DE102006033705B3 - Switching arrangement for examining switching position of push button switch, which is used in automatic transmission of motor vehicle, has switch with two connections - Google Patents

Abstract

The connections of a switch (S) are connected to two different electrical potentials, which are generated by means of a supply voltage (V _p ), preferably by means of two voltage dividers (R _uh , R _dh ; R _u1 , R _d1 ), and those of the potentials of the Supply voltage are different. The electrical potentials present at the circuit inputs (IN _h , IN ₁ ) depend on the position of the switch (S). Not only the switch position can be checked via the voltage level measured and preferably digitized at these points, but also the presence of a faulty short circuit against a connection of the supply voltage.

Description

The The present invention relates to the verification of a switch position by means of an electronic circuit that helps against malfunction Short circuit is secured.

at This invention is intended to the position of a switch of an electrical Circuit can be detected. The switch has at least two Switching positions. In a first switching position, two electrical Connections bridged, that means, one electrical connection is made, and in a second switching position the electrical connection is interrupted. The switching position electrically checked by means of an electronic circuit allows on easy way to determine the state of an aggregate with connected to the switch. Such a determination of a switch position is used, inter alia, in motor vehicles, for example the position of a pressure switch to determine a hydraulic pressure in automatic transmissions.

In this case, the problem arises that in the measuring circuit, a short circuit of the lines connected to the switch against a potential of a supply voltage, in particular against ground, can occur. In the case of such a short circuit, the same measured values are determined independently of the switch position. If the terminals of the switch are each connected to a potential of a supply voltage, for example V _p and ground, a short circuit of the terminal connected to V _{p of} the switch to ground, a change in the switch position no change in the potential to be measured at the terminals more cause. The circuit arrangement is then useless for the intended purpose. Since the occurrence of such a mistake can not be avoided in practice, it is looking for ways to ensure the proper functioning of the circuit under all operating conditions.

The DE 39 41 319 A1 describes a method of switching monitoring in which a switch monitoring signal is generated and transmitted to the switch contact to be monitored, and in which the switch monitoring signal returning from the switch contact is detected and compared with the transmitted signal. In this case, a coded signal is used as a switch monitoring signal, which is supplied in series to the switching contact to be monitored.

From the DE 198 17 291 A1 is a method for determining the position of at least one connected to a microcontroller or the like switching device, it being provided that the microcontroller repeatedly outputs an output signal to the switching device and as a result an input signal is detected by the microcontroller, wherein after at least two repetition of the Input signals represent the position of the switching device.

The DE 102 50 398 A1 describes a circuit arrangement for detecting the state of at least one electrical switch, each having a set input and a respective sensor output, which are each associated with an electrical switch, wherein the sensor output upon application of a signal with the value logic "1" on the set Input is connected via a first current path with a first potential and when a signal with the value logic "0" at the set input to a second potential via a second current path, and where at a wake-up signal output, a wake-up Signal is generated when in the first or second current path, a current is detected which is greater than a predetermined threshold current.

From the DE 103 47 979 A1 a diagnosable switch arrangement is provided with a physical switch which has an open switching state and a closed switching state, at least one first switching resistor which is connected in series with the physical switch, at least one second switching resistor which is connected in parallel with the first switching resistor and the physical switch, a first switch contact, which is connected to the voltage divider node of a voltage divider circuit and a second switch contact, which is connected to the ground potential of the voltage divider circuit.

From the EP 0 920 038 A1 shows a circuit for monitoring the state of an AC switch with an input, which is connected via a diode and a resistor to a high-impedance input of a first digital module. One connection of the AC switch is connected to the phase of a mains voltage, the other connection to the input of the circuit. The high-impedance input of the first digital module is connected via a second resistor to an output of a second digital module. The output of the second digital module is connected after a predetermined time course either with the zero point of the mains voltage or carries a voltage which is greater than the threshold voltage of the input of the first digital module. At one of the input associated with the output of the first digital module, a signal is present, from which it can be deduced whether the AC switch is closed and the diode and the second resistor are intact, and whether the AC switch is open.

task The present invention is a way to check a Indicate switch position, which is better protected against malfunction is as previous circuit arrangements.

