Your search keyword '"Charge amplifier"' showing total 76 results

1. 压电MEMS振动传感器调理电路设计与实现.

Author

武晓慧, 张慧毅, 耿文平, 郭 涛, and 丑修建

Abstract

Copyright of Journal of Test & Measurement Technology is the property of Publishing Center of North University of China and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

2. Comprehensive Noise Modeling of Piezoelectric Charge Accelerometer with Signal Conditioning Circuit.

Author

Ali, Ghulam and Mohd-Yasin, Faisal

Subjects

THERMISTORS, OPERATIONAL amplifiers, ELECTRIC noise, THERMAL noise, ACCELEROMETERS, NOISE

Abstract

This paper reports on noise modeling of a piezoelectric charge accelerometer with a signal conditioning circuit. The charge output is converted into voltage and amplified using a JFET operational amplifier that has high input resistance and low noise. The noise sources in the whole system include electrical and mechanical thermal noises of the accelerometer, thermal noises of resistors, and voltage and current noises of the operational amplifier. Noise gain of each source is derived from small signal circuit analysis. It is found that the feedback resistor of the operational amplifier is a major source of noise in low frequencies, whereas electrical thermal noise of the accelerometer dominates the rest of spectrum. This method can be used to pair a highly sensitive sensor with a single JFET operational amplifier instead of a multi-stage signal conditioning circuit. [ABSTRACT FROM AUTHOR]

Published

2024

3. A low-noise, high-gain, and large-dynamic-range photodetector based on a JFET and a charge amplifier.

Author

Wang, Jinrong, Wu, Shuang'e, Mi, Chengdong, Qiu, Yaner, and Bai, Xin'ai

Abstract

Copyright of Frontiers of Information Technology & Electronic Engineering is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

4. Comprehensive Noise Modeling of Piezoelectric Charge Accelerometer with Signal Conditioning Circuit

Author

Ghulam Ali and Faisal Mohd-Yasin

Subjects

noise, modeling, piezoelectric, accelerometer, charge amplifier, Mechanical engineering and machinery, TJ1-1570

Abstract

This paper reports on noise modeling of a piezoelectric charge accelerometer with a signal conditioning circuit. The charge output is converted into voltage and amplified using a JFET operational amplifier that has high input resistance and low noise. The noise sources in the whole system include electrical and mechanical thermal noises of the accelerometer, thermal noises of resistors, and voltage and current noises of the operational amplifier. Noise gain of each source is derived from small signal circuit analysis. It is found that the feedback resistor of the operational amplifier is a major source of noise in low frequencies, whereas electrical thermal noise of the accelerometer dominates the rest of spectrum. This method can be used to pair a highly sensitive sensor with a single JFET operational amplifier instead of a multi-stage signal conditioning circuit.

Published

2024

5. An All LTPS-TFT-Based Charge-Integrating Amplifier for Sensor-Array Readout Circuit on Flexible Substrate

Author

Mohit Dandekar, Kris Myny, and Wim Dehaene

Subjects

Capacitive micromachined ultrasonic transducer (CMUT) array, charge amplifier, LTPS-TFT, passive-pixel readout, transimpedance amplifier (TIA), Electric apparatus and materials. Electric circuits. Electric networks, TK452-454.4

Abstract

This article presents the design of a readout circuit for charge-output sensor arrays integrated on a flexible substrate. The charge-integrating amplifier is built with a current-output transimpedance amplifier that includes the integrator function with reset. The charge-integrating amplifier has a fully differential internal topology, improving over single-ended design, including the feedback amplifier implemented specifically as a Nauta-transconductor. The readout circuit has been manufactured in a 3- $\mu \text{m}$ low-temperature polysilicon process on foil and measured, achieving a bandwidth of 200 kHz, operation at a 5-V supply while consuming 586- $\mu \text{W}$ power and maintaining a maximum integral nonlinearity of 5%.

Published

2022

6. Influence Function Measurement Technique Using the Direct and Indirect Piezoelectric Effect for Surface Shape Control in Adaptive Systems.

Author

Muganda, James M., Jansen, Bas, Homburg, Erik, van de Burgt, Yoeri, and den Toonder, Jaap

Subjects

*ADAPTIVE control systems, *PIEZOELECTRICITY, *PIEZOELECTRIC materials, *DEFORMATION of surfaces, *OPTICAL images

Abstract

Since the introduction of adaptive systems for corrective measures, static and dynamic disturbances have been reduced through the manipulation of surface shape in a well-controlled manner. One important application where adaptive systems are highly needed is in the future photo-lithography machines, particularly the wafer table where disturbances affect overlay and focus performance. To reduce overlay and focus errors, a dense array of actuators must be integrated into the wafer table to apply both in- and out-of-plane corrective deformations to the wafer surface. To realize a certain wafer shape, influence functions are linearly superimposed. Accurate models of the influence functions result in an accurate prediction of the final wafer shape. To reduce calibration errors, the influence function of every actuator needs to be determined. Here, we propose a technique to rapidly measure the influence function: the influence function measurement (IFM) technique. Using the actuate-sense property of piezoelectric materials, the influence function is determined by activating one piezo-actuator and measuring the charge induced on the neighboring piezo-actuators. The measured charges are compared to the results of finite element simulations and the absolute difference of 0.3 % is reported for the inter-actuator charge coupling parameters. This clearly indicates the potential of the proposed technique. Note to Practitioners—A critical step during the integrated-circuit lithographic fabrication process is the exposure. A particular practical challenge in this step is to correct for the mismatch between the optical image plane and the wafer surface, caused by wafer deformations. The mismatch negatively impacts the overlay and focus performance. To reduce the mismatch, actuators can be embedded into the wafer table to counteract wafer deformations, where the overall wafer surface shape is a superposition of each actuator’s influence function. As part of the calibration for the embedded actuators, their influence functions are measured and stored. However, errors arise when influence functions are not measured for every actuator. Additionally, for different wafers, the influence functions vary hence the calibration should be done per wafer. This calibration process takes time and should not influence throughput. Our paper presents a viable approach that reduces the calibration time of active wafer tables, which is also relevant for other adaptive systems such as deformable mirrors. Since the technique requires the actuators to be mechanically coupled, it is limited to continuous surfaces. The proposed technique is numerically tested and experimentally verified to demonstrate performance. [ABSTRACT FROM AUTHOR]

Published

2022

7. Negative Feedback Programmable Charge Amplifier for Control Piezoelectric Sensors.

Author

Zaidi, Muhaned

Subjects

PIEZOELECTRIC detectors, INTEGRATED circuits, SIMULATION software, TRANSIENT analysis, CAPACITORS, SUCCESSIVE approximation analog-to-digital converters

Abstract

This paper describes the design and operation of a programmable charge amplifier for a piezoelectric sensor. An operational amplifier (op-amp) circuit operates the charge amplifier. The purpose of this paper was to design and explain a novel approach for programmable charge amplifiers. A programmable charge amplifier is created by a host digitally (Serial Peripheral Interface (SPI)) and a network of negative feedback, which is a network of resistors and capacitors (RC) connected between an output and inverter input node of an op-amp, where the feedback capacitor is 15 pF and resistors are 12.5, 25, 50, 100, and 200 k. The analog switch was used to connect serial to RC and subsequently to SPI. The suggested circuit was developed and evaluated using discrete components; also, the programmable circuit design and results were generated using Linear Technology's Integrated Circuit Emphasis (LTSPICE) simulation software. It is powered by a ±5V battery. The open loop (AOL), Noise Gain (NG), and phase margin have all been demonstrated in ac analysis. AOL and UGF are set for varied all switches (AOL 107.26 dB and UGF 8.6 MHz), however NG exhibits stability when the feedback capacitor is larger than 15 pF and the feedback resistance is fixed since the design has a Rate-Of-Closure (ROC) smaller than 20 dB. On the other side, the phase margin is also stable. When the switches (the 5-bits of SPI) are activated, the feedback capacitor is set to 15 pF, resulting in the optimum stability, output voltage, settling time, and slew rate. These have been completed in the time domain (transient analysis). [ABSTRACT FROM AUTHOR]

Published

2022

8. 基于压电传感器的零点漂移改善电路的研究.

