Transmit/receive systems for imaging devices

What is claimed is: 1. A transceiver for an ultrasonic imaging device, comprising: a transmit circuit that outputs test pulses, wherein the test pulses are provided to a probe including a transducer to cause the transducer to propagate an ultrasonic wave and generate an image of a test object, wherein the transducer (i) senses reflected waves corresponding to the propagated ultrasonic wave and (ii) outputs a reflected signal corresponding to the reflected waves; a receive circuit that receives a composite signal including both the test pulses output by the transmit circuit and the reflected signal output by the transducer, wherein the receive circuit includes a filter circuit configured to (i) based on respective magnitudes of the test pulses and a bias voltage, filter the test pulses from the composite signal and (ii) pass the reflected signal, wherein an impedance of the filter circuit is equal to substantially zero when the reflected signal is within a predetermined frequency range; a clipper circuit that limits a magnitude of an output of the filter circuit; an amplifier that amplifies the output of the filter circuit and that outputs an amplified voltage; and a processing module that generates a signal for displaying the image of the test object based on the amplified voltage. 2. The transceiver of claim 1 wherein the filter circuit includes a diode bridge, wherein diodes of the diode bridge have forward transit times that are greater than one divided by a product of 2π and a minimum value of the predetermined frequency range. 3. The transceiver of claim 2 wherein the diode bridge is a full-bridge. 4. The transceiver of claim 1 wherein the amplifier includes a low noise amplifier (LNA). 5. The transceiver of claim 1 wherein the clipper circuit includes a first diode connected between the output of the filter circuit and a reference potential and a second diode connected anti-parallel to the first diode between the output of the filter circuit and the reference potential. 6. The transceiver of claim 1 wherein the filter circuit includes a bridge of diodes having forward transit times that are greater than one divided by a product of 2π and a minimum value of the predetermined frequency range by at least a predetermined amount. 7. The transceiver of claim 1 wherein the impedance is greater than substantially zero when the reflected signal is less than a minimum value of the predetermined frequency range. 8. A transceiver for an ultrasonic imaging device, comprising: a transmit circuit that outputs test pulses to a probe including a transducer to generate an image of a test object, wherein a composite signal including the test pulses and a reflected signal is output by the transducer; a receive circuit that receives the composite signal including the test pulses and the reflected signal and that includes a filter circuit that filters the test pulses from the composite signal and passes the reflected signal, wherein an impedance of the filter circuit is equal to substantially zero when the reflected signal is within a predetermined frequency range; a clipper circuit that limits a magnitude of an output of the filter circuit; an amplifier that amplifies the output of the filter circuit and that outputs an amplified voltage; a processing module that generates a signal for displaying the image of the test object based on the amplified voltage, wherein the filter circuit includes a diode bridge, wherein diodes of the diode bridge have forward transit times that are greater than one divided by a product of 2π and a minimum value of the predetermined frequency range; and a bias resistor connected between a bias voltage and the diode bridge, wherein a magnitude of the bias voltage is less than a magnitude of the test pulses, and wherein a maximum value of the reflected signal is less than the magnitude of the bias voltage. 9. The transceiver of claim 8 wherein the clipper circuit limits the magnitude of the output of the filter circuit to less than the magnitude of the bias voltage. 10. The transceiver of claim 8 wherein zero inductors are connected between the bias voltage and the bias resistor. 11. A transceiver for an ultrasonic imaging device, comprising: a transmit circuit that outputs test pulses, wherein the test pulses are provide to a probe including a transducer to cause the transducer to propagate an ultrasonic wave to generate an image of a test object, wherein the transducer (i) senses reflected waves corresponding to the propagated wave and (ii) outputs a reflected signal corresponding to the reflected waves; and a filter circuit that receives a composite signal including both the test pulses output by the transmit circuit and the reflected signal output by the transducer, wherein the filter circuit is configured to (i) based on respective magnitudes of the test pulses and a bias voltage, filter the test pulses from the composite signal and (ii) pass the reflected signal, wherein the filter circuit includes a diode bridge, and wherein diodes of the diode bridge have forward transit times that are greater than one divided by a product of 2π and a minimum value of a predetermined frequency range, wherein an impedance of the filter circuit is equal to substantially zero when the reflected signal is within the predetermined frequency range, and wherein the impedance of the filter circuit is greater than substantially zero when the reflected signal is less than a minimum value of the predetermined frequency range. 12. The transceiver of claim 11 wherein the filter circuit includes a diode bridge, wherein diodes of the diode bridge have forward transit times that are greater than one divided by a product of 2π and the minimum value of the predetermined frequency range. 13. The transceiver of claim 12 wherein the diode bridge is a full-bridge. 14. The transceiver of claim 12 further comprising a bias resistor connected between the bias voltage and the diode bridge, wherein a magnitude of the bias voltage is less than the magnitude of the test pulses, and wherein a maximum value of the reflected signal is less than the magnitude of the bias voltage. 15. The transceiver of claim 14 further comprising a clipper circuit that communicates with an output of the filter circuit and that limits a magnitude of the output of the filter circuit to less than the magnitude of the bias voltage. 16. The transceiver of claim 15 further comprising an amplifier that amplifies the output of the filter circuit. 17. The transceiver of claim 16 wherein the amplifier includes a low noise amplifier (LNA). 18. The transceiver of claim 16 further comprising a processing module that generates a signal for displaying the image of the test object based on the amplified output. 19. The transceiver of claim 15 wherein the clipper circuit includes a first diode connected between the output of the filter circuit and a reference potential and a second diode connected anti-parallel to the first diode between the output of the filter circuit and the reference potential. 20. The transceiver of claim 14 wherein zero inductors are connected between the bias voltage and the bias resistor.