DE4320301C2 - Circuit arrangement in a motor vehicle - Google Patents

Description

The invention relates primarily to the problem of lines between the receiver and the control unit. The This problem is particularly serious for motor vehicles because the costs for the production and laying of the Ka belbaumes compared to the cost of electronic input are extremely important. Especially gravie This problem is also a problem in motor vehicles when the recipient is to be accommodated in the steering wheel, but the control unit is far away of which, e.g. B. is housed in the engine compartment; the number of electrical connections between the steering wheel and the chas sis should be as small as possible.

So far, five lines between the Emp catcher and the control unit if two additional separately controllable light signal transmitter at the receiver were brought. A first line was namely z. B. + 12V fed to the receiver, the mass for the receiver via another line. Via a third line message forwarding from the recipient to the tax unit was reached and two more lines were used disconnects + 12V from each of the two light signal transmitters leads, these two light signalers close to the receiver ger with her other connection directly with the mess device are connected to the receiver.

In a known circuit arrangement (EP 0 487 995 A2) are the switching states of switches in doors of a force queried vehicle and reported to a control unit. The The control unit then controls actuators. The switches and Actuators are controlled via three lines. The However, actuators cannot be used separately be switched.  

In another known circuit arrangement (DE 41 41 504 A1) receives a receiver in a motor vehicle wirelessly transmitted remote control signals and sends them to an egg ne centrally located control unit. The administration between the receiver and the control unit, however designed as a multiplex data line.

The object of the invention is the number of lines between a receiver and a control unit if possible keep it low and still provide visual feedback to let.

This object is achieved by a circuit arrangement according to the Features of claim 1 solved.

Advantageous embodiments of the invention are in the Un marked claims.

The invention and developments thereof are based on of the execution notes shown in the three figures examples of the invention further explains which of the Visibility is shown as simply as possible were. Show it:

Fig. 1 shows a first variant of the invention, as far as the surrounding environment of the receiver is concerned,

Fig. 2 shows a first variant of the invention, as far as the environment surrounding the control unit is concerned, and

Fig. 3 shows a second variant of the invention, as far as the surrounding environment of the control unit is concerned,
wherein each of the two Vari shown in FIGS . 2 and 3 antennas can cooperate with that shown in Fig. 1.

The line connections P, L1 and L2 shown on the left in FIGS. 2 and 3 can each be connected to the corresponding line connections shown in FIG .

The examples shown in the three figures therefore relate to Details of examples according to the invention. This is what it is about are each circuit arrangements that z. B. in one Vehicle are attached. One focus of the invention is the greatest possible reduction in the number of electri lines, cf. in all three figures the three lines gen P, L1, L2, between a receiver S and S1 on the one hand and a tax remotely located from this recipient Unit E and E1, on the other hand, although two tax separately bare light signal transmitter, so z. B. a red and a green Lamps can also be controlled via these lines.

The power supply connections shown in FIGS. 2 and 3 + 12V and M supply the receiver S and S1 with the necessary energy via at least two of the lines P, L1, L2, namely via the first line P and at least one further line L1 and / or L2 "supply line". In the figures, it was assumed that the + voltage is on line P and the ground is at least in each case on one of the two lines L1 or L2. In itself, however, the DC voltage + 12V / M could also be reversed, but the various rectifiers shown in FIG. 1 would then also have to be reversed, and - depending on the amounts selected for the ones in FIG. 3 showed that the control gates of both field effect transistors together controlling control signals U - possibly also the p-channels and n-channels of the field-effect transistors shown in FIG. 3 should be replaced by n-channels and p-channels.

To save line, the invention Supply lines P, L1 / L2 in addition to the message terleitung from the receiver S, S1 to the control unit E, E1 be used, with the receiver S or S1 / S2 more or less strong modulations of the currents on this lei tions enforced, so that broke in the control unit E.  te control unit E1 on the voltage drops across the resistor R can receive the message.

