Detail publikace

ASIC for electro-chemical sensor conductivity measurement using bipolar pulse method

Originální název

ASIC for electro-chemical sensor conductivity measurement using bipolar pulse method

Anglický název

ASIC for electro-chemical sensor conductivity measurement using bipolar pulse method

Jazyk

en

Originální abstrakt

The microelectronic measuring system for conductivity electrochemical sensor measurement of liquid materials properties was designed in CMOS technology. The main parts of the system are current source with switchable ranges, the sensor switches allowing change of the current polarity in compliance with the bipolar pulse method, which was developed specially for this measurement purposes at the Dept.of Microelectronics. The most important part of the system is a sensor voltage drop measuring circuit using opamp offset switched compensation.

Anglický abstrakt

The microelectronic measuring system for conductivity electrochemical sensor measurement of liquid materials properties was designed in CMOS technology. The main parts of the system are current source with switchable ranges, the sensor switches allowing change of the current polarity in compliance with the bipolar pulse method, which was developed specially for this measurement purposes at the Dept.of Microelectronics. The most important part of the system is a sensor voltage drop measuring circuit using opamp offset switched compensation.

BibTex


@article{BUT45347,
  author="Roman {Prokop} and Lukáš {Fujcik}",
  title="ASIC for electro-chemical sensor conductivity measurement using bipolar pulse method",
  annote="The microelectronic measuring system for conductivity electrochemical sensor measurement of liquid materials properties was designed in CMOS technology. The main parts of the system are current source with switchable ranges, the sensor switches allowing change of the current polarity in compliance with the bipolar pulse method, which was developed specially for this measurement purposes at the Dept.of Microelectronics. The most important part of the system is a sensor voltage drop measuring circuit using opamp offset switched compensation.",
  address="TU-Sofia",
  chapter="45347",
  institution="TU-Sofia",
  journal="Electronics",
  number="9",
  volume="16",
  year="2007",
  month="september",
  pages="43--48",
  publisher="TU-Sofia",
  type="journal article - other"
}