DE2541153A1 - IC engine ignition system with precise ignition point(s) - has detector for signal triggering mark on disc coupled to crankshaft - Google Patents

Abstract

The detecting system of a signal triggering marking has an induction mechanism and a signal processing circuit. The latter is in the form of a threshold switch (20) with a variable hysteresis whose selective function is dependent on the engine crankshaft speed. Preferably the electric magnitude, determining the hysteresis is generated by a diode-resistor combination. The junction point between a generator (15) containing the induction mechanism, and the non-inverting input of an amplifier forming the threshold switch is connected to the positive line via. diodes polarised in blocking direction, and directly to the negative line. An active component may be series connected to the non-inverting input for varying the hysteresis.

Description

Device for detecting at least one signal triggering

Marking on one with the crankshaft of an internal combustion engine coupled disk The invention relates to a device for detecting at least a signal triggering marking on a crankshaft of an internal combustion engine coupled disc, with an induction system and a signal conditioning circuit.

Used in internal combustion engines with regard to pollutant emissions If an exact ignition point is required, a reference point is a prerequisite for this must also be precisely determined for triggering the ignition. This can be done with a precisely fixed Marking on a disk coupled to the crankshaft are used, these Marking must be before the earliest possible ignition point. The designation Pre-ignition characterizes the angular relationship between the top dead center of the respective Piston and the ignition timing.

In general, it can be said that the ignition timing increases as the speed increases Tnuî be shifted in the early direction when the internal combustion engine is efficient should work. The reference point for triggering the ignition has proven to be useful 60 degrees from top dead center OT to be arranged. In addition, another Marking in the area of the top dead center of a piston can be provided to the To fix the starting ignition point.

It has been found to be advantageous if these two markings, one about 60 degrees before TDC, the other in TDC, as magnetic pins with different magnetic polarity are formed on the encoder side. In an induction system then signals with different polarity starting half-waves generated. An electrical angle segment, for example, can then be obtained from these signals will.

With the induction system used, the encoder signal is from accompanied by interference signals that are caused in principle. Take the amplitudes of the interfering signals how the useful signal amplitude increases proportionally with the speed, and there is the There is a risk that the disturbance amplitudes in the size range, especially at high speeds the useful amplitudes come at low speeds. However, this would become false Lead measurement results.

The object of the invention is therefore to connect a circuit arrangement to create with an induction transmitter system the disturbances from the subsequent signal evaluation system able to hold back.

This object is achieved in that the signal conditioning circuit is designed as a threshold switch with adjustable hysteresis.

With this changeable hysteresis, interfering signals, their As a result of the principle, the amplitude as well as the amplitude of the useful signal increases with increasing Speed increases, filter out.

It is particularly advantageous if the hysteresis has a selectable function is speed dependent.

According to the law of induction, the amplitudes are due to induction The obtained signal voltage is proportional to the number, and thus the amplitude should also be the hysteresis can be linearly adjustable, but there may also be non-linear relationships desirable if the existing circuitry exhibits such non-linearity make it seem appropriate.

For generating the electrical quantity that determines the hysteresis it is particularly advantageous and inexpensive when resistor-diode networks be used.

With the circuit arrangement according to the invention, it is possible to have a Information about the angular position of the crankshaft of an internal combustion engine obtained, which is speed-independent and does not allow any error signals to arise.

Two embodiments of the invention are shown in the drawing and are described and explained in more detail below. Show it: Fig. la, b: an arrangement of disc, markings and induction generator, Fig. 2 a Noise-prone signal that is generated by two different magnetic Markings exhibiting polarity is triggered, FIG. 3 shows the dependence of the hysteresis of the speed, FIG. 4 a first circuit arrangement, FIG. 4a a pulse diagram to this first circuit arrangement, and FIG. 5 shows a second circuit arrangement.