Author

王 帅, 李 杰, 张德彪, 孙 宁, and 江 杰

Abstract

Copyright of Computer Measurement & Control is the property of Magazine Agency of Computer Measurement & Control and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

9. Analysis of input impedance influence on calibration of charge conditioning amplifiers

Author

Gustavo P. Ripper, Ronaldo S. Dias, Giancarlo B. Micheli, and Cauê D. Ferreira

Subjects

Charge amplifier, Signal conditioner, Vibration, Accelerometer calibration, Electric apparatus and materials. Electric circuits. Electric networks, TK452-454.4

Abstract

This paper presents the updates implemented by the Vibration Laboratory of INMETRO on the electrical calibration of charge conditioning amplifiers. We can now carry out both standard classical calibrations with fixed in-series capacitors and including an adjustable parallel capacitance to match the total capacitance of a given pair of accelerometer plus cable. The calibration system and some analysis of measurement results are presented.

Published

2021

10. Lossy Integrator Readout Circuit With Active Bias Point.

Author

Dobrev, Dobromir P., Alnasser, Emad, and Neycheva, Tatyana D.

Abstract

The charge-generating sensors are widely used in many applications in consumer, automotive and medical electronics. They generate a charge proportional to the applied input quantity: pressure, temperature, acceleration, strain, light, etc. Usually, charge amplifiers are used to register such signals. The charge amplifier is an integrator that integrates the input current over time. In continuous-time signal processing, a parallel resistor is used to dissipate the energy stored on the integration capacitor, and such self-zeroed integrator circuits are known as lossy integrators. To achieve low-frequency operation, when a capacitor is in the picofarad range, a very high-ohmic resistor, in the range of gigaohms, must be used. Such a high-ohmic resistor increases the output offset voltage to an unacceptable level. To overcome the output offset problems, a composite charge amplifier has been recently introduced. This paper presents an innovative lossy integrator readout circuit which contains only one opamp in the feedback. The circuit can be easily adapted to the needed gain and cut-off frequency. Its operation is validated by experimental results. The sufficiently low high-pass cut-off frequency allows the circuit to be used for biosignal amplification. Heart and respiration rates can be easily recorded with piezoelectric sensors attached to the wrist or lung wall. The presented circuit can benefit many applications where charge-to-voltage conversion is needed. [ABSTRACT FROM AUTHOR]

Published

2021

11. A smart idea to reject motion artefacts from ECG measurements due to sensor-body impedance.

Author

Kalra, Anubha Manju, Anand, Gautam, Lowe, Andrew, Simpkin, Ray, and Budgett, David

Subjects

*ARRHYTHMIA, *SIGNAL-to-noise ratio, *OHMIC contacts, *SIGNAL reconstruction, *SILVER chloride, *ELECTRONIC circuits

Abstract

Electrocardiogram (ECG) records the electrical activity of the heart and is the most significant diagnostic indicator of health. The electrical activity propagates towards the skin and is typically measured using gel silver/silver chloride (Ag/AgCl) electrodes. The quality of the measured signal depends on the amplitude of the electrical activity, the conductivity of the tissues and skin, and that of the measuring electrode. Gel electrodes can cause skin irritability and are not suitable for long-term measurements requiring the diagnosis of paroxysmal arrhythmias. Dry electrodes are comparatively comfortable to wear but are highly dependent on body hair, sweating, and movement. Non-contact electrodes on the other hand avoid ohmic contact with the skin by providing a capacitive coupling between the skin and the electrode. They can be easily worn over clothing or can be measured from a distance. However, motion artefact remains the biggest challenge in such systems. This study proposes a novel two-channel circuitry for ECG acquisition along with a mathematical model to mitigate the effect of changing sensor-electrode capacitance in non-contact sensors. This method was modeled and validated at different sensor-electrode positions or air-gaps. The effect of change in mutual and parasitic capacitance between the sensor's channels, body tissue impedance, and the ratio of the areas of the two channels was also analysed in terms of Signal to Noise Ratio (SNR). The highest SNRs were achieved with smaller air-gaps and higher ratios of channels' areas. [Display omitted] • Motion artefact remains a major challenge in ambulatory and capacitive Electrocardiogram monitoring. • A novel technology that can be used for long-term and efficiently reject/eliminate motion artefacts has been proposed. • Signal reconstruction was possible using a two-channel electronic circuit and mathematical equations. • This study considered mutual and parasitic capacitances, tissue impedances, and electrode area changes. [ABSTRACT FROM AUTHOR]

Published

2024

12. A Fully Printed Ultra-Thin Charge Amplifier for On-Skin Biosignal Measurements

Author

Mika-Matti Laurila, Hiroyuki Matsui, Rei Shiwaku, Mikko Peltokangas, Jarmo Verho, Karem Lozano Montero, Tomohito Sekine, Antti Vehkaoja, Niku Oksala, Shizuo Tokito, and Matti Mantysalo

Subjects

Printed electronics, ultra-thin amplifier, charge amplifier, biosignal amplifier, electronic skin, lab-on-skin, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

In this contribution, we propose a fully printed charge amplifier for on-skin biosignal measurements. The amplifier is fabricated on an ultra-thin parylene substrate and consists of organic transistors, integrated bias and feedback resistors, and a feedback capacitor. The fabrication process utilizes inkjet-printed Ag ink for source, drain, gate, and capacitor electrode metallization as well as for the interconnects between the amplifier elements. Dispensed polystyrene, 2,7-dihexyl-dithieno[2,3-d;2',3'-d']benzo[1,2-b;4,5-b']dithiophene (PS:DTBDT-C6), is used as the transistor channel material, dispensed poly(3-hexylthiophene) (P3HT) as the high-resistivity material for the printed resistors, and parylene as the capacitor dielectric. A pass band optimized for pulse-wave measurement (60 mHz to 36 Hz) is achieved with a maximum charge amplification of 1.6 V/nC. To demonstrate the potential of the proposed printed amplifier, a radial arterial pulsewave signal recorded with a printed piezoelectric poly(vinylidenefluoride-co-trifluoroethylene) (PVDF-TrFE) sensor was fed to it and the output was analyzed to quantify the similarity of the pulse-wave features calculated from the original signal and the amplifier output. The amplified signal contains all the essential features of a pulse wave, such as both systolic waves, the dicrotic notch, and diastolic wave, which enable the accurate derivation of the clinically relevant indices utilized in the evaluation of vascular health.

