Penghua Sun scite author profile

Penghua Sun

5Publications

1Citation Statement Received

13Citation Statements Given

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Affiliations

Indiana University – Purdue University Indianapolis, Beijing Technology and Business University

Publications

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Integrated Sensor Wireless System for Alternative Energy Applications

Rizkalla¹,

El-Sharkawy²,

Sun³

2015

JOCET

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Abstract-These Wind turbines convert mechanical energy into electrical energy for storage and consumption. Pressure transducers are important in reflecting pressures within the hydraulic cylinders; they can provide continuous and reliable operation that enhances the reliability and efficiency of the overall system. Monitoring high temperature fluctuation will be necessary for the resolution and efficiency of the system. An integrated sensor system should be important for monitoring the tower vibration for bending, crack formation, and wave vibration.Smart nanotechnology materials have been recently utilized in sensing applications. Carbon nanotube (CNT) based SoC sensor systems have potential applications in various fields, including medical, energy, consumer electronics, computers, and HVAC (heating, ventilation, and air conditioning), among others.In this study, a nanotechnology multisensory system was designed and simulated using Labview Software. More emphasis are given to both pressure and temperature sensors that serve as transducers for the power mills. The mathematical models were developed for sensing three physical quantities: temperature, gas, and pressure. Four CNT groups on a chip (two for gas sensor, one for temperature, and a 4 th one for pressure) were utilized in order to perform sensing multiple parameters. The proposed fabrication processes and the materials used were chosen to avoid the interference of these parameters on each other when detecting one of them. The simulation results were translated into analog voltage from Labview software, transmitted via Bluetooth network, and received on desktop computers within the vicinity of the sensor system. The mathematical models and simulation results showed as high as 95% accuracy in measuring temperature, and the 5% error was caused from the interference of the surrounding gas. Within 7% change in pressure was impacted by both temperature and gas interference.Index Terms-Wind energy, nanotechnology, pressure sensors, temperature sensors, SOC.

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Temperature, gas and pressure ECG sensor by using carbon nanotube

Sun

Rizkalla

2013

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This paper introduces a method to combine temperature, gas and pressure sensor to a system on a chip. The sensing elements are single walled carbon nanotubes (SWCNT). CNT has excellent resistance changes when the condition changes. Thus, based the I-V curve, the resistance changes are measured. There is a typical issue using CNT to measure the temperature and the gas since both factors have effects to the resistance. This paper provides an interesting method to fix this problem.

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The Design and Implementation of Intellectualized PSTN in China

Wang¹,

Sun²,

Gong³

2013

JDCTA

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SOC Nanobased Integrated Wireless Sensor System

Sun¹,

Rizkalla²,

El-Sharkawy³

2014

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Research and Implementation of Large Scale Enterprise-Class Call Center

Wang

Sun

2012

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Penghua Sun

Integrated Sensor Wireless System for Alternative Energy Applications

Temperature, gas and pressure ECG sensor by using carbon nanotube

The Design and Implementation of Intellectualized PSTN in China

SOC Nanobased Integrated Wireless Sensor System

Research and Implementation of Large Scale Enterprise-Class Call Center

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