DE10242606A1 - Control method for electromagnetic device e.g. in motor vehicle fuel injection system, by connecting device to voltage supply in attracting phase, independently of operating state - Google Patents

Abstract

The electromagnetic device is connected to a first voltage supply in a booster phase, and to a second voltage supply in a holding phase. In an attracting phase the device is connected to the second voltage supply or to a supply having a higher voltage than the second voltage supply, independently of the operating state. An Independent claim is included for an apparatus for controlling an electromagnetic device.

Description

State of the art

The invention relates to a method and a device for controlling at least one electromagnetic Consumer according to the generic terms the independent Expectations.

A method and a device for controlling at least one electromagnetic consumer is known, for example, from US Pat DE 100 34 458 known. In the procedure described there, in a so-called booster phase, the consumer is subjected to a voltage which is higher than the further control at the start of the control. During this booster phase, the consumer is supplied with the high voltage from a second voltage source, whereupon the current rises rapidly. In a subsequent tightening phase or a subsequent holding phase, the consumer is supplied from the usual supply voltage. In a vehicle, the supply voltage is the battery.

The length of the tightening phase is like this specified that the desired safe switching of the armature of the solenoid valve is calibrated. By the use of the higher Voltage in the booster phase becomes a rapid increase in injector current ensured. Will follow the booster phase in the tightening phase the injector is operated with the vehicle electrical system voltage, so it depends current that arises directly from the level of the vehicle electrical system voltage. Usually current regulation takes place in the tightening phase. The amount of yourself setting current is a direct function of the vehicle electrical system voltage and all resistances in the circuit, consisting of cable resistance, Resistance of the electronic components in the control unit, connector resistances, resistance the injector coil. These resistances have a dependency the temperature to which they are exposed. With unfavorable Current control is no longer a condition in the starting phase possible, because the one you want Electricity is no longer reached. This is particularly the case if the vehicle electrical system voltage drops and / or the total resistance elevated.

The switching time of the armature in the injector is again a function of the current flowing through the coil. Sinks the current decreases due to the reduced vehicle electrical system voltage or the increased temperature, the switching behavior of the armature is delayed. This in turn affects on the injection quantity and the injection timing. With it result yourself negative changes in combustion and exhaust gas behavior.

If such a consumer becomes Control of a fuel metering system of an internal combustion engine used, it can happen in certain operating conditions that the Injection quantity and / or the injection timing changes.

According to the invention, it was recognized that the switching behavior of the injector stabilizes and thus the combustion and the exhaust gas behavior is improved if in the tightening phase the consumer depends on Operating state with the first power supply or with a across from the second voltage supply can be connected to increased voltage, i.e. if there is normal operation, the consumer is in the Tightening phase connected to the normal electrical system voltage. Lie certain operating conditions in which, for example, a low vehicle electrical system voltage is given is, for example, at low outside temperatures, and / or arise increased Resistance values of the components, for example at very high temperatures, so in the tightening phase the consumer with the increased voltage provided. This procedure can change the switching behavior of the injector even with variable ones Vehicle electrical system voltage or variable Resistance values are operated stably.

The invention is illustrated below of the embodiments illustrated in the drawing.

Show it

1 a block diagram of the device according to the invention and

2 a flowchart of the procedure according to the invention.

description of the embodiments

The procedure according to the invention is as follows using the example of an electromagnetic consumer in the form of a High pressure injector described. Such solenoid valves are in particular for controlling the fuel supply in internal combustion engines used. The procedure according to the invention is not limited to this application, it can basically be used for all electromagnetic consumers at the beginning of the control with an increased Voltage are applied, especially for a fast switching process to be used.

The essential elements of a corresponding device are shown in 1 shown as a block diagram. The electromagnetic consumer is designated 100. This is above a first switching means 110 with a supply voltage 120 in connection. Furthermore, the consumer stands 100 via a current measuring device 130 with a ground connection 140 in contact. Via a second switching device 150 is the consumer 100 also with a voltage source 160 connected. The supply voltage 120 is also referred to below as the second voltage source and the voltage source 160 referred to as the first power supply.