Published

2019

13. ANALYSIS OF A METHOD FOR MEASURING DEPOSIT IMPEDANCE PARAMETERS USING CHARGE AMPLIFIER AND LOCK-IN VOLTMETER.

Author

Wiśniewski, Dariusz

Subjects

IMPEDANCE control, ELECTRIC conductivity, POROSITY, ELECTRONIC amplifiers, VOLTMETERS

Abstract

Methods for measuring deposit parameters are often based on a capacitance or conductivity measurement aimed at estimating, e.g. deposit moisture content. In practice, these methods fail for materials with a low degree of homogeneity, a diverse porous structure or high conductivity, e.g. due to a high water content. This article demonstrates an approach that enables a more precise estimation of the parameters of any deposit. The presented method involves the use of a measuring system in a charge amplifier configuration and the application of a technique using lock-in detection or a lock-in voltmeter to determine resistance and capacitance parameters of a deposit based on signals received from the measuring system. This method can be successfully used wherever the test deposit material is highly heterogeneous and contains both dielectric and conductive materials. The article presents an example of a solution to a measuring system using two planar electrodes that can be dimensioned depending on the deposit dimensions. It is followed by a presentation of a method for converting the signal from the measuring system into impedance parameters of the deposit using a lock-in voltmeter. The analysis of the operation of the entire measuring system was modelled in Matlab/Simulink, and the operation results were presented. [ABSTRACT FROM AUTHOR]

Published

2021

14. A Solid-State Charge Detector With Gain Calibration Using Photocurrent.

Author

Song, Yixin, Rozsa, Jace, de Magalhaes, Joan Barros, Smith, Shea, Karlinsey, Benjamin, Kinnison, Whitney, Gustafson, Elaura, Austin, Daniel E., Hawkins, Aaron R., and Chiang, Shiuh-Hua Wood

Subjects

*DETECTORS, *DIFFERENTIAL topology, *DIFFERENTIAL amplifiers, *CALIBRATION, *TEST systems, *SPACE charge, *PHOTOCURRENTS, *FARADAY effect

Abstract

We describe a charge detector that utilizes a high-gain, differential solid-state amplifier with active reset and a novel technique to measure the gain using a custom optoelectronic system. Implemented in a 180-nm complementary metal–oxide–semiconductor (CMOS) process, the amplifier realizes a high gain of $8.9~\mu \text{V}/\text{e}-$ and single-pass rms noise of 475e− for 10-ms time interval with a 300-kHz low-pass filter corner. Operating at a sampling frequency of 10 kHz, the active reset extends the dynamic range of the detector. The amplifier is the first instance of a charge detector that combines a differential topology, active reset, and small feedback capacitors for low-noise, high-gain, high-dynamic-range, and robust operations. The proposed optoelectronic test system injects an adjustable input photocurrent as low as 33 pA to precisely quantify the detector’s gain without the need for a known calibration capacitance. The amplifier is directly wire-bonded to a PCB that has a built-in 1-cm2 Faraday cup. The gain and noise performance have been characterized for a range of input capacitance, and the results show good agreement with simulations. The test system additionally demonstrates the ability to inject a time-varying input at the picoamphere levels to characterize the dynamic response of the detector. An electrospray system confirms that the detector responds to free-space charge and that it can process an input as large as 56 000e− without saturation. The compact and high sensitivity design qualify the device for use in charge detection applications, such as mass spectrometry and space instruments. [ABSTRACT FROM AUTHOR]

Published

2020

15. Low-Power Ultrasonic Front End for Cargo Container Monitoring.

Author

Algueta-Miguel, Jose Maria, Garcia-Oya, Jose Ramon, Lopez-Martin, Antonio J., De la Cruz Blas, Carlos A., Munoz Chavero, Fernando, and Hidalgo-Fort, Eduardo

Subjects

*SHIPPING containers, *BIT error rate, *PIEZOELECTRIC transducers, *GATE array circuits, *DATA transmission systems, *HYPERSONIC planes

Abstract

A low-power ultrasonic communication front end conceived for cargo container monitoring is presented. Two piezoelectric transducers (PTs) operating at 40 kHz are fixed to the metallic wall by means of a customized magnetic case, allowing a noninvasive inside–outside communication preserving the container integrity. Once the resulting ultrasonic channel is characterized, an experimental measurement setup based on field-programmable gate array (FPGA) is implemented for testing some basic modulation and detection schemes in terms of bit error rate (BER), also considering their robustness against undesired mechanical and electromagnetic perturbations. On this basis, a compact digital differential binary phase-shift keying (DBPSK) modulator using a square carrier signal is proposed. Frequency and amplitude tracking algorithms are designed for optimizing the quality and robustness of the data transmission. Finally, a low-power low-rate (up to few kb/s) architectures based on the previous elements are presented. All the proposed contributions are experimentally validated. [ABSTRACT FROM AUTHOR]

Published

2020

16. A Novel Low Output Offset Voltage Charge Amplifier for Piezoelectric Sensors.

Author

Alnasser, Emad

Abstract

The charge amplifier is an important building block in various electronic circuits. In this paper a new charge amplifier for piezoelectric sensors is introduced. The advantages of the new proposed charge amplifier becomes obvious in the quasi-static applications. In some quasi-static applications the traditional charge amplifiers uses an extremely large feedback resistor (in the range of $\text{G}\Omega $) whereas the proposed charge amplifier no longer requires such extremely large resistors. Moreover the proposed circuit reduces the output offset voltage significantly in comparison with conventional charge amplifier. The proposed circuit can be also implemented by using general purpose JFET operational amplifiers instead of using electrometer operational amplifiers therefore the cost of implementation will be reduced significantly in comparison with conventional charge amplifier. The proposed charge amplifier was assembled by using general purpose JFET Op-Amp to capture and amplify the output voltage of the piezoelectric vibration sensor Minisense100. In this experiment the low-cutoff frequency and the gain of the proposed charge amplifier were set equal to 0.2Hz and 20.5 dB respectively. The output offset voltage of the circuit was measured equal to 210 $\mu \text{V}$.The measurement of very small vibration (±0.015g) showed a relative error equal to 2.1% with respect to the value which is obtained by using vibration meter as reference. [ABSTRACT FROM AUTHOR]

Published

2020

17. A charge amplifier with noise peaking suppression and gain drop compensation utilizing a Quasi-Miller RC network.

Author

Gu, Zhen and Bi, Xiaojun

Subjects

*NOISE, *WAGES, *NOISE measurement, *DROPLETS, *INTEGRITY

Abstract

A charge amplifier with noise peaking suppression and gain drop compensation is proposed. By utilizing the proposed Quasi-Miller RC network, the noise peaking is suppressed and gain drop is compensated, which alleviates the design trade-off between charge gain and output root-mean-square (RMS) noise, therefore obtains an improved sensitivity. Meanwhile, the Quasi-Miller RC network permits the charge amplifier to support ultra-low frequency operation without using a huge resistor, which is normally required by the charge amplifier. The fabricated charge amplifier demonstrates an input-referred RMS noise charge of 909 aC, a charge gain of 10.2 V/pC and a 3-dB bandwidth from 80 Hz to 38 MHz. Low noise and high charge gain are obtained simultaneously. Meanwhile, extremely low cut-off frequency is also obtained, which is beneficial to maintain the signal integrity. [ABSTRACT FROM AUTHOR]

Published

2019

18. Measurement System Based on Electrostatic Sensors to Detect Moving Charged Debris With Planar-Isotropic Accuracy.

Author

Addabbo, Tommaso, Fort, Ada, Mugnaini, Marco, Panzardi, Enza, and Vignoli, Valerio

Subjects

*DETECTORS, *GAS turbines, *ELECTROSTATICS, *TURBOMACHINES, *VELOCITY

Abstract

We present a measurement system capable to detect and reconstruct the trajectory of moving charged debris expelled with the exhaust gases or circulating in the lubricating oil of engines, aero-engines, or gas turbines. The measurement technique is based on a circular array of three electrostatic sensors used to estimate the trajectory, the charge, and the velocity of a moving charged particle. We discuss methods to process the information provided by the sensors, combining physical models and the geometrical characteristics of the sensor array, providing a theoretical characterization of the measurement accuracy, which is shown to be not dependent on the direction of the particle motion with respect to the sensor placement. The information obtained with the measurement system can be used to reject false positives when the sensors and the front-end electronics are used in noisy environments. [ABSTRACT FROM AUTHOR]

Published

2019

19. Experimental Study of Plasma-Impulse Impact: Intensity of Pressure Pulsations in the Medium Processed.

Author

Ageev, P. G., Ageev, N. P., Pashchenko, A. F., Kasilov, V. P., Ganiev, S. R., and Kurmenev, D. V.

