Near field radio frequency communication system

The invention claimed is: 1. A near field radio frequency communication system comprising: a master RFID/ubiquitous sensor network (USN) device comprising a plurality of antennas sequentially transmitting an energy signal and dividing a coverage area of the master RFID/USN device into a plurality of areas respectively corresponding to the plurality of antennas; and a slave RFID/USN device comprising a voltage oscillation circuit for generating a first power using the transmitted energy signal, and a controller for detecting a power level of the first power for the energy signal and for transmitting information created based on the power level to the master RFID/USN device, wherein the master RFID/USN device receives the information from the slave RFID/USD device through one of the plurality of antennas, creates a first position information representing one of the divided areas corresponding to the one of the plurality of antennas, creates a second position information representing whether the slave RFID/USN device is positioned in the one of the divided areas and determined by the information, wherein a position of the slave RFID/USN device is determined by tag position information that is a combination of the first position information, the second position information, and tag coordinate information that is matched with reader coordinate information that is a coordinate information of the master RFID/USN device, wherein the information comprises a tag identification information and a tag information, or a waiting state information, and wherein the slave RFID/USN device operates in a wake-up mode by driving a power supply to transmit the tag identification information and the tag information if the power level of the first power exceeds a reference value, and operates in a sleep mode to transmit the waiting state information if the power level of the first power is less than or equal to the reference value, and wherein the master RFID/USN device creates the second position information representing that the slave RFID/USN device is positioned in the one of the divided areas when the tag identification information and the tag information are received, and creates the second position information representing that the slave RFID/USN device is positioned outside the one of the divided areas when the waiting state information is received. 2. The near field radio frequency communication system of claim 1 , comprising a management computer which creates a tag position information by receiving the first and second position information from the master RFID/USN device and by the tag coordinate information, stores the tag position information in a database by statistically processing the tag position information, and transmits the tag identification information and the tag position information to another master RFID/USN device. 3. The near field radio frequency communication system of claim 2 , wherein a plurality of the master RFID/USN devices are provided, and the management computer creates the reader coordinate information based on positions of the master RFID/USN devices, and creates the tag coordinate information by matching a position of the slave RFID/USN device, which communicates with the master RFID/USN device, with the reader coordinate information. 4. The near field radio frequency communication system of claim 1 , wherein the master RFID/USN device transmits the first and second position information and a tag identification information to another master RFID/USN device such that the other master RFID/USN device communicates with the slave RFID/USN device. 5. The near field radio frequency communication system of claim 1 , wherein the master RFID/USN device transmits a wake-up selection information to the slave RFID/USN device, the wake-up selection information being used to activate an operation of the slave RFID/USN device, and the slave RFID/USN device stores the wake-up selection information in a memory when the wake-up selection information is first received. 6. The near field radio frequency communication system of claim 1 , wherein the slave RFID/USN device further comprises: a memory which stores a first wake-up selection information; and a mode controller which operates by the first power, and compares a second wake-up selection information received from the master RFID/USN device with the first wake-up selection information stored in the memory to operate a power supply when the second wake-up selection information is identical to the first wakeup selection information, thereby transmitting the second wake-up selection information to the controller which operates in the wake-up mode. 7. The near field radio frequency communication system of claim 6 , wherein the slave RFID/USN device creates a first response code reporting that the first wake-up selection information is successfully received and stored in the memory, and transmits the first response code to the master RFID/USN device. 8. The near field radio frequency communication system of claim 7 , wherein the slave RFID/USN device creates a second response code reporting that the second wake-up selection information is received, and the slave RFID/USN device operates in the wake-up mode to transmit the second response code to the master RFID/USN device, and the master RFID/USN device transmits an information request signal to the slave RFID/USN device to make RFID communication when the second response code is received. 9. The near field radio frequency communication system of claim 6 , wherein master RFID/USN device transmits the second wake-up selection information together with the energy signal, and the slave RFID/USN device comprises a voltage oscillator which creates the first power based on the energy signal and delivers the first power to the mode controller. 10. The near field radio frequency communication system of claim 1 , wherein the master RFID/USN device further comprises: a first phase lock loop circuit which generates an oscillation signal; a first receive signal processing unit which processes a receive signal by using the oscillation signal; a first transmit signal processing unit which processes a transmit signal by using the oscillation signal; an RF radiation unit which generates the energy signal by using the oscillation signal; a first signal splitter which switches the antennas; and a second signal splitter which switches the first signal splitter to one of the first receive signal processing unit, the first transmit signal processing unit, and the RF radiation unit. 11. The near field radio frequency communication system of claim 1 , wherein the slave RFID/USN device further comprises: a signal splitter for branching signal paths of the antennas; a receive signal processing unit electrically connected to the signal splitter to process a receive signal; a transmit signal processing unit electrically connected to the signal splitter to process a transmit signal; and a voltage oscillator electrically connected to the signal splitter to convert the energy signal to the first power. 12. The near field radio frequency communication system of claim 1 , wherein the master RFID/USN device comprises at least one of an RFID/USN reader, a router, and a coordinator, and the slave RFID/USN device comprises at least one of an RFID tag and a sensor node.