Ultrasonic sensor

The invention claimed is: 1. A method of transmitting and receiving from an ultrasonic sensor, the ultrasonic sensor transmitting probe waves, which are ultrasonic waves, and acquiring detection waves that include reflected waves which have been reflected from surrounding objects, the method comprising: transmitting the probe waves and acquiring the detection waves from a single transmitter/receiver; executing filter processing of the detection waves in which frequencies within a predetermined frequency band that includes the frequency of the probe waves are passed; measuring an amplitude of the detection waves that are transmitted during a reverberation interval of the transmitter/receiver, the reverberation interval comprising a time interval after termination of transmission of the probe waves; and executing a judgement of whether foreign matter is adhered to the transmitter/receiver, the judgement being determined based on a relationship between a time axis and values of the amplitude of the detection waves of the transmitter/receiver during the reverberation interval, wherein the judgement of whether foreign matter is adhered to the transmitter/receiver comprises: acquiring, as the relationship between the time axis and the amplitude, an interval extending from the point at which the amplitude falls below a first threshold value until the amplitude falls below a second threshold value; and executing the judgement of whether foreign matter is adhered to the transmitter/receiver based on a length of the acquired interval. 2. The method of transmitting and receiving from the ultrasonic sensor according to claim 1 , further comprising: providing, as the time axis, a prescribed interval that follows the point at which the amplitude falls below a threshold value; acquiring a count of a number of local maximums of the amplitude in the prescribed interval; and executing the judgement based on that count. 3. The method of transmitting and receiving from the ultrasonic sensor according to claim 1 , further comprising: providing, as the time axis, a prescribed interval that follows the point at which the amplitude falls below a threshold value; and executing the judgement based on the maximum value of the amplitude in the prescribed interval. 4. The method of transmitting and receiving from the ultrasonic sensor according to claim 1 , further comprising: providing, as the time axis, a prescribed interval that follows termination of transmitting the probe waves; acquiring a count of a number of local maximums of the amplitude in the prescribed interval; and executing the judgement based on that count. 5. The method of transmitting and receiving from the ultrasonic sensor according to claim 1 , further comprising: providing, as the time axis, a prescribed interval that follows the termination of the transmitting of the probe waves; and executing the judgement based on the maximum value of the amplitude in the prescribed interval. 6. The method of transmitting and receiving from the ultrasonic sensor according to claim 1 , further comprising: acquiring, as the relationship between the time axis and the amplitude, an area enclosed by an envelope of values of the amplitude; and executing the judgement based on that area. 7. The method of transmitting and receiving from the ultrasonic sensor according to claim 6 , further comprising: acquiring the area after the amplitude has fallen below a threshold value; and executing the judgement based on that area. 8. The method of transmitting and receiving from the ultrasonic sensor according to claim 6 , further comprising: acquiring respective areas for each of prescribed intervals, following termination of transmitting the probe waves; and executing the judgement based on changes in the areas. 9. The method of transmitting and receiving from the ultrasonic sensor according to claim 1 , further comprising setting an upper limit value to the values that can be acquired for the amplitude, and when the amplitude of the detection waves is greater than the upper limit value, making the amplitude of the detection waves the upper limit value. 10. The method of transmitting and receiving from the ultrasonic sensor according to claim 1 , further comprising executing the judgement by comparing a relationship between the time axis and the amplitude that is based on the acquired detection waves with a predetermined relationship between the time axis and the amplitude. 11. The method of transmitting and receiving from the ultrasonic sensor according to claim 1 , wherein the ultrasonic sensor is equipped with a plurality of filters which pass respectively different frequency bands, and the method of transmitting and receiving from the ultrasonic sensor further comprises: comparing the relationships between the time axis and the amplitude for the respective outputs passed by the different filters; and executing the judgement by means of the comparison result. 12. The method of transmitting and receiving from the ultrasonic sensor according to claim 1 , further comprising: acquiring the correlation value between a waveform expressing the time-axis variation of the amplitude and a waveform serving as a reference; and executing the judgement by means of the correlation value. 13. The method of transmitting and receiving from the ultrasonic sensor according to claim 1 , wherein the ultrasonic sensor is equipped with a plurality of filters which pass respectively different frequency bands, and the method of transmitting and receiving from the ultrasonic sensor further comprises: acquiring a correlation value between respective waveforms that express the time-axis variation of the amplitudes passed by the different filters; and executing the judgement by means of the correlation value. 14. The method of transmitting and receiving from the ultrasonic sensor according to claim 1 , wherein the ultrasonic sensor further acquires the frequency of the probe waves, and the method of transmitting and receiving from the ultrasonic sensor further comprises: comparing the acquired frequency with a frequency that serves as a reference frequency of the probe waves; and executing the judgement by using a first condition that is based on time and amplitude, and a second condition that is based on frequency.