Abstract

The results and methodology of the experiment on the definition of impulse pressure, created by a generator of a plasma-impulse impact in oil, are described. Excessive impulse pressure was measured at a given distance from the axis of the generator in various samples of oil differing in their physical-chemical characteristics. [ABSTRACT FROM AUTHOR]

Published

2019

20. 一种微弱电荷检测放大电路设计.

Author

杨志文, 赵冬青, 焦新泉, and 贾兴中

Abstract

Copyright of Electronic Components & Materials is the property of Electronic Components & Materials and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2019

21. A Parasitic Insensitive Catheter-Based Capacitive Force Sensor for Cardiovascular Diagnosis.

Author

Jeon, Sangkuk, Lee, JiYong, Hwang, Hyunseok, Ryu, WonHyoung, and Chae, Youngcheol

Abstract

This paper presents a catheter-based capacitive force sensor interface for cardiovascular diagnosis. The force sensor is implemented on a flexible printed circuit board (FPCB) substrate with a force-sensitive polydimethylsiloxane (PDMS), and a force-induced change in a capacitance of the sensor is measured by a precision capacitive sensor interface. To recover the performance degradation caused by the large parasitic capacitance ${\rm C}_{\rm P}$ of a long catheter, we present a parasitic insensitive analog front-end (AFE) with active ${\rm C}_{\rm P}$ cancellation, which employs a charge amplifier and a negative capacitor at the virtual ground of the charge amplifier. The prototype sensor was measured with a force loader in whole blood. The proposed AFE successfully cancels ${\rm C}_{\rm P}$ of 348 pF in a 0.9-m-long sensor and measurement results show the SNR of 53.8 dB and the capacitance resolution of 16 aF, a 19.6 dB improvement by canceling nonideal effect of ${\rm C}_{\rm P}$. This corresponds to a force resolution of 2.22 gf, which is 9.29 $\times$ reduction compared to the work without the ${\rm C}_{\rm P}$ cancellation. The proposed sensor interface is insensitive to ${\rm C}_{\rm P}$ from hundreds to 1-nF level, and the force-dependent stiffness of two different tissues has been successfully distinguished with an ex-vivo experiment. The proposed sensor interface enables the integration of capacitive force sensors in a smart catheter. [ABSTRACT FROM AUTHOR]

Published

2018

22. A Charge Sensitive Pre-Amplifier for Smart Point-of-Care Devices Employing Polymer-Based Lab-on-a-Chip.

Author

Wang, Hanfeng, Britton, Charles, Quaiyum, Farhan, Pullano, Salvatore A., Taylor, Logan, Fiorillo, Antonino S., and Islam, Syed K.

Abstract

With increasing emphasis on implantable and portable medical devices, low-power, small-chip-area sensor readout systems realized in lab-on-a-chip (LOC) platforms are gaining more and more importance. The main building blocks of the LOC system include a front-end transducer that generates an electrical signal in response to the presence of an analyte of interest, signal processing electronics to process the signal to comply with a specific transmission protocol, and a low-power transmitter, all realized in a single integrated circuit platform. Low power consumption and compactness of the components are essential requirements of the LOC system. This brief presents a novel charge sensitive pre-amplifier developed in a standard 180-nm CMOS process suitable for implementing in an LOC platform. The pre-amplifier converts the charge generated by a pyroelectric transducer into a voltage signal, which provides a measurement of the temperature variation in biological fluids. The proposed design is capable of providing 0.8-mV/pC gain while consuming only $2.1~{\mu }\text{W}$ of power. The pre-amplifier composed of integrated components occupies an area of 0.038 mm2. [ABSTRACT FROM AUTHOR]

Published

2018

23. Noise of a JFET Charge Amplifier for Piezoelectric Sensors.

Author

Durdaut, Phillip, Penner, Veronika, Kirchhof, Christine, Quandt, Eckhard, Knochel, Reinhard, and Hoft, Michael

Abstract

A comprehensive noise model of a junction gate field-effect transistor (JFET) charge amplifier is presented for applications with piezoelectric sensors. Based on this previously reported amplifier structure, a noise equivalent circuit is derived and discussed. Universal noise gain expressions for each of the twelve considered noise sources are given. By means of an analytical description of the charge amplifier’s noise behavior, the design and optimization of such preamplifiers for various capacitive microelectromechanical sensor systems will be distinctly simplified. Calculations of the noise floor are compared with measurements with a cantilever-type magnetoelectric sensor and with the performance of a so far commonly utilized basic charge amplifier. With the JFET charge amplifier a noise reduction of approximately 22 dB is achieved in the vicinity of the utilized sensor’s resonance frequency of 7.45 kHz. The reported amplifier is the first which has no negative influence on the total noise level of a resonant magnetoelectric sensor system. [ABSTRACT FROM PUBLISHER]

Published

2017

24. 基于 ARM 的多通道电荷放大器的设计与测试.

Author

彭俊华, 吴义鹏, 裘进浩, 季宏丽, and 王玉海

Abstract

Copyright of Piezoelectrics & Acoustooptics is the property of Piezoelectric & Acoustooptic and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2017

25. A Low-Power Wireless Piezoelectric Sensor-Based Respiration Monitoring System Realized in CMOS Process.

Author

Mahbub, Ifana, Pullano, Salvatore Andrea, Wang, Hanfeng, Islam, Syed Kamrul, Fiorillo, Antonino S., To, Gary, and Mahfouz, M. R.

Abstract

This paper presents a methodology of monitoring respiration pattern using piezoelectric transducer incorporating CMOS integrated circuits for signal processing and data transmission. As a proof of concept, the system has been tested by placing electrodes on human chest using adhesive hydrogel to detect the pulsatile vibration due to respiration. The system can be used either as a wearable device itself or alternatively can be attached to a jacket or a chest belt. The front-end transducer is a piezoelectric material-based sensor, which is comprised of a ferroelectric polymer named polyvinylidene-fluoride (PVDF). PVDF is also biocompatible, which makes the sensor suitable to be used as a wearable device. The charge produced by the sensor is converted to a proportional voltage signal with the help of a charge amplifier designed in a standard 130-nm CMOS process with eight metal and one poly layer. The analog voltage signal acquired from the charge amplifier is then converted into a digital signal using a reconfigurable pipelined analog-to-digital converter for ease of transmission. An impulse-radio ultra-wideband transmitter operating in the frequency range of 3.1–5 GHz is designed for wireless transmission of the data. The smaller footprint, lighter weight, wireless telemetry, and low-cost material along with the low-power integrated CMOS circuitry for signal processing and data transmission make the proposed system an attractive choice for stable respiration monitoring system. [ABSTRACT FROM PUBLISHER]

Published

2017

26. Online Continuous Measurement of the Operating Deflection Shape of Power Transmission Belts Through Electrostatic Charge Sensing.

