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Capacitor With A Dielectric01:18

Capacitor With A Dielectric

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Parallel plate capacitors consist of two conducting plates separated by a certain distance. However, it is mechanically difficult to hold the large plates parallel to each other without actual contact. Hence, a dielectric layer is commonly placed between the plates, which provides an easy solution for holding the plates together with a small gap and increases the capacitance of the capacitor.
Dielectrics are non-conducting materials with no free or loosely bound electrons. When a dielectric is...
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Equivalent Capacitance01:19

Equivalent Capacitance

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From the study of resistive circuits, it is understood that employing a series-parallel combination serves as an effective strategy for simplifying circuits. Capacitors can be arranged within a circuit in one of two ways: a series configuration or a parallel configuration. The way these capacitors are connected to a battery will influence both the potential drop across each individual capacitor and the size of the charge that each capacitor can store. This is determined by the specific type of...
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Equivalent Capacitance01:19

Equivalent Capacitance

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Multiple capacitors can be connected in a circuit in series or parallel configuration. When the capacitor combination is connected to a battery, the potential drop across each capacitor and the magnitude of charge stored in the individual capacitor depends on the type of the connection. The capacitor combination is replaced by a single equivalent capacitor that stores the same amount of charge as the combination for a given potential difference.
The following strategies are adopted to calculate...
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Capacitance: Single-Phase And Three-Phase Line01:25

Capacitance: Single-Phase And Three-Phase Line

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In electrical power systems, understanding the capacitance of transmission lines is fundamental for efficient operation.
Single-Phase Lines
Consider a single-phase, two-wire transmission line with equal phase spacing energized by a voltage source. One conductor carries a uniform positive charge, while the other carries an equal negative charge. The capacitance C of the line can be derived from the voltage V between the conductors. For a one-meter section of the line, the capacitance is given...
288
Spherical and Cylindrical Capacitor01:26

Spherical and Cylindrical Capacitor

6.3K
A spherical capacitor consists of two concentric conducting spherical shells of radii R1 (inner shell) and R2 (outer shell). The shells have  equal and opposite charges of +Q and −Q, respectively. For an isolated conducting spherical capacitor, the radius of the outer shell can be considered to be infinite.
Conventionally, considering the  symmetry, the electric field between the concentric shells of a spherical capacitor is directed radially outward. The magnitude of the field,...
6.3K
Dielectric Polarization in a Capacitor01:31

Dielectric Polarization in a Capacitor

5.4K
The presence of a dielectric medium in a capacitor not only changes the voltage and capacitance but also affects the electric field. In general, dielectrics can be of two types: polar and nonpolar. In a polar dielectric, the positive and negative charges in the molecules are separated by a distance and hence have a permanent dipole moment. In contrast, no such charge separation exists in a nonpolar dielectric, however the nonpolar molecules get polarized in the presence of an external electric...
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Related Experiment Video

Updated: Nov 7, 2025

Scanning SQUID Study of Vortex Manipulation by Local Contact
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Scanning SQUID Study of Vortex Manipulation by Local Contact

Published on: February 1, 2017

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Vertical cavity capacitive transducer.

Goksen G Yaralioglu1, A Sanli Ergun2, Ayhan Bozkurt3

  • 1Ozyegin University, 34794 Cekmekoy/Istanbul, Turkey.

The Journal of the Acoustical Society of America
|May 4, 2021
PubMed
Summary
This summary is machine-generated.

This study introduces a novel vertical cavity capacitive micromachined ultrasonic transducer (CMUT) design. This innovation overcomes the sensitivity trade-off in conventional CMUTs, enhancing both input and output performance for broader applications.

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Area of Science:

  • MEMS (Micro-Electro-Mechanical Systems)
  • Ultrasonic Transducer Technology
  • Acoustic Device Engineering

Background:

  • Capacitive micromachined ultrasonic transducers (CMUTs) offer advantages like wide bandwidth and monolithic integration.
  • A key limitation of CMUTs is the trade-off between input and output sensitivity, often requiring sub-micron gaps that restrict device performance.
  • Achieving adequate receive sensitivity necessitates high electric field intensity, which conflicts with the need for larger device strokes for higher output pressure.

Purpose of the Study:

  • To propose and evaluate a novel CMUT design that overcomes the inherent sensitivity trade-off.
  • To enhance both the receive sensitivity and output pressure capabilities of CMUT devices.
  • To provide a theoretical, analytical, and experimental validation of the proposed CMUT architecture.

Main Methods:

  • Design and theoretical analysis of a CMUT with a vertical cavity structure.
  • Analytical modeling to compare the performance of the proposed CMUT against conventional designs.
  • Development of a micro-fabrication process for the novel CMUT.
  • Experimental testing of a millimeter-scale prototype for proof-of-concept validation.

Main Results:

  • The proposed vertical cavity CMUT design effectively decouples gap height from device stroke.
  • Theoretical and analytical models predict improved performance compared to conventional CMUTs.
  • Successful micro-fabrication and testing of a prototype demonstrate the feasibility of the concept.

Conclusions:

  • The vertical cavity CMUT architecture presents a viable solution to the sensitivity-stroke trade-off in conventional CMUTs.
  • This design innovation holds potential for advancing CMUT applications requiring both high sensitivity and significant output pressure.
  • Further research and development could lead to optimized designs for specific ultrasonic applications.