In Fig. 1, 10 denotes a disk coupled to the crankshaft, with 11 to 14 magnetic markings each with different ones on the encoder side magnetic polarity. These markings are detected by an encoder 15. Fig. 2 shows the encoder output signal. Since each mark has adjacent markings with has a different magnetic polarization, the encoder output signal shows At the beginning and at the end of each signal, interference components with the same sign like that of the neighboring usable shares. Since these interfering components are speed-dependent, they must be filtered out to differentiate between useful and interference signals happens with a variable response threshold or hysteresis.

Such a speed-dependent hysteresis is shown in FIG. 3. At low Speeds, the threshold value and thus the hysteresis is constant while it decreases a certain speed increases hyperbolic. The change is going through Hyperbolic branches Um formed via a resistor-diode combination.

Fig. 4 shows the first embodiment of the signal conditioning circuit, the main component of which is a coupled amplifier 20. Because of the With positive feedback, the amplifier 20 represents a Schmitt trigger, which in its hysteresis can be changed with a signal on a power 21. Is accomplished the positive feedback via a series connection of two resistors 23 and 24 between Output 25 and non-inverting input 26 of amplifier 20, at their connection point 27 the line 21 is connected. The amplifier 2C receives its control signal from the encoder 15 to which a resistor 29 is connected in parallel. This resistance 29 ensures sufficient low resistance to interference voltages at high speeds, However, taking into account the armature reaction, it must not be made too low-resistance will.

While the connection 30 of the encoder 15 with the connection point 31 a voltage divider consisting of two resistors 32 and 33 between a Plus line 34 and a minus line 35 is connected and from this connection point a resistor 37 is led to the inverting input 38 of the amplifier 20, is the second connection 40 of the transmitter 15 via a series connection of two resistors 41 and 42 with the non-inverting input 26 of the amplifier 20 in connection. The coupling point of the resistors 41 and 42 is each one in the reverse direction polarized diode 44 and 45 led to the plus and minus lines 34, 35. These diodes 44 and 45 limit the stroke of the encoder signal at the common point of the resistors 41 and 42 on the supply voltage. The resistors 32 and 33 are used for generation a reference voltage for the threshold switch. Lie for security reasons between the two inputs 26 and 38 of the amplifier. 20 anti-parallel diodes 46 and 47.

The hysteresis control of the Schmitt trigger with the amplifier 20 takes place via line 21 from a diode-resistor combination, its inputs 50 and 51 in turn with the voltage Um, or To be acted upon. A series circuit is located between these two inputs 50 and 51 three resistors 52, 53 and 54, the middle resistor 53 being connected in series two diodes 55 and 56, which are switched in the forward direction, is bridged. At the connection point of these two diodes 55 and 56, the line 21 is connected.

In addition, there are two more on either side of the resistor 53 Zener diodes 60 to 63 are placed on the plus and minus lines 34, 35.

The functionality of the hysteresis control can be seen on the basis of the pulse diagrams Explain from Fig. 4a: 1. Line 21 is disconnected, protection diodes 44 - 47 are unavailable. Then the hysteresis of the threshold switch is given by the Ratio of resistances 23/24 and 41/42. At the output 25 of the amplifier 20 stand Pulses are available whose amplitudes are around the saturation voltages of the amplifier are lower than the supply voltage. Dashed lines appear at point 27 Pulses with a slightly reduced amplitude (voltage division by resistors 24 and 25), there is a large hysteresis.

2. Line 21 is now with the diode-resistor combination - 1 tion tied together. The speed is approx. 5000 min 1. The voltage at points 25 and 27 shows Fig. 4a2. If point 25 is at the positive stop, then there is a diode 56 conductive, and a current of 25 flows through 24 and 56 (voltage at 21 is the same 8V + U56 = 8.7V). If point 25 is at the negative stop, then diode is 55 conductive, and a current flows through 55 and 24 (voltage at 21 equals 2V - U55 = 1.3V).