Author

Hu, Yonghui, Yan, Yong, Yang, Lu, Wang, Lijuan, and Qian, Xiangchen

Subjects

*OPERATING deflection shapes (Engineering), *POWER transmission, *DETECTORS, *ELECTRONIC amplifiers, *ELECTRONICS

Abstract

The measurement of the operating deflection shape (ODS) of power transmission belts is of great importance for the fault diagnosis and prognosis of industrial belt drive systems. This paper presents a novel method based on an electrostatic sensor array to measure the ODS of a belt moving both axially and transversely. The electrostatic sensor integrates a charge amplifier that converts the induced charge on a strip-shaped electrode into a voltage signal. Finite-element simulations are performed to study the sensing characteristics of the sensor and the results reveal that the sensor can respond to vibration displacement. Construction of the ODS is achieved in the frequency domain using the ODS frequency response function. Comparative experimental studies with a high-accuracy laser displacement sensor were conducted on a purpose-built test rig and the results show that the vibration frequencies and their relative magnitudes obtained from both sensors agree well with each other. Experiments conducted over a range of belt axial speeds show that the belt vibrates at frequencies that are well separated and identifiable using a peak picking method. The measured ODSs of the first three vibration modes illustrate that the vibration displacement is larger in the middle of the belt span than at both ends and that the phase shift relative to the reference sensor at each measurement point increases monotonically along the belt running direction. The belt axial speed determines the vibration frequencies and displacement, which reaches the maximum amplitude around the natural frequency of the belt. [ABSTRACT FROM AUTHOR]

Published

2017

27. Charge sensitive preamplifier design optimization for low-pressure Micro-Megas gaseous detector operations.

Author

Avanzini, C., Balestri, G., Carosi, R., Dell'Orso, R., Frasconi, F., Magazzù, C., Massa, M., Moggi, A., Pilo, F., Terreni, G., and Morsani, F.

Subjects

*PREAMPLIFIERS, *SIGNAL-to-noise ratio, *DETECTORS

Abstract

Using a bulk Micro-Megas (MM) detector an energy measurement can be obtained collecting the total charge reaching the mesh electrode connected to a low noise charge sensitive preamplifier. When operating such a device in a low-pressure gas regime, it is necessary to modify the amplification gap geometry to reach the optimal detector gain. This implies changes in the input capacitance of the preamplifier influencing its signal to noise ratio and thus the detector energy resolution. An ad-hoc high-gain and low-noise charge preamplifier has been developed to cope with the requirements of our application field. In this short report, we present the development activities focused to the study of a configurable charge amplifier to be connected to a MM detector having different mesh capacitances. [ABSTRACT FROM AUTHOR]

Published

2023

28. An Analog Front-End for a Multifunction Sensor Employing a Weak-Inversion Biasing Technique With 26 nVrms, 25 aCrms, and 19 fArms Input-Referred Noise.

Author

Maruyama, Masahiko, Taguchi, Shigenari, Yamanoue, Masafumi, and Iizuka, Kunihiko

Subjects

ANALOG circuits, MULTIFUNCTION peripherals, INSTRUMENTATION amplifiers, DELTA-sigma modulation, ACOUSTIC transients

Abstract

An analog front-end (AFE) for a multifunction environmental sensor is proposed. The AFE is designed to be able to sense 1~\mu \text V , 1 fC, and 1 pA level signals in a low-frequency band around DC, and consists of an instrumentation amplifier (IA), a charge amplifier (CA), and a continuous time delta-sigma (CT- \Delta \Sigma ) ADC. To reduce the low-frequency noise of operational amplifier (OPAMP) which is used for signal path, this paper proposes a weak-inversion biasing technique. The designed IA achieved 26 nVrms input-referred noise (IRN) in the band of 0.1–10 Hz with 0.22 mm2 die area. The designed CA achieved 25 aCrms IRN in charge sensing mode and 19 fArms IRN in current sensing mode in the band of 0.01–1 Hz, respectively, and occupies 0.12 mm2 die area. The AFE has been fabricated in a 0.18~\mu \text {m} CMOS process with 4.5 mm2 die area. The current consumption at 2.56 kHz output data rate (ODR) is 2.5 mA, reducing to 2~\mu \text {A}$ at 0.01 Hz ODR. [ABSTRACT FROM PUBLISHER]

Published

2016

29. An HEMT-Based Cryogenic Charge Amplifier for Sub-kelvin Semiconductor Radiation Detectors.

Author

Phipps, A., Sadoulet, B., Juillard, A., and Jin, Y.

Subjects

*MODULATION-doped field-effect transistors, *CRYOGENICS, *ELECTRONIC amplifiers, *KELVIN (Unit of measurement), *SEMICONDUCTOR nuclear counters, *ELECTRIC noise

Abstract

We present the design and noise performance of a fully cryogenic ( $$T=4$$ K) high-electron mobility transistor (HEMT)-based charge amplifier for readout of sub-kelvin semiconductor radiation detectors. The amplifier is being developed for use in direct detection dark matter searches such as the cryogenic dark matter search and will allow these experiments to probe weakly interacting massive particle masses below 10 GeV/ $$c^2$$ while retaining background discrimination. The amplifier dissipates $$\approx $$ 1 mW of power and provides an open loop voltage gain of several hundreds. The measured noise performance is better than that of JFET-based charge amplifiers and is dominated by the noise of the input HEMT. An optimal filter calculation using the measured closed loop noise and typical detector characteristics predicts a charge resolution of $$\sigma _q$$ =106 eV (35 electrons) for leakage currents below $$4 \times 10^{-15}$$ A. [ABSTRACT FROM AUTHOR]

Published

2016

30. Accurate LVDT Signal Converter.

Author

Petchmaneelumka, W., Songsuwankit, K., and Riewruja, V.

Subjects

DIFFERENTIAL transformers, RADIO detectors, DISPLACEMENT transducers, SIGNAL processing, CONVERTERS (Electronics), PHASE shifters

Abstract

A novel technique to implement a signal converter for an inductive displacement transducer, a linear variable differential transformer (LVDT), is proposed in this paper. The technique is based on the use of the proposed peak-amplitude finder and the zero-order sample and hold circuit (ZSH) instead of the synchronous demodulator used in traditional approach. The advantage of this technique is that the phase shift due to the dominant pole of the low-pass filter used in the traditional synchronous demodulator is avoided. Therefore, the fast response time of the proposed LVDT signal converter is achieved. The core displacement signal, which is varied in proportion to the position of the moving core of the LVDT, is accurately extracted to directcurrent (DC) voltage signal. The reference signal used to generate the control signal for the ZSH is directly provided by the output signal of the LVDT to prevent the phase shift caused by the LVDT structure. Performances of the proposed technique are discussed in detail and confirmed by the experimental demonstration using commercial devices. The purpose of the proposed technique is emphasized in terms of high accuracy, fast response, simple configuration and low cost. [ABSTRACT FROM AUTHOR]

Published

2016

31. Smart aggregate-based seismic stress monitoring system using a specially designed charge amplifier.

Author

Zhang, Haibin, Hou, Shuang, and Ou, Jinping

Subjects

EARTHQUAKE resistant design, DYNAMICAL systems, ELECTRONIC amplifiers, ELECTRIC charge, STRAINS & stresses (Mechanics)

