A simple and successful design of an autocompensative system with flip-flop sensor for measurement of capacitances is presented. The analysis of the sensor is based on the state description with the vertical rise segments of the control pulse. The theoretical results are compared with measured data and good agreement is reported
A 0.13-μm complementary metal-oxide-semiconductor (CMOS) technology capacitive measuring system has ...
AbstractIn the paper are presents the results of a practically realized prototype on an microcontrol...
Capacitance boxes (CBs) are extensively used in electrical laboratories for calibration of capacitan...
A simple and successful design of an autocompen-sative system with flip-flop sensor for measurement ...
This paper deals with a new type of system for measuring capacitances with the use of a flip-flop se...
The advantages of capacitance techniques formeasurement are well known and can be further enhancedby...
In this paper we deal with dynamic properties of the flip-flop sensor. Special attention will be pai...
Abstract—A circuit for capacitance measurements is described. The circuit permits offset capacitance...
The paper gives the design details of a new type of capacitance meter by which the capacitances and ...
A simple galvanostatic circuit methodology is reported allowing the capacitance of an electrochemica...
Abstract—In this paper, a monolithic complimentary metal– oxide–semiconductor (CMOS) autocompensated...
The present paper describes the development of a low cost, highly accurate low capacitance measureme...
The primary application of this work is to design and develop a reliable capacitance sensing system ...
This paper presents a low power capacitance to voltage converter (CVC) circuit using two differentia...
Capacitive sensors exhibit an electrical property called "capacitance" on the way to carry out the m...
A 0.13-μm complementary metal-oxide-semiconductor (CMOS) technology capacitive measuring system has ...
AbstractIn the paper are presents the results of a practically realized prototype on an microcontrol...
Capacitance boxes (CBs) are extensively used in electrical laboratories for calibration of capacitan...
A simple and successful design of an autocompen-sative system with flip-flop sensor for measurement ...
This paper deals with a new type of system for measuring capacitances with the use of a flip-flop se...
The advantages of capacitance techniques formeasurement are well known and can be further enhancedby...
In this paper we deal with dynamic properties of the flip-flop sensor. Special attention will be pai...
Abstract—A circuit for capacitance measurements is described. The circuit permits offset capacitance...
The paper gives the design details of a new type of capacitance meter by which the capacitances and ...
A simple galvanostatic circuit methodology is reported allowing the capacitance of an electrochemica...
Abstract—In this paper, a monolithic complimentary metal– oxide–semiconductor (CMOS) autocompensated...
The present paper describes the development of a low cost, highly accurate low capacitance measureme...
The primary application of this work is to design and develop a reliable capacitance sensing system ...
This paper presents a low power capacitance to voltage converter (CVC) circuit using two differentia...
Capacitive sensors exhibit an electrical property called "capacitance" on the way to carry out the m...
A 0.13-μm complementary metal-oxide-semiconductor (CMOS) technology capacitive measuring system has ...
AbstractIn the paper are presents the results of a practically realized prototype on an microcontrol...
Capacitance boxes (CBs) are extensively used in electrical laboratories for calibration of capacitan...