DE3742617A1 - ELECTRICAL CIRCUIT ARRANGEMENT - Google Patents

Abstract

An electrical circuit arrangement, e.g. for a motor vehicle, for setting electrical consumption devices has a control device (ST) with a microcomputer (MC), an analogue multiplexer (AM), an A/D converter (AD) and circuit elements (RE, RZ, VR) in order that, depending on different switching states, the consumption devices are set in operating states corresponding to the switching states, through as small a number of electrical circuits as possible. Switches (S) are used each of which has three switch positions and each of which is connected, through an electrical circuit, to one control input of the control device. Each control input of the control device is connected, through a voltage divider (SP), to one input of the analogue mutliplexer (AM). <IMAGE>

Description

The invention relates to an electrical circuit arrangement to actuate electrical consumers, especially in Motor vehicles, with a control unit with a Microcomputer and with an analog multiplexer, the inputs for processing analog signals and which of the Microcomputer is controlled with an AD converter an output of the analog multiplexer is connected and that has an output that is used to forward the digitized signals to an input of the microcomputer is connected, with the microcomputer outputs has that with switching elements for actuating electrical consumers are connected.

From European patent application 01 43 650 is a Multiplex system for motor vehicles previously known that a central control station and a number of Outstations. The outstations have one each Microcomputer that controls an analog multiplexer. This analog multiplexer has inputs for connecting analog Sensors. The analog signals are used for digitization forwarded an AD converter and from this the Microcomputer fed. The microcomputer processes the Signals and actuates a number via a shift register of switches that switch electrical consumers on or off turn off.

The previously known multiplex system shows in particular that Disadvantage that only the inputs of the analog multiplexer the connection of analog sensors such. B. Temperature sensors are provided and no switching inputs are provided on the analog multiplexer, so that at There are different switching states at the inputs of the analog multiplexer electrical consumers  accordingly in different operating states could be moved.

From DE-OS 34 23 768 is an electrical Circuit arrangement known that is part of an integrated Logic module can be and via a switch input has, for example, a Tri-state transistor gates can be connected. The Switch input is also on both Window comparator as well as a voltage divider Logic gate connected. The switch window of the Window comparator lies between the reference voltage and the supply voltage. With this circuit it is possible, the three switching states of Tri-state transistor gates can be seen and at the outputs of the logic gate and the window comparator.

This previously known circuit arrangement has the disadvantage on that three different switching states were recognized can be, however, would be a simple and inexpensive Building a control unit from such individual components hardly possible because a multitude of Switches for controlling electrical consumers required are. With the described possible Integration in an integrated logic module would also be a free choice of resistors that the voltage divider form, often not possible. So that would be the three Voltage values assigned to switching states are often not freely definable.

The invention has the task of an electrical Circuitry to provide it enables depending on different Switching states of electrical consumers as possible small number of electrical lines in the Switching states to corresponding operating states move, which is easy and inexpensive to manufacture and is mountable to many electronic circuits  can be adapted and especially when used in Motor vehicles easily against external disturbances can be protected.

The object is achieved in that the electrical Circuit arrangement switches with three switch positions each has that each switch via an electrical line is connected to one switching input of the control unit and that each switching input of the control unit via one Voltage divider with one input of the analog multiplexer each connected is.

The advantages achieved with the invention exist especially in that for the transfer of the three Switching states of each switch on the Analog multiplexer only one electrical line each is required. This has the advantage that the Interference suppression is simplified in particular in motor vehicles and that a simple and inexpensive manufacture and Assembly is made possible. In addition, the small number on electrical cables and the resulting low Number of connectors the susceptibility to interference reduced, especially if the electrical lines, as is common in motor vehicles, in moving parts such as B. Doors are installed. The switches will be there often within easy reach of the vehicle occupants attached while the control unit is often in others Areas of the vehicle. The use of a Voltage divider to transmit the applied Signal voltages to the analog multiplexer is advantageous because of the largely free choice of resistors that the Form voltage dividers, an adaptation to different electronic circuits is often easily possible. Further advantageous refinements and developments of Subject of the invention emerge from the subclaims.

It is advantageous that in one of the three switch positions the switch of the control input with the  negative pole of the vehicle electrical system is connected and that in one of the three switch positions of the switch Switching input of the control unit with the positive pole of the Vehicle electrical system is connected and that in one of the three Switch positions of the switch at the switching input of the Control unit no voltage is present via the switch, d. H. the switch is open because the necessary Signal voltages, especially in motor vehicles, easily are accessible and those to be transferred DC signals simply against low frequency and high-frequency interference can be protected.