These Task is with the circuit arrangement with the features of the claim 1, in particular with a use of this circuit arrangement with the features of claim 7, or with a method to check a Switch position solved with the features of claim 8. refinements arise from the outgoing Claims.

The Circuitry and the method allow the position of a Switch independent from the occurrence of a short circuit and also, if necessary determine if a short circuit of a line against a terminal the supply voltage is present. It is advantageous here that not only the short circuit is detected, but the position the switch is still reliable and correct even with a short circuit can be determined. For this purpose the two connections of the Switch, that is, the Connections, the in a first switching position of the switch electrically conductive are interconnected and in a second switching position electrically from each other are separated, placed on electrical potentials that are different are different from each other and different from the potentials of the supply voltage.

If a connection of the supply voltage, for example, positive against Mass is, can for the potentials, the to the connections of the switch are applied, for example, about a third and two-thirds of the value of the supply voltage can be selected. It can thus be against both short to ground and short circuit against the positive supply voltage determines the position of the switch become; equal voltages are applied to the lines when closed Switch measured, different voltages on the other hand open switch. In addition, can to a short circuit of the lines, which does not originate from the switch, closed become.

The electrical potentials or voltage levels applied to the terminals of the Switches or their leads are created, can at preferred embodiments by means of a known voltage divider, in particular from ohmic resistances, to be generated. The at the different switch positions at the connections of the switch's existing potentials are connected to a circuit part, which is intended as an evaluation circuit, evaluated. This happens preferably using an analog-to-digital converter. The practical realization the circuitry is simplified when digitized values the measured voltages with the digital value of a reference voltage or be compared. It is also possible, a Reference voltage suitable height provide, by means of a known comparison element in the circuit arrangement with the respectively measured potentials is compared, which can then happen analogously.

It follows a more detailed description of examples of the circuit arrangement and the method with reference to the attached figure, which is a diagram a circuit of a preferred embodiment shows.

In the diagram of the figure, the switch S to be checked is shown on the left side. The two terminals of the switch are each guided via a circuit input IN _h , IN _l to a respective voltage divider in an h-branch of the circuit or in an L branch of the circuit. The voltage divider is preferably formed by two ohmic resistors which are connected in series between a terminal of the supply voltage V _p and ground. For the h-branch of the circuit, the ohmic resistors R _uh and R _dh and for the l branch of the circuit, the ohmic resistors R _ul and R _{dl are provided} in the voltage divider. One of the resistors R _dh or R _dl may optionally be omitted in a simplified embodiment. The values of the resistors are chosen so that at the points where the terminals of the switch S are connected, different potentials are present in both branches. These potentials are also different from the potentials of the supply voltage V _p and ground, since none of the resistances used is equal to zero.

In the connecting lines to the switch S may optionally be provided in series with the switch resistor R _S and, if appropriate, a resistor R _P connected in parallel therewith. The arranged in series with the switch resistance R S _S makes it possible to detect a short circuit of the lines between the circuit inputs IN _h, IN _l; the arranged parallel to the switch S resistor R _P makes it possible to determine an interruption of the leads to the switch.

In the exemplary embodiment described, the voltage levels to be measured are in each case presented to an input of an analog-to-digital converter A / D ₁ , preferably to protect the input via a resistor R _th or an analog-to-digital converter A / D ₂ preferably via a resistor R _tl supplied. Optionally occurring alternating voltage components can preferably be short-circuited via the capacitors C _th and C _tl to ground. However, these circuit components are also optional and may be omitted or appropriately substituted in other embodiments of the invention. The potentials to be measured are compared in the provided with the analog-to-digital converter circuit part with a reference voltage V _ref . This comparison can also be carried out in several stages with different reference voltages.

The voltage levels applied to the circuit inputs IN _h and IN _l change as a function of the position of the switch S. This also applies if a circuit input IN _h or IN _l is short-circuited to one terminal of the supply voltage due to an error occurring in the circuit , With this circuit, therefore, even when such an error occurs, the position of the switch can still be determined correctly; it is also possible to determine if such an error exists. The circuit arrangement can be replaced in this case as needed. However, the position of the switch S is still determined correctly, so that in the case of a temporary only occurrence of a short circuit, for example due to penetrated moisture, the possible use of this circuit is not limited. This solves the problem of providing a durable reliable circuitry for the stated purpose. This circuit arrangement is particularly suitable to be used for checking a switch position of a pressure switch, which is used in an automatic transmission of a motor vehicle.

