Photoelectric conversion device, method of manufacturing the same, and X-ray image detector

The invention claimed is: 1. A photoelectric conversion device comprising: a photodiode device formed on a substrate and including a lower electrode and an upper electrode facing each other, a photoelectric conversion layer between the lower electrode and the upper electrode, the photoelectric conversion layer comprising a sidewall surface, wherein the photoelectric conversion layer is smaller in size than the lower electrode and placed on a surface of the lower electrode, and a first protecting film covering the sidewall surface of the photoelectric conversion layer, a top surface of the upper electrode and of the lower electrode and a sidewall surface of the upper electrode, the lower electrode being laid under the first protecting film, the first protecting film comprising an outside edge being set at a same position as an outside edge of the lower electrode, the first protecting film comprising a contact hole that connects a bias line to the upper electrode, the bias line being placed over the first protecting film; and a second protecting film covering at least the photodiode device. 2. The photoelectric conversion device of claim 1 , comprising: a plurality of the photodiode devices; a plurality of the bias lines each arranged over the first protecting film of each of the photodiode devices, each of the bias lines connected to the upper electrode of the each of the photodiode devices through the contact hole; a plurality of gate lines; a plurality of signal lines intersecting orthogonally with the gate lines; and a plurality of thin-film transistors each arranged at a position corresponding to an intersection portion where each of the gate lines and each of the signal lines intersect with each other, each of the thin-film transistors including a gate electrode connected to each of the gate lines, a gate insulating layer over the gate electrode, a semiconductor layer over the gate insulating layer, a drain electrode and a source electrode over the semiconductor layer, and a passivation layer over the drain electrode and the source electrode, the drain electrode being connected to each of the signal lines, the source electrode being arranged to face the drain electrode, each of the photodiode devices being put on each of the thin-film transistors with the source electrode being electrically connected to the lower electrode, wherein the thin-film transistors and the photodiode devices are arrayed in a matrix shape. 3. The photoelectric conversion device of claim 2 , further comprising: a transparent interlayer dielectric layer over the photodiode devices and the thin-film transistors; and a scintillator over the transparent interlayer dielectric layer, the scintillator being configured to convert radial rays into visible rays to cause the photoelectric conversion device to perform radiological imaging. 4. The photoelectric conversion device of claim 3 , further comprising terminals leading to the gate lines, the signal lines and the bias lines, wherein the transparent interlayer dielectric layer is formed over an area except where at least the terminals are arranged. 5. An X-ray image detector comprising the photoelectric conversion device of claim 1 . 6. A photoelectric conversion device comprising: a photodiode device formed on a substrate and comprising a lower electrode and an upper electrode facing each other, a photoelectric conversion layer between the lower electrode and the upper electrode, the photoelectric conversion layer comprising an n+-silicon layer, an intrinsic-silicon layer and a p+-silicon layer in order from a side of the lower electrode, the upper electrode, the p+-silicon layer and a part of the intrinsic silicon layer at a side of the p+-silicon layer having a same outside edge, the lower electrode, the n+-silicon layer and a part of the intrinsic silicon layer at a side of the n+-silicon layer having a same outside edge, the intrinsic-silicon layer having a stepped shape along a sidewall surface thereof, and a first protecting film covering a top surface and a sidewall surface of the upper electrode, a sidewall surface of the p+-silicon layer, and the sidewall surface and a top surface of the part of the intrinsic silicon layer, the first protecting film comprising an outside edge being set at a same position as an outside edge of each of the lower electrode, the n+-silicon layer and a part of the intrinsic silicon layer at a side of the n+-silicon layer, and the first protecting film comprising a contact hole that connects a bias line to the upper electrode, the bias line being placed over the first protecting film; and a second protecting film covering at least the photodiode device. 7. The photoelectric conversion device of claim 6 , wherein the lower electrode and the upper electrode face each other with the lower electrode formed in a size larger than the upper electrode, the size being larger by a projecting length from a periphery edge of the upper electrode, and a layer thickness of the intrinsic-silicon layer is smaller than the projecting length. 8. The photoelectric conversion device of claim 6 , comprising: a plurality of the photodiode devices; a plurality of the bias lines each arranged over the first protecting film of each of the photodiode devices, each of the bias lines connected to the upper electrode of the each of the photodiode devices through the contact hole; a plurality of gate lines; a plurality of signal lines intersecting orthogonally with the gate lines; and a plurality of thin-film transistors each arranged at a position corresponding to an intersection portion where each of the gate lines and each of the signal lines intersect with each other, each of the thin-film transistors including a gate electrode connected to each of the gate lines, a gate insulating layer over the gate electrode, a semiconductor layer over the gate insulating layer, a drain electrode and a source electrode over the semiconductor layer, and a passivation layer over the drain electrode and the source electrode, the drain electrode being connected to each of the signal lines, the source electrode being arranged to face the drain electrode, each of the photodiode devices being put on each of the thin-film transistors with the source electrode being electrically connected to the lower electrode, wherein the thin-film transistors and the photodiode devices are arrayed in a matrix shape. 9. The photoelectric conversion device of claim 8 , further comprising: a transparent interlayer dielectric layer over the photodiode devices and the thin-film transistors; and a scintillator over the transparent interlayer dielectric layer, the scintillator being configured to convert radial rays into visible rays to cause the photoelectric conversion device to perform radiological imaging. 10. The photoelectric conversion device of claim 9 , further comprising terminals leading to the gate lines, the signal lines and the bias lines, wherein the transparent interlayer dielectric layer is formed over an area except where at least the terminals are arranged. 11. An X-ray image detector comprising the photoelectric conversion device of claim 6 . 12. A photoelectric conversion device comprising: a plurality of photodiode devices formed on a substrate, and each of the photodiode devices including: a lower electrode and an upper electrode facing each other; a photoelectric conversion layer between the lower electrode and the upper electrode, the photoelectric conversion layer comprising a sidewall surface, wherein the photoelectric conversion layer is smaller in size than the lower electrode and placed on a surface of the lower electrode;