Add to ORKGError analysis of a resistive sensor-to-microcontroller interface based on pulse-width modulation and time–ratio measurement shows that internal input and output resistances in microcontroller digital ports produce zero, gain and nonlinearity errors. The time–ratio measurement technique cancels these errors when the sensor resistance equals the reference resistor and reduces errors around that point. We propose two simple methods of reducing those errors for sensors with a wide dynamic range. Both methods use time–ratio measurements. The first method uses several reference resistors covering the sensor resistance range; the second method uses two-point calibration. The second method is more efficient and yields errors that can be smaller th...
This paper evaluates the performance of direct interface circuits (DIC), where the sensor is directl...
Direct interface circuits (DICs) avoid the need for signal conditioning circuits and analog-to-digit...
Direct interface circuits (DICs) avoid the need for signal conditioning circuits and analog-to-digit...
Error analysis of a resistive sensor-to-microcontroller interface based on pulse-width modulation an...
Direct sensor-to-microcontroller is a simple approach for direct interface of passive modulating sen...
Direct Interface Circuits (DICs) carry out resistive sensor readings using a resistance-to-time-to-d...
“© © 2016 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained fo...
A simple method to measure the resistance of a sensor and convert it into digital information in a p...
This paper proposes direct microcontroller interface circuit on Arduino platform, which is realized ...
Numerous non-ideal effects can distort the functionality of sensor interfaces and have to be conside...
Direct interface circuits are a simple, inexpensive alternative for the digital conversion of a sens...
Resistive sensor arrays are formed by a large number of individual sensors which are distributed in ...
Resistive sensor arrays are formed by a large number of individual sensors which are distributed in ...
The Universal Transducer Interface (UTI) is a mass-produced interface circuit which can realize the ...
Various non-ideal effects as well as environmental influences can affect the transfer characteristic...
This paper evaluates the performance of direct interface circuits (DIC), where the sensor is directl...
Direct interface circuits (DICs) avoid the need for signal conditioning circuits and analog-to-digit...
Direct interface circuits (DICs) avoid the need for signal conditioning circuits and analog-to-digit...
Error analysis of a resistive sensor-to-microcontroller interface based on pulse-width modulation an...
Direct sensor-to-microcontroller is a simple approach for direct interface of passive modulating sen...
Direct Interface Circuits (DICs) carry out resistive sensor readings using a resistance-to-time-to-d...
“© © 2016 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained fo...
A simple method to measure the resistance of a sensor and convert it into digital information in a p...
This paper proposes direct microcontroller interface circuit on Arduino platform, which is realized ...
Numerous non-ideal effects can distort the functionality of sensor interfaces and have to be conside...
Direct interface circuits are a simple, inexpensive alternative for the digital conversion of a sens...
Resistive sensor arrays are formed by a large number of individual sensors which are distributed in ...
Resistive sensor arrays are formed by a large number of individual sensors which are distributed in ...
The Universal Transducer Interface (UTI) is a mass-produced interface circuit which can realize the ...
Various non-ideal effects as well as environmental influences can affect the transfer characteristic...
This paper evaluates the performance of direct interface circuits (DIC), where the sensor is directl...
Direct interface circuits (DICs) avoid the need for signal conditioning circuits and analog-to-digit...
Direct interface circuits (DICs) avoid the need for signal conditioning circuits and analog-to-digit...