High-speed sensing based on analog twin circuit

What is claimed is: 1 . An analog twin circuit device comprising: a sensing element including a signal input terminal configured to receive an input signal and a signal output terminal configured to output a signal; and a signal conditioning circuit including a first circuit input terminal connected to the signal input terminal and a second circuit input terminal connected to the signal output terminal such that the sensing element is configured to interact directly with the input signal and delivers an output signal to the signal output terminal, wherein the signal conditioning circuit physically models the sensing element. 2 . The analog twin circuit device of claim 1 , wherein the signal conditioning circuit is configured to mimic an impedance of the sensing element. 3 . The analog twin circuit device of claim 2 , wherein the signal conditioning circuit is configured to match an input behaviour and output behaviour of the sensing element. 4 . The analog twin circuit device of claim 3 , wherein the sensing element is an inductor-resistor (LR) series circuit. 5 . The analog twin circuit of claim 4 , wherein the signal conditioning circuit is an analog reciprocal of the LR series circuit such that the conditioning circuit models a reciprocal impedance of an inductive impedance (L) of the sensing element and a series resistive impedance (R) of the sensing element. 6 . The analog twin circuit of claim 1 , wherein the sensing element includes a temperature insensitive metal alloy. 7 . The analog twin circuit of claim 6 , wherein the temperature insensitive metal alloy includes one or a combination of manganin and manganese-based alloy. 8 . The analog twin circuit of claim 1 , further comprising: a temperature sensor coupled to the sensing element; and a programmable resistor included with the conditioning circuit and in signal communication with the temperature sensor. 9 . The analog twin circuit of claim 8 , wherein the programmable resistor is configured to vary in response to an output of the temperature sensor. 10 . The analog twin circuit of claim 9 , wherein varying the programmable resistor is configured to change a frequency characteristic of the signal conditioning circuit. 11 . The analog twin circuit of claim 1 , further comprising: a first isolator that couples the signal input terminal to the first circuit input terminal; and a second isolator that couples the signal output terminal to the second circuit input terminal. 12 . A method of sensing an electrical signal, the method comprising: delivering the electrical signal to a sensing element; coupling the sensing element to a conditioning circuit configured to physically model the sensing element; and generating an output signal based on an interaction between the electrical signal and the sensing element and on nonideal parasitics of the sensing element modelled by the conditioning circuit. 13 . The method of claim 12 , wherein the signal conditioning circuit is configured to mimic an impedance of the sensing element. 14 . The method of claim 13 , wherein the signal conditioning circuit is configured to match an input behaviour and output behaviour of the sensing element. 15 . The method of claim 14 , wherein the sensing element is an inductor-resistor (LR) series circuit. 16 . The method of claim 15 , wherein the signal conditioning circuit is an analog reciprocal of the LR series circuit such that the conditioning circuit models a reciprocal impedance of an inductive impedance (L) of the sensing element and a series resistive impedance (R) of the sensing element. 17 . The method of claim 12 , further comprising: coupling a temperature sensor to the sensing element; delivering an output of the temperature sensor to a programmable resistor included with the conditioning circuit; and varying the programmable resistor in response to changes in the output of temperature sensor. 18 . The method of claim 17 , further comprising changing a frequency characteristic of the signal condition circuiting in response to varying the programmable resistor. 19 . The method of claim 12 , wherein coupling the coupling the sensing element to the conditioning circuit further comprises: coupling the signal input terminal to the first circuit input terminal via a first isolator; and coupling the signal output terminal to the second circuit input terminal via a second isolator. 20 . The method of claim 12 , further comprising delivering the electrical signal to the sensing element including a temperature insensitive metal alloy to decouple an equivalent-series-inductance (ESL) and an equivalent-series-resistance (ESR) of the sensing circuit so as to reduce power loss of the sensing element.