Because each switching input is connected via a series resistor a reference voltage is connected, which is preferably is about +5 volts, there is the advantage that too when the switches are open, on the voltage dividers defined signal voltages are available and to the Inputs of the analog multiplexer are present.

It is also advantageous that each switch has one Motor for switching the right-hand rotation, the left-hand rotation and the Standstill is assigned, which means that a large number of the number of motors to be used Switches and electrical lines are minimized and too a clear and user-friendly assignment of the Switches for the motors and their operating states is ensured.

You can switch all or part of the switches in one summarize central control element that z. B. in a vehicle door, on a vehicle seat or in the area of Dashboards is attached to the controls for the To facilitate drivers.

An embodiment of the subject of the invention is in shown in the drawing and will be described in more detail below explained.  

The only figure shows an electrical according to the invention Circuit arrangement for actuating electrical consumers.

In this figure, a control device (ST) is shown, which has a number of switching inputs (SE 1 , SE 2 ...). Each of these switching inputs (SE 1 , SE 2 ...) Is advantageously connected to a switch (S 1 , S 2 ...) Via an electrical line. Each of these switches (S 1 , S 2 ...) Has three switch positions. In one of the three switching positions, the switching input (SE 1 , SE 2 ...) Is connected to the positive pole of the vehicle electrical system. In another of the three switching positions, the switching input (SE 1 , SE 2 ...) Is connected to the negative pole of the vehicle electrical system. In another of the three switch positions, the switch input (SE 1 , SE 2 ...) Is not connected to any voltage via the switch (S 1 , S 2 ...). The switch (S 1 , S 2... ) Is then open.

Furthermore, each switching input (SE 1 , SE 2 ... ) Is the voltage divider (SP 1 , SP 2 ...) within the control unit via a first resistor (RE 1 , RE 2 ... ) , Each with one input (E 1 , E 2 ...) Of the analog multiplexer (AM) and also via a first resistor (RE 1 , RE 2 ... ) And a second resistor (RZ 1 , RZ 2 ... ) Of the voltage dividers (SP 1 , SP 2 ... ) Connected to ground.

Each input (E 1 , E 2 ...) Of the analog multiplexer (AM) is also via a first resistor (RE 1 , RE 2 ... ) Of the voltage divider (SP 1 , SP 2 ... ) And over one series resistor (VR 1 , VR 2 ...) each connected to a reference voltage (UR) , which is preferably approximately +5 volts. This ensures that even with a switch position in which the switches (S 1 , S 2 ...) Are open, a defined voltage at the input (E 1 , E 2 ...) Of the analog multiplexer (AM) is present.

At each input (E 1 , E 2 ...) Of the analog multiplexer, there can be three DC voltage values corresponding to the three switch positions of the switches (S 1 , S 2 ...) , which form the voltage dividers (SP 1 , SP 2 ...) and the series resistors (VR 1 , VR 2 ...) can be adapted to the analog multiplexer (AM) used.

It has proven to be advantageous if the first resistors (RE 1 , RE 2 ... ) And the second resistors (RZ 1 , RZ 2 ... ) Each have a resistance value of approximately 10 kOhm and the series resistors (VR 1 , VR 2 ...) Each have a resistance value of approx. 1 kOhm. These values depend on the analog multiplexers (AM) used .

The analog multiplexer (AM) is controlled by a microcomputer (MC) which is connected via an output to an input of the analog multiplexer (AM) . Depending on the control by the microcomputer (MC) , an analog DC voltage signal is queried at an input (E 1 , E 2 ...) Of the analog multiplexer (AM) and passed on via an output to an input of the AD converter (AD) . The AD converter (AD) is also controlled by the microcomputer (MC) and forwards the digitized signal to an input of the microcomputer (MC) .

The microcomputer (MC) processes the incoming digitized signals and controls one or more relay output stages (RE). For this purpose, the microcomputer (MC) has outputs which are connected to the inputs of the relay output stage (RE) . The relay output stage (RE) is designed here as a multiple relay output stage. To operate z. B. two motors you need a four-relay power amplifier. Motors (M 1 , M 2 ...) Are connected to this relay output stage (RE) in accordance with the number of switches (S 1 , S 2 ...). For each motor (M 1 , M 2 ...) Two control lines lead from the microcomputer (MC) to the relay output stage (RE) . Each motor can advantageously be switched to three different operating states. These are clockwise, counter-clockwise and standstill.

Is z. B. the switching input (SE 1 ) via the switch (S 1 ) is brought into contact with the positive pole of the vehicle electrical system, the relay output stage (RE) is controlled via the microcomputer (MC ) in such a way that the motor (M 1 ) e.g. B. is operated in clockwise rotation. If the switching input (SE 1 ) is then brought into contact with the negative pole of the on-board voltage system via the switch (S 1 ), the motor (M 1 ) is operated in counterclockwise rotation. In the open position of the switch (S 1 ), the motor (M 1 ) stands still. The assignment of the running directions can be freely determined.

