A Micro-Hotplate-Based Oven-Controlled System Used to Improve the Frequency Stability of MEMS Resonators

Feng, Tianren; Yu, Duli; Wu, Bo; Wang, Hui

doi:10.3390/mi14061222

Cited by 3 publications

(1 citation statement)

References 42 publications

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“…However, the MOx sensor response is often complex and non-specific. The gas sensor incorporates an integrated micro-hotplate heater [46], enabling the use of heating profiles (Bosch Sensortec "BME AI Studio Documentation-Glossary". Available online: https:// www.bosch-sensortec.com/software/bme/docs/overview/glossary.html#measurement-session (accessed on 8 May 2024)) to improve gas-sensing capabilities.…”

Section: The Bosh Sensortec Bme688mentioning

confidence: 99%

Index Air Quality Monitoring for Light and Active Mobility

Botticini,

Comini,

Dello Iacono

et al. 2024

Sensors

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Light and active mobility, as well as multimodal mobility, could significantly contribute to decarbonization. Air quality is a key parameter to monitor the environment in terms of health and leisure benefits. In a possible scenario, wearables and recharge stations could supply information about a distributed monitoring system of air quality. The availability of low-power, smart, low-cost, compact embedded systems, such as Arduino Nicla Sense ME, based on BME688 by Bosch, Reutlingen, Germany, and powered by suitable software tools, can provide the hardware to be easily integrated into wearables as well as in solar-powered EVSE (Electric Vehicle Supply Equipment) for scooters and e-bikes. In this way, each e-vehicle, bike, or EVSE can contribute to a distributed monitoring network providing real-time information about micro-climate and pollution. This work experimentally investigates the capability of the BME688 environmental sensor to provide useful and detailed information about air quality. Initial experimental results from measurements in non-controlled and controlled environments show that BME688 is suited to detect the human-perceived air quality. CO2 readout can also be significant for other gas (e.g., CO), while IAQ (Index for Air Quality, from 0 to 500) is heavily affected by relative humidity, and its significance below 250 is quite low for an outdoor uncontrolled environment.

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Section: The Bosh Sensortec Bme688mentioning

confidence: 99%

Index Air Quality Monitoring for Light and Active Mobility

Botticini,

Comini,

Dello Iacono

et al. 2024

Sensors

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Modelling of the Dynamic Process in the Microbeam of the MEMS Resonators

Rebot,

Shcherbovskykh,

Stefanovych

et al. 2024

2024 IEEE 19th International Conference on the Perspective Technologies and Methods in MEMS Design (MEMSTECH)

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Design and Optimization of Voltage Mode PWM Control of DC-DC Buck Converter with a PI-Lead Compensator Using the Simulated Annealing Algorithm

DOĞAN,

DAĞ

2024

Black Sea Journal of Engineering and Science

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This paper focuses on optimizing the performance of a DC-DC Buck Converter System through voltage mode PWM control. It employs PI and Lead Compensator controllers to enhance stability, reduce voltage fluctuations, and respond quickly to load changes. The study begins with modeling the circuit using transfer functions. It then presents the effects of these controllers when used individually and in combination in a step-by-step manner. It explains how the PI-Lead Compensator parameters adapted to the system are optimized using the Simulated Annealing Algorithm to achieve optimum performance in the DC-DC Buck Converter system. The Simulated Annealing Algorithm optimizes critical parameters such as Phase Margin, Gain Crossover Frequency and Steady State Error. The aim is to improve the system's output performance based on these parameters. Simulation studies conducted using MATLAB have undergone several iterations, proving this algorithm's practical applicability and effectiveness in controlling the converter system. The article concludes by presenting the results obtained by optimizing the PI-Lead Compensator parameters used in voltage mode PWM control for the DC-DC Buck Converter System, offering a practical pathway to achieve the desired performance in DC-DC Buck Converter Systems.

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A Micro-Hotplate-Based Oven-Controlled System Used to Improve the Frequency Stability of MEMS Resonators

Cited by 3 publications

References 42 publications

Index Air Quality Monitoring for Light and Active Mobility

Index Air Quality Monitoring for Light and Active Mobility

Modelling of the Dynamic Process in the Microbeam of the MEMS Resonators

Design and Optimization of Voltage Mode PWM Control of DC-DC Buck Converter with a PI-Lead Compensator Using the Simulated Annealing Algorithm

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