Transmit/receive isolation for an ultrasound system

1 . An ultrasound system, comprising: a transmitting unit configured to form a transmit signal; an ultrasound probe comprising a plurality of transducer elements and configured to receive the transmit signal from the transmitting unit, convert the transmit signal into an ultrasound signal, transmit the ultrasound signal to a target object, receive a respective echo signal from the target object in each of the plurality of transducer elements, and form a respective receive signal based on the respective echo signal in each of the plurality of transducer elements; receiving unit comprising a plurality of inputs each associated with a respective transducer element of the plurality of transducer elements and each configured to receive the respective receive signal from the respective transducer element of the plurality of transducer elements of the ultrasound probe; a plurality of diode bridges each coupled to a respective output of the transmitting unit and a respective transducer element of the ultrasound probe at one end of the diode bridge and coupled to a respective input of the plurality of inputs of the receiving unit at another end of the diode bridge and configured to operate in a first state in which a signal from the one end is blocked from being propagated to the other end or in a second state in which the signal from the one end is allowed to be propagated to the other end; and a control unit configured to: control the plurality of diode bridges to be operated in the first state to block the transmit signal from the transmitting unit from being propagated to the receiving unit when the ultrasound probe is in a transmission period in which the ultrasound signal is transmitted from the ultrasound probe to the target object; and control the plurality of diode bridges to be operated in the second state to allow the receive signal from the probe to be propagated to the receiving unit when the ultrasound probe is in a receiving period in which the echo signal is received by the ultrasound probe from the target object, wherein the control unit controls the diode bridges of the plurality of diode bridges to be individually switchable, and wherein the control unit comprises, for each respective diode bridge, first and second switches configured to control the respective diode bridge to be operated in the first state or the second state, wherein the first switch is connected to one terminal of the respective diode bridge and the second switch is connected to another terminal of the respective diode bridge. 2 . The ultrasound system of claim 1 , wherein the respective diode bridge is off in the first state, and the respective diode bridge is on in the second state. 3 . The ultrasound system of claim 2 , wherein the first and second switches control to reverse-bias the respective diode bridge in the first state and forward-bias the respective diode bridge in the second state. 4 . The ultrasound system of claim 1 , wherein the first switch performs switching between a first voltage and a second voltage different from the first voltage and the second switch performs switching between a third voltage and a forth voltage different from the third voltage. 5 . The ultrasound system of claim 1 , wherein the control unit controls each diode bridge to be operated in the first state by connecting the first switch to a plus voltage and the second switch to a minus voltage, and controls the diode bridge to be operated in the second state by connecting the first switch to the minus voltage and the second switch to the plus voltage. 6 . The ultrasound system of claim 1 , further comprising a voltage measuring unit configured to measure a voltage of the transmit signal, wherein the control unit determines whether the ultrasound probe is in the transmission period or in the receiving period by comparing the voltage of the transmit signal with a predetermined threshold voltage. 7 . The ultrasound system of claim 6 , wherein the control unit determines the ultrasound probe is in the transmission period when the voltage of the transmit signal is higher than the predetermined threshold voltage, and determines the ultrasound probe is in the receiving period when the voltage of the transmit signal is lower than the predetermined threshold voltage. 8 . The ultrasound system of claim 1 , wherein each diode bridge has four terminals, and a first terminal of each diode bridge is coupled to the respective output of the transmitting unit and the respective transducer element of the ultrasound probe, a second terminal of each diode bride is coupled to the respective input of the receiving unit, and third and fourth terminals of each diode bridge are coupled to the control unit. 9 . The ultrasound system of claim 8 , wherein each diode bridge includes two diodes coupled in series between the third terminal of the diode bridge coupled to the control unit and the fourth terminal of the diode bridge coupled to the control unit. 10 . The ultrasound system of claim 9 , wherein each diode bridge includes two diodes coupled in series between the first terminal of the diode bridge coupled to the transmitting unit and the ultrasound probe and the second terminal of the diode bride coupled to the receiving unit. 11 . The ultrasound system of claim 8 , wherein the control unit controls each diode bridge to be operated in the first state to block the transmit signal from being propagated from the first terminal to the second terminal by applying a first voltage across the third and fourth terminals of the diode bridge. 12 . The ultrasound system of claim 11 , wherein the control unit controls each diode bridge to be operated in the second state to allow the receive signal to be propagated from the first terminal to the second terminal by applying a second voltage different from the first voltage across the third and fourth terminals of the diode bridge. 13 . The ultrasound system of claim 12 , wherein the second voltage is of an opposite polarity to the first voltage. 14 . The ultrasound system of claim 1 , wherein each diode bridge has four terminals, and a first terminal of each diode bridge is coupled to the respective output of the transmitting unit and the respective transducer element of the ultrasound probe, a second terminal of each diode bride is coupled to the respective input of the receiving unit, a third terminal of each diode bridge is coupled to the first switch, and a fourth terminal of each diode bridge is coupled to the second switch. 15 . The ultrasound system of claim 14 , wherein each diode bridge includes two diodes coupled in series between the first terminal of the diode bridge coupled to the transmitting unit and the ultrasound probe and the second terminal of the diode bride coupled to the receiving unit. 16 . The ultrasound system of claim 15 , wherein each diode bridge includes two diodes coupled in series between the third terminal of the diode bridge coupled to the first switch and the fourth terminal of the diode bridge coupled to the second switch. 17 . The ultrasound system of claim 1 , wherein the first switch is connected to one terminal of the respective diode bridge through a first diode and second switch is connected to another terminal of the respective diode bridge through a second diode. 18 . The ultrasound system of claim 17 , wherein, for each respective diode bridge, an anode of the first diode is connected to anodes of two diodes of the respective diode bridge, a cathode of the first diode is connected to the first switch, a cathod