DE19602243A1 - Circuit arrangement for adapting an active sensor to an evaluation circuit - Google Patents

Abstract

A circuit arrangement is disclosed which permits connection of an active sensor (1) in the form of a binary current source to an electronic evaluation circuit (3) designed for use with a passive sensor. The electronic evaluation circuit (3) comprises a comparator (4) which produces a signal proportional to the speed (revs.) and a window comparator (6, 7) with which the functioning of the sensor (1) can be monitored. The voltage signal applied to the comparator (4) is produced by a resistor (R1) connected in series with the active sensor (1) and with a voltage divider (R2, R3) which is connected in parallel with the active sensor. The voltage signal is led to the N input of the comparator (4) via an RC element (R4, C1) and to the P input of the comparator (4) directly, thus ensuring that the comparator responds to fluctuations at the central tap (M) of the voltage divider. This circuit is not sensitive to fluctuations in the intensity or voltage of the supply current or to drift in the active sensor.

Description

The invention relates to a circuit arrangement for Adaptation of an active sensor to an evaluation circuit.

Such sensors are referred to as active sensors provide binary current signal. Such sensors are often based on the magnetoresistive effect, which is that the electrical resistance of a thin ferro-magnetic Layer due to the action of an external magnetic field in the Layer level changed. There will be several such resistors summarized to a Wheatston bridge, whereby the evaluation of the difference of the voltages at the middle handles the bridge are used to form power sources in this way ten that a binary current signal at the output of the sensor lies.

Such a sensor can e.g. B. for speed measurement on vehicle wheels are used, with the most sensitive to magnetic fields Resistance of a toothed magnet wheel that is in contact with the vehicle wheel turns, is led past. The current delivered by the sensor signal is fed to an evaluation circuit that rotates number determined. It would be an advantage if usual evaluations circuits such as B. provided for so-called passive sensors are, could be used. An evaluation circuit for a passive sensor is e.g. B. DE 40 33 740 A1 ben. Since a passive sensor supplies voltage signals, is based the evaluation circuit on the evaluation of voltage changes gene.  

To be such an evaluation circuit with an active sensor To be able to drive, a current / voltage conversion is therefore necessary agile.

In principle, the output of the active sensor can be via a Resistance to ground can be switched so that the sensor current flows through the resistor and the voltage drop at Resistance of the evaluation circuit can be supplied.

Since the active sensor for operation is a very high minimum required voltage, the resistance may only have small values point, so that only a correspondingly small voltage signal is available, the disorder z. B. by voltage drifts the supply voltage may be greater than the voltage difference due to the binary current signal.

In the unpublished German patent application 4434180.6 has therefore already been proposed, the sensor current to supply a current mirror that represents a played current is smaller than the sensor current, the span voltage drop in the game current via a resistance of the evaluators teschaltung- is supplied.

However, such a current mirror circuit is very open agile. In addition, on the basis of the signal span obtained in this way no check of the sensor with regard to its radio efficiency by a window comparator be available in the usual evaluation circuits. It would therefore have to work out a separate monitoring circuit be tested.

The invention is therefore based on the task of a simple one Realize circuit arrangement that a voltage signal  provides that be evaluated by an electronic evaluation system can, the voltage signal also using a Window comparator also in terms of functionality speed of the sensor can be checked.

To this end, the invention proposes that the signal of a Current / voltage converter directly on the P input of a grain parators of the evaluation circuit and delayed to the N input of the comparator is performed.

The result of this is that the voltage does not come from the comparator signal itself, but the change in the signal is detected becomes.

The easiest way to delay is by an RC element realize, with a condenser at the N input of the comparator Tor against ground potential, which ge via a resistor will load.

The RC element is now designed so that it changes slowly Follow the current or voltage supply of the sensor can so that the comparator on such slow changes, as they e.g. B. by fluctuations in the supply voltage be called, does not respond.

As already explained, as a current / voltage converter in the Prin zip the voltage drop across a resistor in series with the active sensor is switched, can be provided. This Voltage signal does not allow comparison with one provided window comparator with which to be determined whether the sensor is possibly short-circuited or a short conclusion about the basic potential. It therefore becomes active Sensor a voltage divider connected in parallel, at whose Mit  tapping the signal voltage, which the comparator the Auswer Teschaltung is supplied, is removed.

The circuit is therefore suitable for connecting an active sensor to a To connect evaluation circuit, which via a first Kompa rator, which delivers the actual useful signal, and via a Window comparator, which has the sensor in terms of its Functionality monitored.

An embodiment of the invention is explained in more detail below with the aid of a circuit which is shown in FIG. 1. With 1 an active speed sensor is designated, the z. B. Be part of a motor vehicle control system, for example an anti-lock braking system, a traction control system, a driving stability control or the like. With the help of such sensors or wheel sensors, a signal can be obtained whose frequency is proportional to the rotational speed of the respective vehicle wheel. The output signal of the active sensor is determined by two current threshold values, namely a low current of 7 mA and a high current of 14 mA. The low current is required in order to maintain the proper functioning of the active sensor 1 .

