Matching transformer for ultrasonic transducer
First Claim
1. In a transceiver circuit for a pulse-echo acoustic ranging device comprising a transmitter generating pulses of electrical energy at a predetermined operating frequency, an electro-acoustic piezo-electric transducer operating at said predetermined frequency for transducing said pulses into shots of acoustic energy and transducing echoed acoustic energy into electrical energy, a receiver for receiving and amplifying electric signals transduced by said transducer from echoed acoustic energy, and a transformer having windings connected to said transmitter, said receiver and said transducer, the improvement wherein:
- the transformer has a first winding connected to the transducer and acting as a secondary winding in respect of the transmitter and a primary winding in respect of the receiver, a second winding connected to both the transmitter and the receiver and acting as a secondary winding in respect of the receiver, a third winding in series with a pair of back-to-back diodes, the third winding and the diode pair being connected, in parallel with the second winding, to the transmitter and the receiver, the third winding acting as a primary winding in respect of said transmitter and being of much lower inductance than the second winding, and a connection of the second and third windings at least to the transmitter includes series capacitance such as to provide series resonance of the circuit at a frequency close to the predetermined operating frequency when the transmitter is active.
4 Assignments
0 Petitions
Accused Products
Abstract
A transformer used to connect an electro-acoustic transducer to a transmitter and a receiver in a pulse-echo ranging system has a first winding connected to the transducer, and second and third windings connected in parallel to the transmitter and the receiver. The second winding has back-to-back diodes in series with it, and the third winding has several times more turns than the second winding, so that with high amplitude signals, as during transmission, the diodes conduct and render the second winding effective. With low amplitude signals, as during reception, the diodes isolate the second winding and the third winding acts to provide a relative step-up of the amplitude of the received signals.
-
Citations
4 Claims
-
1. In a transceiver circuit for a pulse-echo acoustic ranging device comprising a transmitter generating pulses of electrical energy at a predetermined operating frequency, an electro-acoustic piezo-electric transducer operating at said predetermined frequency for transducing said pulses into shots of acoustic energy and transducing echoed acoustic energy into electrical energy, a receiver for receiving and amplifying electric signals transduced by said transducer from echoed acoustic energy, and a transformer having windings connected to said transmitter, said receiver and said transducer, the improvement wherein:
the transformer has a first winding connected to the transducer and acting as a secondary winding in respect of the transmitter and a primary winding in respect of the receiver, a second winding connected to both the transmitter and the receiver and acting as a secondary winding in respect of the receiver, a third winding in series with a pair of back-to-back diodes, the third winding and the diode pair being connected, in parallel with the second winding, to the transmitter and the receiver, the third winding acting as a primary winding in respect of said transmitter and being of much lower inductance than the second winding, and a connection of the second and third windings at least to the transmitter includes series capacitance such as to provide series resonance of the circuit at a frequency close to the predetermined operating frequency when the transmitter is active. - View Dependent Claims (2, 3, 4)
Specification