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Journal articles on the topic 'Manifactured piezoresistive position sensor'

Author: Grafiati
Published: 4 June 2021
Last updated: 15 February 2022

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1

Yu, Huijun, Peng Zhou, Kewei Wang, Yanfei Huang, and Wenjiang Shen. "Optimization of MOEMS Projection Module Performance with Enhanced Piezoresistive Sensitivity." Micromachines 11, no. 7 (2020): 651. http://dx.doi.org/10.3390/mi11070651.

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In scanning laser projection systems, the laser modulation time is important for the projection resolution. The modulation time needs to be matched with the motion of the micromirror. For this paper, the piezoresistive sensor was integrated on the torsion beam of the micromirror to monitor the physical position of the micromirror. The feedback signal was used to generate the zero-crossing time, which was used to estimate the physical position of the resonating mirror over time. The estimated position was affected by the zero-crossing time and the error directly influenced the definition of the
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2

Zhang, Youzhi, Zhengkang Lin, Xiaojun You, Xingping Huang, Jinhua Ye, and Haibin Wu. "A position-sensitive electronic skin based on boundary potential projection theory." Sensor Review 40, no. 1 (2020): 130–40. http://dx.doi.org/10.1108/sr-10-2019-0243.

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Purpose This paper aims to report a flexible position-sensitive sensor that can be applied as large-area electronic skin over the stiff media. Design/methodology/approach The sensor uses a whole piezoresistive film as a touch sensing area. By alternately constructing two uniform electric fields with orthogonal directions in the piezoresistive film, the local changes in conductivity caused by touch can be projected to the boundary along the equipotential line under the constraint of electric field. Based on the change of boundary potential in the two uniform electric fields, it can be easy to d
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3

Ye, Jinhua, Zhengkang Lin, Jinyan You, Shuheng Huang, and Haibin Wu. "Inconsistency Calibrating Algorithms for Large Scale Piezoresistive Electronic Skin." Micromachines 11, no. 2 (2020): 162. http://dx.doi.org/10.3390/mi11020162.

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In the field of safety and communication of human-robot interaction (HRI), using large-scale electronic skin will be the tendency in the future. The force-sensitive piezoresistive material is the key for piezoresistive electronic skin. In this paper, a non-array large scale piezoresistive tactile sensor and its corresponding calibration methods were presented. Because of the creep inconsistency of large scale piezoresistive material, a creep tracking compensation method based on K-means clustering and fuzzy pattern recognition was proposed to improve the detection accuracy. With the compensate
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4

Ji, Chang Hong, Bin Zhen Zhang, Jian Zhang, Xiang Hong Li, and Jian Lin Liu. "Design of Ultra Low Temperature Pressure and Temperature Sensor Structure." Applied Mechanics and Materials 80-81 (July 2011): 693–97. http://dx.doi.org/10.4028/www.scientific.net/amm.80-81.693.

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In order to measure the pressure in the ultra-low temperature condition, the structure of ultra-low temperature piezoresistive pressure sensor is designed. Polysilicon nanometer thin film is used as a varistor according to its temperature and piezoresistive characteristics. The effect of the dimensions of silicon elastic membrane for the sensor sensitivity and the strain dimensions of the elastic membrane are analyzed, then layout position of resistances is arranged. The package structure of pressure sensor is designed. Meanwhile, a low-temperature sensor is designed to compensate the temperat
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5

Maflin Shaby, S., and A. Vimala Juliet. "Analysis and Optimization of Sensitivity of a MEMS Peizoresistive Pressure Sensor." Advanced Materials Research 548 (July 2012): 652–56. http://dx.doi.org/10.4028/www.scientific.net/amr.548.652.

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This paper presents a MEMS Piezoresistive pressure sensor which utilizes a circular shaped polysilicon diaphragm with a nanowire to enhance the sensitivity of the pressure sensor. The polysilicon nanowire is fabricated in such a way that it forms a bridge between the circular polysilicon diaphragm and the substrate. The high Piezoresistive effect of Silicon nanowires is used to enhance the sensitivity. A circular polysilicon nanowire piezoresistor was fabricated by means of reactive ion etching. This paper describes the performance analysis, structural design and fabrication of piezoresistive
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6

Zhang, Youzhi, Jinhua Ye, Zhengkang Lin, Shuheng Huang, Haomiao Wang, and Haibin Wu. "A Piezoresistive Tactile Sensor for a Large Area Employing Neural Network." Sensors 19, no. 1 (2018): 27. http://dx.doi.org/10.3390/s19010027.

