DE19724888B4 - Gas measuring head with an electrochemical gas sensor - Google Patents

Abstract

Gas measuring head comprising an electrochemical gas sensor having an electrode arrangement, electrical circuits for conditioning the electrical analog signals emitted by the electrode arrangement and converting them into digital signals, and a microprocessor adapted to receive and further process the digital signals, wherein the between the Electrode assembly and the microprocessor (20) lying electrical circuits for processing and implementation as integrated circuits on a chip (10) are executed so that only digital signals from the chip (10) to the microprocessor (20) are transmitted,
the chip carrying the electrical circuits (10) is integrated in the electrochemical gas sensor (2)
and the electrical circuits comprise a potentiostat circuit (11) for supplying the electrochemical gas sensor (2), a. Amplifier circuit (12) for the output from the gas sensor electrical analog signals and an analog-to-digital converter circuit (13).

Description

The The invention relates to a gas measuring head with an electrochemical gas sensor according to claim 1.

Gas measuring heads of the mentioned type are known and will be in a variety of forms in various fields of application, in chemical production plants, in laboratories and plants where gases are used as operating resources be used to monitor Control or used as an alarm.

So goes out of the DE 196 43 920 A1 a monitoring system comprising an electrochemical gas sensor forth with an electrical circuit for processing the output analog signals with a microprocessor and with a downstream digital / analog converter, which is designed to receive and forward the signals.

From the post-published EP 0 800 079 A1 For example, an evaluation system for chemical sensors with one or more analog / digital converters has become known, wherein the individual circuits can be executed on a circuit board, but no integration takes place on one chip.

The GB 2 284 059 A relates to a Gasmeßkopf with an electrochemical gas sensor with an electrical connection line to a signal conditioning unit, which is equipped with an analog / digital converter and with a downstream microprocessor.

the Article: "Kunz, Walter, one for Everything, intelligent sensors and actuators for combined measuring and control tasks "; in factory 2000: Vogel Verlag, Würzburg, 1987, pages 163 to 169, can be seen, that sensor circuits in the case of the measuring head can be installed. When installing the circuits in the sensor housing, the digital signals to a remote device for further signal processing and storage and control forwarded. Here is only the Note given certain circuits for signal conditioning and Analog / digital conversion into the sensor, that is in a housing, too integrate.

A typical example is gas sensors according to DE 38 19 128 C1 which can communicate with a central processing unit and operate as a system of distributed gas sensing heads. Each gas sensing head has at least one electrochemical gas sensor with electrodes that deliver an analog electrical signal representative of the concentration of the particular gas for which the gas sensor is sensitive. The electrical signals are processed via electrical circuits in Gasmeßkopf, for example, first amplified by means of an amplifier, optionally filtered, and then converted via an analog-to-digital converter into digital signals. The digital signals are then forwarded to a microprocessor in the gas measuring head, which calibrates, corrects and otherwise evaluates the signals and optionally forwards them or outputs them locally as measurement results. Further, the microprocessor can also perform control and test functions for the gas sensor and subsequent electrical circuits.

One Problem of the known Gasmeßköpfe exists in that the electrochemical gas sensors for measuring gases in air often only very small signals with measuring currents in the Magnitude 1 nA deliver. Due to the low in many areas prescribed Limit values of the gas concentration in air, to which the gas measuring head with high reliability is to address the problem of very small electrical gas sensor signals to aggravate in the future, as the permissible Limit values of gas concentrations in many areas in the future tend to sink.

The Evaluation of electrical gas sensor signals with measuring currents in the nanoampere range requires very sensitive electrical circuits for conditioning and further processing, which are inevitably susceptible to interference due to their high sensitivity by electromagnetic interference are. reinforced becomes susceptibility through the spatial Extension of the electrical circuits that are involved in the construction of the amplifier, of the analog-to-digital converter etc. can not be avoided with discrete electrical components. The spatial extent, and thus the vulnerability for induced disorders, increases significantly if more electrical circuits for more Functions are provided, such as electrical circuits for one digitally adjustable sensor bias, for sensor current limitation, for a digital adjustable sensor signal amplification, for a digital Setting an analog filter, for a circuit for determining the sensor temperature or for verification functions for the Gas sensor.

From the article "intelligent sensor systems, Peter Kleinschmidt, electronics 7/1991, pages 128 to 139" is the proposal known to realize the sensor element and an electronic chip on a common system carrier in a so-called smart sensor. However, electromagnetic interference can not be reliably prevented in the case of very sensitive sensors since this does not ensure safe and trouble-free transmission of the sensor signals to the microprocessor is taken care of.

It The object of the present invention is to provide a gas measuring head create, even with small electrical gas sensor signals a precise and across from electromagnetic interference insensitive measurement of the concentration of the respective gas is possible.

to solution serve this object, the features of claim 1. Advantageous embodiments The invention are set forth in the subclaims.

