Apparatus employing coil inductance determination and method for operating the apparatus

The invention claimed is: 1. An apparatus comprising: an electric motor comprising: a stator; an armature having a rotor, at least one coil, a processing means and storage means containing commands; a detection means configured to determine the inductance L of the coil by measuring at least one electrical quantity related to the coil during operation of the motor; and a pulse width modulation (PWM) circuitry configured to control the electric motor, wherein the PWM circuitry is configured to connect the coil to a voltage supply during charge time periods T on and to disconnect the coil from the voltage supply during discharge time periods T off , wherein execution of the commands on the processing means causes the detection means of the apparatus to determine the inductance L of the coil and/or the position of the armature as a function of the inductance L of the coil by measuring at least one electrical quantity related to the coil during operation of the motor, wherein the detection means are configured to determine a discharge current from the coil during discharge time periods T off , wherein the detection means are configured to drain a discharge current from the coil through a variable electric resistance provided by a variable resistance circuitry comprising a first resistor, a second resistor and at least one switch, wherein the variable resistance circuitry is adjustable via the at least one switch to provide at least two different electric resistance values, wherein the detection means determines a length of time for a discharge current from the coil dropping from a first given current value to a second given current value, and wherein the detection means at least twice drain a discharge current from the coil through a variable electric resistance provided by a variable resistance circuitry comprising a first resistor a second resistor and at least one switch and measure a voltage over at least one of the first resistor and second resistor of the variable resistance circuitry, wherein at the first time the variable resistance circuitry provides a first electric resistance value and wherein at the second time the variable resistance circuitry provides a different second electric resistance value. 2. An apparatus comprising: an electric motor comprising: a stator; an armature having a rotor, at least one coil, a processing means and storage means containing commands; a detection means configured to determine the inductance L of the coil by measuring at least one electrical quantity related to the coil during operation of the motor; and a pulse width modulation (PWM) circuitry configured to control the electric motor, wherein the PWM circuitry is configured to connect the coil to a voltage supply during charge time periods T on and to disconnect the coil from the voltage supply during discharge time periods T off , wherein execution of the commands on the processing means causes the detection means of the apparatus to determine the inductance L of the coil and/or the position of the armature as a function of the inductance L of the coil by measuring at least one electrical quantity related to the coil during operation of the motor, wherein the detection means are configured to determine a discharge current from the coil during discharge time periods T off , wherein the detection means are configured to drain a discharge current from the coil through a variable electric resistance provided by a variable resistance circuitry comprising a first resistor, a second resistor and at least one switch, wherein the variable resistance circuitry is adjustable via the at least one switch to provide at least two different electric resistance values, wherein the electric motor is controlled by pulse width modulation and the detection means determines a discharge current from the coil during at least one discharge time period T off of the PWM, and wherein the detection means determines a first length of time for a discharge current from the coil dropping from a first given current value to a second given current value while the variable resistance circuitry provides the first electric resistance value, and the detection means determine a second length of time for the discharge current dropping from a third given current value to a fourth given current value while the variable resistance circuitry provides the second electric resistance value, and the detection means determines the inductance L of the coil and/or the position of the armature as a function of the first and the second length of time.