A special feature of the invention is that a total of three lines P, L1, L2 are attached, of which at times the third L2 - instead of the second L1 or parallel to the second L2 supply line - on the power supply of the receiver S, S1 by means of DC voltage + 12V , M participates. So once the power supply for the receiver S / S1 flows

• - via lines P and L1;
• - another time on lines P and L2, and
• - yet another time via lines P and together via L1 and L2;

depending on how the relevant reporting units Sp1 / Sm1, Sp2 / Sm2 just by the control unit E1 of the tax Unit E can be controlled.

According to the invention, in the case of the catchers S and S1 shown in FIG. 1, the two light signal generators A, B are additionally attached, both of which supply their power + 12V, M from the control unit E, E1 via the second line L1 and the third line L2 by means of the signaling units Sp1 / Sm1, Sp2 / Sm2 as long as they are supposed to emit a message by their lighting. In addition, the rectifiers Ga, Gb, D1, D2 are therefore inserted so that the light signals via A and B are sufficiently decoupled from the receiver S, S1. In order to be able to operate the two light signal generators A, B according to the invention during reporting periods, the examples shown in FIGS . 2 and 3 are used

• - once + 12V during the reporting period to the second line L1, while the mass M is then connected to line L2 is placed so that then because of the rectifier Ga, Gb only the light signal generator A lights up and the rectifier ter D1 is in its blocking state; At the same time then the power supply for the receiver S takes place, S1 / S2 via line L2, not via line L1;  
• - another time + 12V during the registration period to the third te line L2, while the mass M then to the second Line L1 is laid, so that then because of the same judge Ga, Gb only the light signal generator B lights up and rectifier D2 is in its blocking state; At the same time, the Emp is powered catcher S, S1 / S2 over the line L2, not over the Line L1.

Depending on the polarity of the supply voltage of the light signal transmitter A, B on lines L1, L2, one or the other light signal transmitter lights up. However, as long as neither of the two light signal transmitters A and B are lit and no message is to be emitted by lights, then can

• - Either ground L1 connected to both lines L1 and L2 be, but then these two lines working together on the power supply of the receiver S. leagues;
• - Or it can only be sent to any of the two lines against mass L1, L2 the mass M is placed, in which case the Potential of the other of these two lines is floating. In this case, the current of the power supply flows for the receiver S, S1 / S2 only via the one concerned Line L1 or L2.

The invention thus allows z. B., with the only three lines P, L1 and L2 even optical feedback by means of the two separately controllable light signal transmitters via the activities which the control unit E / E1 initiated and / or already carried out because of previous message forwardings. In order to closely link the meaning of the optical displays with the meaning of the message forwarding from the receiver to the control unit, the light signal transmitters A, B can be used to report the response triggered in the control unit E, E1, cf. Z in FIGS. 2 and 3 serve. The wiring harness between the receiver and the control unit can then still be produced and installed in the vehicle with very little effort.

The invention is also suitable for remote control when the Receiver S, S1 receives wireless signals and these signals- or signals derived from it - as a message about the Resistor R forwards to control unit E1.

To particularly powerful signals for message forwarding to be able to use without the power supply of the receiver to endanger, you can make a first series connection S1 / Ds form the receiver S1 and a protective rectifier Ds. In addition, an additional transmission switch S2 can then be turned on be added, which the first series circuit S1 / Ds bridges and by short-circuiting the lines P on the one hand and L1 and L2 on the other hand for message forwarding the resistor R is used with particularly high current pulses. The receiver S1 can do this automatically - in particular according to co received by him, broadcast by a user dierter remote control signals, via a pulse amplifier Press transmission switch S2. But then during the lei Tending state of this transmitter switch S2 of the receiver S1 the receiver can still remain fully functional S1 additionally have a capacitor c, which during the non-conductive state of the transmitter switch S2 via the Ver supply lines P, L1 / L2 is charged / was - in ge showed example with + 12V / M. During the conductive state of the transmitter switch S2 this capacitor C then takes over the power supply + 12V / M of the receiver S1.

