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Related Concept Videos

Temperature Measurement Sites01:14

Temperature Measurement Sites

2.3K
A thermometer measures body temperature. The common sites for measuring body temperature are the oral cavity, axillary region, temporal artery, and skin surface, such as the forehead, abdomen, and axilla. True core body temperature is assessed in the rectum, tympanic membrane, pulmonary artery, esophagus, and urinary bladder.
Oral: When assessing oral temperature, the thermometer tip should be placed under the tongue in the posterior sublingual pocket. It offers accurate readings and can be...
2.3K
Equipments Used to Measure Body Temperature01:13

Equipments Used to Measure Body Temperature

1.2K
Body temperature can be assessed using various devices and measured in Celsius or Fahrenheit.
Glass-bulb Thermometer:
Glass-bulb thermometers are hollow glass tubes with a bulb tip containing liquid such as ethanol or mercury. Historically, glass bulb mercury thermometers were the standard device to measure body temperature. Today, mercury thermometers are prohibited in many countries due to the hazardous effects of mercury and the risk of exposure if the glass bulb breaks. In general,...
1.2K
Assessing Body Temperature - Axilla01:14

Assessing Body Temperature - Axilla

686
Procedural Guide for Assessing Axillary Body Temperature using a Digital Thermometer:
Step 1: Perform hand hygiene and put on clean gloves to maintain infection control and prevent cross-contamination.
Step 2: Prepare the patient by explaining the procedure to ensure understanding and cooperation. Ensure privacy, expose the axilla, and inform the patient that minimal movement is crucial for an accurate reading.
Step 3: Adjust the patient’s clothing to expose only the axilla. It minimizes...
686
Assessing Body Temperature - Temporal Artery01:19

Assessing Body Temperature - Temporal Artery

702
Here is a stepwise guide to assessing the body temperature at the temporal artery using a temporal artery thermometer
Step 1: Perform hand hygiene and don a fresh pair of gloves to prevent cross-infection and ensure patient safety.
Step 2: Explain the procedure to the patient to establish trust. Clear communication establishes trust with the patient, ensures they understand what to expect, promotes cooperation, and enhances comfort during the procedure.  
Step 3: Assess the patient's...
702
Temperature Dependent Deformation01:12

Temperature Dependent Deformation

205
In a nonhomogeneous rod made up of steel and brass, restrained at both ends and subjected to a temperature change, several steps are involved in calculating the stress and compressive load. Due to the problem's static indeterminacy, one end support is disconnected, allowing the rod to experience the temperature change freely. Next, an unknown force is applied at the free end, triggering deformations in the rod's steel and brass portions. These deformations are then calculated and added...
205
Measuring Acceleration Due to Gravity01:12

Measuring Acceleration Due to Gravity

750
Consider a coffee mug hanging on a hook in a pantry. If the mug gets knocked, it oscillates back and forth like a pendulum until the oscillations die out.
A simple pendulum can be described as a point mass and a string. Meanwhile, a physical pendulum is any object whose oscillations are similar to a simple pendulum, but cannot be modeled as a point mass on a string because its mass is distributed over a larger area. The behavior of a physical pendulum can be modeled using the principles of...
750

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Design and Characterization Methodology for Efficient Wide Range Tunable MEMS Filters
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A Novel Self-Temperature Compensation Method for Mode-Localized Accelerometers.

Pengcheng Cai1,2, Xingyin Xiong1, Kunfeng Wang1,2

  • 1State Key Laboratory of Transducer Technology, Aerospace Information Research Institute, Chinese Academy of Sciences, Beijing 100190, China.

Micromachines
|March 26, 2022
PubMed
Summary
This summary is machine-generated.

This study introduces a self-temperature compensation method for mode-localized accelerometers. The new technique significantly improves accelerometer performance by mitigating environmental temperature effects.

Keywords:
2-DoFcompensationmode-localized accelerometer

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Area of Science:

  • Sensor Technology
  • Mechanical Engineering
  • Applied Physics

Background:

  • Mode-localized sensing in accelerometers is a growing research area.
  • Environmental temperature variations negatively impact accelerometer output due to thermal properties of resonators and coupling stiffness.
  • Existing methods lack effective temperature compensation for mode-localized accelerometers.

Purpose of the Study:

  • To develop an in situ self-temperature compensation method for mode-localized accelerometers.
  • To enhance accelerometer performance and reliability under varying environmental temperatures.
  • To address the limitations of current accelerometers sensitive to temperature fluctuations.

Main Methods:

  • Proposed an in situ self-temperature compensation technique for mode-localized accelerometers.
  • Utilized resonant frequency in addition to amplitude ratios for online compensation.
  • Implemented a method leveraging inherent physical properties for temperature correction.

Main Results:

  • Achieved significant improvements in accelerometer performance against temperature variations.
  • Demonstrated a 79-times enhancement in zero bias stability.
  • Showcased an 87-times improvement in scale factor stability.
  • Validated the effectiveness of the proposed self-temperature compensation method.

Conclusions:

  • The developed in situ self-temperature compensation method effectively mitigates temperature-induced errors in mode-localized accelerometers.
  • Utilizing resonant frequency alongside amplitude ratios provides a robust solution for online temperature compensation.
  • This advancement significantly enhances the precision and reliability of accelerometers in diverse environmental conditions.