Tactile sensors should be immune to electromagnetic interference (EMI), to provide repeatable and accurate signal of the physical touch for real-world applications. Soft Inductive Tactile Sensors (SITS) can achieve high performance, but could be affected by EMI. Here, we present the development of fully shielded (FS-) SITS using conductive textile both for sensing target and electromagnetic shielding. By grounding the conductive textile cover, parasitic capacitance effect is also minimized. The FS-SITS can measure pressure lower than 30 Pa, with a sensing range over 150 kPa. The proposed sensor is scalable, customizable, low-cost and robust for robotics and wearable systems.