The first and the second switching means are controlled by a controller 170 acted upon with control signals. Furthermore, an output signal of the current measuring means 130 the control 170 fed.

The first and the second switching means 110 or 150 are preferably designed as semiconductor switches, in particular as field-effect transistors. In addition to the switching means shown, additional switching means and / or other components, in particular between the consumer 100 and the ground connection. For example, a free-wheeling diode can be provided. At the supply voltage 120 when used on a motor vehicle, it is preferably the vehicle battery.

The voltage source 160 is preferably designed as a capacitor that can be charged to a voltage that is higher than the supply voltage. A DC / DC converter is preferably used to charge the capacitor. In particularly advantageous refinements, the energy released by the consumer when it is switched off 100 returned to the condenser. The capacitor is often referred to as a so-called booster capacitor.

The procedure is not limited to the use of a booster capacitor. It can also be used in other configurations of voltage sources 160 used.

The current measuring device 130 is preferably designed as an ohmic resistor, the voltage drop of which is a measure of that by the consumer 100 represents flowing current. The arrangement of the current measuring device 130 is chosen only as an example, it can also be between the consumer 100 and the first and second switching means.

The control 170 acts on the first and the second switching means depending on the operating state of the internal combustion engine and / or by the consumer 100 flowing current.

At the beginning of the current supply, the consumer is operated with an increased voltage which is significantly above the supply voltage. This increased voltage is from the first voltage supply 160 provided. This first phase is usually referred to as the booster phase. The increased voltage accelerates the increase in the current flowing through the consumer. The booster phase usually ends when the desired booster current IB is reached. The so-called tightening phase follows the booster phase. During the tightening phase, the current is usually regulated to the tightening current value. This is dimensioned so that the consumer reaches his new end position as quickly as possible.

According to the invention, it is now provided that, during the tightening phase, either the consumer with the supply voltage 120 or with the voltage source 160 is connected. This switchover between the supply voltage 120 and the voltage source 160 takes place depending on operating parameters that influence the operating parameters of the consumer. The corresponding operating parameters and / or operating parameters and / or other variables that characterize them can be used. At least the vehicle electrical system voltage and / or a temperature value are used particularly advantageously. The temperature of one of the components, such as the control unit, the consumer and / or the temperature of the internal combustion engine, is preferably used. In particular, it is provided that at temperatures above a first threshold S and below a second threshold the voltage source 160 and at temperatures below the first threshold or above the second threshold, the supply voltage 120 is chosen. During the tightening phase, the switch is activated 110 or 150 a current control. Alternatively and / or additionally, it can be checked whether the vehicle electrical system voltage, ie the voltage at the supply voltage 120 is less than a threshold. If this is the case, the voltage source also becomes 160 used. If the supply voltage is greater than the threshold value, the supply voltage becomes 120 used.

Will power the injector with the higher Booster voltage over prolonging the normal booster time will worsen the energy balance of the system since the generation of the higher booster voltage is connected with power losses from the vehicle electrical system voltage. Around Limiting the power loss is particularly advantageous embodiment the energization time with the increased Booster voltage limited to a time TS with which the desired short switching behavior of the consumer is reached. That it is not done through the current regulation from the higher booster voltage during the entire tightening phase. The Length of Current supply time with the higher booster voltage in the tightening phase, a map is used as a function of the vehicle electrical system voltage and / or the temperature of the components.

In 2 A particularly advantageous embodiment is shown on the basis of a flow chart. In a first step, a time counter T is initialized to the value zero. The current is detected in a second step 210 mes I by the consumer 100 flows. The subsequent query 220 checks whether the current I is greater than the current value IB. If this is not the case, the booster operation is continued in step 225, that is to say by actuating the switching means 150 becomes the consumer with the voltage source 160 connected. The time counter T is then increased by 1 in step 230. Step 230 is followed again by the measurement of the current in step 210.

