Near field communication device and electronic system having the same

What is claimed is: 1. A Near Field Communication (NFC) device, comprising: a resonance unit configured to emit a first electromagnetic wave to communicate with an external NFC card in a reader mode; and an NFC chip configured to measure an antenna voltage generated by the resonance unit while the resonance unit emits the first electromagnetic wave, and to control the resonance unit to stop emitting the first electromagnetic wave when a magnitude of the antenna voltage oscillates, wherein the NFC chip includes: a collision detection unit configured to activate an increase signal when the magnitude of the antenna voltage received from the resonance unit through a power electrode is greater than or equal to a reference value by at least a positive threshold value, and to activate a decrease signal when the magnitude of the antenna voltage received from the resonance unit through the power electrode is smaller than the reference value by at least a negative threshold value; and a Central Processor Unit (CPU) configured to control the resonance unit to stop emitting the first electromagnetic wave when the increase signal and the decrease signal are alternately activated. 2. The NFC device of claim 1 , wherein the NFC chip is further configured to provide an output current to the resonance unit, the resonance unit is configured to emit the first electromagnetic wave based on the output current, and the NFC chip is further configured to measure the antenna voltage while the resonance unit emits the first electromagnetic wave and to stop providing the output current to the resonance unit to switch from the reader mode to a card mode when the magnitude of the antenna voltage oscillates. 3. The NFC device of claim 1 , wherein, when the resonance unit receives a second electromagnetic wave emitted from an external NFC reader while the resonance unit emits the first electromagnetic wave, the resonance unit is further configured to generate the antenna voltage having an oscillating magnitude based on an interference between the first electromagnetic wave and the second electromagnetic wave. 4. The NFC device of claim 1 , wherein the NFC chip further includes: a transmit unit configured to provide an output current to the resonance unit through a transmission electrode in the reader mode, and to stop generating the output current in a card mode, wherein the CPU is further configured to switch an operation mode from the reader mode to the card mode when the increase signal and the decrease signal are alternatively activated. 5. The NFC device of claim 4 , wherein the transmit unit includes: a first pull-up transistor coupled between a supply voltage and a first transmission electrode; a first pull-down transistor coupled between a ground voltage and the first transmission electrode; a second pull-up transistor coupled between the supply voltage and a second transmission electrode; a second pull-down transistor coupled between the ground voltage and the second transmission electrode; and a driving unit configured to turn off the first pull-up transistor, the first pull-down transistor, the second pull-up transistor, and the second pull-down transistor in the card mode, and to turn on the first pull-up transistor and the second pull-down transistor and turn off the first pull-down transistor and the second pull-up transistor, or turn on the first pull-down transistor and the second pull-up transistor and turn off the first pull-up transistor and the second pull-down transistor based on output data in the reader mode. 6. The NFC device of claim 1 , wherein the collision detection unit is further configured to: measure the magnitude of the antenna voltage at an initial stage of the reader mode; store the magnitude of the antenna voltage measured at the initial stage of the reader mode as the reference value; and periodically measure the magnitude of the antenna voltage to compare the magnitude of the antenna voltage with the reference value. 7. The NFC device of claim 1 , wherein the CPU is further configured to provide the positive threshold value and the negative threshold value to the collision detection unit. 8. The NFC device of claim 1 , wherein the collision detection unit includes: a sensing unit configured to generate a Direct Current (DC) voltage proportional to the magnitude of the antenna voltage; an analog-to-digital conversion unit configured to periodically generate a digital value by periodically performing an analog-to-digital conversion on the DC voltage; and a determination unit configured to store the digital value received from the analog-to-digital conversion unit at an initial stage of the reader mode as the reference value, activate the increase signal when the digital value, which is periodically provided from the analog-to-digital conversion unit, is greater than or equal to the reference value by at least the positive threshold value, and activate the decrease signal when the digital value, which is periodically provided from the analog-to-digital conversion unit, is smaller than the reference value by at least the negative threshold value. 9. The NFC device of claim 8 , wherein the sensing unit includes: a rectification circuit coupled between the power electrode and a first node, the rectification circuit configured to rectify the antenna voltage received through the power electrode; a first resistor coupled between the first node and a second node; and a second resistor coupled between the second node and a ground voltage, wherein the sensing unit is configured to output the DC voltage via the second node. 10. The NFC device of claim 8 , wherein the sensing unit includes: a rectification circuit coupled between the power electrode and a first node, the rectification circuit configured to rectify the antenna voltage received through the power electrode; and a current source coupled between the first node and a ground voltage, the current source configured to generate a current having a constant magnitude, wherein the sensing unit is further configured to output the DC voltage via the first node. 11. A Near Field Communication (NFC) device, comprising: a resonance unit configured to emit a first electromagnetic wave to communicate with an external NFC card in a reader mode; and an NFC chip configured to measure an antenna voltage generated by the resonance unit while the resonance unit emits the first electromagnetic wave, and to control the resonance unit to stop emitting the first electromagnetic wave when a magnitude of the antenna voltage oscillates, wherein the NFC chip includes: a collision detection unit configured to periodically measure the magnitude of the antenna voltage received from the resonance unit through a power electrode to periodically generate a digital value corresponding to the antenna voltage; and a Central Processing Unit (CPU) configured to control the resonance unit to stop emitting the first electromagnetic wave when the digital value, which is periodically provided from the collision detection unit, is greater than or equal to a reference value by at least a positive threshold value and is smaller than the reference value by at least a negative threshold value alternately. 12. The NFC device of claim 11 , wherein the NFC chip further includes a transmit unit configured to provide an output current to the resonance unit through a transmission electrode in the reader mode, and to stop generating the output current in a card mode, and wherein the CPU is further configured to: store the digital value received from the collision detection unit at an initial stage of the reader mode as the reference value; an