In order to control the two light signal transmitters A, B with little effort using the control unit E1, the control unit E, E1 can have two signaling units Sp1 / Sm1, SP2 / Sm2, cf. Figs. 2 and 3. The first notification unit Sp1 / Sm1 supplies the second line L1 and the second notification unit Sp2 / Sm2 the third line L2 with the DC potentials or M + 12V. For this purpose, either the switch Sp1 and the switch Sm2 are switched alternately into their conducting states, and the other two switches Sp2 and Sm1 into their light-conducting states, or vice versa. If both light signal generators A, B are not to light up, all four switches Sp1, Sm1, Sp2, Sm2 are controlled in their non-conductive or at least in a very high-resistance state.

It turns out that then a particularly cheap, simple Structure of the control of these switches and thus the Stromver supply of light signal transmitters A, B can be achieved if both the signaling unit Sp1 / Sm1 a series connection and as the other signaling unit Sp2 / Sm2 also has a series connection included, the center tap, for power supply to the Emp catcher and / or the light signal transmitter A, B, each optional ver with the second L1 and / or with the third L2 line can be bound. This turned out to be particularly favorable second and third series connection Sp1 / Sm1, Sp2 / Sm2 by each two, each controlled by a common control signal U. to form te field effect transistors in CMOS technology.

If the receiver S1 can receive wireless coded remote control signals and the control unit E1 is a control unit for control, cf. delivering a control signal Z mes as shown in FIGS. 2 and 3, a Zentralverriegelungssyste of a motor vehicle, the user can a sol chen remote control also remotely detect whether the Zen tralverriegelung his car responded as desired. This is particularly the case when the two light signal transmitters A, B - clearly visible from the outside, and if possible also in different bright colors - shine brightly. This is very particularly the case when these light signal generators A, B are close to the receiver S, but are placed on the outside of the vehicle, for. B. ges close to the receiving antenna of the vehicle or z. B. clearly visible in the driver's door.

Claims (4)

1. Circuit arrangement in a motor vehicle with

• a receiver which receives wirelessly transmitted and coded remote control signals and forwards them to a control unit (E, E1) which is arranged remotely in the motor vehicle and which controls a central locking system of a motor vehicle,
• - Three electrical lines (P, L1, L2), which electrically connect the receiver (S, S1) to the control unit (E, E1), and with
• - At least two light signal transmitters (A, B), which are clearly visible from outside the motor vehicle, wherein
• - The receiver (S, S1) from the control unit (E, E1) via two of the lines (P, L1, L2), namely via the first (P) and at least one further (L1 / L2) line, with current ver will care
• - The remote control signals received by the receiver (S, S1) via two of the lines (P, L3, L2), namely via the ste (P) and at least one of the other (L1 / L2) lines, to the control unit (E, E1 ) are transmitted, and wherein
• - The light signal transmitters (A, B) are switched on individually via the second (L1) and the third (L2) line and controlled by the control unit (E, E1), the light signal transmitters (A, B) being rectified (Ga, Gb, D1, D2) are decoupled from the receiver (S, S1), that during the on period of the light signal transmitter (A, B) the power supply of the receiver (S, S1) via the first line (P) and one of the other two Lines (L1, L2) is not disturbed.

2. Circuit arrangement according to claim 1, characterized net that the light signal transmitter (A, B) the locking state the central locking system. 3. Circuit arrangement according to claim 1, characterized in net that the receiver (S1) a capacitor (C) parallelge  is switched, which is charged by the control unit and the power supply when the power supply is switched off (+ 12V, M) of the receiver (S1) is briefly maintained. 4. Circuit arrangement according to claim 1, characterized net that the rectifiers (Ga, Gb, D1, D2) are diodes where with one diode (Ga, Gb) each in series with one light Si signal transmitter (A, B) and one each (D1, D2) in the second and third line (L1, L2) between the receiver (S, S1) and the light signal transmitters (A, B) are arranged.