DE2234957A1 - CIRCUIT ARRANGEMENT FOR OBTAINING ELECTRIC TRIGGER SIGNALS - Google Patents

Description

R. 9 75

4.7.1972 Ka / Kb

Attachment to
Patent application

ROBERT BOSCH GMBH, 7 Stuttgart 1

Circuit arrangement for the production of electrical

Trigger signals'

The invention relates to a circuit arrangement for extraction of electrical trigger signals synchronized with the trigger pulses in the ignition system for an internal combustion engine.

In the course of workshop automation, electric wins Vehicle diagnosis is becoming more and more important. When it comes to vehicle diagnostics become a multitude of measuring points in the motor vehicle appropriately or observed pulse trains on an oscilloscope screen or with the help of a pilot light gun and a associated stroboscopic lamp observed certain processes in the motor vehicle. With such measurements a certain Sequence of measurement data occurring one after the other or

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Robert Bosch GmbH R. 9 7 5 Ka / Kb

Assigned to measurement images of the respective ignition sequence of the internal combustion engine of the motor vehicle. This is how it is, for example It is common and desirable to trigger an oscillogram with the ignition pulse for the spark plug of cylinder 1 of the internal combustion engine.

In known devices that serve this purpose, a pulse generator is therefore attached to an ignition line leading to the spark plug 1 of an internal combustion engine, which pulse generator can be, for example, a capacitive or inductive transmitter, and which is the case with
Ignition of the spark plug Γ emits a trigger pulse. Such an arrangement, however, has the disadvantage that, if the ignition process is disturbed at the corresponding plug, the trigger pulse fails, so that the measurement is disturbed.

The invention is therefore based on the object of a
To develop a circuit arrangement with the help of which, even in the event of a fault in the ignition process at a certain spark plug of the internal combustion engine, a flawless generation of the trigger signal is ensured so that the measurements currently taking place can be carried out properly and without interference.

This object is achieved according to the invention in that a counter controlled by an interrupter contact in the ignition system is provided, which has a number of counter positions corresponding to the number of cylinders of the internal combustion engine and which works as a ring counter, the counter being taken from the ignition system of the internal combustion engine Trigger pulse can be synchronized and with at least one of its outputs a trigger pulse to at least one trigger pulse
Ignition system synchronous electrical signal is present.

Further advantageous refinements and expedient developments of the invention emerge in connection with the subclaims from the following description of a
Embodiment and from the accompanying drawings. Show it:

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1 shows a block diagram of the arrangement for obtaining electrical trigger signals,

Fig. 2 is a part of the circuit diagram of the circuit arrangement and 3 shows a pulse diagram for the circuit arrangement according to FIG.

In Fig. 1, a counter 10 is shown with a logical Switching device 11 is connected .. With this logic switching device, the counter can be reset to zero and depending on the respective counter position or depending on a signal that is generated with the help of a Pulse generator 12 is obtained, which is arranged on an ignition cable leading to a spark plug of an internal combustion engine. The spark plug is expediently the spark plug belonging to the cylinder of the internal combustion engine, so that expediently This trigger pulse for the ignition system is used at the beginning of a combustion cycle. The counter 10 is still connected to a clock circuit 13 that controls the counter in a certain cycle, for example in the cycle of a breaker contact pulses triggered in the ignition system. In addition, at least one of the counter outputs is of the counter 10 connected to a pulse shaper stage I ^ the output of which, in turn, a trigger pulse synchronous to the trigger pulse for the spark plug of the cylinder 1 further internal combustion engine not shown occurs. It is important that after synchronization has taken place once the pulse generator 12 constantly even if the ignition system malfunctions. a trigger signal occurs when either the spark plug 1 ignites or the ignition of this spark plug 1 fails. ·

In Fig. 2 a part of the device is in a circuit diagram shown. The counter 10 has counter outputs 1, 2, 3, 4, 6, 7 and 8. In addition, the counter 10 has a reset input 15th

The logic switching device 11 has a cylinder selector switch 16 which has different switching positions that indicate the number of cylinders the internal combustion engine. In the in Fig. 2

