Electronic level control device for air-suspended vehicles, method and control device for electronic level control

What is claimed is: 1. An electronic level control device for a vehicle having an air suspension system, said vehicle comprising a chassis having at least one axle, at least two wheels arranged on the at least one axle, and an air spring arranged between the at least one axle and the chassis for at least one of the at least two wheels, the electronic level control device comprising: an electronic control unit configured to initiate a level controlling procedure by actuating a solenoid valve of the air spring to supply compressed air to the air spring from a compressed air storage device and/or discharge compressed air from the air spring into the atmosphere so as to perform the level controlling procedure; and at least one capacitive level sensor comprising a variable capacitance, wherein said capacitive level sensor is configured to determine a distance between the chassis and the at least one axle based on the variable capacitance, the at least one capacitive level sensor further comprising a capacitor formed by the chassis and the at least one axle, wherein the variable capacitance varies depending upon the distance between the chassis and the at least one axle; and the electronic control unit including an electric circuit comprising a DC voltage source, a charging resistor, and a time-voltage measuring unit, wherein the electric circuit is configured to: generate a square wave voltage: determine a time period that elapses between applying the square wave voltage and achieving a predetermined charging voltage value at the capacitor, and calculate a current capacitance of the capacitor by the formula: C2=(R1/Δt−1/C1) −1 wherein C 2 is the current capacitance of the capacitor, R 1 is a previously known electrical resistance of the charging resistor, Δt is the determined time period, and C 1 is a constant capacitance of other capacitive elements connected in series to the capacitor, and wherein the electronic control unit is configured to generate a control signal for actuating the solenoid valve based on a value of the variable capacitance and wherein variable capacitance is the calculated current capacitance of the capacitor (C 2 ). 2. The electronic level control device as claimed in claim 1 , further comprising value pairs of different capacitance values of the capacitor and associated distance values between the chassis and the at least one axle, wherein the value pairs are stored in the electronic control unit, wherein the electronic control unit is configured to generate the control signal on one of the value pairs corresponding to the current capacitance. 3. The electronic level control device as claimed in claim 1 , wherein the electronic control unit is configured to determine a current distance between the chassis and the at least one axle based on the current capacitance, and wherein the electronic control unit is configured to generate the control signal based on a comparison of the current distance to a desired distance stored in the electronic control unit. 4. The electronic level control device as claimed in claim 1 , wherein the predetermined charging voltage value is 0.67 times the square wave voltage. 5. The electronic level control device as claimed in claim 1 , wherein a rotational speed sensor is arranged on the at least one axle for each of the at least two wheels and comprises a constant capacitive element connected in series to the capacitor. 6. A method for electronic level control of a vehicle having an air suspension system, said vehicle comprising a chassis having at least one axle, two wheels arranged on the at least one axle, and an air spring for at least one of the wheels arranged between the at least one axle and the chassis, the method comprising: initiating, by an electronic control unit, a level controlling procedure comprising one of: supplying compressed air to the air spring from a compressed air storage device; or discharging compressed air from the air spring into the atmosphere; determining a capacitance of a capacitor, said capacitance being variable in dependence upon a distance between the at least one axle and the chassis, wherein the chassis together with the at least one axle forms the capacitor; generating a square wave voltage by an electric circuit, wherein the electric circuit comprises a DC voltage source, a charging resistor, and a time-voltage measuring unit; and determining, using the electric circuit, a time period that elapses between applying the square wave voltage and achieving a predetermined charging voltage value at the capacitor; wherein determining the capacitance of the capacitor comprises calculating a current capacitance of the capacitor by the formula: C2=(R1/Δt−1/C1) −1 wherein C 2 is the current capacitance of the capacitor, R 1 is a previously known electrical resistance of the charging resistor, Δt is the determined time period, and C 1 is a constant capacitance of other capacitive elements connected in series to the capacitor and generating a control signal for actuating a solenoid valve to initiate the level controlling procedure based on the determined current capacitance of the capacitor (C 2 ). 7. The method as claimed in claim 6 , further comprising adjusting the distance between the chassis and that least one axle based upon value pairs stored by the electronic control unit for the current capacitance and an associated distance value. 8. The method as claimed in claim 6 , further comprising determining a current distance between the chassis and the at least one axle based on the current capacitance, wherein the control signal is based on a comparison of the current distance to a desired distance stored in the electronic control unit. 9. The method as claimed in claim 6 , further comprising calibrating the electronic control unit by: measuring the constant capacitance of other capacitive elements connected in series to the capacitor by measuring the constant capacitance of a rotational speed sensor connected in series to the capacitor, and storing the value of the measured constant capacitance in the electronic control unit; and measuring the value of the capacitance of the capacitor at different distance values between the at least one axle and the chassis, and storing the capacitance and distance values as value pairs in the electronic control unit. 10. The method as claimed in claim 6 , wherein the predetermined charging voltage value is 0.67 times the square wave voltage. 11. The method as claimed in claim 6 , wherein the vehicle comprises at least one other axle, wherein initiating the level controlling procedure comprises initiating a simultaneous level controlling procedure for both axles of the vehicle based on the determined capacitance.