By using the subject matter of the invention in devices for programmable control of seat adjustment and / or in devices for operating window regulators and / or in Devices for adjusting headlights and / or devices to control and monitor a set of electrical consumers, especially in motor vehicles, it is possible depending on different Switching states of a switch via one control line each electrical consumers in the switching states to set corresponding operating states.

The microcomputer (MC) can switch not only inductive loads, but also ohmic loads via switching elements. The loads can also be connected directly to the microcomputer (MC) without switching elements in between.

One can the electrical according to the invention Circuitry also use actuators such as e.g. B. switches to operate, each with a switch in two actuators can be switched and / or e.g. B. two lamps per switch in three operating states switch. The three operating states could e.g. B. be:

• 1. both lamps switched off,
• 2. the one lamp turned on,
• 3. the other lamp is on.

Claims (12)

1. Electrical circuit arrangement for actuating electrical consumers, in particular in motor vehicles, with a control unit with a microcomputer and with an analog multiplexer which has inputs for processing analog signals and which is controlled by the microcomputer, with an AD converter which is connected to a Output of the analog multiplexer is connected and has an output which is connected to an input of the microcomputer for forwarding the digitized signals, the microcomputer having outputs which are connected to switching elements for actuating electrical consumers, characterized in that the electrical circuit arrangement Switches (S 1 , S 2 ...) With three switch positions each, that each switch is connected via an electrical line to each switching input (SE 1 , SE 2 ...) Of the control unit (ST) and that each switching input ( SE 1 , SE 2 ...) Of the control unit (ST) via a voltage divider (SP 1 , SP 2 . . .) is connected to an input (E 1 , E 2 ...) of the analog multiplexer (AM) . 2. Electrical circuit arrangement according to claim 1, characterized in that in one of the three switching positions of the switch (S 1 , S 2 ...) The switching input (SE 1 , SE 2 ...) Of the control unit (ST) with the positive pole of the vehicle electrical system is connected. 3. Electrical circuit arrangement according to claim 1, characterized in that in one of the three switching positions of the switch (S 1 , S 2 ...) The switching input (SE 1 , SE 2 ...) Of the control unit (ST) with the negative pole of the vehicle electrical system is connected. 4. Electrical circuit arrangement according to claim 1, characterized in that in one of the three switching positions of the switch (S 1 , S 2 ...) at the switching input (SE 1 , SE 2 ...) of the control unit (ST) via the switch (S 1 , S 2 ...) There is no voltage, the switch (S 1 , S 2 ...) Is open. 5. Electrical circuit arrangement according to claim 1, characterized in that each switching input (SE 1 , SE 2 ...) is connected via a series resistor (VR 1 , VR 2 ... ) to a reference voltage (UR) , which is preferably approximately plus 5 volts. 6. Electrical circuit arrangement according to claim 5, characterized in that the switching inputs (SE 1 , SE 2 ...) And the series resistors (VR 1 , VR 2 ... ) Each via a first resistor (RE 1 , RE 2 . .) the voltage divider (SP 1 , SP 2 ... ) both with one input (E 1 , E 2 ...) of the analog multiplexer (AM) as well as via a second resistor (RZ 1 , RZ 2 . .) the voltage divider (SP 1 , SP 2 ... ) are connected to ground. 7. Electrical circuit arrangement according to claim 1, characterized in that the switching elements for actuating electrical consumers are relay output stages (RE) , which are preferably designed as multiple relay output stages. 8. Electrical circuit arrangement according to claim 7, characterized in that the driven by the relay output stages (RE) electrical consumers are motors (M 1 , M 2 ...) Which have a counterclockwise rotation and a clockwise rotation. 9. Electrical circuit arrangement according to claim 8, characterized in that each switch (S 1 , S 2... ) One motor (M 1 , M 2 ...) Is assigned for switching the clockwise rotation, the counterclockwise rotation and the standstill. 10. Electrical circuit arrangement according to claim 1, characterized in that all or part of the switches (S 1 , S 2 ...) are combined in a central control element. 11. Electrical circuit arrangement according to claim 1, characterized in that an output of the microcomputer (MC) for controlling the AD converter (AD) is connected to an input of the AD converter (AD) . 12. Electrical circuit arrangement according to claim 1, characterized in that the electrical Circuit arrangement part of a device for programmable adjustment of seats and / or part a device for operating window regulators and / or Part of a device to control and monitor a Set of electrical consumers, in particular in motor vehicles.