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The position shown indicates the cylinder selector switch 16, an internal combustion engine with four cylinders. The cylinder selector switch 16 has a contact finger that shares a common Supply line 17, which in the present case is connected to ground 13t. The fixed contact of the cylinder selector switch 16 has a resistor 19 lying on one side of a supply line 18 and the input of an inverting stage 20 connected. The output of the inverter 20 leads to the first input of a NAND gate 21, to its second input the output of an inverter 22 is connected. The input of the inverter 22 is connected to the counter output 5 of the counter 10 tied together. The output of the NAND element 2.1 leads to the cathode a diode 23 »its anode via a resistor to the common supply line 18 and to the reset input

15 of the counter 10 is applied.
According to the one just described

Arrangement is also with that of a 6-cylinder internal combustion engine Kennseiebnenden contact of the cylinder selector switch 16 a Circuit connected, one side with the common Supply line 18 has connected resistance, the on the one hand with the fixed contact of the cylinder selector switch

16 and is connected to the input of an inverter 25. The inversion stage is n & t the first input of a NAND gate

26 connected, at its outer input via an inverter

27 the counter output 7 of the counter 10 is applied. The output of the ^l-MAND member 26 is connected to the cathode of a diode whose anode verbundena with the resistor 29 and to the reset input of the counter 15 is connected. In addition, a diode 30 is provided, to the cathode of which the pulse generator 12 is connected and the anode of which is connected to the resistor 2.9 and the reset input 15 of the counter. The pulse shaper stage 1H is connected to the counter output 1 of the counter 10. This pulse shaper stage IiJ has a first transistor 31 and a second transistor 32. There is a connection between the counter output 1 of the counter 10 and the base of the first transistor 31

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⁵ AL INSPECTED

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Robert Bosch GmbH R, ^{9 7} ^ Ka / Kb

Connection line switched, in addition, a resistor 33 is connected to the base, which has 17 connection to the common supply line. The emitter of the transistor 31 is also connected to the common supply line 17 and the collector of the transistor 31 is connected to the common supply line 18 via a resistor 3 * 1. In addition, the base of the second transistor and a resistor 37 connected on one side to the common supply line 17 are connected to the collector of the transistor 31 via a capacitor and a resistor 36. The emitter of the second transistor 32 is also connected to the common supply line 17 and a connecting line leads from the collector of the transistor via a resistor 38 to the common supply line 18. In addition, an output terminal 39 is connected to the collector of the second transistor 32, at which the desired trigger pulse with a ^{width defined by the pulse shaper stage I 1} I can be picked up.

The operation of the circuit arrangement described is intended in following with the aid of the pulse schedule shown in FIG explained. If the switching arrangement is switched on with an operating switch, not shown, then results in a position of the cylinder selector switch which corresponds to the position shown in FIG. 2, to the Outputs 1 to 1 of the counter 10 shown in Fig. 3 at a, b, c and d shown impulse images. If the counter al3o is controlled by the clock generator 13, then appears after four counting clocks at the output 5 of the counter the needle-shaped signal shown at e. This needle-shaped signal is at the potential Zero, while the other possible output signal at the output of the counter is to be designated with 1. So if the signal zero is present at the output 5 of the counter 10, then is present Output of the inverter 22 has an L signal. This k signal is at the same time ah the second input of the NAND gate 21. At the input of the inverter 20 is included. the Position of the cylinder selector switch shown in the drawing

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Robert Bosch GmbH Stuttgart

^{9 7 5} Ka / Kb ■

16 also an 0 signal, so that at the output of the inverter 20 and an L signal is also present at the first input of the NAND element, but two L signals occur at the same time the inputs of the NAND gate 21, then an 0 signal is present at the output of the NAND gate. With an O signal at the output of the NAND gate, however, the diode 23 is conductive and on the Reset input 15 of counter 10 is given a reset pulse that brings the counter back to its starting position, the signal shown in FIG. 3a being present at output 1 of counter 10.