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Electronic skin is an important means through which robots can obtain external information. A novel flexible tactile sensor capable of simultaneously detecting the contact position and force was proposed in this paper. The tactile sensor had a three-layer structure. The upper layer was a specially designed conductive film based on indium-tin oxide polyethylene terephthalate (ITO-PET), which could be used for detecting contact position. The intermediate layer was a piezoresistive film used as the force-sensitive element. The lower layer was made of fully conductive material such as aluminum foi
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7

Meng, Qinggang, Yulan Lu, Junbo Wang, Deyong Chen, and Jian Chen. "A Piezoresistive Pressure Sensor with Optimized Positions and Thickness of Piezoresistors." Micromachines 12, no. 9 (2021): 1095. http://dx.doi.org/10.3390/mi12091095.

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In this paper, a piezoresistive pressure sensor based on silicon on insulator (SOI) was presented, which was composed of an SOI layer with sensing elements and a glass cap for a hermetic package. Different from its conventional counterparts, the position and thickness of the four piezoresistors was optimized based on numerical simulation, which suggests that two piezoresistors at the center while the other two at the edge of the pressure-sensitive diaphragm and a thickness of 2 μm can produce the maximum sensitivity and the minimum nonlinearity. Due to the use of silicon rather than metal for
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8

Hamdana, Gerry, Maik Bertke, Lutz Doering, et al. "Transferable micromachined piezoresistive force sensor with integrated double-meander-spring system." Journal of Sensors and Sensor Systems 6, no. 1 (2017): 121–33. http://dx.doi.org/10.5194/jsss-6-121-2017.

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Abstract. A developed transferable micro force sensor was evaluated by comparing its response with an industrially manufactured device. In order to pre-identify sensor properties, three-dimensional (3-D) sensor models were simulated with a vertically applied force up to 1000 µN. Then, controllable batch fabrication was performed by alternately utilizing inductively coupled plasma (ICP) reactive ion etching (RIE) and photolithography. The assessments of sensor performance were based on sensor linearity, stiffness and sensitivity. Analysis of the device properties revealed that combination of a
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9

Cho, Hyun-Seung, Jin-Hee Yang, Jeong-Hwan Lee, and Joo-Hyeon Lee. "Evaluation of Joint Motion Sensing Efficiency According to the Implementation Method of SWCNT-Coated Fabric Motion Sensor." Sensors 20, no. 1 (2020): 284. http://dx.doi.org/10.3390/s20010284.

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The purpose of this study was to investigate the effects of the shape and attachment position of stretchable textile piezoresistive sensors coated with single-walled carbon nanotubes on their performance in measuring the joint movements of children. The requirements for fabric motion sensors suitable for children are also identified. The child subjects were instructed to wear integrated clothing with sensors of different shapes (rectangular and boat-shaped), attachment positions (at the knee and elbow joints or 4 cm below the joints). The change in voltage caused by the elongation and contract
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10

Dargahi, Javad, and Ahmad Atieh. "Design, Fabrication and Testing of a Piezoresistive-Based Tactile Sensor for Minimally Invasive Surgery." International Journal of Advanced Research in Engineering 1, no. 2 (2015): 17. http://dx.doi.org/10.24178/ijare.2015.1.2.17.

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Minimally invasive robotic surgery (MIRS) has become a preferred method for patients for the last two decades, thanks to its crucial advantages over classical open surgeries. Although MIRS has some advantages, it has a few drawbacks. Since MIRS technology includes performing surgery through small incisions using long slender tools, one of the main drawbacks of MIRS becomes the loss of direct contact with the patient’s body in the site of operation. Therefore, the surgeon loses the sense of touch during the operation which is one of the important tools to investigate the health condition of the
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11

Georgopoulou, Antonia, Silvain Michel, Bram Vanderborght, and Frank Clemens. "Piezoresistive sensor fiber composites based on silicone elastomers for the monitoring of the position of a robot arm." Sensors and Actuators A: Physical 318 (February 2021): 112433. http://dx.doi.org/10.1016/j.sna.2020.112433.

