P Power transformer is one of the most important equipment in the electric power system, Therefore, it is necessary to carry out maintenance activities on the power transformer in order to know the level of its condition and prevent disturbances in the power transformer. In this study, the type of predictive maintenance used to determine the condition of the power transformer bushing insulation is tan delta testing and thermovision testing of the insulation of the power transformer bushing type Resin Impregnated Paper (RIP) phase R, phase S, and phase T on the 150 kV / 70 kV Power Transformer Unit 5 Cawang Lama Substation. The purpose of this study is to determine the technique of tan delta testing and thermovision testing and to facilitate the way to predict the condition of the bushing insulation to maintain the reliability of the electric power system based on the test parameters and analysis results. Meanwhile, the tan delta testing method used is the Ungrounded Speciment Test (UST) method and the thermovision testing method. In addition to the testing method, a mathematical analysis method is also used for both methods and a characteristic wave analysis method using the PSpice OrCAD Capture 16.0 program to determine the condition of the bushing insulation and the remaining operating life of the bushing. Based on the method used in this study, the results obtained were that the S phase bushing isolation condition had the highest change in tan delta value of 0.18 and the T phase bushing isolation had the lowest change in tan delta value of 0.14, while the R phase bushing isolation had a change in tan delta value of 0.17. Furthermore, the highest temperature change occurred in the R phase bushing isolation of 0.61°C, and the lowest change occurred in the T phase bushing isolation of 0.52°C, while the S phase bushing isolation was 0.60°C. The largest remaining operating life of the bushing was in the T phase bushing of 27 years and the lowest remaining operating life of the bushing was in the S phase bushing of 13 years, while the remaining operating life of the R phase bushing was 19 years. Based on this study, it can be concluded that there is a relationship between the tan delta test parameters and the thermovision test parameters and has an effect on the life of the opens' bushing.