Using smaller diameter PZT crystals in annular arrays tends to produce beams with which characteristic?

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Sharpen your skills for the Davies Publishing SPI Test with targeted flashcards and multiple-choice questions, complete with hints and clarifications. Prepare thoroughly for success!

Multiple Choice

Using smaller diameter PZT crystals in annular arrays tends to produce beams with which characteristic?

Smaller diameter crystals reduce the overall aperture of the annular array, so the focused beam comes to a point closer to the transducer. Focusing depth is largely set by how large the aperture is and how the waves from the rings interfere; a smaller aperture moves the focus to a shorter distance, giving a shallower focus. The center frequency is determined mainly by the crystal thickness, not the diameter, so you wouldn’t get a higher frequency from smaller rings. Deeper focus would require a larger aperture or a different focusing arrangement, and while a smaller aperture can increase beam divergence (leading to a wider beam), the characteristic most directly affected here is the shallower focal depth.

Using smaller diameter PZT crystals in annular arrays tends to produce beams with which characteristic?

Sharpen your skills for the Davies Publishing SPI Test with targeted flashcards and multiple-choice questions, complete with hints and clarifications. Prepare thoroughly for success!

Using smaller diameter PZT crystals in annular arrays tends to produce beams with which characteristic?

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