To deliver patterns on wrist-worn tactile displays (WTDs), many approaches attempted to by increase the resolution of tactors. Unfortunately, the recognition rates are usually unstable; furthermore, there is no clear design principle of effective patterns on such WTDs. Thus, most works focus on simple icons, which provide limited expressivity, and reduce the application scope. After series of user studies investigating the performance between a higher resolution (3X3) array and a lower (2X2) one, we found that instead of raising the resolution of stimulis, decreasing the density could deliver more effective patterns with less time-consuming. Then, we adopted EdgeWrite patterns on such a $2 imes2$ layout, and the results have shed lights on the recognizability of these alphanumeric characters. To enhance the accuracy, we then modified the uni-stroke EdgeWrite patterns into multi-stroke EdgeVib ones. The results of a 24-participant user study show that the modified version outperforms the original one in both alphabet (85.8% vs. 69.6%) and digits (89% vs. 78.5%) delivered using a 2X2 wrist-worn vibrotactile array. EdgeVib can further be used for effectively delivering 2-character shortcut messages with more than 83.3% recognition rates in overall. The results of our investigation and design principles can be the guidelines for future design of WTDs and other tactile displays.