Method and device for current sensing of small currents

What is claimed is: 1. A device for current sensing of a power transistor system, comprising: a power transistor; a first series circuit which has a first transistor and a first resistance, the first resistance being situated in a load circuit of the first transistor; a second series circuit which has a second transistor and a second resistance, the second resistance being situated in a load circuit of the second transistor, the first series circuit, the second series circuit, and the power transistor being situated in parallel with one another, the first resistance being connected to the first transistor in an electrically conductive manner when the first transistor is switched on, and the second resistance being connected to the second transistor in an electrically conductive manner when the second transistor is switched on, a gate terminal of the first transistor being connected to a gate terminal of the power transistor in an electrically conductive manner when the power transistor is switched on; and a control unit configured to: switch on the power transistor and the first transistor, sense a first voltage potential which represents a voltage drop at the first resistance, ascertain a current as a function of the first voltage potential and the first resistance, and switch off the power transistor and the first transistor when the current is lower than a predefined threshold value, while switching on the second transistor so that an overall current is in effect flowing across the second transistor. 2. The device as recited in claim 1 , wherein the control unit has a timing circuit so that the control unit carries out the switch-off of the power transistor and the first transistor for a certain period of time. 3. The device as recited in claim 1 , wherein the first resistance and the second resistance have different resistance values, the first resistance having at least one tenth of the resistance value of the second resistance. 4. The device as recited in claim 1 , wherein a forward resistance of the second transistor is provided as second resistance. 5. The device as recited in claim 1 , wherein the first transistor and the second transistor have an identical transistor type, the transistor type being one of an n-MOS or a p-MOS transistor. 6. A safety switch for automotive electrical system loads having a device for current sensing of a power transistor system, the safety switch functioning as low-side switch, comprising: a power transistor; a control unit; a load resistance which connects a drain terminal of the power transistor to a supply voltage; a first series circuit having a first transistor and a first resistance, the first resistance being situated in a load circuit of the first transistor; and a second series circuit having a second transistor and a second resistance, the second resistance being situated in a load circuit of the second transistor, the first series circuit, the second series circuit, and the power transistor being situated in parallel with one another, the first resistance being connected to the first transistor in an electrically conductive manner when the first transistor is switched on, and the second resistance being connected to the second transistor in an electrically conductive manner when the second transistor is switched on, a gate terminal of the first transistor being connected to a gate terminal of the power transistor in an electrically conductive manner when the power transistor is switched on; wherein the control unit is designed to: switch on the power transistor and the first transistor, sense a first voltage potential which represents a voltage drop at the first resistance, ascertain a current, and switch off the power transistor and the first transistor when the current is lower than a predefined threshold value, while switching on the second transistor so that an overall current is in effect flowing across the second transistor. 7. A safety switch for automotive electrical system loads having a device for current sensing of a power transistor system, the safety switch functioning as high-side switch, comprising: a power transistor; a control unit; a load resistor which connects a source terminal of the power transistor to ground; a first series circuit having a first transistor and a first resistance, the first resistance being situated in a load circuit of the first transistor; and a second series circuit having a second transistor and a second resistance, the second resistance being situated in a load circuit of the second transistor, the first series circuit, the second series circuit, and the power transistor being situated in parallel with one another, the first resistance being connected to the first transistor in an electrically conductive manner when the first transistor is switched on, and the second resistance being connected to the second transistor in an electrically conductive manner when the second transistor is switched on, a gate terminal of the first transistor being connected to a gate terminal of the power transistor in an electrically conductive manner when the power transistor is switched on; wherein the control unit is designed to: switch on the power transistor and the first transistor, sense a first voltage potential which represents a voltage drop at the first resistance, ascertain a current, and switch off the power transistor and the first transistor when the current is lower than a predefined threshold value while switching on the second transistor so that an overall current is in effect flowing across the second transistor. 8. A method for current sensing of a power transistor system that includes a power transistor; a first series circuit which has a first transistor and a first resistance, the first resistance being situated in a load circuit of the first transistor; a second series circuit which has a second transistor and a second resistance, the second resistance being situated in a load circuit of the second transistor, the first series circuit, the second series circuit, and the power transistor being situated in parallel with one another, the first resistance being connected to the first transistor in an electrically conductive manner when the first transistor is switched on, and the second resistance being connected to the second transistor in an electrically conductive manner when the second transistor is switched on, a gate terminal of the first transistor being connected to a gate terminal of the power transistor in an electrically conductive manner when the power transistor is switched on; and a control unit, the method comprising: switching on the power transistor and the first transistor with the aid of the control unit, so that the first resistance in the load circuit of the first transistor is energized; sensing a first voltage potential which represents a voltage drop at the first resistance; ascertaining a current with the aid of the control unit as a function of the first voltage potential and the first resistance; and switching off the power transistor and the first transistor with the aid of the control unit when the current is lower than a predefined threshold value, with the second transistor being switched on so that an overall current is in effect flowing across the second transistor. 9. The method as recited in claim 8 , wherein the switch-off of the first transistor is carried out for a specific time.