The wheel sensor 1 is symbolically shown in FIG. 1 as a current source, which is composed of two individual current sources. One of these individual current sources supplies the low current, which is supplemented to the high current in a high phase of the signal by connecting the second individual current source in parallel or by an additional current component.

The second single power source can e.g. B. by means of the magneto resistive effect can be switched.  

The output of the active sensor is through a resistor R1 to the ground connection, that with the negative pole of a battery is connected. Because the active sensor has a high span voltage must be present, the resistance R1 is relatively small is still to get a sufficient voltage signal A voltage divider R3 / R2 is used in parallel with the active sensor tet, at the center tap M from the actual useful signal is gripped. The voltage U at point M can be after calculate the following formula.

It can be seen that the useful signal U _M consists of a basic voltage and a component which is proportional to the _sensor current I _sensor . Since this is switched between two values, there are also two values for the voltage U _M , which are between 1,600 and 1,900 mV for the low level and between 2,200 and 2,700 mV for the high level.

The voltage in the center tap M is placed directly on the input 2 of an electronic evaluation 3 . The input 2 is connected to the input (+) of a comparator 4 .

The center tap M is connected to a second input 5 of the electronic evaluation 3 via a second line, in which a resistor R4 is inserted and which is connected to ground via a capacitor C1, the second input 5 with the new input (-) of the comparator 4 is connected.

The electronic evaluation corresponds essentially to the description in DE 40 33 740 A1 already mentioned. The comparator 4 provides the actual useful signal that a further evaluation, which is not shown here, is supplied, and provides a value that corresponds to the speed.

However, input 2 is still connected to a window comparator 6, 7 , which consists of two comparators 6 and 7 , which are linked to a voltage chain 8 . The input 2 is at the P input of the first comparator 6 and at the N input of the two comparators 7th The respective other input is connected to different voltage stages of the voltage chain 8 . In this way it can be determined whether the voltage signal at input 2 lies between two limit values which are predetermined by the division of voltage chain 8 . If the voltage value is too high, the comparator 6 supplies a corresponding output signal which indicates that the active sensor may be short-circuited.

If the voltage value is too low, the comparator 7 supplies a corresponding value which indicates that there is a short circuit to ground. The corresponding signals of the window comparator 6 , 7 can subsequently be evaluated and, depending on the interpretation, lead to the system being switched off. The voltage divider R2 / R3 is matched to the pre-specified voltage chain 8 .

As already explained, the voltage in the center tap M is fed to the input 2 of the electronic evaluation unit 3 , while a time-delayed signal is present at the input 5 . Since a change in the switching process of the active sensor he increased or decreased voltage in the center tap leads first to a loading or unloading of the capacitor, so that the voltage at input 5 of the voltage at input 2 always lags a little in time. It is crucial, however, that the reference voltage at the N input of the comparator is used for slow changes in the center tap M, which, for. B. result from changes in the supply voltage, is tracked. The comparator 4 therefore responds only to changes in point M which are due to a change in the switching state of the active sensor. After a change in the switching state of the charge state of the capacitor and thus the voltage at input 5 is tracked accordingly. However, this is done with a time offset, so that a voltage difference is present at the comparator for a short moment (charging time capacitor), which causes an output signal which is registered in the comparator 4 connected counter. Every brief change in the center tap M therefore leads to a counting pulse in the evaluation circuit.

The time constant of the RC element should only be slightly small be less than half the pulse duration of the expected maximum Sensor frequency of the current signal of the sensor.

The circuit arrangement shown thus makes it possible to connect an active sensor to electronic evaluation electronics 3 , which was originally designed for so-called passive sensors.

Claims (4)

1. Circuit arrangement for adapting an active sensor to an electronic evaluation unit ( 3 ) which has a first comparator ( 4 ), the circuit arrangement having a current / voltage converter (R1, R2, R3), the output (M) of which to the P- Input of the comparator ( 4 ) is connected, characterized in that the output of the current / voltage converter is connected to the N input of the comparator ( 4 ) via a delay element (R4, C1). 2. Circuit arrangement according to claim 1, characterized net that the delay element from a capacitor (C1), connected to ground and a resistor (R4) consists. 3. Circuit arrangement according to claim 1, characterized in that the evaluation circuit has a window comparator ( 6 , 7 , 8 ) and that the output of the current / voltage converter is fed to the window comparator. 4. Circuit arrangement according to claim 1, characterized in that the current / voltage converter was from a first opposing (R1), which is connected in series with the active sensor to ground and a voltage divider (R2, R3), which is parallel to the active Sensor ( 1 ) is connected, the center tap (M) of the voltage divider (R2, R3) forming the output of the current / voltage converter.