Monolithic integrated circuit switch device with output current balancing for parallel-connection

What is claimed is: 1. An electrical circuit comprising: a first monolithic integrated circuit (IC) switch device comprising a first pin, a second pin, and a power switch that connects the first pin of the first monolithic IC switch device to the second pin of the first monolithic IC switch device through the power switch of the first monolithic IC switch device when the electrical circuit is turned ON; and a second monolithic IC switch device having a first pin, a second pin, and a power switch that connects the first pin of the second monolithic IC switch device to the second pin of the second monolithic IC switch device through the power switch of the second monolithic IC switch device when the electrical circuit is turned ON, the first pin of the second monolithic IC switch device being connected to the first pin of the first monolithic IC switch device, the second pin of the second monolithic IC switch device being connected to the second pin of the first monolithic IC switch device, wherein the second monolithic IC switch device further comprises a current balancing circuit that controls the power switch of the second monolithic IC switch device to reduce an output current of the second monolithic IC switch device when the output current of the second monolithic IC switch device is greater than an average of output currents of monolithic IC switch devices in the electrical circuit. 2. The electrical circuit of claim 1 , further comprising: a third monolithic IC switch device having a first pin, a second pin, and a power switch that connects the first pin of the third monolithic IC switch device to the second pin of the third monolithic IC switch device through the power switch of the third monolithic IC switch device when the electrical circuit is turned ON, the first pin of the third monolithic IC switch device being connected to the first pins of the first and second monolithic IC switch devices, and the second pin of the third monolithic IC switch device being connected to the second pins of the first and second monolithic IC switch devices. 3. The electrical circuit of claim 1 , wherein the first monolithic IC switch device includes a fourth pin that outputs a signal indicative of an output current of the first monolithic IC switch device, the second monolithic IC switch device includes a fourth pin that outputs a signal indicative of the output current of the second monolithic IC switch device, and the fourth pins of the first monolithic IC switch device and the second monolithic IC switch device are connected together to generate an average voltage that is indicative of the average of the output currents of the monolithic IC switch devices in the electrical circuit. 4. The electrical circuit of claim 3 , wherein the second monolithic IC switch device further comprises: a fifth pin that outputs a first current sense signal indicative of the output current of the second monolithic IC switch device; and a sixth pin that outputs a second current sense signal indicative of the output current of the second monolithic IC switch device. 5. The electrical circuit of claim 4 , wherein the current balancing circuit comprises: a comparator that compares an average voltage on the fifth pin of the second monolithic IC switch device to a current sense voltage on the sixth pin of the second monolithic IC switch device; and a switch controlled by an output of the comparator to control the power switch of the second monolithic IC switch device during startup of the second monolithic IC switch device. 6. The electrical circuit of claim 5 , wherein the average voltage on the fifth pin of the second monolithic IC switch device is developed on a balancing resistor by sense currents of the plurality of monolithic IC switch devices. 7. The electrical circuit of claim 1 , wherein the power switch comprises a field effect transistor (FET). 8. A monolithic integrated circuit (IC) switch device comprising: a first pin that receives an input voltage; a second pin connected to a load; a power switch that connects the first pin to the second pin when the monolithic IC switch device is turned ON; and a current balancing circuit that controls conduction of the power switch during startup of the monolithic IC switch device based on an output current of the monolithic IC switch device relative to output currents of a plurality of monolithic IC switch devices that are connected in parallel together with the monolithic IC switch device. 9. The monolithic IC switch device of claim 8 , wherein the current balancing circuit controls the conduction of the power switch based on a comparison of the output current of the monolithic IC switch device with an average of the output currents of the plurality of monolithic IC switch devices. 10. The monolithic IC switch device of claim 9 , wherein the current balancing circuit comprises: a comparator that receives a current sense signal indicative of the output current of the monolithic IC switch device from a third pin of the monolithic IC switch device, receives an average signal indicative of the average of the output currents of the plurality of monolithic IC switch devices from a fourth pin of the monolithic IC switch device, and outputs a comparison signal based on a comparison of the current sense signal with the average signal. 11. The monolithic IC switch device of claim 9 , wherein the current balancing circuit further comprises: a switch that controls a gate of the power switch based on the comparison signal. 12. The monolithic IC switch device of claim 11 , wherein the switch pulls down the gate of the power switch when the output current of the monolithic IC switch device exceeds the average of the output currents of the plurality of monolithic IC switch devices. 13. The monolithic IC switch device of claim 10 , wherein the current sense signal is a current sense voltage developed from a first sense current that is output by the monolithic IC switch device on the third pin. 14. The monolithic IC switch device of claim 10 , wherein the average signal is an average voltage developed on a balancing resistor by sense currents of the plurality of monolithic IC switch devices. 15. The monolithic IC switch device of claim 8 , wherein the current balancing circuit reduces the output current of the monolithic IC switch device when the output current of the monolithic IC switch device is greater than an average of the output currents of the plurality of monolithic IC switch devices. 16. A method comprising: receiving an input voltage on a first pin of a monolithic integrated circuit (IC) switch device; connecting the input voltage to a second pin of the monolithic IC switch device through a power switch in response to the monolithic IC switch device being turned ON from an OFF state; comparing an output current of the monolithic IC switch device with an average output current of a plurality of monolithic IC switch devices that include the monolithic IC switch device and that are connected in parallel; and reducing the output current of the monolithic IC switch device when the output current of the monolithic IC switch device is greater than the average output currents of the plurality of monolithic IC switch devices. 17. The method of claim 16 , wherein reducing the output current of the monolithic IC switch device comprises: pulling down a gate of the power switch when the output current of the monolithic IC switch device is greater than the average output currents of the plurality of monolithic IC switch devices. 18. The me