According to the invention are all electrical circuits, namely comprising a potentiostat circuit for supplying the electrochemical Sensors, an amplifier circuit for the from the gas sensor output electrical analog signals and a Analog-to-digital converter circuit, for processing and implementation the electrical analog signals of the gas sensor, in front of the microprocessor as integrated circuits on a chip, so that only digital signals are passed from the chip to the microprocessor be, wherein the chip carrying the electrical circuits in the Gas sensor is integrated, so that the integrated electrical circuits very close to the electrode assembly can lie and thus the sensitivity on electromagnetic interference, between the electrode assembly and the electrical circuits for the evaluation and implementation, is minimized. the interface at the gas measuring head between the gas sensor and the microprocessor is a purely digital Interface that is largely insensitive to electromagnetic interference. This is particularly advantageous because the gas sensors are often called exchangeable units are designed, which are optionally connected to the Gasmeßkopf can be. In this design, the preparation and implementation of the (sensitive) electrical analog signals already in the gas sensor itself instead of; You need to therefore not over Cables, connectors and the like are guided into the gas measuring head, but you can be forwarded as digital signals in the Gasmeßkopf.

By the integrated structure of the electrical circuits on a chip becomes their spatial Expansion significantly reduced, so that overall the susceptibility for electromagnetic disorders is significantly reduced. It also reduces susceptibility for electromagnetic disorders by building the circuits in micro-island technology possible.

The Invention will be described below with reference to an embodiment with reference described on the drawings, in which:

1 shows a schematic block diagram of gas sensor, chip and microprocessor, and

2 shows a schematic block diagram of gas sensor, chip and microprocessor, in this example, additional electrical measuring circuits are provided on the chip.

1 shows a schematic representation of an embodiment with relatively simple electrical circuits for preparation and implementation on the chip 10 , The gas sensor 2 is over several lines 4 with the chip 10 connected. On the chip 10 is a potentiostat circuit 11 and an amplifier circuit 12 for the gas sensor 2 provided electrical signals. In the amplifier circuit 12 the measuring current is amplified and the amplified signal then to an analog-to-digital converter 13 forwarded. After digitization, the signals from the chip 10 to the microprocessor 20 forwarded the Gasmeßkopfes. In the microprocessor 20 they are then processed, corrected and subjected to further evaluations upon request.

The representation in 1 is only schematic and not to scale. The chip 10 is actually much smaller than the gas sensor 2 , Advantageously, the chip 10 in the gas sensor 2 installed, so that the conduction paths 4 between the electrode assembly of the gas sensor 2 and the circuits 11 . 12 . 13 of the chip 10 can be very short and thus have little adverse effects on the subsequent electrical circuits. Besides, if the chip 10 in the gas sensor 2 even installed, the sensitive electrical analog signals already in the gas sensor 2 self-processed and implemented and only digital signals from the gas sensor 2 forwarded in the Gasmeßkopf to the microprocessor. This allows a simple electrical connection between the gas sensor 2 and the microprocessor 20 in the gas measuring head as a purely digital interface. This is particularly advantageous when the gas sensors are designed as detachable from the gas measuring and exchangeable units.

2 shows one 1 comparable schematic representation as a block diagram, wherein on the chip 10 further electrical circuits are provided to assist and improve the measurement. So is next to the potentiostat circuit 11 , the amplifier circuit 12 and the analog-to-digital converter 13 a circuit 16 for adjusting the gain of the amplifier circuit 12 intended. Further, a sensor current limiting circuit 14 , a control circuit 15 for checking the gas sensor functions, a temperature measuring circuit 17 for measuring the gas sensor temperature, and a bias circuit 18 for the gas sensor 2 provided, all of the microprocessor 20 can be addressed and controlled. The connection between the chip 10 and the microprocessor 20 is therefore designed in this case for bidirectional communication.

One Gasmeßkopf according to the invention can also work with another non-electrochemical based Sensor equipped with a comparable electromagnetic Susceptibility has: For this come semiconductor sensors, infrared optical sensors and sensors in question, the catalytic combustion of the gas to be measured evaluate (so-called pellistors).

Claims (4)

Gas measuring head comprising an electrochemical gas sensor having an electrode arrangement, electrical circuits for conditioning the electrical analog signals emitted by the electrode arrangement and converting them into digital signals, and a microprocessor adapted to receive and further process the digital signals, wherein the between the Electrode assembly and the microprocessor ( 20 ) lying electrical circuits for processing and implementation as integrated circuits on a chip ( 10 ) are executed so that only digital signals from the chip ( 10 ) to the microprocessor ( 20 ), the chip carrying the electrical circuits ( 10 ) in the electrochemical gas sensor ( 2 ) and the electrical circuits are a potentiostat circuit ( 11 ) for supplying the electrochemical gas sensor ( 2 ), one. Amplifier circuit ( 12 ) for the electrical analog signals emitted by the gas sensor and an analog-to-digital converter circuit ( 13 ). Gas measuring head according to claim 1, characterized in that the electrical circuits further comprise a circuit ( 17 ) for determining the temperature of the electrochemical gas sensor ( 2 ). Gas measuring head according to claim 1 or 2, characterized in that the electrical circuits further comprise a control circuit ( 15 ) for checking the gas sensor functions. Gas measuring head according to one of the preceding claims, characterized in that it further comprises at least one gas sensor ( 2 ) selected from the group of semiconductor sensors, infrared optical sensors or pellistors.