DE4015271A1 - Interrogating circuitry ascertaining switch positions in motor vehicle - connects switch terminals to fixed potential and to microcomputer via resistors - Google Patents

Abstract

A microcomputer (1) connects one terminal of each switch to a fixed potential and the other to a microcomputer input and to a resistor. The resistors (10,11,18,19) can be connected to a potential different from the fixed potential via switches (12,20) controlled by the microcomputer. The microcomputer holds the switches in the conducting state at least for the duration of the interrogation of the inputs. ADVANTAGE - High noise separation and low leakage resistor effects despite low power losses.

Description

The invention relates to a circuit arrangement for querying switch positions with a microcomputer, preferably in a motor vehicle, with one connection each Switch with fixed potential and the other connection with an input of the microcomputer and with a resistor connected is.

In electronic control devices for motor vehicles are, among other things, switch positions as input variables used. To do this, the switch in question is switched on Resistor connected to a voltage source so that the Voltage at the connection point between resistance and Switch depends on the switch position and one Input of a microcomputer is fed, which in the course of the program is queried repeatedly.  

Depending on whether the switch or the resistor with Is connected to the ground potential Switches in series resistors also pull-up or pull-down resistors. To a high signal-to-noise ratio between the useful signals and vehicle interference voltages received and the effects of secondary or To keep contact resistances low are in Motor vehicles such switches with currents of <10 mA operated. However, this creates one in the control units high power dissipation - especially when a large number of switches is connected.

The object of the present invention is a Circuit arrangement for querying switch positions specify which one despite low power losses high signal-to-noise ratio or low impact of secondary or contact resistance is possible.

The circuit arrangement according to the invention is thereby characterized in that the resistors over from the microcomputer controllable switches with deviating from the fixed potential Are connectable and that the microcomputer controllable switch at least for the duration of the query which controls the inputs in the conductive state. Preferably is for resistors, which switches with a are assigned a common fixed potential common controllable switch provided.

The circuit arrangement according to the invention enables one Operation of the switches to be queried with a relatively large Electricity, which ensures a high level of error security. However, because of the relatively short time period of the query the total power loss compared to the known Circuit arrangements significantly reduced. Here is the Little additional components required - in particular if according to one of the following advantageous embodiments  is proceeded.

The one advantageous embodiment is that Resistors, whose assigned switches match theirs from Microcomputer facing away from a positive Operating voltage are connected via a NPN transistor can be connected to ground potential and that the base of the NPN transistor through another resistor is connected to an output of the microcomputer.

The other advantageous embodiment provides that resistors, their associated switches with their from Microcomputer remote connection with ground potential are connected to a via a PNP transistor positive operating voltage can be connected and that the base of the PNP transistor via a further resistor with a further transistor operated in emitter circuit is connected, the base of which can be controlled by the microcomputer is.

The invention can be used in connection with all control units be applied at which switch positions are repeated be queried briefly. In this sense, the Printout microcomputer all programmable or after one Program working circuits that are repeated briefly Query switching signals at inputs, for example One-chip microcomputers, microprocessors, microcontrollers, Switchgears (State mashines) and the like signal processing facilities.

The invention allows numerous embodiments. A of which is shown schematically in the drawing and described below.

In the exemplary embodiment shown, a microcomputer 1 has four inputs 2 , 3 , 4 , 5 for querying the positions of switches 6 , 7 , 8 , 9 . The switches 6 , 7 are connected to the terminal remote from the microcomputer 1 with ground potential, while the corresponding connections of the switches 8 , 9 are connected to the operating voltage. The switches 6 , 7 are assigned two pull-up resistors 10 , 11 which can be connected to the operating voltage U _B together via a transistor 12 . The base of transistor 12 is connected via a resistor 13 to the collector of a further transistor 14 , the load resistor 15 of which is also connected to operating voltage U _B. The base of transistor 14 is connected via a resistor 16 to an output 17 of the microcomputer.

The switches 8 , 9 are provided with pull-down resistors 18 , 19 which can be connected to ground potential via a transistor 20 . The base of transistor 20 is connected via a resistor 21 to an output 22 of microcomputer 1 .

The microcomputer 1 can perform various control tasks - for example the control of an internal combustion engine of a motor vehicle - for which additional inputs and outputs are required, which are not shown in the drawing, however, since this is not necessary for understanding the invention. The microcomputer 1 operates according to a program serving the respective purpose, the voltages at the inputs 2 , 3 , 4 , 5 being queried repeatedly.

Before querying one of the inputs 2 or 3 , the output 17 is set to a positive potential, as a result of which the transistors 14 and 12 become conductive and current is supplied to the switches 6 , 7 via the resistors 10 , 11 . Now one of the inputs 2 , 3 or both inputs 2 , 3 can be queried in quick succession. Immediately afterwards, the output 17 is set to ground potential again, as a result of which the transistors 14 and 12 become non-conductive, so that no power loss is converted in the resistors 10 , 11 until the next query.

Similarly, the resistors 18 , 19 are connected to ground potential before a query of the inputs 4 and 5 , for which purpose a positive voltage is output at the output 22 of the microcomputer 1 . After querying inputs 4 , 5 , the voltage at output 22 is again set to approximately ground potential, so that transistor 20 is blocked.

Claims (4)

1. Circuit arrangement for interrogating switch positions with a microcomputer, preferably in a motor vehicle, one connection of the switch having a fixed potential and the other connection being connected to an input of the microcomputer and a resistor, characterized in that the resistors ( 10 , 11 , 18 , 19 ) via switches ( 12 , 20 ) controllable by the microcomputer ( 1 ) can be connected to potential deviating from the fixed potential and that the microcomputer ( 1 ) controls the switches ( 12 , 20 ) at least for the duration of the query of the inputs controls in the conductive state. 2. Circuit arrangement according to claim 1, characterized in that for resistors ( 10 , 11 ; 18 , 19 ), which switches ( 6 , 7 ; 8 , 9 ) are associated with a common fixed potential, a common controllable switch ( 12 ; 20th ) is provided. 3. Circuit arrangement according to claim 1, characterized in that resistors ( 18 , 19 ), the associated switches ( 8 , 9 ) of which are connected to a positive operating voltage with their connection facing away from the microcomputer ( 1 ), via an NPN transistor ( 20 ) can be connected to ground potential and that the base of the NPN transistor is connected via a further resistor ( 21 ) to an output ( 22 ) of the microcomputer ( 1 ). 4. Circuit arrangement according to one of the preceding claims, characterized in that resistors ( 10 , 11 ), the associated switches ( 6 , 7 ) of which are connected to their potential remote from the microcomputer ( 1 ) via a PNP transistor ( 12 ) can be connected to a positive operating voltage and that the base of the PNP transistor ( 12 ) is connected via a further resistor ( 13 ) to a further transistor ( 16 ) operated in an emitter circuit, the base of which can be controlled by the microcomputer ( 1 ).