Voltage supply circuit with an auxiliary voltage supply unit and method for starting up electronic circuitry

The invention claimed is: 1. A voltage supply circuit for an electronic circuit, comprising: a switch connectable to a supply input of the electronic circuit and a main supply voltage source providing a main supply voltage, the switch being arranged to selectively connect the supply input of the electronic circuit to the main supply voltage source; an auxiliary voltage supply unit having an auxiliary voltage output arranged to be coupled to the supply input of the electronic circuit, the auxiliary voltage supply unit being configured to at least temporarily output at the auxiliary voltage output an auxiliary voltage to the supply input instead of the main supply voltage, the auxiliary voltage having a voltage level lower than a voltage level of the main supply voltage, wherein the auxiliary voltage supply unit comprises a current mirror circuit comprising a voltage source path with a diode-connected transistor and with a voltage reference circuit, and a current-following path with a mirror transistor and with a load resistor, the load resistor being stressed by the auxiliary voltage which depends on the output of the voltage reference circuit; a sensing unit coupled to an output of the electronic circuit, the sensing unit being configured to sense an output voltage or internal voltage of the electronic circuit and to activate the switch, if the voltage level of the output voltage or internal voltage exceeds a predetermined threshold. 2. The voltage supply circuit of claim 1 , wherein the auxiliary voltage supply unit is configured to output the auxiliary voltage to the supply input during a start-up period of the electronic circuit. 3. The voltage supply circuit of claim 1 , wherein the sensing unit comprises: a level detection circuit coupled to the output of the electronic circuit, the level detection circuit being configured to output an activation signal for activating the switch, if the voltage level of the output voltage or internal voltage exceeds the predetermined threshold. 4. The voltage supply circuit of claim 3 , wherein the level detection circuit comprises one of a Schmitt trigger or degenerated inverters. 5. The voltage supply circuit of claim 1 , the sensing circuit further comprising: a ramping circuit coupled to the level detection circuit, the ramping circuit being configured to ramp the activation signal from low level to high level for smoothly changing the gate voltage of the switch from high to low level. 6. The voltage supply circuit of claim 1 , wherein the voltage reference circuit comprises one of a Zener diode, a bandgap reference and a diode. 7. The voltage supply circuit of claim 1 , wherein the switch comprises a PMOS transistor having a high width-to-length ratio. 8. A method for starting up an electronic circuit, the method comprising: supplying a main supply voltage to a supply input of the electronic circuit; supplying an auxiliary voltage with an auxiliary voltage supply unit having an auxiliary voltage output arranged to be coupled to the supply input of the electronic circuit, wherein the auxiliary voltage supply unit comprises a current mirror circuit comprising a voltage source path with a diode-connected transistor and with a voltage reference circuit, and a current-following path with a mirror transistor and with a load resistor, the load resistor being stressed by the auxiliary voltage which depends on the output of the voltage reference circuit; temporarily outputting the auxiliary voltage instead of the main supply voltage to a supply input of the electronic circuit during a start-up period of the electronic circuit, the auxiliary voltage having a voltage level lower than a voltage level of the main supply voltage; supplying the main supply voltage to the electronic circuit after the start-up period; monitoring an output voltage or internal voltage of the electronic circuit, wherein the end of the start-up period is dependent on the monitored output voltage or internal voltage. 9. An integrated circuit, comprising: an electronic circuit; a switch connectable to a supply input of the electronic circuit and a main supply voltage source providing a main supply voltage, the switch being arranged to selectively connect the supply input of the electronic circuit to the main supply voltage source; and an auxiliary voltage supply unit having an auxiliary voltage output arranged to be coupled to the supply input of the electronic circuit, the auxiliary voltage supply unit being configured to at least temporarily output at the auxiliary voltage output an auxiliary voltage to the supply input instead of the main supply voltage, the auxiliary voltage having a voltage level lower than a voltage level of the main supply voltage, wherein the auxiliary voltage supply unit comprises a current mirror circuit comprising a voltage source path with a diode-connected transistor and with a voltage reference circuit, and a current-following path with a mirror transistor and with a load resistor, the load resistor being stressed by the auxiliary voltage which depends on the output of the voltage reference circuit; a sensing unit coupled to an output of the electronic circuit, the sensing unit being configured to sense an output voltage or internal voltage of the electronic circuit and to activate the switch, if the voltage level of the output voltage or internal voltage exceeds a predetermined threshold. 10. The integrated circuit of claim 9 , wherein the electronic circuit comprises one of a bandgap reference circuit, a voltage regulator, and/or a digital-to-analog converter.