Abstract

The potential of smart aggregate for seismic stress monitoring has been identified, but only moderate dynamic stress of relatively high frequency can be measured reliably due to the limitations of conventional charge amplifiers. To improve the performance of smart aggregate-based monitoring systems, a charge amplifier was designed especially for the demands of seismic stress monitoring. Its performance was tested in the low frequency range down to 0.05 Hz with high charge input up to 2 × 107 pC representing stress up to 100 MPa by feeding it frequency-sweep charge signals. With the specially designed amplifier, the performance of the smart aggregate-based monitoring system was tested in both frequency-sweep and amplitude-sweep loading tests, and the influence of lead zirconate titanate depolarization was evaluated at static loads of 4.8, 14.4, and 24 MPa. The results show that the demands of seismic monitoring with a smart aggregate-based system can be satisfied, and that the sensitivity of the system remains constant under dynamic loads up to at least 45 MPa. [ABSTRACT FROM AUTHOR]

Published

2016

32. Low-Noise Charge Preamplifier for Electrostatic Beam Position Monitoring Sensor at the ELENA Experiment.

Author

Baù, Marco, Ferrari, Marco, Ferrari, Vittorio, Søby, Lars, Marco-Hernandez, Ricardo, and Pedersen, Flemming

Subjects

ANTIPROTONS, SYNCHROTRONS, SIGNAL processing, ELECTRIC potential, ELECTRIC circuit design & construction

Abstract

The Extra Low ENergy Antiproton ring (ELENA) is a synchrotron under construction at CERN aimed to decelerate the antiprotons from the existing Antiproton Decelerator (AD) to an energy of 100 keV. The orbit measurement of the beam is accomplished by 20 electrostatic Beam Position Monitoring (BPM) sensors to measure complete orbits every 20 ms with a resolution of 0.1 mm for intensities in the range of 1-3×10 7 charges. For the conditioning of the pick-up signals from the BPMs a low-noise charge amplifier has been purposely designed and is under testing. The circuit must feature a bandwidth of 40 MHz and an equivalent input voltage noise spectral density of 0.4 nV/√Hz for a sensor capacitance C S of about 26 pF. After amplification, the sum and difference signals are analogically derived and sent over 50 m cables to further blocks for digitalization and processing. [ABSTRACT FROM AUTHOR]

Published

2015

33. Voltage drift compensation in charge amplifiers for DC measurements: Application to piezoelectric paint sensors.

Author

Payo, Ismael, Sánchez, Miguel, Rodríguez, David, and Juárez, Sergio

Subjects

*STRAY currents, *VOLTAGE, *EQUALIZERS (Electronics), *ELECTRONIC circuits, *SCIENTIFIC community, *PRESSURE-sensitive paint, *LEAD zirconate titanate films

Abstract

Voltage drift over time in charge amplifiers is a problem not fully solved yet for DC measurements and continues to be a challenge for the scientific community. In this study we analyse the factors that cause this unwanted effect and propose a new method to compensate it. An automatic electronic circuit compensates the drift effect in two stages: first, a closed-loop proportional–integral control is used to bring the output voltage of the charge amplifier to zero and hold it while no measurement is being taken; and second, the voltage drift is compensated with an open-loop control when measurement is being taken. The proposed method allows us to compensate the voltage drift whatever its magnitude. Simulation and experimental results show that the drift effect in the output voltage of the charge amplifier is attenuated up to 99%. • Performance of a controlled charge amplifier for DC applications. • Compensation of large parasitic DC leakage currents for removing voltage drift. • Voltage drift compensation before and while measurements are taken. [ABSTRACT FROM AUTHOR]

Published

2022

34. Integrated design of micro force sensor oriented to cell micro-operation.

Author

Zhen An, Chaoqun Xiang, Jinming Wang, Liping Dong, Lina Hao, An, Zhen, Xiang, Chaoqun, Wang, Jinming, Dong, Liping, and Hao, Lina

Subjects

*TACTILE sensors, *CELL membranes, *POLYVINYLIDENE fluoride, *FREQUENCY response, *SIGNAL processing, *ELECTRIC potential, *ELECTRICITY, *GENETIC engineering, *HYPODERMIC needles, *MECHANICS (Physics), *PRODUCT design, *POLYSTYRENE

Abstract

Background: During the process of cell micro operation, the contact force between the entry needle and the cell membrane is usually a very small area to be tested.Objective: These two features have been utilized to design a high precision micro force sensor to provide a force feedback in the process of cell micro operation.Methods: However, PVDF (Polyvinylidene Fluoride) has continued to display both a wide range of frequency response and a highly sensitive transform between force and electricity. In this paper a charge signal is obtained. In order to transform the charge signal into a voltage signal, a signal processing circuit was designed. The data acquisition card PCI-6221 (National Instruments) was used. It was employed to collect the voltage signal.Results: The resultant micro force sensor was calibrated by using a rating test.Conclusions: The experimental test results demonstrated that the sensitivity and linearity of the designed micro force sensor were higher than the sensitivity and linearity of a traditional piezoelectric sensor. [ABSTRACT FROM AUTHOR]

Published

2015

35. Theoretical characterization of a gas path debris detection monitoring system based on electrostatic sensors and charge amplifiers.

Author

Addabbo, T., Fort, A., Garbin, R., Mugnaini, M., Rocchi, S., and Vignoli, V.

Subjects

*ELECTROSTATICS, *ELECTRONIC amplifiers, *MECHANICAL behavior of materials, *TIME-varying systems, *ELECTRIC potential, *GAS turbines

Abstract

The electrostatic detection of gas path debris has been proposed in literature as a tool to monitor mechanical component faults along the combustion gas path of turbo-machines. In this paper we discuss the general theoretical characterization of a debris detection monitoring system based on electrostatic sensors and charge amplifiers. We first provide the analytical expression of the time-varying charge induced by the moving debris on the sensor surface. After introducing a simplified electric model of the charge amplifier, we discuss the effects of the amplifier bandwidth on the shape of the output voltage signal. Theoretical results have been validated with experiments. [ABSTRACT FROM AUTHOR]

Published

2015

36. Preliminary Study for the Establishment of DC Charge Calibration Facility at CSIR-NPL Using Charged Capacitance Source.

Author

Babita, Narula, Love, Thomas John, Saleem, Mohd, and Saxena, A.

Abstract

The present paper reports the details of the preliminary study towards the establishment of DC charge calibration facility at CSIR-NPL down to pico-coulomb ranges using charged capacitance source. The work involves the development of an automated electric charge generation and measurement setup using automation measurement program developed in LabVIEW programming environment. Charge measurements down to 100 pC have been performed with very good measurement accuracy and the expanded uncertainty has been evaluated as per ISO GUM document. [ABSTRACT FROM AUTHOR]

Published

2014

37. Modified Charge Amplifier for Stray Immune Capacitance Measurements.

Author

Oven, Robert

Subjects

*ALTERNATING currents, *ELECTRIC capacity, *FEEDBACK control systems, *CAPACITORS, *ELECTRONIC amplifiers

Abstract

It is shown theoretically and by experimentation that the ac stray immune capacitance meter based on the charge amplifier circuit can be modified to reduce the effects of the parasitic capacitance across the feedback capacitor. This is achieved by simply introducing a unity gain buffer amplifier within the circuit loop. [ABSTRACT FROM PUBLISHER]

Published

2014

38. CHARGE AMPLIFIER DESIGN METHODOLOGY FOR PVDF-BASED TACTILE SENSORS.

Author

PINNA, LUIGI and VALLE, MAURIZIO

Subjects

*ELECTRONIC amplifiers design & construction, *POLYVINYLIDENE fluoride, *TACTILE sensors, *ELECTROMECHANICAL effects, *PROTOTYPES, *THICKNESS measurement, *PIEZOELECTRIC materials, *HUMANOID robots

