Method for initializing protection device and protection device in wireless microphone beacon system

What is claimed is: 1. A method for initializing a protection device (PD) in a wireless regional area network (WRAN), the method comprising: searching a channel for determining an existence of a primary protecting device (PPD) for a predetermined period; if the PD determines that there is not the PPD on the channel, acting as the PPD and broadcasting beacon information; and if the PD determines that there is the PPD on the searched channel, acting as a secondary beacon transmission device (SPD) and attempting to contact the PPD, wherein the PPD or the SPD operates based on a super frame structure which consists of a succession of 31 slots, wherein each slot is comprised of 32 differential quadrature phase shift keying (DQPSK) symbols, wherein, if the PD acts as the PPD, the PPD starts a timer and broadcasts the beacon information until the timer is expired, and if the timer is expired, completes an initialization process, and the PPD is allowed to receive a beacon request or beacon information from the SPD, and wherein the beacon request includes a structure of a beacon frame. 2. The method according to claim 1 , wherein, if the PD acts as the SPD, the SPD starts the timer, receives the beacon information from the PPD until the timer is expired, and if the timer is expired, completes an initialization process, and the SPD is allowed to transmit a beacon request to the PPD. 3. The method according to claim 1 , wherein the at least one frequency band is not used in at least one region. 4. The method according to claim 1 , wherein the PD, the PPD and the SPD are licensed devices operating in the channel corresponding to television broadcast bands. 5. The method according to claim 4 , wherein each of the PD, the PPD, and the SPD is included in a respective microphone that includes a wireless microphone receiver and a wireless microphone transmitter. 6. The method according to claim 1 , wherein the PPD or the SPD operates based on a super frame structure divided into two logical channels comprising a synchronization channel and a beacon channel. 7. The method according to claim 1 , wherein, if the PD determines that there is the PPD on the searched channel, the SPD is allowed to transmit a beacon request based on a predetermined timer. 8. The method according to claim 1 , wherein the WRAN uses frequency bands comprising at least one frequency band which is selected from among the frequency bands for a broadcast service, and wherein the at least one frequency band is not used in at least one region. 9. The method according to claim 1 , wherein the predetermined period is determined as a sum of a reference value and integers included in a predefined range. 10. A protection device (PD) initialized in a wireless regional area network (WRAN), the PD comprising: a channel monitoring decision maker configured to search a channel for determining an existence of a primary protection device (PPD) continuously for a predetermined period; and a controller configured to: if the controller determines that there is a PPD on the searched channel, control the PD to act as a secondary beacon transmission device (SPD) and attempt to contact the PPD, and if the controller determines that there is not the PPD on the channel, control the PD to act as the PPD and broadcast beacon information, wherein the PPD or the SPD operates based on a super frame structure which consists of a succession of 31 slots, wherein each slot is comprised of 32 differential quadrature phase shift keying (DQPSK) symbols, wherein, if the PD acts as the PPD, the controller is further configured to: start a timer, and broadcast the beacon information until the timer is expired, wherein, if the timer is expired, the controller is further configured to: complete an initialization process, and allow the PPD to receive a beacon request or beacon information from the SPD, and wherein the beacon request includes a structure of a beacon frame. 11. The PD according to claim 10 , wherein, if the PD acts as the SPD, the controller is further configured to: start the timer and receive the beacon information from the PPD until the timer is expired, and wherein, if the timer is expired, the controller is further configured to: complete an initialization process and allow transmission of a beacon request to the PPD. 12. The PD according to claim 10 , wherein the at least one frequency band is not used in at least one region. 13. The PD according to claim 10 , wherein the PD, the PPD and the SPD are licensed devices operating in the channel corresponding to television broadcast bands. 14. The PD according to claim 13 , wherein each of the PD, the PPD, and the SPD is included in a respective microphone that includes a wireless microphone receiver and a wireless microphone transmitter. 15. The PD according to claim 10 , wherein the PPD or the SPD operates based on a super frame structure divided into two logical channels comprising a synchronization channel and a beacon channel. 16. The PD according to claim 10 , wherein, if the controller determines that there is the PPD on the searched channel, the SPD is allowed to transmit a beacon request based on a predetermined timer. 17. The PD according to claim 10 , wherein the WRAN uses frequency bands comprising at least one frequency band which is selected from among the frequency bands for a broadcast service, and wherein the at least one frequency band is not used in at least one region. 18. The PD according to claim 10 , wherein the predetermined period is determined as a sum of a reference value and integers included in a predefined range.