Voltage level shifter for high voltage applications

1 . A voltage level shifter, comprising: a low voltage domain current mirror including first and second branches; a high voltage switch and a first resistor connected in series with the second branch; and an output stage that provides an output signal that is a function of a voltage difference across the first resistor, wherein the output stage and the first resistor are in a high voltage domain; wherein assertion of an input signal in the low voltage domain generates a first current in the first branch, and causes the high voltage switch to pass in the resistor a second current from the second branch that is a function of the first current and that generates the voltage difference across the resistor. 2 . The voltage level shifter of claim 1 , further comprising a low voltage switch connected in series with the first branch for passing the first current when the input signal is asserted. 3 . The voltage level shifter of claim 1 , wherein de-assertion of the input signal halts flow of the first and second currents, and the high voltage switch withstands a voltage difference between the high and low voltage domains. 4 . The voltage level shifter of claim 3 , further comprising a unidirectional element in the low voltage domain that prevents a voltage difference appearing across the second branch when the high voltage switch is non-conducting. 5 . The voltage level shifter of claim 3 , further comprising a unidirectional element in the low voltage domain connected to a node between the high voltage switch and the second branch, and a second resistor connected between the high voltage switch and a node in the high voltage domain, to conduct electrostatic discharge (ESD) currents from the high voltage domain and protect the high voltage switch. 6 . The voltage level shifter of claim 1 , wherein the first resistor includes current carrying paths of a plurality of series connected transistors. 7 . The voltage level shifter of claim 1 , wherein a Zener diode is connected in parallel with the first resistor to clamp the voltage difference across the resistor to a limit value. 8 . The voltage level shifter of claim 1 , wherein the output stage includes an asymmetrical push-pull inverter. 9 . The voltage level shifter of claim 1 , further comprising a unidirectional element in the high voltage domain connected to a node between the high voltage switch and the first resistor to conduct electrostatic discharge (ESD) currents from the high voltage domain and protect the output stage. 10 . A voltage level shifter, comprising: a low voltage domain current mirror including first and second branches having first and second transistors respectively that have respective control electrodes connected together and first and second current carrying paths respectively, the first branch including in series a first resistor, the first current carrying path and a low voltage switch; a high voltage switch and a second resistor in series with the second branch; and an output stage that provides an output signal that is a function of a voltage difference across the second resistor, wherein the output stage and the second resistor are in the high voltage domain; wherein assertion of an input signal in the low voltage domain causes the low voltage switch to apply a voltage difference across the first resistor and the first transistor that generates a first current in the first branch, and causes the high voltage switch to pass in the second resistor a second current from the second branch that is a function of the first current and that generates the voltage difference across the second resistor. 11 . The voltage level shifter of claim 10 , wherein the low voltage switch passes the first current when the input signal is asserted. 12 . The voltage level shifter of claim 10 , wherein de-assertion of the input signal halts flow of the first and second currents and the high voltage switch withstands a voltage difference between the high and low voltage domains. 13 . The voltage level shifter of claim 12 , further comprising a unidirectional element in the low voltage domain connected to a node between the high voltage switch and the second branch to prevent a voltage difference appearing across the second branch when the input signal is de-asserted and the high voltage switch is non-conductive. 14 . The voltage level shifter of claim 12 , further comprising a unidirectional element in the low voltage domain connected to a node between the high voltage switch and the second branch, and a third resistor connected between the high voltage switch and a node in the high voltage domain, to conduct electrostatic discharge (ESD) currents from the high voltage domain and protect the high voltage switch. 15 . The voltage level shifter of claim 10 , further comprising a Zener diode connected in parallel with the second resistor for clamping the voltage difference across the second resistor to a limit value. 16 . The voltage level shifter of claim 10 , wherein the output stage includes an asymmetrical push-pull inverter. 17 . The voltage level shifter of claim 10 , further comprising a unidirectional element in the high voltage domain connected to a node between the high voltage switch and the second resistor to conduct electrostatic discharge (ESD) currents from the high voltage domain and protect the output stage. 18 . A voltage level shifter, comprising: a low voltage domain current mirror including first and second branches; a high voltage switch and a first resistor connected in series with the second branch; a first unidirectional element in the low voltage domain connected across the second branch; a second unidirectional element in the low voltage domain connected to a node between the high voltage switch and the second branch, and a second resistor connected between the high voltage switch and a node in the high voltage domain, to conduct electrostatic discharge (ESD) currents from the high voltage domain and protect the high voltage switch; and an output stage providing an output signal that is a function of a voltage difference across the first resistor, the output stage and the first resistor being in the high voltage domain; wherein assertion of an input signal in the low voltage domain generates a first current in the first branch, and causes the high voltage switch to pass in the resistor a second current from the second branch that is a function of the first current and that generates the voltage difference across the first resistor; and wherein the first unidirectional element prevents voltage difference appearing across the second branch when the high voltage switch is non-conducting. 19 . The voltage level shifter of claim 18 , further comprising a low voltage switch connected in series with the first branch that passes the first current when the input signal is asserted. 20 . The voltage level shifter of claim 18 , wherein de-assertion of the input signal halts flow of the first and second currents and the high voltage switch withstands a voltage difference between the high and low voltage domains.