Patent Number: 
Section: claims

1. An X-ray generator comprising: an energy beam generation source;  a target for generating an X-ray by being irradiated by an energy beam generated from said energy beam generation source, said target comprising a first metal layer having a predetermined pattern and a second metal layer having a predetermined pattern connected to said first metal layer through a hot contact point formed in an insulation layer, said target further comprising an integrally-formed thermocouple temperature sensor within said first metal layer and said second metal layer;  a convergence lens for converging the energy beam proceeding to said target from said energy beam generation source;  a temperature sensor for detecting a temperature near irradiation of said energy beam on said target; and  a control device for controlling a convergence degree of said energy beam on the target by use of said convergence lens, based on a temperature signal detected by said temperature sensor. 2. The X-ray generator as set forth in  claim 1 , wherein said energy beam generation source is an electron beam generation source. claim 1 3. The X-ray generator as set forth in  claim 1 , wherein said target comprises a tungsten layer and a beryllium layer. claim 1 4. The X-ray generator as set forth in  claim 1 , wherein said convergence lens is a focusing coil. claim 1 5. The X-ray generator as set forth in  claim 1 , wherein said control device controls a current value to be given to said focusing coil based on time differentiation of the temperature detected by said temperature sensor. claim 1 6. An X-ray inspector, comprising an X-ray generator including an X-ray generation portion for generating an X-ray, and an X-ray image sensor having an X-ray detection surface for detecting an image of an X-ray transmission light irradiated on an object to be inspected from said X-ray generation portion; which detects an image by enlarging the core portion of said object to be inspected at an enlarging magnification determined based on a positional relationship of said X-ray generation portion and the object to be inspected; wherein: said X-ray generator comprises:  an energy beam generation source,  a target for generating an X-ray by being irradiated by an energy beam generated from said energy beam generation source, said target comprising a first metal layer having a predetermined pattern and a second metal layer having a predetermined pattern connected to said first metal layer through a hot contact point formed in an insulation layer, said target further comprising, an integrally-formed thermocouple temperature sensor within said first metal layer and said second metal layer,  a convergence lens for converging the energy beam passing to said target from said energy beam generation source,  a temperature sensor for detecting a temperature near an irradiation point of said energy beam on said target, and  a control device for controlling a convergence degree of said energy beam on the target by use of said convergence lens, based on a temperature signal detected by said temperature sensor. 7. An X-ray generation method comprising: detecting a temperature near an irradiation point of an energy beam on a target, the target comprising a first metal layer having a predetermined pattern and a second metal layer having a predetermined pattern connected to the first metal layer through a hot contact point formed in an insulation layer, the target further comprising an integrally-formed thermocouple temperature sensor within the first and second metal layers; and  generating an X-ray by irradiating said energy beam on the target while controlling a convergence degree of said energy beam on the target by use of a convergence lens, based on a signal detected by said detecting the temperature.