18593985. CRYSTAL OSCILLATING WAFER, CRYSTAL OSCILLATOR, AND ELECTRONIC DEVICE simplified abstract (HUAWEI TECHNOLOGIES CO., LTD.)

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CRYSTAL OSCILLATING WAFER, CRYSTAL OSCILLATOR, AND ELECTRONIC DEVICE

Organization Name

HUAWEI TECHNOLOGIES CO., LTD.

Inventor(s)

Lei Yang of Wuhan (CN)

Hang Yan of Shenzhen (CN)

Haifeng Luo of Wuhan (CN)

ZHENLONG Zhang of Dongguan (CN)

CRYSTAL OSCILLATING WAFER, CRYSTAL OSCILLATOR, AND ELECTRONIC DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18593985 titled 'CRYSTAL OSCILLATING WAFER, CRYSTAL OSCILLATOR, AND ELECTRONIC DEVICE

Simplified Explanation: The patent application describes a crystal oscillating wafer with a symmetric shape and specific features on its surface.

  • The crystal oscillating wafer has a symmetry axis with at least two points, with different distances to an endpoint on the axis.
  • The width of the wafer passing through these points varies, with the width passing through the first point being greater.
  • The wafer includes concave regions on both its upper and lower surfaces in an oscillation region.

Key Features and Innovation:

  • Crystal oscillating wafer with a symmetric shape and specific width variations.
  • Presence of concave regions on both upper and lower surfaces for oscillation.

Potential Applications:

  • Semiconductor industry for crystal oscillators.
  • Telecommunications for frequency control.
  • Sensor technology for precise measurements.

Problems Solved:

  • Provides a stable oscillation platform.
  • Offers precise frequency control.
  • Enhances sensor accuracy.

Benefits:

  • Improved performance in electronic devices.
  • Enhanced frequency stability.
  • Increased sensor precision.

Commercial Applications: Crystal oscillating wafers can be utilized in various industries such as semiconductor manufacturing, telecommunications, and sensor technology for improved performance and accuracy.

Questions about Crystal Oscillating Wafers: 1. What are the specific advantages of using crystal oscillating wafers in sensor technology? 2. How does the width variation on the wafer contribute to its oscillation stability and performance?


Original Abstract Submitted

A crystal oscillating wafer is a sheet in a symmetric shape. A symmetry axis of the crystal oscillating wafer has at least a first point and a second point. A distance between the first point and a first endpoint on the symmetry axis is less than a distance between the second point and the first endpoint. A width that is of the crystal oscillating wafer and that passes the first point in a first direction is greater than a width that is of the crystal oscillating wafer and that passes the second point in the first direction. The first direction is a direction perpendicular to the symmetry axis on a surface of the crystal oscillating wafer. The crystal oscillating wafer includes an oscillation region including a first concave region located on an upper surface and a second concave region located on a lower surface of the crystal oscillating wafer.

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