DE3400787A1 - Trigger clamp - Google Patents

Abstract

A trigger clamp for detecting the rotational speed in motor vehicles and motorcycles is proposed by means of which ignition pulses can be evaluated. The trigger clamp comprises a ferrite core formed of two shells, both core halves carrying a high-inductance winding. The result is that, due to the low-pass characteristic of the winding, the spark head is masked out and furthermore the trigger clamp is more immune to interference whilst being more sensitive. <IMAGE>

Description

Trigger clamp

PRIOR ART The invention is based on a trigger clamp the genre of the main claim. Trigger clamps for the acquisition of ignition pulses are known for a long time. Known trigger pliers are clamp-shaped and wear at its end two pot cores that can be clamped around an ignition cable. To the In known trigger pliers, a coil is used to record the ignition current, which only a few Has turns. The signal obtained in this way is amplified in a suitable manner, so that impulses can be obtained from it. An example of this is in the DE-OS 24 60 o46 shown. The previous trigger clamps react to the steep signal edge of the ignition voltage spark head and leave only a slight increase in sensitivity otherwise a capacitive crosstalk on the ignition cables leads to false triggering leads. Furthermore, in the known trigger clamps, the burning current is after the Spark head cannot be detected.

Advantages of the invention The trigger clamp according to the invention with the characterizing Features of the main claim has the advantage that on the one hand the sensitivity the trigger clamp is easy to increase and on the other hand due to the low natural resonance frequency the combustion current can be detected. Another advantage is that the high number of turns requires a high translation, so that additional transformers can be omitted and that the high number of turns results in a low-pass behavior of the trigger clamp results, so that the ignition voltage spark head is noticeably reduced in its amplitude will. This in turn results in a higher level of immunity to interference while at the same time being greater Sensitivity.

The measures listed in the subclaims are advantageous Further developments and improvements of the trigger clamp specified in the main claim possible. It is particularly advantageous to combine the outer windings and to be connected with a shield.

This ensures that voltages that are capacitive from the ignition cable couple to the winding, be diverted to the shielding. An additional shield is then not required and can be omitted. It is also beneficial if the core halves are wound symmetrically. On the one hand, this means a simplification in production and, if the two halves of the winding are connected accordingly, that capacitively coupled voltage parts on the windings further inside couple, cancel each other out and thus not be evaluated. This in phase The easiest way to connect the winding halves is to use a differential amplifier realize. For the total inductance, an inductance of about 1 to 5 H has proven to be special proved beneficial. For better recording of changes in the fuel flow it is advantageous to arrange a Hall element between the core halves. By this arrangement can also detect direct currents and very slow current changes. The sensitivity of the Hall element is in a wide range by means of the control current customizable.

Drawing An embodiment of the invention is shown in the drawing shown and explained in more detail in the following description. It show figure 1 shows an exemplary embodiment of the invention and FIG. 2 shows pulse diagrams for explanation the invention.

Description of the exemplary embodiment FIG. 1 shows the two halves 1 and 2 of a ferrite core, each core half in a part of the trigger clamp is housed. A coil 3 and 4 is applied to each core half. Both core halves are wound symmetrically in equal parts. The coils 3 and 4 have a large number of turns, so that on the one hand there is a large translation and on the other hand, the total inductance of the coils 3 and 4 is 1 to 5H.

The outer windings 5 and 6 are connected and connected to the common ground line.

This creates voltages that are capacitive from the ignition cables to the Coupling windings, diverted directly to ground. The inner connections 7 and 8 of coils 3 and 4 are led to a differential amplifier 9. The trigger signal can be tapped at the output of the differential amplifier 9. The ferrite core halves 1 and 2 enclose a cable, not shown, through which the ignition current flows. The course of such an ignition current is shown in Figure 2a, while in Figure 2b the voltage is shown, for example at the output of the differential amplifier 9 can be tapped. By connecting the outer winding to the ground, it is possible to that the outer layers of the symmetrical winding take on a shielding function, so that further shielding is not required. Capacitive coupled Tension components that couple to further inner turns reach the downstream differential amplifier 9 as an in-phase signal and are thus not evaluated while the inductively coupled voltages of both winding halves add up to a differential input signal in the correct phase. Capacitive crosstalk is therefore surely suppressed. This increases the immunity to interference, although the Sensitivity has increased due to the large number of windings. Through the high inductance of the windings 3 and 4, the trigger clamp has a low-pass behavior so that the spark head is largely masked out and does not result in overdrive of the differential amplifier leads. Together with the high sensitivity it is achieved that, as FIG. 2b shows, the fuel current can also be reliably analyzed. If even small changes in the combustion current are to be recorded, it is possible to to attach a Hall element to one of the legs of the core halves 1 or 2.

By means of the Hall element, there are also direct currents and very slow currents Current changes detectable. With the help of Control current through the Hall element, the sensitivity can be adapted to the transmission behavior. Blank page

Claims (6)

Claims 9 vriggerzange for the detection of ignition pulses with one Ferrite core formed from two shells, which carries an induction winding on one side, characterized in that a winding (3, 4) is applied to each core half (1, 2) which has a high inductance. 2. Trigger pliers according to claim 1, characterized in that the outer windings (5, 6) are combined and connected to a shield. 3. Trigger pliers according to claim 1 or 2, characterized in that the core halves (1, 2) are wound symmetrically. 4. Trigger clamp according to claim 3, characterized in that the Connections (7, 8) of the windings (3, 4) are fed to a differential amplifier (9) are. 5. Trigger clamp according to one of the preceding claims, characterized characterized in that the total inductance of the coils is in the range from 1 to 5 H lies. 6. Trigger clamp according to one of the preceding claims, characterized in that that a Hall element is arranged between the core halves (1, 2).