Radiation imaging apparatus and radiation imaging system

What is claimed is: 1. A radiation imaging apparatus, comprising: a first conversion element arranged to convert a radiation ray into electric charge in order to obtain a radiographic image; a first amplifier arranged to output a voltage corresponding to the electric charge of the first conversion element; a second conversion element arranged to convert the radiation ray into electric charge in order to detect radiation irradiation; a second amplifier arranged to output a voltage corresponding to the electric charge of the second conversion element; and a control circuit configured to control the first amplifier and the second amplifier, wherein the control circuit is capable of controlling the second amplifier independently of control that is exerted over the first amplifier. 2. A radiation imaging apparatus according to claim 1 , wherein a period in which the first amplifier outputs the voltage corresponding to the electric charge of the first conversion element differs from a period in which the second amplifier outputs the voltage corresponding to the electric charge of the second conversion element. 3. A radiation imaging apparatus according to claim 1 , wherein the first conversion element comprises a plurality of the first conversion elements, and the plurality of the first conversion elements are arranged in a matrix pattern, wherein the first amplifier comprises a plurality of the first amplifiers, and the plurality of the first amplifiers are arranged side by side in a row direction so as to be connected to the plurality of the first conversion elements, which are aligned in a column direction, and wherein the radiation imaging apparatus further comprises a multiplexer configured to select and output the output voltage of the second amplifier in a first period and to select and output the output voltages of the plurality of the first amplifiers in a second period. 4. A radiation imaging apparatus according to claim 1 , wherein, during a period in which the radiation imaging apparatus receives irradiation of the radiation ray, the second amplifier outputs the voltage corresponding to the electric charge of the second conversion element, and the first amplifier is inhibited from outputting the voltage corresponding to the electric charge of the first conversion element. 5. A radiation imaging apparatus according to claim 1 , wherein, during a period until the radiation imaging apparatus receives irradiation of the radiation ray, the second amplifier outputs the voltage corresponding to the electric charge of the second conversion element, and the first amplifier is inhibited from outputting the voltage corresponding to the electric charge of the first conversion element. 6. A radiation imaging apparatus according to claim 1 , further comprising a switching unit, which is capable of switching signals to be supplied to the first amplifier and the second amplifier between the same control signals and different control signals. 7. A radiation imaging apparatus according to claim 1 , further comprising: a third conversion element arranged to convert the radiation ray into electric charge in order to detect the radiation irradiation; a third amplifier arranged to output a voltage corresponding to the electric charge of the third conversion element; and a calculation unit configured to perform calculation by using a signal that is based on the output voltage of the second amplifier and a signal that is based on the output voltage of the third amplifier. 8. A radiation imaging apparatus according to claim 1 , wherein the first amplifier and the second amplifier are controlled differently from each other in at least one aspect out of power consumption, gain, sample-and-hold operation, reset operation, and low pass filter. 9. A radiation imaging system, comprising: a radiation imaging apparatus including: a first conversion element arranged to convert a radiation ray into electric charge in order to obtain a radiographic image; a first amplifier arranged to output a voltage corresponding to the electric charge of the first conversion element; a second conversion element arranged to convert the radiation ray into electric charge in order to detect radiation irradiation; a second amplifier arranged to output a voltage corresponding to the electric charge of the second conversion element; and a control circuit configured to control the first amplifier and the second amplifier, wherein the control circuit is capable of controlling the second amplifier independently of control that is exerted over the first amplifier; and a radiation generating apparatus arranged to irradiate with the radiation ray.