The design of Wireless Sensor Networks (WSN) is application-specific and the number of sensor nodes depends on the environment. The network management is difficult and it is hard to replace the battery in the field. As a result, reducing the energy consumption is a major issue for WSNs. S-MAC is a popular MAC protocol for WSNs. A fixed time cycle is divided into two parts: the listen period and the sleep period. Typically packets are exchanged in the listen period based on the well-known RTS/CTS handshake mechanism. We found that a sensor node waste its energy during the listen period when the traffic is light. Suppose that its neighbors have no packet to transmit, it does not receive any RTS packet in this cycle. As a result, it needs to sense the channel until the listen period ends. This thesis proposes a new mechanism by which a node with packets sends an Announce To Send (ATS) packet at the beginning of the data period and a node without any packet senses the channel. If a sensing node fails to detect the energy, it can enter the sleep mode immediately. Simulation results show that the proposed scheme significantly reduce the consumed energy at light loads with slightly increase in packet delay.