Pressure equalized rainscreen (PER) wall is the combination of an external rain screen, an internal air barrier and an air cavity in between. The pressure equalization is achieved by introducing the outside air into the air cavity. The performance of pressure equalization affects both the watertightness and the wind loading of the rain screen. PER wall is applied not only to new buildings, but also it can be adopted for re-cladding of the existing buildings. Rain screen walls have been developing for the past 60 years in America and Europe. The concept was initiated from waterproof, and then developed to rain penetration control system by open joint design. However, recent research shows the wind load acting on the rain screen can be reduced due to pressure equalization. However, no standard or guideline is presented to describe how various parameters contribute to the wind load reduction on the rain screen. This research aims to investigate how various parameters affect the wind loading on the rain screen by identifying the parameters through historic documentary study, employing point support system as the research object, analyzing the experiment parameter of geometry of venting holes on rain screen, vent areas, cavity volume and wind direction via wind tunnel test, and calculating the pressure difference across the rain screen while evaluating the performance of pressure equalization. This results of experiment indicate that the pressure equalization performance on rain screen wall with open joint is lightly lower than those with other geometries, while the vent area proportion ranges at 0.6%~3.3% under the wind velocity of 13m/s; however, 78% of performance is still given. When the relative model length/ width ratio is 1, the wind direction at 75° gives a lower performance. The experimental data can be further used to establish a guideline for reducing wind load on the PER wall.