DE2231165A1 - ARRANGEMENT FOR OBTAINING AN ELECTRICAL SIGNAL - Google Patents

Description

Appendix to the patent application arrangement for obtaining an electrical Signals The invention relates to an arrangement for obtaining a trigger signal, For example, for stroboscopic lamps, from the pressure in an injection line a diesel engine has its corresponding electrical signal.

Particularly interested in diagnosing diesel vehicles the condition of the injection pump. To determine the start of delivery and the injection adjustment A stro-ooskop is therefore used for the injection pump, with the help of which a Marked shear wheel on the diesel engine can be observed can. To trigger the stroboscopic lamp, a trigger signal is required, its generation is particularly difficult in diesel internal combustion engines.

In the case of Otto engines, such a trigger signal can be used, for example with the help of a capacitive or inductive transmitter from the ignition system of the internal combustion engine be removed. However, this is not possible with diesel internal combustion engines.

The invention is therefore based on the object of providing an arrangement create, with the help of a characterizing the pressure curve in the injection line Signal to form a trigger signal that reliably triggers the stroboscope lamp It is important to ensure that the pressure transducer has a% fullness of pressure changes registered in the injection line that. jedoc'l only send a certain signal to Triggering the stroboscopic lamp can be used. In addition, the trigger pulse should even at these low pressures in the injection line; at the beginning of the injection process to be triggered. On the other hand, it should only be used once during the injection process triggered so that no double or miss pulses occur. After all, supposed to the trigger pulse even with the diversity of the printed images, which depends on the injection quantity, the speed and the type of internal combustion engine depend, are always reliably available. The object is according to the invention solved in that the pressure corresponding electrical signal to a threshold switch connected via a gate circuit with a monostable multivibrator connected i is their breakdown time as a function of the speed of the diesel engine is changeable and whose output signal controls the gate circuit 3 Further advantageous refinements and expedient expansions of the invention result in connection with the subclaims from the following description of a Ausffihrungsbeispieles and from the associated drawings. They show: Fig. 1 a Block diagram of the arrangement for obtaining the trigger signal. FIG. 2 shows a circuit diagram this arrangement and FIG. 3 is a timing diagram showing the various in the circuit shows the pulse patterns occurring according to Fig. 2.

1 shows a threshold value switch 10 with a gate circuit 11 tied together. The gate circuit 11 is connected to a monostable trigger stage 12, the output signal of which is fed to the gate circuit 11. At the same time is the monostable Flip-flop with a speed measurement device 13 connected to the speed proportional Provides direct voltage and thus influences the Xippzeit of the monostable multivibrator 12.

The output of the monostable multivibrator 12 is a differentiator 14 connected downstream, which provides an output signal, which the stroboscopic lamp of Ausldst test device. The input of the threshold switch 10 is a bracket circuit 15 upstream of which a pressure curve characterizing the pressure curve in an injection line electrical signal is applied.

This electrical signal can be obtained with a known pressure transmitter will. Such pressure transducers are known in many forms from implementation, so that here on the explanation of the structure and the mode of operation of such a pressure transducer can be dispensed with. Structure and mode of operation of the one shown here in a block diagram Arrangement will be explained with reference to the circuit diagram shown in FIG.

In Fig. 2, the pressure-dependent electrical is connected to an input terminal 16 Signal applied, which is obtained with the help of a pressure transducer. With the input terminal 16 is one terminal of a resistor 17 connected, the other terminal leads to a condenser 18 and a condenser 19. The capacitor 19 is connected at one end to a common supply line, which in this case Case is the ground line. Together with the resistor 17 forms the capacitor 19 a sieve element that is intended to filter away interference peaks. The one with the resistance 17 and the capacitor 19 connected ondensator 18 forms together with a resistor 20 and a diode 21 a so-called clamp circuit. Here are the diode 21 and the resistor 20 connected in parallel with one another, the one connection point is connected to ground and the other connection point to an electrode of the capacitor 18 leads. The junction of the capacitor 18 of the resistor 20 and the diode 21 is connected to a first input 22 of an amplifier 23, which together forms the threshold value switch 10 with resistors 24, 25, 26, 27 and 28. The Etiderstands 24, 25 and .25 each have one of their connections to a second input 29 of the amplifier 23 is connected, the other terminal of the resistor 24 with the output of the amplifier 23, the other connection of the resistor 25 with the tap of a voltage divider consisting of resistors 27 and 28 and the other terminal of the resistor 26 is connected to ground. The voltage divider from the resistors 27 and 28 is between two common supply lines placed, of which one supply line is the ground line 30 and the other Supply line 31 to the positive pole of an operating voltage source, not shown further leads.

