Heating circuit with monitoring arrangement for a household appliance

The invention claimed is: 1. A washing and/or drying appliance, comprising a heating circuit for heating a washing liquid and/or a drying air flow, the heating circuit being connected to voltage distribution lines distributing power inside the appliance and comprising at least one heating resistor, a first switch, and a second switch, wherein: the first switch and the second switch are controlled by an appliance control unit for selectively energizing the heating resistor; the heating resistor is interposed between the first and second switches with a first node on a high side of said heating resistor in electrical contact with a low side terminal of said first switch, and a second node on a low side of said heating resistor being in electrical contact with a high side terminal of said second switch; a monitoring circuit arrangement is associated with the heating circuit, said monitoring circuit arrangement comprising a resistive network including a first resistor connected to a first terminal of the heating resistor of the heating circuit so as to be bypassed when the first switch is closed, and a second resistor connected to a second terminal, different from the first terminal, of the heating resistor of the heating circuit so as to be bypassed when the second switch is closed, the monitoring circuit arrangement further comprising a current sensor arranged to measure a current flowing through the resistive network and to feed an indication of the measured current to the control unit; the control unit is configured for assessing possible faults of the heating circuit based on the indication of the measured current; and the first resistor has a first terminal coupled to a first one of the voltage distribution lines and a second terminal connected to the first terminal of the heating resistor which is coupled to said first one of the voltage distribution lines, and the second resistor has a first terminal connected to the second terminal of the heating resistor opposite the first terminal of the heating resistor and a second terminal coupled to a second one of the voltage distribution lines. 2. The appliance of claim 1 , further comprising a main switch controlled by the control unit for selectively allowing the powering of the appliance, wherein the heating circuit is connected to the voltage distribution lines upstream or downstream of the main switch with respect to an AC voltage plug of the appliance. 3. The appliance of claim 2 , wherein said main switch is switchable to close only on a condition that the control unit detects that an appliance door is closed. 4. The appliance of claim 2 , wherein said resistive network of the monitoring circuit arrangement is connected to the voltage distribution lines either downstream or upstream of the main switch. 5. The appliance of claim 1 , wherein the resistive network further comprises a third resistor connected in shunt to the heating resistor and having a resistance value substantially higher than the heating resistor resistance value. 6. The appliance of claim 1 , wherein said current sensor comprises a resistor in series to the first and/or second resistors. 7. The appliance of claim 1 , wherein said current sensor comprises one among an amperometric transformer or a Hall sensor. 8. A washing and/or drying appliance, comprising a heating circuit for heating a washing liquid and/or a drying air flow, the heating circuit being connected to voltage distribution lines distributing power inside the appliance and comprising at least one heating resistor, a first switch, and a second switch, wherein: the first switch and the second switch are controlled by an appliance control unit for selectively energizing the heating resistor; the heading resistor is interposed between the first and second switches with a first node on a high side of said heating resistor in electrical contact with a low side terminal of said first switch, and a second node on a low side of said heating, resistor being in electrical contact with a high side terminal of said second switch; a monitoring circuit arrangement is associated with the heating circuit, said monitoring circuit arrangement comprising a resistive network including a first resistor connected to a second terminal of the heating resistor of the heating circuit so as to be bypassed when the first switch is closed, and a second resistor connected to a first terminal, different from the second terminal, of the heating resistor of the heating circuit so as to be bypassed when the second switch is closed, the monitoring circuit arrangement further comprising a current sensor arranged to measure a current flowing through the resistive network and to feed an indication of the measured current to the control unit; the control unit is configured for assessing possible faults of the heating circuit based on the indication of the measured current; and the first resistor has a first terminal coupled to a first one of the voltage distribution lines and a second terminal connected to the second terminal of the heating resistor which is coupled to a second one of the voltage distribution lines, and the second resistor has a first terminal connected to the first terminal of the heating resistor which is coupled to the first one of the voltage distribution lines and a second terminal coupled to the second one of the voltage distribution line. 9. The appliance of claim 3 , wherein said resistive network of the monitoring circuit arrangement is connected to the voltage distribution lines either downstream or upstream of the main switch. 10. The appliance of claim 2 , wherein the resistive network further comprises a third resistor connected in shunt to the heating resistor and having a resistance value substantially higher than the heating resistor resistance value. 11. The appliance of claim 3 , wherein the resistive network further comprises a third resistor connected in shunt to the heating resistor and having a resistance value substantially higher than the heating resistor resistance value. 12. The appliance of claim 4 , wherein the resistive network further comprises a third resistor connected in shunt to the heating resistor and having a resistance value substantially higher than the heating resistor resistance value. 13. The appliance of claim 2 , wherein said current sensor comprises a resistor in series to the first and/or second resistors. 14. The appliance of claim 3 , wherein said current sensor comprises a resistor in series to the first and/or second resistors. 15. The appliance of claim 4 , wherein said current sensor comprises a resistor in series to the first and/or second resistors. 16. The appliance of claim 5 , wherein said current sensor comprises a resistor in series to the first and/or second resistors. 17. The appliance of claim 2 , wherein the first resistor has a first terminal coupled to a first one of the voltage distribution lines and a second terminal connected to the first terminal of the heating resistor which is coupled to said first one of the voltage distribution lines, and the second resistor has a first terminal connected to the second terminal of the heating resistor opposite the first terminal of the heating resistor and a second terminal coupled to a second one of the voltage distribution lines. 18. The appliance of claim 5 , wherein the first resistor has a first terminal coupled to a first one of the voltage distribution lines and a second terminal connected to the first terminal of the heating resistor which is coupled to said first one of the voltage distri