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12

Ramalingame, Rajarajan, Zheng Hu, Carina Gerlach, et al. "Flexible piezoresistive sensor matrix based on a carbon nanotube PDMS composite for dynamic pressure distribution measurement." Journal of Sensors and Sensor Systems 8, no. 1 (2019): 1–7. http://dx.doi.org/10.5194/jsss-8-1-2019.

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Abstract. A highly flexible, piezoresistive sensor matrix based on a carbon nanotube (CNT) polymer composite is developed for pressure distribution measurement applications. With an overall height of about 400 µm, the sensors can measure pressure directly, without any deformation elements, such as a cantilever or a deformation membrane. The measurement range is from 2.5 to 640 kPa. Both the position and the pressure of the applied load can be measured and visualized as a resistance change. The relative resistance measurement deviation of the data acquisition system is lower than 3 % for the re
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13

Levy, Arthur, and James Kratz. "Direct numerical simulation of infusion and flow-front tracking in materials with heterogeneous permeability using a pressure mapping sensor." Journal of Composite Materials 54, no. 13 (2019): 1647–61. http://dx.doi.org/10.1177/0021998319883931.

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This paper explores the use of thin film piezoresistive pressure mapping sensors as a means to improve resin transfer moulding processes. The pressure mapping sensor was located between the preform and mould, giving information regarding the permeability map prior to infusion. The permeability map is used as an input to a direct numerical simulation of the infusion step of a highly variable reclaimed carbon fibre preform. The pressure sensor was also used to track the flow front position in-situ, due to a change in load sharing between the preform and liquid during the infusion experiment. Flo
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14

Narongthong, Jirawat, Pongdhorn Sae-Oui, Manuchet Nillawong, and Chakrit Sirisinha. "PHYSICOELECTRICAL PROPERTIES AND PIEZORESISTIVE SENSING OF THE EXTRUSION-BASED CONDUCTIVE RUBBER COMPOSITES: SIMULTANEOUS EFFECTS OF THE EXTRUSION PARAMETERS." Rubber Chemistry and Technology, February 20, 2020, 000. http://dx.doi.org/10.5254/rct.20.80392.

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ABSTRACT Flexible conductive rubber composites (CRCs) were prepared based on carbon black–filled oil-extended styrene–butadiene rubber soft matrix. Using a variety of screw designs, the simultaneous effects of the twin-screw extrusion parameters (i.e., kneading element, dispersing position, and screw speed) on the physicoelectrical properties of the CRCs were investigated statistically. The increased intenseness of the extrusion parameters significantly enhances the piezoresistive sensing via the improved filler dispersion, increased rubber–filler interaction, and weakened filler–filler networ
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15

Lenherr, Christian, Anestis I. Kalfas, and Reza S. Abhari. "High Temperature Fast Response Aerodynamic Probe." Journal of Engineering for Gas Turbines and Power 133, no. 1 (2010). http://dx.doi.org/10.1115/1.4001824.

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In order to advance the technology for measurements in higher temperature flows, a novel miniature (diameter 2.5 mm) fast response probe that can be applied in flows with temperatures of up to 533 K (500°F) has been developed. The primary elements of the probe are two piezoresistive pressure transducers that are used to measure the unsteady pressure and unsteady velocity field, as well as the steady temperature. Additional temperature and strain gauge sensors are embedded in the shaft to allow a much higher degree of robustness in the use of this probe. The additional temperature sensor in the
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16

Ponti, Fabrizio, Vittorio Ravaglioli, Matteo De Cesare, and Federico Stola. "Torque and Center of Combustion Evaluation Through a Torsional Model of the Powertrain." Journal of Dynamic Systems, Measurement, and Control 137, no. 6 (2015). http://dx.doi.org/10.1115/1.4029195.

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The continuous development of modern internal combustion engine (ICE) management systems is mainly aimed at combustion control improvement. Nowadays, performing an efficient combustion control is crucial for drivability improvement, efficiency increase (critical for spark ignited engines), and pollutant emissions reduction (critical in compression ignited engines). The most important quantities used for combustion control are engine load (indicated mean effective pressure (IMEP) or torque delivered by the engine) and center of combustion, i.e., the angular position in which 50% of fuel burned
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