosage detection

What is claimed is: 1. A radiographic device which is connected to a radiation generation device irradiating a subject with radiation in order to allow communication therebetween and receives the radiation transferred through the subject so as to radiograph a radiological image of the subject, comprising: an image detection unit that has an imaging region where a plurality of pixels accumulating signal charges corresponding to a dose of the radiation are arranged and detects the radiological image; a dose detection unit that detects an arrival dose of the radiation arriving at the imaging region; a stop timing prediction unit that predicts a stop timing for stopping irradiation of the radiation in the radiation generation device based on the arrival dose detected by the dose detection unit and a preset dose target value in order to prevent excess radiation exposure to the subject; and a communication unit that sends a stop timing notification for notifying the stop timing to the radiation generation device before the stop timing arrives, wherein the communication unit sends the stop timing notification a predetermined time before the stop timing, the predetermined time being set in consideration of a time lag of communication with the radiation generation device, and wherein a time lag of the communication is an average time lag derived from multiple measurement points according to a communication path with the radiation generation device. 2. The radiographic device according to claim 1 , wherein the stop timing notification includes a scheduled stop time when a cumulative dose which is a cumulative value of the arrival dose is predicted to reach the dose target value. 3. The radiographic device according to claim 1 , wherein the stop timing notification includes a remaining time from a reference time point to a time point when a cumulative dose is predicted to reach the dose target value. 4. The radiographic device according to claim 3 , wherein the stop timing notification includes a sending time when the communication unit sends the stop timing notification, or an arrival time in the radiation generation device, set in consideration of a time lag of the communication, in addition to the remaining time. 5. The radiographic device according to claim 1 , wherein the communication unit sends a plurality of stop timing notifications until the stop timing arrives. 6. The radiographic device according to claim 5 , wherein the dose detection unit continuously detects a dose until a cumulative dose which is a cumulative value of the arrival dose reaches the dose target value. 7. The radiographic device according to claim 6 , wherein the communication unit sends the plurality of stop timing notifications until the cumulative dose reaches the dose target value. 8. The radiographic device according to claim 6 , wherein the stop timing prediction unit performs prediction again when the stop timing notification is sent. 9. The radiographic device according to claim 1 , further comprising: a clock circuit that clocks the current time; and a synchronization unit that synchronizes the clock circuit with a clock circuit of the radiation generation device. 10. The radiographic device according to claim 1 , wherein the communication unit corrects the predetermined time set in consideration of a time lag of the communication based on the kind of the radiation generation device and a radiographing condition for driving the radiation generation device. 11. The radiographic device according to claim 1 , wherein the communication unit and the radiation generation device are directly connected to each other without interposing a relay device in a communication path therebetween. 12. The radiographic device according to claim 1 , wherein a communication path between the communication unit and the radiation generation device is entirely or partially wireless. 13. The radiographic device according to claim 12 , wherein the communication unit is a wireless communication unit. 14. The radiographic device according to claim 13 , wherein the wireless communication unit sends the stop timing notification using a plurality of wireless channels. 15. The radiographic device according to claim 1 , wherein the stop timing prediction unit corrects the predetermined time set in consideration of a time lag of the communication based on a time from when the communication unit sends a signal to the radiation generation device until the communication unit receives a response to the signal. 16. The radiographic device according to claim 1 , wherein the stop timing notification includes an error flag which is given by a communication device which presents in a communication path between the communication unit and the radiation generation device. 17. The radiographic device according to claim 1 , further comprising: a gain setting unit that sets a gain when the radiological image is read from the image detection unit based on the arrival dose detected by the dose detection unit. 18. The radiographic device according to claim 1 , wherein the dose detection unit is provided in the imaging region of the image detection unit. 19. A radiographic system comprising: a radiation generation device that irradiates a subject with radiation; and a radiographic device that is connected to the radiation generation device in order to allow communication therebetween and receives the radiation transferred through the subject so as to radiograph a radiological image of the subject, wherein the radiographic device includes an image detection unit that includes an imaging region where a plurality of pixels accumulating signal charges corresponding to a dose of the radiation are arranged and detects the radiological image; a dose detection unit that detects an arrival dose of the radiation arriving at the imaging region; a stop timing prediction unit that predicts a stop timing for stopping irradiation of the radiation in the radiation generation device based on the arrival dose detected by the dose detection unit and a preset dose target value in order to prevent excess radiation exposure to the subject; and a communication unit that sends a stop timing notification for notifying the radiation generation device of the stop timing to the radiation generation device before the stop timing arrives, wherein the communication unit sends the stop timing notification a predetermined time before the stop timing, the predetermined time being set in consideration of a time lag of communication with the radiation generation device, wherein a time lag of the communication is an average time lag derived from multiple measurement points according to a communication path with the radiation generation device, and wherein the radiation generation device includes a radiation source that applies the radiation; and a radiation source control unit that controls the radiation source, wherein the radiation source control unit includes a communication unit that receives the stop timing notification; and a control unit that stops irradiation by the radiation source based on the stop timing notification. 20. The radiographic system according to claim 19 , wherein the stop timing notification includes a scheduled stop time when a cumulative dose which is a cumulative value of the arrival dose is predicted to reach the dose target value, and wherein the control unit stops the irradiation by the radiation source based on arrival of the scheduled stop time. 21. T