Transmit antenna selector and magnetic resonance imaging system

The invention claimed is: 1. A transmit antenna selector comprising: a control circuit; a body coil signal output interface; a local coil signal output interface; a radio-frequency signal input interface; and a dummy load; wherein the control circuit comprises a plurality of diodes, wherein the control circuit electrically connects the radio-frequency signal input interface with the body coil signal output interface, with the local coil signal output interface, or with the dummy load, according to a control signal and via the plurality of diodes, wherein the plurality of diodes comprises a first diode, a second diode and a third diode; wherein anodes of the first diode, the second diode and the third diode are connected to the radio-frequency signal input interface; wherein a cathode of the first diode is connected to the local coil signal output interface; wherein a cathode of the second diode is connected to the body coil signal output interface; and wherein a cathode of the third diode is connected to the dummy load. 2. The transmit antenna selector of claim 1 , further comprising: a body coil signal input interface, wherein, when the radio-frequency signal input interface is electrically connected with the body coil signal output interface, the control circuit electrically connects the body coil signal input interface with the dummy load in accordance with a control signal and via the plurality of diodes. 3. The transmit antenna selector of claim 2 , wherein: the plurality of diodes further comprises a fourth diode; and a cathode of the fourth diode is connected to the body coil signal input interface. 4. The transmit antenna selector of claim 3 , further comprising: a first inductor between the anode of the first diode and the radio-frequency signal input interface to effect the phase difference therebetween; and a second inductor between the dummy load and an anode of the fourth diode to effect the phase difference therebetween. 5. The transmit antenna selector of claim 1 , wherein the control circuit further comprises: a plurality of protection circuits, each protection circuit of the plurality of protection circuits being connected in parallel to a respective diode of the plurality of diodes; wherein each protection circuit of the plurality of protection circuits comprises a capacitor and an inductor connected to the capacitor in series. 6. A transmit antenna selector comprising: a control circuit; a body coil signal output interface; a local coil signal output interface; a radio-frequency signal input interface; and a dummy load; wherein the control circuit comprises a plurality of diodes, wherein the control circuit electrically connects the radio-frequency signal input interface with the body coil signal output interface, with the local coil signal output interface, or with the dummy load, according to a control signal and via the plurality of diodes, wherein the plurality of diodes comprises a first diode, a second diode and a third diode; wherein an anode of the first diode is connected to the radio-frequency signal input interface; wherein an anode of the second diode is connected to the radio-frequency signal input interface; wherein a cathode of the second diode is connected to the body coil signal output interface; wherein an anode of the third diode is connected to the radio-frequency signal input interface; wherein a phase difference of an odd number of multiples of a quarter wavelength is present between the radio-frequency signal input interface and the anode of the first diode; and wherein a phase difference of an odd number of multiples of a quarter wavelength is present between the radio-frequency signal input interface and the anode of the third diode. 7. The transmit antenna selector of claim 6 , further comprising: a first inductor between the radio-frequency signal input interface and the anode of the first diode to effect the phase difference therebetween; and a second inductor between the radio-frequency signal input interface and the anode of the third diode to effect the phase difference therebetween. 8. The transmit antenna selector of claim 6 , further comprising: a body coil signal input interface, wherein, when the radio-frequency signal input interface is electrically connected with the body coil signal output interface, the control circuit electrically connects the body coil signal input interface with the dummy load in accordance with a control signal and via the plurality of diodes. 9. The transmit antenna selector of claim 6 , wherein the control circuit further comprises: a plurality of protection circuits, each protection circuit of the plurality of protection circuits being connected in parallel to a respective diode of the plurality of diodes; wherein each protection circuit of the plurality of protection circuits comprises a capacitor and an inductor connected to the capacitor in series. 10. A magnetic resonance imaging system comprising: a transmit antenna selector comprising: a control circuit; a body coil signal output interface; a local coil signal output interface; a radio-frequency signal input interface; and a dummy load; wherein the control circuit comprises a plurality of diodes, wherein the control circuit electrically connects the radio-frequency signal input interface with the body coil signal output interface, with the local coil signal output interface, or with the dummy load, according to a control signal and via the plurality of diodes, wherein the plurality of diodes comprises a first diode, a second diode and a third diode; anodes of the first diode, the second diode and the third diode are connected to the radio-frequency signal input interface; a cathode of the first diode is connected to the local coil signal output interface; a cathode of the second diode is connected to the body coil signal output interface; and a cathode of the third diode is connected to the dummy load. 11. The magnetic resonance imaging system of claim 10 , wherein the transmit antenna selector further comprises a body coil signal input interface, wherein, when the radio-frequency signal input interface is electrically connected with the body coil signal output interface, the control circuit electrically connects the body coil signal input interface with the dummy load in accordance with a control signal and via the plurality of diodes. 12. The magnetic resonance imaging system of claim 11 , wherein: the plurality of diodes further comprises a fourth diode; and a cathode of the fourth diode is connected to the body coil signal input interface. 13. The magnetic resonance imaging system of claim 12 , wherein the transmit antenna selector further comprises: a first inductor between the anode of the first diode and the radio-frequency signal input interface to effect the phase difference therebetween; and a second inductor between the dummy load and an anode of the fourth diode to effect the phase difference therebetween. 14. The magnetic resonance imaging system of claim 10 , wherein the control circuit further comprises: a plurality of protection circuits, each protection circuit of the plurality of protection circuits being connected in parallel to a respective diode of the plurality of diodes; wherein each protection circuit of the plurality of protection circuits comprises a capacitor and an inductor connected to the capacitor in series. 15. A magnetic resonance imaging system comprising: a transmit antenna selector comprising: a control circuit; a body coil signal output interface