Detects the query 220 that the current is greater than the value IB, the booster phase ends and the transition into the pull-in phase. In the step 240 relevant operating parameters, such as one or more temperature values TW and / or the supply voltage U, are recorded. The subsequent query 250 checks whether there is a certain operating state. For example, the query checks 250 whether the water temperature TW is greater than a threshold. If this is the case, then operation in step 255 with the supply voltage 120 passed over, ie by activating the switch 110 the current flowing through the consumer is adjusted to a specific setpoint that corresponds to the starting current. This continues until the anchor of the consumer has reached its new end position. If the armature has reached its new end position, or shortly before, it goes into the holding current phase. It can be provided that the tightening phase is ended after a fixed time or if a signal is present that indicates that the armature has reached its new position.

Detects the query 250 that the water temperature has not exceeded the threshold or recognizes the query 250 that the voltage U is below a threshold value, the consumer becomes the voltage source from step 260 160 connected. Ie the switch 150 is controlled in the sense of a current regulation. Then in step 265, the time counter T is increased by 1. The subsequent query 270 checks whether the time is greater than a threshold value TS. If this is not the case, step 260 takes place again. If this is the case, step 255 is passed to the application of the normal supply voltage.

By the time counter T, which is initialized in step 200, incremented in step 265, and the query 270 whether the time counter is greater than a threshold value TS, it is ensured that the operation in the tightening phase with the voltage source 160 only for a predetermined time TS. This predefined time TS is preferably predefined in step 240 as a function of operating parameters. A small threshold value is preferably specified at low temperatures and high voltages and a larger value at high temperatures and low voltages.

In the embodiment shown, it is provided that the time period TS during which the consumer is connected to the first voltage supply starts at the beginning of the booster phase. Alternatively, it can also be provided that this time measurement only after the query 250 starts. This means that step 230 is omitted.

By means of the query 250 becomes dependent on the operating state, in particular a temperature value TW and / or the supply voltage U, between operation with the supply voltage 120 and increased tension 160 switched. This switchover only applies to the tightening phase and, in a preferred embodiment, only for a predetermined period of time TS.

In one configuration, it can be provided that that while the tightening phase of the consumer with the first power supply is connectable, but that a further voltage supply is provided is the one opposite provides increased voltage to the second voltage supply. This means in the holding phase, the consumer will move on to the second Power supply applied. In the booster phase, the consumer supplied with a first voltage supply. In the tightening phase the consumer can be charged with a third power supply. This third voltage supply supplies a voltage that is higher as the second power supply. Preferably third Power supply uses the second power supply. This but is not mandatory.

Claims (9)

Method for controlling an electromagnetic consumer, in which the consumer can be connected to a first voltage supply in a booster phase and to a second voltage supply in a holding phase, characterized in that, depending on the operating state, the consumer can be connected to the second voltage supply or to one in relation to the operating state second voltage supply increased voltage is connectable. A method according to claim 1, characterized in that in a tightening phase the consumer depends on the operating status the second voltage supply or with the first voltage supply is connectable. A method according to claim 1 or 2, characterized in that that a temperature value and / or a voltage value as the operating state be recorded. Method according to one of the preceding claim 3, characterized characterized in that a temperature value is recorded which is the temperature characterized by the consumer, and / or the control unit. Method according to one of the preceding claims, characterized characterized that the booster phase ends when the current hits one exceeds the first threshold. Method according to one of the preceding claims, characterized characterized that the energization of the consumer with the first Power supply ends after a specifiable period of time. A method according to claim 6, characterized in that the time period depends on the vehicle electrical system voltage and / or depending on a temperature value can be specified. Device for controlling an electromagnetic Consumer, in which the consumer is in a booster phase a first power supply and in a holding phase with a second power supply is connectable, characterized in that funds are provided that are in a consumer tightening phase dependent from the operating state with the second power supply or with one opposite connect increased voltage to the second power supply. Apparatus according to claim 8, characterized in that the first power supply as a capacitor and / or voltage converter is trained.