Due to the production development, the cratiria for plastic product is not only focused on the process stability but the product properties as well. Traditionally, the properties are usually taken over by the human experienced rather than a scientific mold trial process. The pressure-specific volume-temperature (PVT) property of polymer is essential for polymer processing, and it appears a feasible method to achieve high quality products; especially, for the semi-crystalline material, it is rely on the PVT changed during the whole molding process. This study is base on a strip model with 2 mm in thickness and 100 in the ratio of flow-length with thickness. Material is semi-crystalline thermoplastic polypropylene (PP). The PVT control system with three pressure and infrared temperature sensors are prepared for mold inserted. The purpose of this experiment is to monitor the injection process and using the cross data to analysis the influences amount PVT, and further to control the product qualities. The result shows that the PVT control system can optimize the product properties effectively with the starndard molding parameter settings. The properties are directly related to the PVT diagram, and the influence between molding parameters and product qualities are investigated. Dynamic PVT control technology shows that the optimum product characteristic for 23% in shrinkage deviation on whole part, 18% in part warpage. Simulation is in the end verified with the experiment, and it is highly agreed with the results. Key words: Dynamic PVT control method; injection molding quality control; pressure sensor; infrared temperature sensor