Power relay circuit

What is claimed is: 1. A power conversion circuit, comprising: a high-side switch and a low-side switch connected in series with one another and configured to control a load current flowing through a load; wherein at least one of the high-side switch and the low-side switch comprise a power relay circuit for switching the load current, and wherein the power relay circuit comprises: a micro-electro-mechanical system (MEMS) switch; a semiconductor power switch; a driver circuit configured to receive a power relay circuit control signal and to set an ON-OFF control input of the MEMS switch and an ON-OFF control input of the semiconductor power switch, and wherein the MEMS switch and the semiconductor power switch are connected in series with the load. 2. The power conversion circuit of claim 1 , wherein the power relay circuit further comprises: an auxiliary switch connected in parallel with the MEMS switch, the auxiliary switch comprising an auxiliary MEMS switch and/or an auxiliary semiconductor power switch. 3. The power conversion circuit of wherein the driver circuit, upon receiving a power relay circuit control signal indicative of connecting the power relay circuit, is configured to: when the MEMS switch is OFF, set the ON-OFF control input of the MEMS switch to ON; and thereafter set the ON-OFF control input of the semiconductor power switch to ON, wherein the driver circuit is further configured to set an ON-OFF control input of the auxiliary switch to ON before setting the ON-OFF control input of the MEMS switch to ON. 4. The power conversion circuit of claim 3 , wherein the driver circuit, upon receiving a power relay circuit control signal indicative of disconnecting the power relay circuit, is configured to: set the ON-OFF control input of the semiconductor power switch to OFF; and thereafter set the ON-OFF control input of the MEMS switch to OFF. 5. The power conversion circuit of claim 1 , wherein the power relay circuit further comprises: a driver circuit configured to receive a power relay circuit control signal and to set an ON-OFF control input of the MEMS switch and an ON-OFF control input of the semiconductor power switch. 6. The power conversion circuit of claim 5 , wherein the driver circuit, upon receiving a power relay circuit control signal indicative of disconnecting the power relay circuit, is configured to: set the ON-OFF control input of the semiconductor power switch to OFF; and thereafter set the ON-OFF control input of the MEMS switch to OFF. 7. The power conversion circuit of claim 6 , wherein the driver circuit, after having set the ON-OFF control input of the MEMS switch to OFF, is configured to set the ON-OFF control input of the semiconductor power switch to ON. 8. The power conversion circuit of claim 5 , wherein the driver circuit, upon receiving a power relay circuit control signal indicative of connecting the power relay circuit, is configured to: when the MEMS switch is OFF, set the ON-OFF control input of the MEMS switch to ON; and thereafter set the ON-OFF control input of the semiconductor power switch to ON. 9. The power conversion circuit of claim 1 , wherein the high-side switch comprises the power relay circuit, and wherein the load is connected between ground and a low side terminal of the power relay circuit. 10. The power conversion circuit of claim 1 , wherein the low-side switch comprises the power relay circuit, and wherein the load is connected between a high side terminal of the power relay circuit and a battery voltage. 11. A method of switching a load current by a power conversion circuit comprising a high-side switch and a low-side switch and a driver circuit, wherein at least one of the high-side switch and the low-side switch comprise a power relay circuit for switching the load current, wherein the power relay circuit comprises a micro-electro-mechanical system (MEMS) switch, a semiconductor power switch, and an auxiliary switch connected in parallel with the MEMS switch, the auxiliary switch comprising an auxiliary MEMS switch and/or an auxiliary semiconductor power switch, and wherein the MEMS switch and the semiconductor power switch are connected in series with a load of the power conversion circuit, and wherein the method comprises: disconnecting the power relay circuit by switching the semiconductor power switch to OFF and thereafter switching the MEMS switch to OFF: and/or connecting the power relay circuit by switching the MEMS switch to ON and thereafter switching the semiconductor power switch to ON; upon receiving a power relay circuit control signal indicative of connecting the power relay circuit, when the MEMS switch is OFF, setting the ON-OFF control input of the MEMS switch to ON and thereafter setting the ON-OFF control input of the semiconductor power switch to ON using the driver circuit; and setting an ON-OFF control input of the auxiliary switch to ON before setting the ON-OFF control input of the MEMS switch to ON using the driver circuit. 12. The method of claim 11 , wherein the high-side switch comprises the power relay circuit, and wherein the load is connected between ground and a low side terminal of the power relay circuit. 13. The method of claim 11 , wherein the low-side switch comprises the power relay circuit, and wherein the load is connected between a high side terminal of the power relay circuit and a battery voltage.