Fault and short-circuit protected output driver

The invention claimed is: 1. A driver/protection circuit for driving a power switch, said driver/protection circuit comprising: a fault detection block configured to detect a discrepancy between a reference drive signal and a measured voltage at a gate of said power switch, wherein said fault detection block is configured to compare said measured voltage at said gate of said power switch with a gate monitoring low threshold voltage or a gate monitoring high threshold voltage; a short circuit detection block configured to detect a gate-to-source short circuit or a gate-to-drain short circuit of said power switch; and a latch coupled to said fault detection block and said short circuit detection block to selectively turn off an output driver coupled to said gate of said power switch when a fault or a short circuit is detected, wherein said latch is configured to turn off said output driver if said measured voltage at said gate of said power switch is less than or equal to said gate monitoring low threshold voltage when said reference drive signal is a turn-on order. 2. The driver/protection circuit of claim 1 , wherein said latch is configured to send a diagnostic signal when said fault or said short circuit is detected. 3. The driver/protection circuit of claim 1 , wherein said latch is configured to receive a reset signal to reset said latch. 4. The driver/protection circuit of claim 1 , further comprising a drain-to-source saturation protection block configured to selectively turn off said output driver when a voltage between a drain and a source of said power switch is greater than a drain-to-source threshold voltage. 5. The driver/protection circuit of claim 1 , wherein said latch is configured to turn off said output driver if said measured voltage at said gate of said power switch is greater than or equal to said gate monitoring high threshold voltage when said reference drive signal is a turn-off order. 6. The driver/protection circuit of claim 1 , wherein said fault detection block is coupled to said short circuit detection block. 7. The driver/protection circuit of claim 4 , wherein said fault detection block is coupled to said drain-to-source saturation protection block. 8. A driver integrated circuit (IC) comprising: a logic control and level shifter; and a high side driver/protection circuit coupled to said logic control and level shifter and configured to drive a high side power switch, wherein said high side driver/protection circuit comprises: a short circuit detection block configured to detect a gate-to-source short circuit or a gate-to-drain short circuit of said high side power switch, a fault detection block configured to compare a measured voltage at a gate of said high side power switch with a gate monitoring low threshold voltage or a gate monitoring high threshold voltage, and a latch coupled to said short circuit detection block to selectively turn off a high side output driver coupled to a gate of said high side power switch when a short circuit is detected, wherein said latch is configured to turn off said high side output driver if said measured voltage at said gate of said high side power switch is less than or equal to said gate monitoring low threshold voltage when a reference drive signal is a turn-on order. 9. The driver IC of claim 8 , wherein said fault detection block is configured to detect a discrepancy between the reference drive signal and the measured voltage at said gate of said high side power switch. 10. The driver IC of claim 9 , wherein said latch is coupled to said fault detection block to selectively turn off said high side output driver when a fault is detected. 11. The driver IC of claim 8 , further comprising a low side driver/protection circuit coupled to said logic control and level shifter and configured to drive a low side power switch. 12. The driver IC of claim 11 , wherein said high side driver/protection circuit and said low side driver/protection circuit are configured to independently turn off said high side output driver and a low side output driver. 13. The driver IC of claim 10 , wherein said latch is configured to send a diagnostic signal when said fault or said short circuit is detected. 14. The driver IC of claim 8 , further comprising a drain-to-source saturation protection block configured to selectively turn off said high side output driver when a voltage between a drain and a source of said high side power switch is greater than a drain-to-source threshold voltage. 15. The driver IC of claim 8 , wherein said latch is configured to turn off said high side output driver if said measured voltage at said gate of said high side power switch is greater than or equal to said gate monitoring high threshold voltage when said reference drive signal is a turn-off order. 16. The driver IC of claim 11 , wherein said high side power switch is connected with said low side power switch in a half-bridge configuration. 17. A driver integrated circuit (IC) comprising: a logic control and level shifter; a high side driver/protection circuit coupled to said logic control and level shifter and configured to drive a high side power switch; and a low side driver/protection circuit coupled to said logic control and level shifter and configured to drive a low side power switch, wherein said high side driver/protection circuit comprises: a short circuit detection block configured to detect a gate-to-source short circuit or a gate-to-drain short circuit of said high side power switch, and a latch coupled to said short circuit detection block to selectively turn off a high side output driver coupled to a gate of said high side power switch when a short circuit is detected. 18. The driver IC of claim 17 , wherein said high side driver/protection circuit and said low side driver/protection circuit are configured to independently turn off said high side output driver and a low side output driver. 19. The driver IC of claim 17 , wherein said high side power switch is connected with said low side power switch in a half-bridge configuration.