Multi-band communications module and high frequency switch

What is claimed is: 1 . A multi-band communications module, comprising: a circuit configured to process RF signals having different bands; switches respectively connected between the circuit and at least one of antennas, each switch respectively passing or blocking one of the RF signals; and a connector electrically connecting two switches transferring or blocking RF signals having different bands, among the switches. 2 . The multi-band communications module of claim 1 , wherein the circuit performs an angle of arrival operation and receives and processes an RF signal for an angle of arrival operation transferred through the connector. 3 . The multi-band communications module of claim 2 , wherein at least one of the switches processes RF signals required for the angle of arrival operation using a lump processing approach. 4 . The multi-band communications module of claim 1 , wherein at least one of the switches considers isolation characteristics during passing or blocking an RF signal. 5 . The multi-band communications module of claim 1 , wherein the circuit processes an RF signal within a 2 GHz band and an RF signal within a 5 GHz band and the connector electrically connects a switch that transfers or blocks the RF signal within the 2 GHz band and a switch that transfers or blocks the RF signal within the 5 GHz band. 6 . The multi-band communications module of claim 5 , wherein the connector comprises a matcher configured to match at least two of the switches on the basis of the switches being within the 2 GHz band or the 5 GHz band. 7 . The multi-band communications module of claim 6 , wherein the matcher is implemented using an open stub matching structure. 8 . The multi-band communications module of claim 1 , wherein the switching units comprise a low noise amplifier (LNA) configured to amplify an RF signal received from an antenna, and the connector is connected to an output terminal of the low noise amplifier. 9 . The multi-band communications module of claim 1 , further comprising: a diplexer, connected to the switches, configured to transfer one of RF signals having bands and to block the remaining RF signals. 10 . The multi-band communications module of claim 1 , wherein in response to a transmission RF signal being output from the circuit, the switches pass the transmission RF signal and cut off a receiving RF signal. 11 . The multi-band communications module of claim 1 , wherein a difference in frequencies of the RF signals that the switches pass or block is larger than a preset value. 12 . The multi-band communications module of claim 11 , wherein the preset value is about 3 GHz. 13 . A high frequency switch, comprising: a first switch connected between a first transmitting port for transmitting a first RF signal within a first band and a first receiving port for receiving the first RF signal and a first antenna port and a second antenna port, configured to transfer or block the first RF signal; a second switch connected between a second transmitting port for transmitting a second RF signal within a second band and a second receiving port for receiving the second RF signal and the first antenna port and the second port, configured to transfer or block the second RF signal; and a third switch connected between a third transmitting and receiving port for transmitting and receiving a third RF signal within the first band and a third antenna port, configured to transfer or block the third RF signal, wherein a node between the third switch and the third antenna port is electrically connected to a node between the second switch and the second receiving port. 14 . The high frequency switch of claim 13 , wherein the third switch receives an RF signal for an angle of arrival operation from the second switch and the third antenna port and transfers the received RF signal through the third transmitting and receiving port. 15 . The high frequency switch of claim 13 , wherein the first switch further comprises a first low noise amplifier configured to amplify the first RF signal received from the first antenna port or the second antenna port and to output the amplified first RF signal into the first receiving port, and the second switch further comprises a second low noise amplifier configured to amplify the second RF signal received from the first antenna port or the second antenna port and to output the amplified second RF signal into the second receiving port. 16 . The high frequency switch of claim 13 , further comprising: a matcher configured to match the second switch and the third switch in response to being within the first band; and a diplexer connected between the first switch and the second switch and the first antenna port and the second antenna port, configured to transfer one of RF signals having bands and to block the remainder thereof.