Abstract

This paper proposes and describes a charge amplifier-based interface electronics design methodology approach for piezoelectric polymer tactile sensors to be used for humanoid robot applications. The tactile sensor-consisting of a PVDF single sensor element-is illustrated, the electromechanical thickness mode behavior is modeled and a fabricated prototype is presented. The model allows associating the PVDF charge response to the effective load applied on the outer surface of the sensor. The model is also used as a key in the proposed design methodology to estimate the charge to be detected by the charge amplifier. A case study based on the design methodology approach is reported. The system (PVDF single taxel + interface electronics) is analyzed firstly, considering it as ideal and then when the nonidealities come into play. A charge amplifier-based interface electronics prototype is also presented. The implementation is used to validate the followed approach and then defining the design specs towards the dedicated IC design. Some experimental results are also reported. [ABSTRACT FROM AUTHOR]

Published

2013

39. Vibration Measurement Techniques for Wind Turbines Generator.

Author

Sarlea, Nicoleta, Balan, Horia, Munteanu jr., Radu, and Cozorici, Ioan

Subjects

TRANSDUCERS, PIEZOELECTRIC devices, ELECTRIC potential, ELECTRIC charge, ENGINEERING models, ELECTRICAL engineering

Abstract

The paper is focused on the measurement equipments used in monitoring and diagnosis of wind turbine generators. The vibration analysis components, i.e. piezoelectric transducers and charge amplifiers are discussed. Section II presents the two models of vibration transducers, namely the charge source and voltage source models are presented. The performances of piezoelectric transducers are highlighted based on the analytic equations that determine the operation of their elements. Sections III and IV refers to the charge and voltage amplifiers and highlights the influence of the component elements on the frequency response. At the same time it is presented the influence of the connectors linking of the transducer and of the amplifier on the amplifier's gain. In section V, experimental results, a three channel transducer-amplifier circuit, developed by the authors, is presented. The point is, that by using the similitude with electrical systems, it is highlighted the dissymmetry occurring between three measurement points placed on the stator of the wind turbine generator and shifted in space by 1200°. This dissymmetry represents an indication of mechanical faults in the motor. The oscillograms of the vibrations on the three channels of the wind turbine along with the quantities provided by the piezoelectric transducer-charge amplifier system are presented. These oscillograms are processed by an acquisition board. [ABSTRACT FROM AUTHOR]

Published

2013

40. A Dynamic Slew Correction Circuit for Low Noise Silicon Detector Pre-amplifiers.

Author

Ip, Henry M. D., Thomas, Stephen, Hart, Matthew, Prydderch, Mark, and French, Marcus

Subjects

*SILICON detectors, *LOW noise amplifiers, *TRANSISTORS, *ELECTRIC potential, *DETECTORS, *ELECTRIC charge

Abstract

This manuscript introduces a transistor level technique that results in simultaneous improved slew rate and noise performance for applications where only the final settled output voltage over a predefined time frame is important — such as silicon detector read out charge-to-voltage reset amplifiers. For large signal swings, slew limitation is detected and compensated dynamically. For non-slew limiting situations the amplifier operates normally in a low noise mode. To verify correct operation of the dynamic slew correction circuit, a single-ended, pulse-reset charge amplifier was fabricated in IBM 130 nm 6M/2P technology. The test amplifier achieved a slew rate of 1V/120 ns with a 50 pF load and a total of \sim 23 \mu\!Vrms noise over 100 kHz–20 MHz . The reported amplifier also serves as the basis for the high performance front-end amplifier in the LPD detector system for the European XFEL. [ABSTRACT FROM PUBLISHER]

Published

2012

41. Charge‐mode interfacing of piezoelectric interdigital Lamb wave transducers.

Author

Giannelli, P., Bulletti, A., and Capineri, L.

Abstract

The adoption of charge‐mode amplification, rather than the classical voltage‐mode, to interface piezoelectric interdigital transducers made of polymer film to the data acquisition electronics is described. The circuit and operating principles of a charge amplifier are briefly explained, followed by the experimental comparison of a charge amplifier implementation with a solution based on an instrumentation amplifier. The experiments, based on A0‐mode Lamb wave transmission over an aluminium plate, demonstrate the effectiveness of charge‐mode interfacing and its insensitivity to cable loading. [ABSTRACT FROM AUTHOR]

Published

2016

42. Implementation and Characterization of a femto-Farad Capacitive Sensor for pico-Liter Liquid Monitoring.

Author

Wei, J., Yue, C., Chen, Z.L., Liu, Z.W., Makinwa, K.A.A., and Sarro, P.M.

Subjects

MICROELECTROMECHANICAL systems, MICROFABRICATION, LOCK-in amplifiers, DETECTORS, MICROFLUIDICS, VOLUMETRIC analysis, ELECTRIC capacity

Abstract

Abstract: An fF-level capacitive sensor, intended for pL liquid measurements, has been fabricated with MEMS technology and successfully characterized. The sensor measures liquid level variations in a microfluidic channel. The sensor’s capacitance varies from 1.5 fF (channel empty) to 12.8fF (channel filled with 63 pL of water). To reliably detect such small capacitance changes, a low noise measurement system, based on a lock-in amplifier, was implemented. The measured sensitivity of the system is 14.1 mV/fF, and the capacitance detection limit is 0.057 aF/Hz1/2, which corresponds to a volumetric resolution of about 0.22 fL/Hz1/2. [Copyright &y& Elsevier]

Published

2009

43. Noise Minimization of MOSFET Input Charge Amplifiers Based on Δμ and ΔN 1/f Models.

Author

Bertuccio, G. and Caccia, S.

Subjects

*COMPLEMENTARY metal oxide semiconductors, *METAL oxide semiconductor field-effect transistors, *ELECTRONIC circuit design, *SEMICONDUCTOR industry, *CONVERTERS (Electronics), *DC-to-DC converters, *ELECTRIC current converters, *ON-chip charge pumps

Abstract

The optimization of the noise performance of integrated complementary metal-oxide semiconductor (CMOS) charge amplifiers is studied in detail considering accurate 1/f noise modeling for the input metal-oxide semiconductor field-effect transistor (MOSFET) biased in a strong inversion-saturation region. This paper aims to generalize and correct previously published analyses which have been based on two limiting and sometimes not applicable assumptions: a fixed MOSFETs bias current and the general validity of the McWhorter 1/f noise model. This study considers the two main 1/f noise models: 1) the mobility fluctuation, known as Δμ or Hooge model, which is followed by p-channel MOSFETs and 2) the carriers number fluctuation, also known as or ΔN McWhorter model, which is applicable only for n-channel MOSFETs. The front-end noise optimization is made with the 1/f component alone, thus determining the ultimate performance, and also considering the presence of series and parallel white noise sources. It is shown that different design criteria are valid of p-or n-channel MOSFETs: the Δμ model results in an optimum bias current and a different optimum gate width with respect to ΔN model. Two-dimensions suboptimum noise minimization criteria are derived when power or area constraints are imposed to the circuit design. Starting from experimental data on CMOS 1/f noise, examples of application of the presented analysis are shown to predict the lower limits of the i/f noise contribution for the currently available CMOS technologies. [ABSTRACT FROM AUTHOR]

Published

2009

44. Capacitive-Sensor Interface With High Accuracy and Stability.

Author

Nojdelov, Roumen and Nihtianov, Stoyan

Subjects

*PROTOTYPES, *DETECTORS, *CASCADE converters, *MEASUREMENT, *ELECTRIC currents, *ANALOG-to-digital converters, *DIGITIZATION, *TEMPERATURE

