Multiplexer and electronic device containing multiplexer

What is claimed is: 1 . A multiplexer comprising: a first port connected to a first amplifier, wherein the first amplifier configured to amplify radio frequency signals to be transmitted to an antenna; a second port connected to the antenna; a third port connected to a second amplifier, wherein the second amplifier configured to amplify radio frequency signals to be received from the antenna; a first filter configured to allow first transmission signals corresponding to a first frequency band and obtained through the first port to pass therethrough for output to the second port; a second filter configured to allow second transmission signals obtained through the first port and corresponding to a second frequency band different from the first frequency band to pass therethrough for output to the second port; and a third filter configured to allow first reception signals corresponding to a third frequency band or a second reception signals corresponding to a fourth frequency band, which are obtained through the second port, to pass therethrough for output to the third port, wherein, when the first transmission signals and the second transmission signals are simultaneously obtained by the first filter and the second filter through the first port, the first filter is configured to allow the first transmission signals to pass therethrough for output to the second port and the second filter is configured to allow the second transmission signals to pass therethrough for output to the second port. 2 . The multiplexer of claim 1 , wherein the first filter, the second filter, and the third filter comprise band pass filters. 3 . The multiplexer of claim 1 , wherein the second port is configured to transfer the first transmission signals or the second transmission signals to the antenna, or transfer the second reception signals or the first reception signals, which are received from the antenna, to the third filter. 4 . The multiplexer of claim 1 , wherein the first frequency band and the second frequency band are non-overlapping. 5 . The multiplexer of claim 1 , wherein the third frequency band and the fourth frequency band are at least partially overlapping. 6 . A communication circuit comprising a transmission circuit configured to amplify radio frequency signals to be transmitted through an antenna of an electronic device and a reception circuit configured to amplify radio frequency signals received from the antenna, the communication circuit comprising: a first amplifier configured to amplify radio frequency signals to be transmitted to the antenna; a multiplexer connected to the first amplifier to output radio frequency signals output from the first amplifier to the antenna, and connected to the antenna to output radio frequency signals received from the antenna to a second amplifier; and the second amplifier connected to the multiplexer to amplify radio frequency signals output from the multiplexer, wherein the multiplexer comprises: a first filter configured to allow first transmission signals corresponding to a first frequency band to pass therethrough for output to the antenna, a second filter configured to allow second transmission signals corresponding to a second frequency band different from the first frequency band to pass therethrough for output to the antenna, and a third filter configured to allow first reception signals corresponding to a third frequency band or second reception signals corresponding to a fourth frequency band, which are received from the antenna, to pass therethrough for output to the second amplifier, wherein, when the first transmission signals and the second transmission signals are simultaneously obtained from the first amplifier, the first filter is configured to allow the first transmission signals to pass therethrough for output to the antenna and the second filter is configured to allow the second transmission signals to pass therethrough for output to the antenna. 7 . The communication circuit of claim 6 , wherein the first filter, the second filter, and the third filter comprise band pass filters. 8 . The communication circuit of claim 6 , wherein the first frequency band and the second frequency band are non-overlapping. 9 . The communication circuit of claim 6 , wherein the third frequency band and the fourth frequency band are at least partially overlapping. 10 . An electronic device comprising: an antenna; a communication circuit; and a processor, comprising processing circuitry, operatively connected to the antenna or the communication circuit, wherein the communication circuit comprises: a multiplexer comprising a first filter connected to a first amplifier and configured to allow first transmission signals output from the first amplifier and corresponding to a first frequency band to pass therethrough for output to the antenna, a second filter connected to the first amplifier and configured to allow a second transmission signals output from the first amplifier and corresponding to a second frequency band to pass therethrough for output to the antenna, and a third filter configured to allow reception signals received through the antenna to pass therethrough, wherein, when the first transmission signals and the second transmission signals are simultaneously obtained from the first amplifier, the first filter is configured to allow the first transmission signals to pass therethrough for output to the antenna and the second filter is configured to allow the second transmission signals to pass therethrough for output to the antenna. 11 . The electronic device of claim 10 , wherein the first filter, the second filter, and the third filter comprise band pass filters. 12 . The electronic device of claim 10 , wherein the first frequency band and the second frequency band are non-overlapping. 13 . The electronic device of claim 10 , wherein the communication circuit comprises: a second amplifier configured to amplify reception signals received from the antenna. 14 . The electronic device of claim 13 , further comprising: a radio frequency integrated circuit (RFIC) configured to convert a reception signals amplified by the second amplifier and transfer amplified reception signals to the processor. 15 . The electronic device of claim 13 , wherein the third filter is configured to allow first reception signals corresponding to a third frequency band or a second reception signals corresponding to a fourth frequency band, which are received from the antenna, to pass therethrough so as to be output to the second amplifier. 16 . The electronic device of claim 13 , wherein the communication circuit comprises: a duplexer configured to output a third transmission signals corresponding to a fifth frequency band to the antenna, or configured to allow third reception signals received from the antenna and corresponding to a sixth frequency band to pass therethrough so as to be output to the second amplifier; and an antenna switch configured to connect the multiplexer or the duplexer to the antenna. 17 . The electronic device of claim 16 , wherein the processor is configured to control the antenna switch such that the second transmission signals or the first transmission signals output from the multiplexer is transferred to the antenna, or the third transmission signals output from the duplexer is transferred to the antenna. 18 . The electronic device of claim 10 , further comprising: a power supplier configured to receive power from a po