However, since when the counter is switched on it is not certain at which counter position the counting process begins, synchronization must take place. If a current flows in the ignition line leading to the spark plug 1 of an internal combustion engine, then the pulse generator 12 emits a pulse which reaches the cathode of the diode 30 with a potential of zero. This makes this diode 30 conductive and the signal passes through this diode 30 to the reset input IS of the counter 10. As a result of the pulse that is sent to the reset input of the counter 10, the counter is reset to its initial position and the counting process starts again. Now, however, the counter 10 runs synchronously with the trigger pulses in the ignition system of the internal combustion engine. If there is a malfunction in the ignition system, a trigger pulse belonging to the particular spark plug is missing, then the counter 10 continues to run, so that trigger pulses continue to appear at the output terminal 39 of the pulse shaper I ² J, with which measuring devices or similar Einrichtun conditions can be triggered.

With the cylinder selector switch 16, the circuit arrangement can be changed so that the counter 10 counts to six and is reset when an 0 signal occurs at the counter output 7 of the counter 10. This takes place in the manner described as for counter reading 4, if the counter is on with an O signal

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ORIGlWAL. INSPECTED

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Counter outputs 5 of the counter 10 is reset. If, on the other hand, the cylinder selector switch 16 is brought into the right position, which applies to 8-cylinder internal combustion engines, the counter will count to eight and then automatically switch back to its starting position. In the pulse plan according to FIG. 3, a pulse is drawn in at f which is emitted by the pulse generator 12 to synchronize the counter 10. In Fig. 3g, the output signal at the output terminal 39 of the pulse shaper 1H is shown. This output signal is triggered by an Ö signal at counter output 1 of counter 10. When this 0 signal arrives at the base of the first transistor 31, the latter blocks; the output signal at the collector of the first transistor 31 is differentiated via the capacitor 35, so that a short pulse arrives at the base of the second transistor 32. As a result, it is also briefly non-conductive, so that an 0 signal also appears at the output terminal 39 of the pulse shaper stage. The pulse width of this output pulse at the output terminal 39 is determined by the RC element from the capacitor 35 and the resistors 36 and 37.

The main advantage of the circuit arrangement described is, as already indicated, that trigger pulses are also present at the output terminal 39 of the pulse shaper Ik when no ignition pulses reach one or more spark plugs due to a malfunction in the ignition system of the internal combustion engine.

-8th-

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ORKSINAL INSPECTED

Claims (6)

• ö- Robert Bosch GmbH R. 975 Ka / Kb stuttsart 2234957 claims 1. Maintenance arrangement for obtaining electrical trigger signals synchronous to the trigger pulses in the ignition system for an internal combustion engine, characterized in that a counter (10) controlled by an interrupter contact in the ignition system is provided is, which has a number of counter positions corresponding to the number of cylinders of the internal combustion engine and which as Ring counter works, the counter (10) being triggered by a trigger pulse taken from the ignition system of the internal combustion engine can be synchronized and with at least one of its outputs a synchronous to at least one trigger pulse of the ignition system electrical signal is present. 2. Circuit arrangement according to claim 1, characterized in that the counter capacity is adjustable according to the number of cylinders of the internal combustion engine to be checked. 3. Circuit arrangement according to claim 1 or Z _3, characterized in that with a reset input (15) of the counter (10) at least one diode (23, 28) is connected, which via logic switching elements (21, 22 or, 26, 27) with a counter output is connected, which triggers a reset of the counter (10). -9-30 9885/0163 ORIGINAL INSPECTED Robert Bosch GmbH 'R. 9 7 5 · Ka / Kb Stuttgart. 2234957 4. Circuit arrangement according to one of claims 1 to. 3> characterized in that a diode (30) is connected to the reset input (15) of the counter (10) and is connected to one in the vicinity an ignition line arranged pulse generator (12) is connected, 5. Circuit arrangement according to claim 4, characterized in that the pulse generator (12) is an inductive or capacitive sensor pushed over the ignition cable .. 6. Circuit arrangement according to one of claims 1 to 5, characterized in that with the output of the counter (10) emitting the electrical trigger signal, a pulse shaper stage. (1 * 0 is connected.. ' 30 9885/0163 ORfGfNAL INSPECTED Empty soap