Sensing apparatus having switch resistance compensation circuit and associated methods

The invention claimed is: 1. An apparatus comprising: a passive array of resistive elements; a row selector switch configured to connect a current source to a row of resistive elements of the passive array; a column selector switch configured to connect a column of resistive elements of the passive array to ground, wherein the row selector switch and column selector switch select a resistive element in the passive array; and a feedback column selector switch configured to connect one or more columns of resistive elements to a voltage source, except for the column connected to ground by the column selector switch; the voltage source configured to apply a voltage to the one or more columns of resistive elements connected to the voltage source, the voltage matching a voltage dropped over the resistive element connected in a circuit formed in part by the row selector switch and column selector switch; and one or more of: a row selector switch compensation circuit configured to apply a voltage across a row dummy element equal and opposite to a voltage dropped over the row selector switch; a column selector switch compensation circuit configured to apply a voltage across a column dummy element equal and opposite to a voltage dropped over the column selector switch; or a feedback column selector switch compensation circuit configured to apply a voltage across a feedback column dummy element equal and opposite to a voltage dropped over the feedback column selector switch. 2. The apparatus of claim 1 , wherein the apparatus comprises each of the row selector switch compensation circuit, the column selector switch compensation circuit and the feedback column selector switch compensation circuit. 3. The apparatus of claim 1 , wherein the dummy element in one or more of the row selector switch compensation circuit, the column selector switch compensation circuit or the feedback column selector switch compensation circuit is a dummy switch configured to have comparable physical properties to the corresponding selector switch. 4. The apparatus of claim 1 , wherein the apparatus comprises a current source configured to provide a current to the circuit; and wherein the row selector switch compensation circuit comprises a current sink configured to provide an equal and opposite current to the current source. 5. The apparatus of claim 1 , wherein the column selector switch compensation circuit comprises: an operational amplifier configured to apply a voltage across the column dummy element according to the current passing through the column connected to ground. 6. The apparatus of claim 5 , wherein the column selector switch compensation circuit comprises: a first resistor connected in parallel with the operational amplifier; and a second resistor connected between an input terminal of the operational amplifier and ground; wherein: the ratio of the resistance of the first resistor to the resistance of the second resistor is one. 7. The apparatus of claim 1 , wherein the feedback column selector switch compensation circuit comprises: an operational amplifier configured to apply a voltage across the feedback column dummy element according to the average current passing through all the columns of resistive elements connected to the voltage source except for the column connected to ground by the column selector switch. 8. The apparatus of claim 5 , wherein the feedback column selector switch compensation circuit comprises: a resistor connected in parallel with the operational amplifier; and a second resistor connected to an input terminal of the operational amplifier; wherein: a ratio of the resistance of the first resistor to the resistance of the second resistor corresponds to the number of columns of resistive elements minus one. 9. The apparatus of claim 1 , wherein the passive array of resistive elements comprises one or more of: a sensor; a photodetector; an X-ray detector; a memristor; a piezoresistive (pressure/strain) sensor; a magneto-resistive sensor; a resistive temperature sensor (thermistor); a light dependent sensor; a resistive level sensor; a field-effect-transistor based sensor; a graphene-based sensor; a chemical sensor, or a biosensor. 10. A method comprising using an apparatus to detect a sensing event at a resistive element in a passive array of an apparatus, the apparatus comprising: a row selector switch configured to connect a current source to a row of resistive elements of the passive array; a column selector switch configured to connect a column of resistive elements of the passive array to ground, wherein the row selector switch and column selector switch select a resistive element in the passive array; and a feedback column selector switch configured to connect all columns of resistive elements to a voltage source, except for the column connected to ground by the column selector switch; the voltage source configured to apply a voltage to the one or more columns of resistive elements connected to the voltage source, the voltage matching a voltage dropped over the resistive element connected in a circuit formed in part by the row selector switch and column selector switch; and further comprising one or more of: a row selector switch compensation circuit configured to apply a voltage across a row dummy element equal and opposite to a voltage dropped over the row selector switch; a column selector switch compensation circuit configured to apply a voltage across a column dummy element equal and opposite to a voltage dropped over the column selector switch; or a feedback column selector switch compensation circuit configured to apply a voltage across a feedback column dummy element equal and opposite to a voltage dropped over the feedback column selector switch. 11. The method of claim 10 , wherein the apparatus comprises each of the row selector switch compensation circuit, the column selector switch compensation circuit and the feedback column selector switch compensation circuit. 12. The method of claim 10 , wherein the dummy element in one or more of the row selector switch compensation circuit, the column selector switch compensation circuit or the feedback column selector switch compensation circuit is a dummy switch configured to have comparable physical properties to the corresponding selector switch. 13. The method of claim 10 , wherein the apparatus comprises a current source configured to provide a current to the circuit; and wherein the row selector switch compensation circuit comprises a current sink configured to provide an equal and opposite current to the current source. 14. The method of claim 10 , wherein the column selector switch compensation circuit comprises: an operational amplifier configured to apply a voltage across the column dummy element according to the current passing through the column connected to ground. 15. The method of claim 14 , wherein the column selector switch compensation circuit comprises: a first resistor connected in parallel with the operational amplifier; and a second resistor connected between an input terminal of the operational amplifier and ground; wherein: the ratio of the resistance of the first resistor to the resistance of the second resistor is one. 16. The method of claim 10 , wherein the feedback column selector switch compensation circuit comprises: an operational amplifier configured to apply a voltage across the feedback column dummy element according to the average current passing through all the columns of resistive elements connected to the voltage source except for the column connected to grou