Method for operating a mechanical system, particularly a proportioning valve

What is claimed is: 1. A method for operating a pressure regulating valve having a valve element, the method comprising: supplying a control current to an electromagnetic operating device; moving the valve element with the electromagnetic operating device to regulate the pressure at a regulating connection of the pressure regulating valve; impressing on the valve element an oscillating micromotion; wherein the oscillating micromotion comprises at least a first period of oscillation and a second period of oscillation, wherein the second period of oscillation immediately follows the first period of oscillation; wherein the oscillating micromotion includes movement in a first direction at a first speed during a first time duration within the first and the second period of oscillation, and movement in a second direction at a second speed during a second time duration within the the first and the second period of oscillation; wherein the first speed is greater than the second speed and the first time duration is shorter than the second time duration, resulting in an asymmetrical dither; and wherein an integral of a first speed of the oscillating micromotion or of a corresponding control variable over a first time duration within the first and the second period of oscillation in the first direction is at least approximately equal in absolute value to an integral of a second speed of the oscillating micromotion or of a corresponding control variable over a second time duration within the first and the second period of oscillation in the second directions; obtaining an average directed frictional force resulting from the asymmetrical dither during each of the first and the second period of oscillation; and using the average directed frictional force to avoid or at least to reduce a hysteresis in the relationship between the control current and the pressure at the regulating connection of the pressure regulating valve. 2. The method of claim 1 , wherein an absolute value of a frictional force, which is generated by the asymmetrical dither, is a function of at least one of a current setpoint operating variable and a current actual operating variable of the mechanical system. 3. The method of claim 1 , wherein a direction of a frictional force, which is generated by the asymmetrical dither, is a function of at least one of a current setpoint operating variable and a current actual operating variable of the mechanical system. 4. The method of claim 1 , wherein the asymmetrical dither is generated by a rectangular control signal. 5. A non-transitory computer readable medium having a computer program, which is executable by a processor, comprising: a program code arrangement having program code for operating a pressure regulating valve having a valve element, by performing the following: supplying a control current to an electromagnetic operating device; moving the valve element with the electromagnetic operating device to regulate the pressure at a regulating connection of the pressure regulating valve; impressing on the valve element an oscillating micromotion; wherein the oscillating micromotion comprises at least a first period of oscillation and a second period of oscillation, wherein the second period of oscillation immediately follows the first period of oscillation; wherein the oscillating micromotion includes movement in a first direction at a first speed during a first time duration within the first and the second period of oscillation, and movement in a second direction at a second speed during a second time duration within the the first and the second period of oscillation, wherein the first speed is greater than the second speed and the first time duration is shorter than the second time duration, resulting in an asymmetrical dither; and wherein an integral of a first speed of the oscillating micromotion or of a corresponding control variable over a first time duration within the first and the second period of oscillation in the first direction is at least approximately equal in absolute value to an integral of a second speed of the oscillating micromotion or of a corresponding control variable over a second time duration within the first and the second period of oscillation in the second direction; obtaining an average directed frictional force resulting from the asymmetrical dither during each of the first and the second period of oscillation; and using the average directed frictional force to avoid or at least to reduce a hysteresis in the relationship between the control current and the pressure at the regulating connection of the pressure regulating valve. 6. The method of claim 5 , wherein the pressure regulating valve is a proportioning valve. 7. A control regulating device for a pressure regulating valve having a component, comprising: a processing arrangement having a non-transitory computer readable medium having a computer program, which is executable by a processor, including: a program code arrangement having program code for operating a pressure regulating valve having a valve element, by performing the following: supplying a control current to an electromagnetic operating device; moving the valve element with the electromagnetic operating device to regulate the pressure at a regulating connection of the pressure regulating valve; impressing on the valve element an oscillating micromotion; wherein the oscillating micromotion comprises at least a first period of oscillation and a second period of oscillation, wherein the second period of oscillation immediately follows the first period of oscillation; wherein the oscillating micromotion includes movement in a first direction at a first speed during a first time duration within the first and the second period of oscillation, and movement in a second direction at a second speed during a second time duration within the the first and the second period of oscillation, wherein the first speed is greater than the second speed and the first time duration is shorter than the second time duration, resulting in an asymmetrical dither; and wherein an integral of a first speed of the oscillating micromotion or of a corresponding control variable over a first time duration within the first and the second period of oscillation in the first direction is at least approximately equal in absolute value to an integral of a second speed of the oscillating micromotion or of a corresponding control variable over a second time duration within the first and the second period of oscillation in the second direction; obtaining an average directed frictional force resulting from the asymmetrical dither during each of the first and the second period of oscillation; and using the average directed frictional force to avoid or at least to reduce a hysteresis in the relationship between the control current and the pressure at the regulating connection of the pressure regulating valve.