The output of the threshold switch is via a resistor 32 and a capacitor 33 having a resistor 34, a diode 35 and the collector of a transistor 36 connected. The resistor 34 and the diode 35 are each other connected in parallel with the other common terminal connected to ground. With the junction of the capacitor 33 of the resistor 34 of the diode 35 and the collector of the transistor 36, a resistor 37 is also connected, the leads to the base of a transistor 38. The emitter of this transistor 38 is connected to ground placed and the collector of transistor 38 is through a resistor 39 to the common supply line 31 connected. The transistor 36, which is part of the Torsc'laltung 11 is connected to the ground line 30 with its emitter, and the The base of the transistor 36 is connected to the collector of a transistor via a resistor 40 41 connected, the emitter of which is connected to ground and whose Xollector is still connected a resistor 42 is connected to the common supply line 31. the Base of this transistor 111 is connected to a capacitor 43, furthermore to the base of the transistor 41, a resistor 44 is connected, the one-sided with a negative lead 45 has a connection. Also is with the base of the transistor 41 a resistor 46 connected to the collector of one of the monostable Trigger stage 12 Geb listening transistor .47 is connected.

In addition to the transistor 47, the monostable multivibrator 12 has another Transistor 48, the base of which is connected to the tap of one of two resistors 49 and 50 existing voltage divider is connected. One resistor 50 is included with the genleinsarnen supply line 31 and the other resistor with the collector of transistor 47 and connected to resistor 46. The emitter of the transistor 48 is connected to the common supply line 31 and the collector of the transistor is connected to a first electrode of a capacitor 51 and to a ground on one side connected resistor 52 connected.

The second electrode of the capacitor 51 is one with the collector Transistor 53, a first terminal of a resistor 54 and the cathode of a Diode 55 connected.

The anode of diode 55 is connected to the base of transistor 47, whose emitter is connected to the common supply line 31. The resistance 54 is connected to ground on one side and to the base of transistor 53 that is speed-proportional DC voltage signal emitted by the speed measuring device 13 created. The emitter of this transistor 53 is on one side via a resistor 56 connected to ground. The monostable multivibrator is controlled via a connection line leading from the collector of transistor 38 through a capacitor 57 and a diode 58 leads to the base of the transistor 48. To the connection point of the capacitor 57 with the diode 58 is an RC element made up of a capacitor 59 and a resistor 60 connected which are connected in parallel to one another and on one side with the common supply line 31 have connection. With the collector of the Transistor 47 is the resistor connected to the monostable Xnno on one side 70 u stage 12 belongs / the first electrode of a capacitor 61 is connected, its second electrode through a resistor 62 to the base of a transistor 63 connection according to. The collector of this transistor 63 is connected to the connection point of the capacitor 51 and the collector of transistor 48 are connected. The knight of the transistor 53 is connected to ground via a resistor 64. The series connection of the Resistor 64 and the collector-emitter path of transistor 63 in parallel connected to resistor 52, At the connection point of the collectors the transistors 63 and 48, the differentiator 14 is connected, the one Capacitor 65 and a resistor 66 and a diode 67.

The mode of operation of the circuit arrangement and the importance of the individual components is the following. The pressure-dependent electrical signal has about the shape shown in Fig. 3a. Accordingly, there is a at input terminal 16 AC voltage signal that is superimposed on a DC voltage. As shown in Fig. 3a can also be seen, the pulse train consists of pulse groups, each assigned to a delivery stroke of a piston of the injection pump, not shown further can be. Since the DC voltage component of the signal applied to terminal 16 can fluctuate greatly, it is useful to suppress this DC voltage component. This is done with the slammer circuit from components 18, 20 and 21 this xlamming circuit becomes the potential at the first input 22 of the amplifier 23 set to zero volts. This means that at first input 22 of amplifier 23 only the AC voltage signal is still effective. This switching measure ensures that that with strongly fluctuating direct current component of the input signal the triggering takes place at least approximately at the beginning of the injection process. The following Amplifier 23, whose gain is v - 1 + R24 and whose switching R26 threshold is formed by the resistors 27, 28, 25 and 26, supplies a at its output Pulse sequence shown in Fig. 3b. From this Fig. 3b it can be seen that that at.