At the In principle, the two connections of the switch S become electrically conductive conductively connected to two different electrical potentials, which are generated with a supply voltage. This electrical Potentials are different from each other and different from the potentials the supply voltage selected. Look at the connections the switch adjusting potentials is checked in which position itself the switch is currently located. This procedure can also be used to check whether a connection of the switch with a potential of the supply voltage shorted. Preferably, the measured values of the potentials digitized and digitized readings to determine the Position of the switch evaluated. The connections of the switch can also have a Resistance be temporarily or permanently connected to each other, before coming to these connections adjusting potentials.

Claims (11)

Circuit arrangement for checking a switch position, in which a switch (S) is provided which has two terminals, wherein in a first position of the switch (S), the terminals are electrically conductively connected to each other and in a second position of the switch (S) the terminals are electrically isolated from each other, terminals of a supply voltage (V _p ) are present, a first circuit input (IN _h ) and a second circuit input (IN _l ) are provided, at which two different electrical potentials are provided, which of the potentials of the supply voltage (V _p ) are different, and one terminal of the switch (S) is connected to the first circuit input (IN _h ) and the other terminal of the switch (S) is connected to the second circuit input (IN _l ), the circuit inputs (IN _h , IN _l ) to a circuit part comprising at least one analog-to-digital converter (A / D ₁ , A / D ₂ ) are connected and de r circuit part is provided to determine by means of a check of digitized values of the potentials, in which position the switch (S) is currently located. Circuit arrangement according to claim 1, wherein the first circuit input (IN _h ) with a first voltage divider (R _uh , R _dh ), which is connected between the terminals of the supply voltage (V _p ), and the second circuit input (IN _l ) with a second Voltage divider (R _ul , R _dl ), which is connected between the terminals of the supply voltage (V _p ) is connected, and the voltage divider (R _uh , R _ie ; R _ul , R _dl ) are formed such that at the circuit inputs (IN _h , IN _l ), different potentials are provided which are different in each case from the potentials of the supply voltage (V _p ). Circuit arrangement according to Claim 1 or 2, in which the terminals of the switch (S) are connected to one another via a resistor (R _P ). Circuit arrangement according to one of claims 1 to 3, wherein at least one terminal of the switch (S) and the relevant circuit input (IN _h ) via a resistor (R _S ) are interconnected. Circuit arrangement according to Claim 1, in which the circuit part which comprises the analog-to-digital converter (A / D ₁ , A / D ₂ ) is additionally provided for determining, by means of a check of digitized values of the potentials, whether a connection with a connection the switch (S) connected to the circuit branch is shorted to a potential of the supply voltage (V _p ). Use of a circuit arrangement according to one of claims 1 to 5 to check a switch position a pressure switch operating in an automatic transmission of a motor vehicle is used. A method for checking a switch position, wherein two terminals of a switch (S), which are electrically separated from each other in a first position of the switch (S) and are electrically conductively connected to each other in a second position of the switch (S) to two different electrical Potentials are generated, which are generated with a supply voltage (V _p ), each of these potentials being chosen differently from the two potentials of the supply voltage (V _p ), which are checked at the terminals of the switch (S) adjusting potentials and from this Measurement is determined in which of the positions of the switch (S) is located. Method according to Claim 7, in which it is additionally checked whether a terminal of the switch (S) is short-circuited to a potential of the supply voltage (V _p ). Method according to claim 7 or 8, in which measured values the potentials are digitized and the digitized measured values be evaluated to determine the position of the switch (S). Method according to one of Claims 7 to 9, in which the connections of the switch (S) are connected to one another via a counterattack (R _P ), before the potentials which adjust themselves are checked. Method according to one of claims 7 to 10, wherein a Switch position of a pressure switch in an automatic transmission a motor vehicle is checked.