Purpose : Pediatric chest radiography, DR system at the effective dose of the proper image within the range Exposure Index Exposure field through the appropriate adjustments by comparing the effective dose and cancer risk probability in each organ, It is in order to assess the effective dose and organ dose of the active field size adjustment. Materials and Methods : Using the present system of digital diagnostic X-rays taken of Discovery XR656 (GE Healthcare, Korea), Chest AP tests were performed using a pediatric chest phantom. SID is 110cm, exposure conditions and secure it with the tube voltage 50kVp, mAs range gives exposure to changes in 0.5,0.63,0.8,1.0,1.25,1.6,2.0,2.5,3.2mAs was within the range that can be applied to the above equipment. Depending on the conditions above, Exposure field size of 20cmx20cm, 30cmx30cm, 40x40cm, were divided into three groups. After a total of 243 times in each exposure condition, its average value was determined. Classified into three groups of the acquired image relative to the Exposure Index, and classifies the image only in the effective Exposure Index range from this calculate the DAP to use a PC-Based Monte Carlo Program 2.0 (PCXMC), derived the effective dose. Based on the effective dose obtained above test, were analyzed according to the effective dose trend Exposure field size. In addition, by measuring dose actually measured value measured by a dosimeter in each condition the actual dose value was measured by absorption at Phantom. In addition, by using the calculated PCXMC2.0 the effective dose and the probability of cancer risk from each organ. Result : Among the images included in the appropriate exposure group relative to the same mAs effective dose to increase the Field size tended to increase the effective dose is increased. On the other hand, the actually measured value of the dose measured by the dosimeter in phantom unchanged. Effective dose and cancer risk probability in each organ using PCXMC2.0 also showed a tendency to increase. Conclusion : Through the results of the classification based on the DI value of the images obtained from each condition, through the appropriate Field size adjustment of medical radiation workers, it is thought that exposure can contribute to the reduction of Radiation Protection and pediatric patients.