Passage of the alternating voltage signal through the switching threshold on Impulse appears that occurs when the Switching threshold is finished. Essentially, the pulse sequence according to FIG. 3a becomes a square pulse sequence here shaped. Here, too, pulse groups are formed which correspond to the stroke of a piston Injection pump can be assigned. The output pulses of the amplifier 23 are by the differentiating element formed from the capacitor 33 and the resistor 34 differentiated, 80 that the pulse needles shown in FIG. 3b result. The transistor 36, which is blocked in the idle state, leaves the first pulse of each pulse group on reach the base of transistor 38. Arrived from the collector of transistor 38 the amplified pulse on the base of the idle transistor 48 and controls it in its conducting state. This makes the capacitor 51 charged, the charge being determined by the internal resistance of transistor 53 will. As already indicated above, "a" is attached to the base of this transistor 53 Speed-proportional DC voltage signal applied, so that depending on the internal resistance of the transistor 53, the breakover time of the monostable trigger stage 12 can be changed. To prevent that at very low speeds and therefore also very small Control voltages at the base of the transistor 53 the internal resistance of the transistor 53 becomes so large that the monostable multivibrator 12 no longer works properly, the resistor 54 is provided, which allows a minimum current to flow. So is the tilting time of the monostable triggering stage is limited to a maximum value. so will the transistor 48 is turned on, then the transistor blocks 47. With one through the RC element from the capacitor 61 and the one widem one Diode 71 is connected in parallel.

The delay caused by 68 is transistor 4i in the non-conductive state and then the transistor 36 in the conductive state controlled. So the after the first impulse of an impulse group following pulses via the collector-emitter path of the transistor 36 derived and no longer reach the base of transistor 48 of the monostable multivibrator 12. The brief delay in switching the transistor 41 and thus of transistor 36 is particularly advantageous because it makes the first pulse a Pulse group full for controlling transistor 48 of the monostable trigger stage 12 can be exploited.

After the capacitor 51 has been recharged, the monostable multivibrator flips over back again in their stable condition.

In the process, the transistor 47 returns to the conductive state and A short pulse reaches the base of the transistor via the capacitor 61 63. This short pulse opens transistor 63 so that resistor 64 is parallel to the resistor 52 is switched. This measure makes an extraordinary one short recovery time of the monostable multivibrator reached.

When tilting the monostable multivibrator back into the stable state the transistor 36 is also blocked again.

This also happens with a short delay caused by the capacitor 61 is caused. This makes it possible for the first pulse to follow the next Pulse group switches the monostable Kibp circuit back into the unstable state.

The output signal of the monostable multivibrator, which is at the collector of the Transistor 48 is removed, is via a differentiator from the capacitor 55 and the resistor 66 fed to the stroboscopic lamp, not shown further. In the timing diagram of Fig. 3, this is the transistor 53 supplied Speed-proportional DC voltage signal shown at e. The signal at the collector of the transistor 48 of the monostable multivibrator is shown in Fig. 3 £ and that differentiated output signal for the stroboscopic lamp is shown in FIG. 3g. That on that Collector of transistor 41 applied signal, which is used to control. of the transistor 36 is shown in Fig. 3h. From the figures it can be seen that the signal for the control of the transistor 36 only after a short time after occurrence of the first impulse is available. This ensures that the first Impulse can be used fully to control the monostable multivibrator, so that a possible false triggering of the monostable multivibrator is avoided.

Claims (6)

Expectations Arrangement for obtaining a trigger signal, for example for Strobe lights, from the pressure in an injection line of a diesel internal combustion engine corresponding electrical signal, characterized in that the corresponding to the pressure electrical signal is connected to a Scht.rellwertschalter (10), which via a gate circuit (11) is connected to a monostable multivibrator (12), whose breakdown time can be changed as a function of the speed of the diesel internal combustion engine and whose output signal controls the gate circuit (11). 2. Arrangement according to claim 1, characterized in that the threshold switch (10) a so-called clamp circuit (15) is connected upstream. 3. Arrangement according to claim 1 or 2, characterized in that da.S the gate circuit has a transistor (36) which, depending on the switching state the monostable flip-flop (12) blocks or is conductive. 4. Arrangement according to one of claims 1 to 3, characterized in that that the transistor (16) is delayed into the conductive state via a timing element (61, 68) and controllable in the non-conductive state with a delay via a timing element (43,44,46) is. 5. Arrangement according to one of claims i to 4, characterized in that since an electronic switch (63) can be controlled via the timing element (61,68), which when actuated a resistor (64) parallel to one of the repetition time of monostable flip-flop (12) determining resistor (52) switches. 6. Arrangement according to one of claims 1 to 5, characterized in that that the output of the monostable KipD stage (12) is followed by a differentiating element (65,66) is.