The breast cancer is one of the most common cancers in the female. According to the previous studies, the detection in the early stage can help reduce the breast cancer mortality. The automated breast ultrasound (ABUS) is useful for breast cancer examination that utilizes a larger transducer to record the whole breast images and provides the 3-D large volume of the breast. Besides, the computer-aided detection (CADe) system is introduced to help the radiologists while reviewing and diagnosing in ABUS images. With the success of convolutional neural network (CNN) in image tasks, a CADe system using 3-D CNN is proposed to overcome the limitations of conventional CADe system that requires hand-crafted features. In this study, a sliding window based volume of interest (VOI) extraction approach is adopted. Then, the extracted VOIs are considered as the input of 3-D ensemble CNN for estimating the tumor likelihood. Finally, the post-processing method is employed to address the overlapping tumor candidates’ issues. In this study, the dataset contains 246 cases and is divided into training, validation, and testing sets. The proposed CADe system is evaluated on the testing set that consists of 81 cases with 473 passes and 104 tumors. This study achieves the sensitivities of 100% (81/81), 95.3% (77/81), and 90.9% (74/81) with the false positives per pass/per case 21.6/126.2, 6.0/34.8, and 4.6/27.1 respectively. Besides, the execution time is 28.3 seconds per pass and 174.6 seconds per case. In conclusion, the proposed CADe system using 3-D CNN is much more time efficient and obtains better performance than previous works.