Diagnostic circuit of a voltage suppression circuit in a drive circuit of a fluid injector and method for diagnosing a fault in the voltage suppression circuit

The invention claimed is: 1. A diagnostic circuit arranged to diagnose a fault in a voltage suppression circuit in a drive circuit of a fluid injector; said drive circuit adapted to energize a coil of said fluid injector, and wherein a voltage suppression circuit is arranged electrically in parallel with said coil, comprising means to detect the current through, or the voltage at, a point between the low side end of the coil/voltage suppression circuit parallel pair and ground, and means to compare, subsequent to the transition from an “on” to an “off” phase of the drive circuit, characteristics of said detected current or voltage with expected characteristics, and means to determine if there is a fault in said voltage suppression circuit from said comparison means based on said characteristics of said detected current or voltage differing from said expected characteristics by a predetermined extent. 2. The diagnostic circuit of claim 1 , wherein the diagnostic circuit is adapted to measure said current or voltage during an off-phase of the drive circuit. 3. A diagnostic circuit arranged to diagnose a fault in a voltage suppression circuit in a drive circuit of a fluid injector; said drive circuit adapted to energize a coil of said fluid injector, and wherein a voltage suppression circuit is arranged electrically in parallel with said coil, comprising means to detect the current through, or the voltage at, a point between the low side end of the coil/voltage suppression circuit parallel pair and ground, means to compare, subsequent to the transition from an “on” to an “off” phase of the drive circuit, characteristics of said detected current or voltage with expected characteristics, and means to determine if there is a fault in said voltage suppression circuit from said comparison means based on said characteristics of said detected current or voltage differing from said expected characteristics by a predetermined extent, wherein the diagnostic circuit is adapted to measure said current or voltage during an off-phase of the drive circuit, and wherein the diagnostic circuit is arranged to measure the current or voltage during a time period of 500 microseconds from the beginning of the off-phase of the drive circuit. 4. The diagnostic circuit of claim 3 , wherein the diagnostic circuit is arranged to measure said current through a sense resistor in the drive circuit. 5. The diagnostic circuit of claim 3 , wherein the diagnostic circuit is arranged to determine whether the current is above a value selected from the group consisting of 0.1, 0.2 and 0.3 amps after a time period selected from the group consisting of 50, 75, 100, 150 and 200 microseconds. 6. The diagnostic circuit of claim 1 , wherein the diagnostic circuit is arranged to measure said voltage through a voltage divider in the drive circuit. 7. The diagnostic circuit of claim 1 , wherein the diagnostic circuit is arranged to determine whether said voltage is above a breakdown voltage of a PN junction of the voltage suppression circuit. 8. The diagnostic circuit of claim 7 , wherein the diagnostic circuit is arranged to determine whether the voltage is above a breakdown voltage of the PN junction within 300 microseconds of the beginning of an off-phase of the drive circuit. 9. The diagnostic circuit of claim 1 , wherein the diagnostic circuit and fluid injector are configured for use on a vehicle. 10. The diagnostic circuit of claim 1 , wherein the fluid injector is one of a selective catalytic reduction dosing injector, a fuel injector and a water injector. 11. A method for diagnosing a fault in a voltage suppression circuit in a drive circuit of a fluid injector, said drive circuit adapted to energize a coil of said fluid injector, and wherein said voltage suppression circuit is arranged electrically in parallel with said coil, the method comprising: detecting the current through, or the voltage at, a point between the low side end of the coil/voltage suppression circuit parallel pair and ground, and comparing, subsequent to the transition from an “on” to an “off” phase of the drive circuit, characteristics of said detected current or voltage with expected characteristics, and determining if there is a fault in said voltage suppression circuit from said comparison based on said characteristics of said detected current or voltage differing from said expected characteristics by a predetermined extent.