Smart switch for connecting an input power supply to a load

What is claimed is: 1. A system comprising: a monolithic integrated circuit (IC) switch device, the monolithic IC switch device comprising a first pin that receives an input power supply, a second pin connected to a load, a third pin that receives an enable signal that enables a power switch in the monolithic IC switch device to connect the first pin to the second pin, a fourth pin that outputs a temperature signal indicating a junction temperature of the monolithic IC switch device, a fifth pin that outputs a first supply current indicator signal indicative of an output current of the monolithic IC switch device, and a sixth pin that outputs a second supply current indicator signal indicative of the output current of the monolithic IC switch device; and a microcontroller having a processor and memory, the microcontroller connected to the fourth, fifth, and sixth pins of the monolithic IC switch device and controls operation of the monolithic IC switch device based on signals received by the microcontroller from the fourth, fifth, and sixth pins of the monolithic IC switch device. 2. The system of claim 1 , wherein the monolithic IC switch device further comprises a seventh pin that outputs a fault indicator signal that is received and processed by the microcontroller to control the operation of the monolithic IC switch device. 3. The system of claim 1 , wherein the power switch comprises a power transistor that is controllable to connect and disconnect the first pin to the second pin. 4. The system of claim 3 , wherein the power transistor is a power field effect transistor (FET). 5. The system of claim 4 , wherein a drain of the power FET is connected to the first pin and a source of the power FET is connected to the second pin. 6. The system of claim 1 , further comprising another monolithic IC switch device that receives the input power supply in parallel with the monolithic IC switch device. 7. A method comprising: receiving an input power supply at a first pin of a monolithic integrated circuit (IC) switch device; coupling the input power supply at the first pin to a second pin of the monolithic IC switch device by way of a power switch in the monolithic IC switch device; receiving an enable signal at a fourth pin of the monolithic IC switch device to enable or disable the power switch; outputting a first current indicator signal that is indicative of an output current of the monolithic IC switch device at a sixth pin of the monolithic IC switch device; and outputting a second current indicator signal that is indicative of the output current of the monolithic IC switch device at a seventh pin of the monolithic IC switch device. 8. The method of claim 7 , further comprising: disabling the power switch in accordance with the enable signal for a delay time when the input power supply is initially connected to the first pin and thereafter enabling the power switch in accordance with the enable signal after expiration of the delay time. 9. The method of claim 7 , further comprising: receiving a current limit reference signal at a fifth pin of the monolithic IC switch device; and limiting current through the power switch in accordance with the current limit reference signal. 10. The method of claim 7 , further comprising: combining the first current indicator signal with another current indicator signal from another monolithic IC switch device to generate a combined current indicator signal. 11. The method of 10 , further comprising: receiving the combined current indicator signal at a pin of a single-chip microcontroller. 12. The method of claim 10 , further comprising: receiving the combined current indicator signal at a pin of a single-chip microcontroller; and receiving the second current indicator signal at another pin of the single-chip microcontroller. 13. A system comprising: a monolithic integrated circuit (IC) switch device that receives an input power supply at a first pin of the monolithic IC switch device, couples the input power supply at the first pin to a second pin of the monolithic IC switch device by way of a power switch in the monolithic IC switch device, receives a capacitance at a third pin coupled to the gate of the power switch, controls a switching operation of the power switch, and disables or enables the power switch in accordance with an enable signal at a fourth pin of the monolithic IC switch device; and a single-chip microcontroller that sends the enable signal to the monolithic IC switch device, wherein the monolithic IC switch device outputs a first current indicator signal that is indicative of an output current of the monolithic IC switch device at a sixth pin of the monolithic IC switch device, and wherein the monolithic IC switch device outputs a second current indicator signal that is indicative of the output current of the monolithic IC switch device at a seventh pin of the monolithic IC switch device. 14. The system of claim 13 , wherein the monolithic IC switch device disables the power switch in accordance with the enable signal for a delay time when the input power supply is initially connected to the first pin of the monolithic IC switch device and thereafter enables the power switch in accordance with the enable signal after expiration of the delay time. 15. The system of claim 13 , wherein the monolithic IC switch device receives a current limit reference signal at a fifth pin of the monolithic IC switch device, and limits a current through the power switch in accordance with the current limit reference signal. 16. The system of claim 13 , wherein the single-chip microcontroller receives, on a same pin of the single-chip microcontroller, the first current indicator signal and another current indicator signal from another monolithic IC switch device.