Using resistance equivalent to estimate temperature of a fuel-injector heater

The invention claimed is: 1. A method of controlling the temperature of a heater for a fuel injector, the method comprising: measuring a voltage drop across a fuel-injector heater; measuring an amount of electrical current passing through the fuel-injector heater; generating a voltage equivalent heater resistance signal, by determining a division equivalent of, dividing the voltage drop across the fuel-injector heater by the measured amount of electrical current passing through the fuel-injector heater; generating a temperature rise signal by comparing the voltage equivalent heater resistance signal to a first reference voltage corresponding to a reference resistance value; generating a temperature control signal by comparing the temperature rise signal to a second reference voltage corresponding to a reference temperature; providing said temperature control signal to a control device, which is configured to control electrical energy provided to the fuel-injector heater, responsive to a difference between the temperature control signal and the second reference voltage; wherein control of the fuel-injector heater temperature is determined by current provided to the fuel injector heater, said current being determined from the measurement of electrical current passing through the fuel-injector heater and from the measurement of voltage across said fuel-injector heater, and not from either a measurement or determination of the temperature of either the fuel-injector or the fuel injector heater. 2. The method of claim 1 , wherein measuring the voltage drop across the fuel-injector heater further comprises using a Kelvin connection to measure the voltage drop across the fuel-injector heater. 3. The method of claim 1 , wherein measuring the amount of electrical current passing through the fuel-injector heater further comprises using a current sense resistor to measure the amount of electrical current passing through the fuel-injector heater. 4. The method of claim 1 , wherein the voltage equivalent heater resistance is used as a temperature analog for control of the electrical energy provided to the fuel-injector heater. 5. The method of claim 1 , further comprising: comparing the voltage equivalent heater resistance signal to a resistance reference value to generate an equivalent temperature rise signal. 6. The method of claim 5 , further comprising: comparing the equivalent temperature rise signal to a temperature reference voltage to generate a temperature control signal which turns off a semiconductor switch, that is configured to turn off current passing through the fuel-injector heater when the comparison of the equivalent temperature rise signal with the temperature reference value indicates that the fuel-injector heater is hotter than a threshold temperature. 7. Apparatus for controlling the temperature of a heater for a fuel injector, the apparatus comprising: a differential voltage measurement circuit configured to differentially measure a voltage drop across a fuel-injector heater; a current measurement circuit configured to measure current passing through the fuel-injector heater; a division equivalent circuit configured to generate a voltage equivalent heater resistance signal by performing a division equivalent of dividing the measured voltage drop across the fuel-injector heater by the measured current passing through the fuel-injector heater; a change-in-resistance determining circuit, configured to generate a temperature rise signal by comparing the voltage equivalent heater resistance signal to a first reference voltage corresponding to a reference resistance value; a temperature control signal circuit, configured to generate a temperature control signal by comparing the temperature rise signal to a second reference voltage corresponding to a reference temperature; a semiconductor switch, coupled to the temperature control signal circuit and configured to control electrical energy provided to the fuel-injector heater, responsive to the temperature control signal; wherein control of the fuel-injector heater temperature is effectuated without measurement or determination of a temperature of either the fuel-injector or the fuel injector heater. 8. The apparatus of claim 7 , wherein the differential voltage measurement circuit comprises a pair of Kelvin connections. 9. The apparatus of claim 7 , wherein current measurement circuit comprises a current sense resistor. 10. The apparatus of claim 7 , further comprising a differential amplifier configured to generate an equivalent temperature rise signal by comparing the voltage equivalent resistance signal with a reference resistance value. 11. The apparatus of claim 10 , wherein the temperature control signal circuit is configured to compare the equivalent temperature rise signal to a signal representing a temperature reference value to generate a temperature control signal configured to turn off the fuel-injector heater when the comparison of the equivalent temperature rise signal with the temperature reference value indicates that the fuel-injector heater is hotter than a threshold temperature.