Abstract

This paper presents a capacitive-sensor interface with high accuracy and excellent stability. The range of the measured capacitance is up to 1 pF. The implemented circuit tolerates cable capacitances of up to 1 nF. Depending on the operation mode, the conversion time varies between 39 and 100 μs. The measurement principle permits a mode with compensation of small sensor leakage currents. The reference units are frequency, resistance, and resistance ratios, which provide high initial accuracy and a long-term stability. The measured temperature coefficient of the capacitance converter is about 2 ppm/K. A special multislope analog-to-digital conversion (ADC) is used, which, to increase the resolution, transfers itself at the beginning and at the end of the conversion process into an oversampling conversion. Based on the band-pass filtering function of the implemented ADC technique and the low-noise input stage used, a dynamic range of better than 14 b has been achieved for a cable capacitance that is less than 400 pF. [ABSTRACT FROM AUTHOR]

Published

2009

45. A Multispectral Analog Photon-Counting Readout Circuit for X-ray Hybrid Pixel Detectors.

Author

Perenzoni, Matteo, Stoppa, David, Malfatti, Mattia, and Simoni, Andrea

Subjects

*PIXELS, *COMPLEMENTARY metal oxide semiconductors, *DIGITAL electronics, *LOGIC circuits, *IMAGING systems, *ANALOG electronic systems, *ELECTRONIC systems, *TRANSISTOR-transistor logic circuits, *ELECTRONICS

Abstract

In this paper, an all-analog pixel architecture for the readout of X-ray pixel detectors with multiple energy discrimination is proposed. The circuit comprises a self-triggered reset charge amplifier and three distinct channels devoted to the detection on a specific energy band. Each channel is composed of an autocalibrated comparator, an energy window identification logic, and an analog counter with an adjustable dynamic range. A test prototype has been implemented with a standard complementary metal-oxide-semiconductor 0.35-μm technology. The pixel circuitry dissipates 15 μW at 3.3 V, has a noise equivalent charge of 82 e-rms at 200 fF, and allows, on each of the three channels, a dynamic range that exceeds 12 bits. The designed pixel is a square with a 109-μm pitch. [ABSTRACT FROM AUTHOR]

Published

2008

46. A Flexible Piezoelectric Sensor for Microfluidic Applications Using Polyvinylidene Fluoride.

Author

Wen-Yang Chang, Chun-Hsun Chu, and Yu-Cheng Lin

Abstract

A flexible technology for microfluidic applications using piezoelectric polyvinylidene fluoride (PVDF) and polydimethylsiloxane (PDMS) was developed. The flexible piezoelectric PVDF detects the flow rates and impulse pressure signal using piezoelectric characteristics. This study uses microelectromechanical systems (MEMS) technology to fabricate the sensing patterns on PVDF sheets, designs a molding transfer to form the microfluidic channels of the PDMS, and integrates them together. Experimental results show that PVDF films has good piezoelectricity at stretching ratio of 4, the flow rates ranged from 100 to 450 mL/min at dynamic controlling sensing, the miniature curvature radius is about 3 cm, and the cross section of the flexible microchannels is about 200 times 200 mum2. The feasibility studies show that molding transfer is an appropriate low-cost technology for fabricating the flexible piezoelectric channels. The PVDF can be easily manufactured using MEMS process because it has a good mechanical strength and electrochemical stability in polymers. [ABSTRACT FROM PUBLISHER]

Published

2008

47. Two-Stage Differential Charge and Transresistance Amplifiers.

Author

Massarotto, Marco, Carlosena, Alfonso, and Lopez-Martín, Antonio J.

Subjects

*TOPOLOGY, *DIFFERENTIAL association theory, *DIFFERENTIAL equations, *BESSEL functions, *BOUNDARY value problems, *REQUIREMENTS engineering, *INDUSTRIAL design, *TECHNICAL specifications, *TOTAL quality management

Abstract

A novel approach to the design of high-performance operational-amplifier-based differential charge and transresistance amplifiers is proposed. It is based on a two-stage topology: The first stage performs a differential measurement to single-ended signal conversion, providing a common-mode rejection that only depends on the matching between two resistors; the second stage filters the signal. Three novel topologies that are based on this technique are presented, analyzed, and measured, and design criteria are finally given. Their performance is compared with that of a state-of-the-art topology that is used as the benchmark, and it results in a better common-mode rejection ratio (CMRR). [ABSTRACT FROM AUTHOR]

Published

2008

48. In situ high-speed synchrotron X-ray beam profiling and position monitoring

Author

van Silfhout, R.G., Manolopoulos, S., Kyele, N.R., and Decanniere, K.

Subjects

*RADIATION, *X-rays, *PHYSICS instruments, *SCIENTIFIC apparatus & instruments

Abstract

Abstract: To take advantage of the very low source emittance of third generation radiation sources high-resolution in situ X-ray beam monitors are required in order to keep the X-ray beam focussed and incident on the sample. We present a compact device based on a linear photodiode array. It consists of relatively few diodes that measure the spatially resolved scattered X-rays from a thin polymer foil placed in the beam path. The device is vacuum compatible, inexpensive and radiation hard. The scattered X-rays are incident on a strip of photodiodes that are connected to a dedicated multi-channel charge-sensitive read-out chip. Test experiments performed at the European Synchrotron Radiation Facility (ESRF) show, that even at a relatively low-intensity bending magnet beam line, X-ray beam position and profiles are obtained extremely fast and precise. [Copyright &y& Elsevier]

Published

2007

49. MOSFET optimization in deep submicron technology for charge amplifiers.

Author

De Geronimo, Gianluigi and O'Connor, Paul

Subjects

*METAL oxide semiconductor field-effect transistors, *ELECTRONIC amplifiers, *COMPLEMENTARY metal oxide semiconductors, *ELECTRONIC noise, *DIGITAL electronics

Abstract

The optimization of the input MOSFET for charge amplifiers in deep submicron technologies is discussed. After a review of the traditional approach, the impact of properly modeling the equivalent series noise and gate capacitance of the MOSFET is presented. It is shown that the enhanced MOSFET model, when compared to the classical, produces a different resolution estimate and input MOSFET optimization result. The minimum channel length and the maximum allocated power are not always the best choice in terms of resolution. Also, in an optimized front-end, the low frequency noise contribution to the Equivalent Noise Charge may depend on the time constant of the filter. As an example, results from the commercial TSMC 0.25 mum CMOS technology are reported [ABSTRACT FROM PUBLISHER]

Published

2005

50. High stability X-ray spectroscopy system with on-chip front-end in charge amplifier configuration

Author

Guazzoni, Chiara, Chiesa, Marco, Sampietro, Marco, and Lechner, Peter

Subjects

*DETECTORS, *X-ray spectroscopy, *SILICON

Abstract

This paper presents the performance of a two-chip detector system based on a silicon drift detector and on a charge amplifier, part of the latter being integrated in the detector chip. The two-chip system is intended for high-resolution X-ray spectroscopy experiments in which stability of operation is mandatory to avoid on-line calibration procedures. Experimental measurements have been carried out to test the stability of the whole system with a quantitative analysis of the gain stability obtained by comparing X-ray spectra taken at different operating conditions, varying the temperature and/or the detector bias. A gain variation of less than 0.4% has been obtained at extreme operating conditions. The problems and critical aspects of the two-chip charge amplifier solution are discussed. [Copyright &y& Elsevier]

Published

2003