Claims
- 1. In a pulse-echo type ultrasonic testing device for detecting discontinuities in a material, an apparatus for maintaining constant sensitivity despite the presence of varying attenuations introduced into the transmitted ultrasonic beam by the properties of the material, comprising:
- a search transducer being positioned adjacent the material and being capable of transmitting an ultrasonic pulse into the material and receiving echoes from the material;
- a monitor transducer being positioned relative to said transducer to receive said pulse after said pulse passes through the material, said monitor transducer being responsive to said received pulse to develop a feedback signal representative of the intensity thereof;
- an automatic gain control amplifier coupled to said monitor transducer and being responsive to said feedback signal to develop a gain signal proportional thereto; and
- a digital computer coupled to said transducers and said amplifier for comparing said transmitted pulse to said received echoes and thereby indicating discontinuities in response to particular attenuation and echoes in said received echoes, and being responsive to said gain signal to continuously vary said comparison according to the value of said gain signal, the gain of said amplifier being controlled by said computer, said computer being programmed to vary the gain of said amplifier in a predetermined manner.
- 2. The device of claim 1 wherein said digital computer is programmed to vary the gain of said amplifier according to the geometry of particular subregions of the material through which said pulse is propagated.
- 3. The device of claim 2 wherein said computer is responsive to the coincidence of a predetermined change in value of said gain signal and an echo in said signal received by said search transducer to indicate the presence of a discontinuity.
CONTRACTUAL ORIGIN OF THE INVENTION
The invention described herein was made in the course of, or under, a contract with the U.S. Department of Energy.
US Referenced Citations (4)