Symmetric receiver switch for bipolar pulser

The invention claimed is: 1. An ultrasound device comprising: a capacitive ultrasonic transducer; a bipolar pulser coupled to the capacitive ultrasonic transducer and configured to provide, from an output terminal, a bipolar input signal to the capacitive ultrasonic transducer; a receiving circuit configured to process an electrical signal output by the capacitive ultrasonic transducer; and a symmetric switch comprising a first transistor and a second transistor, the symmetric switch having an input terminal coupled between the output terminal of the bipolar pulser and the capacitive ultrasonic transducer and having an output terminal coupled to the receiving circuit; wherein the first transistor has a first gate, a first source and a first drain and the second transistor has a second gate, a second source and a second drain, and wherein the first gate is connected to the second gate and the first source is connected to the second source, and wherein the first gate and the first source are coupled or couplable to a first same electric potential at a first time, and to a second same electric potential at a second time. 2. The ultrasound device of claim 1 , wherein the receiving circuit comprises a current-to-voltage converter. 3. The ultrasound device of claim 2 , wherein the current-to-voltage converter comprises a trans-impedance amplifier (TIA). 4. The ultrasound device of claim 1 , wherein the first transistor and the second transistor of the symmetric switch are p-type metal-oxide semiconductor (PMOS) transistors. 5. The ultrasound device of claim 1 , wherein the first transistor and the second transistor of the symmetric switch are n-type metal-oxide semiconductor (NMOS) transistors. 6. The ultrasound device of claim 1 , wherein the first same electric potential comprises a ground potential and the second same electric potential comprises a bias voltage of the bipolar pulser. 7. An ultrasound device comprising: a capacitive ultrasonic transducer; a bipolar pulser coupled to the capacitive ultrasonic transducer and configured to provide, from an output terminal, a bipolar input signal to the capacitive ultrasonic transducer; a receiving circuit configured to process an electrical signal output by the capacitive ultrasonic transducer; and a symmetric switch comprising a first transistor and a second transistor, the symmetric switch having an input terminal coupled between the output terminal of the bipolar pulser and the capacitive ultrasonic transducer and having an output terminal coupled to the receiving circuit, wherein the first transistor has a first gate, a first source and a first drain and the second transistor has a second gate, a second source and a second drain, and wherein the first gate is connected to the second gate and the first source is connected to the second source, and wherein the symmetric switch further comprises a third transistor having a third drain connected to the second drain. 8. A method of operating an ultrasound device, comprising: providing a bipolar pulser signal from a bipolar pulser to a first terminal of a capacitive ultrasonic transducer during a transmit mode of operation of the ultrasound device; operating a symmetric switch coupled between the first terminal of the capacitive ultrasonic transducer and a receiving circuit in an open state during the transmit mode of operation, the symmetric switch comprising a first transistor having a first gate, a first source and a first drain, and a second transistor having a second gate, a second source and a second drain, with the first gate connected to the second gate and the first source connected to the second source; and operating the symmetric switch in a closed state during a receive mode of operation of the ultrasound device; wherein operating the symmetric switch in the open state during the transmit mode of operation comprises coupling the first gate, the second gate, the first source, and the second source to a first same electric potential at a first time, coupling the first gate, the second gate, the first source, and the second source to a second same electric potential at a second time, and coupling the first gate, the second gate, the first source, and the second source back to the first same electric potential at a third time. 9. The method of claim 8 , further comprising converting a current from the capacitive ultrasonic transducer to a voltage during the receive mode of operation using a current-to-voltage converter of the receiving circuit. 10. The method of claim 9 , wherein converting the current from the capacitive ultrasonic transducer to the voltage is performed with a trans-impedance amplifier (TIA). 11. The method of claim 8 , wherein operating the symmetric switch in the closed state during the receive mode of operation of the ultrasound device comprises receiving an output signal of the capacitive ultrasonic transducer on the first drain of the first transistor of the symmetric switch and providing the output signal to the receiving circuit from the second drain of the second transistor of the symmetric switch. 12. The method of claim 8 , wherein the first same electric potential comprises a ground potential and the second same electric potential comprises a bias voltage of the bipolar pulser.