The Zener diodes 61 - 63 are always blocked and have no effect whatsoever the end. The voltage at 27 is smaller than at 1., and the hysteresis is opposite 1. slightly reduced in size.

3. Line 21 connected. Speed 2000 min. Explanation as in 2 .; Zener diodes always blocked. The hysteresis is now much smaller than with 2.

4. Line 21 connected. Speed less than 1500 min 1. ~ Without the Zener diodes 61 - 63 the hysteresis would become zero as the speed decreases, and the Schmitt trigger would be useless. - With the help of the Zener diodes, there is a limitation introduced. With decreasing Um, a flow begins via 63, 62 and 54 to the point 51 to flow. The same applies to Um and 505 61 and 52. The voltage at 53 becomes no longer determined by round and round. Since the characteristics of the Zener diodes in the The area around the onset of the zener current is a curved curve, a "soft" Onset of the limiting effect. This is shown in phantom in FIG. 3. In practice, a total of 4 Zener diodes are used for the purpose of temperature compensation used, but the principle mode of operation does not change if the Zener diodes 62, 63 and 60, 61 can each be combined to form a diode.

According to FIG. 3, the diode-resistor combination accordingly effects of FIG. t shows a hysteresis expansion above a selectable speed nh, and this certain speed is in turn determined by the control voltages Um and Um. the Control voltages Um and Um themselves can be determined via non-linear circuit elements Obtain from a speed-proportional encoder signal.

In Fig. 5, the second embodiment is shown in which the hysteresis is not adjusted by intervening in the positive feedback line, but the resistance in front of the non-inverting input 26 in a selectable manner is changed. For this purpose, the output 40 of the encoder 15 with the connection point is a Voltage divider from the resistors 70 and 71 between the plus line 34 and the negative line 35, from which a variable resistor 72 to the non-inverting input 26 of the amplifier 20 is performed. The second entrance 30 of the transmitter 15 is connected to the inverting input 38 via a resistor 73.

Because the hysteresis of the Schmitt trigger is proportional to the value of the resistance 72 is and the hysteresis is to be larger at higher speeds, it must be smaller at lower Speed a small value for the resistor 72 can be created and-accordingly a large resistance value at high speed. Appropriately, instead of this resistor 72 uses a field effect transistor with the control voltage To be controlled via a voltage divider (self-conducting junction FET, z. B. BF 245).

The circuits described above are Schmitt triggers in type with adjustable hysteresis. In the wiring shown, they deliver almost speed-independent Signals for a subsequent evaluation circuit, whereby e.g. a reference point for the ignition triggering in an internal combustion engine can be determined exactly. the The form shown in Fig. 3 has proven to be useful in the present case, however linear dependencies can also be desirable depending on the subsequent evaluation circuit be.

The designation Schmitt trigger is used in the description above generally for a threshold switch with hysteresis.

Claims (6)

Claims device for detecting at least one signal triggering device Marking on a disk coupled to the crankshaft of an internal combustion engine, with an induction system and a signal conditioning circuit, characterized in that that the signal conditioning circuit as a threshold switch (20 with wiring is designed with variable hysteresis. 2. Device according to claim 1, characterized in that the hysteresis is speed-dependent in a selectable function. 3. Device according to claims 1 and 2, characterized in that that the electrical variable determining the hysteresis in a diode-resistor combination (52 to 56, 60 to 63) can be generated. 4. Device according to claim 1, characterized in that a connection point between a transducer (15) containing an induction system and the non-inverting one Input (26) of an amplifier (20) forming the threshold value switch via in the reverse direction polarized diodes (4ei, 45) on the positive lead (34) and on the negative lead (35). 5. Device according to claims 1 and 2, characterized in that that to change the hysteresis an active electrical component is the non-inverting one Input (26) of the amplifier (20) is connected upstream. 6. Device according to at least one of claims 1 to 5, characterized characterized that a'Konstante as a function of the hysteresis at low speeds is provided and a hyperbolic dependency at higher speeds.