System and Method for a Switched-Mode Power Supply

What is claimed is: 1 . A method of operating a switched-mode power converter comprising a switch, a freewheeling diode coupled between an output terminal of the switch and a power supply input node, an inductor coupled between the output terminal of the switch and a power supply output node, and a passive network having a first terminal coupled to the output terminal of the switch, a second terminal coupled to a power supply output node, and a third terminal coupled to a reference terminal of the switch, the method comprising: measuring a first voltage at a fourth terminal of the passive measurement coupling network when the switch is on; measuring a second voltage at the fourth terminal of the passive measurement coupling network when the switch is off; and estimating an output voltage between the power supply output node and the reference terminal of the switch based on the first voltage and the second voltage. 2 . The method of claim 1 , wherein the passive measurement coupling network comprises: a first resistor coupled between the second terminal and the fourth terminal of the passive measurement coupling network; a second resistor coupled between the first terminal and the fourth terminal of the passive measurement coupling network; and a third resistor coupled between the third terminal and third terminal of the passive measurement coupling network. 3 . The method of claim 1 , wherein: measuring the first voltage comprises sampling the first voltage when the switch is on to form a first sampled voltage; and measuring the second voltage comprises sampling the first voltage when the switch is off to form a second sampled voltage. 4 . The method of claim 3 , further comprising: turning off the switch; determining when a current through the freewheeling diode reaches zero after turning off the switch; and sampling the first voltage when the switch is off comprises sampling the first voltage when the current through the freewheeling diode reaches zero based on the determining. 5 . The method of claim 4 , wherein determining when the current through the freewheeling diode reaches zero comprises monitoring a voltage at the output terminal of the switch. 6 . The method of claim 3 , wherein estimating the output voltage comprises subtracting a value of the first voltage from a value of the second voltage. 7 . The method of claim 6 , wherein subtracting comprises applying a first weight to the first sampled voltage and applying a second weight to the second sampled voltage prior to the subtracting. 8 . The method of claim 7 , wherein the first weight is twice the second weight. 9 . The method of claim 3 , further comprising: converting the first sampled voltage to a first current; and converting the second sampled voltage to a second current, wherein estimating the output voltage comprises subtracting the first current from the second current. 10 . The method of claim 1 , further comprising comparing the estimated output voltage to a predetermined threshold. 11 . The method of claim 10 , further comprising shutting down the switched-mode power converter when the estimated output voltage exceeds the predetermined threshold. 12 . A controller configured to control a switched-mode power supply that includes a switch, a freewheeling diode coupled between an output terminal of the switch and a power supply input node, an inductor coupled between the output terminal of the switch and a power supply output node, and a passive network having a first terminal coupled to the output terminal of the switch, a second terminal coupled to a power supply output node, and a third terminal coupled to a reference terminal of the switch, the controller comprising: a voltage measuring circuit having an input terminal configured to be coupled to a fourth terminal of the passive measurement coupling network, the voltage measuring circuit configured to measure a first voltage at a fourth terminal of the passive measurement coupling network when the switch is on and measure a second voltage at the fourth terminal of the passive measurement coupling network when the switch is off; and an output voltage estimation circuit coupled to an output of the voltage measuring circuit, the output voltage estimation circuit configured to estimate an output voltage between the power supply output node and the reference terminal of the switch based on the first voltage and the second voltage. 13 . The controller of claim 12 , wherein the passive measurement coupling network comprises: a first resistor coupled between the second terminal and the fourth terminal of the passive measurement coupling network; a second resistor coupled between the first terminal and the fourth terminal of the passive measurement coupling network; and a third resistor coupled between the third terminal and third terminal of the passive measurement coupling network. 14 . The controller of claim 12 , wherein the output voltage measuring circuit comprises: a first sample and hold circuit having a first sampling input coupled to the input terminal of the voltage measuring circuit; and a second sample and hold circuit having a second sampling input coupled to the input terminal of the voltage measuring circuit. 15 . The controller of claim 14 , wherein: the first sample and hold circuit further comprises a first sample control input coupled to a control signal for the switch, the first sample and hold circuit configured to sample the first sampling input when the control signal is in a first state; and the second sample and hold circuit further comprises a second sample control input coupled to a control signal for the switch, the second sample and hold circuit configured to sample the second sampling input when the control signal is in a first second state different from the first state. 16 . The controller of claim 14 , wherein the output voltage estimation circuit comprises: a first transconductance amplifier coupled to an output of the first sample and hold circuit; a second transconductance amplifier coupled to an output of the first sample and hold circuit; and a current subtraction circuit configured to produce a current proportional to the estimated output voltage, the current subtraction circuit comprising a first input coupled to the output of the first transconductance amplifier, and a second input coupled to the output of the second sample and hold circuit. 17 . The controller of claim 16 , wherein the output of the current subtraction circuit provides a signal proportional to an output of the second transconductance amplifier minus two-times the output of the first transconductance amplifier. 18 . The controller of claim 12 , further comprising a comparator configured to compare an output of the output voltage estimation circuit with a predetermined threshold, and to shut down the switched-mode power supply when the output of the output voltage estimation circuit exceeds the predetermined threshold. 19 . The controller of claim 12 , further comprising: the switch; and a pulse-width modulator coupled to a control node of the switch. 20 . The controller of claim 19 , wherein the voltage measuring circuit, the output voltage estimation circuit, the switch and the pulse-width modulator are disposed on a semiconductor substrate. 21 . A switched-mode power supply comprising: a switch; a pulse modulator circuit having an output coupled to a control node of the switch; a freewhee