Voltage readings using high voltage resistor across vacuum interrupter

What is claimed is: 1. A switch assembly comprising: a switch electrically coupled at one end to a power line and at an opposite end to electronics that are connected to a load; a high impedance element coupled at one end to the power line and at an opposite end to the electronics, the high impedance element having higher impedance than the switch so that current flows through the switch from the power line when the switch is closed and through the high impedance element from the power line when the switch is open; a current sensing device electrically coupled in series with the high impedance element and the electronics; and a control system operable to measure current flow using the current sensing device and calculate a voltage drop across the high impedance element using the measured current flow. 2. The switch assembly according to claim 1 wherein the current sensing device is a current sensing resistor. 3. The switch assembly according to claim 1 wherein the current sensing device is a Hall effect sensor. 4. The switch assembly according to claim 1 wherein the control system determines a magnitude and angle of the voltage drop across the high impedance element. 5. The switch assembly according to claim 4 wherein the control system uses the magnitude and angle of the voltage to provide point on wave closing of the switch. 6. The switch assembly according to claim 4 wherein the control system uses the voltage magnitude to provide better distribution transformer protection and coordination. 7. The switch assembly according to claim 1 wherein the high impedance element is a resistive element. 8. The switch assembly according to claim 1 wherein the high impedance element is a capacitive element. 9. The switch assembly according to claim 1 wherein the high impedance element is a combination of a resistive and capacitive element. 10. The switch assembly according to claim 1 wherein the switch assembly is part of a vacuum interrupter and the switch is provided within a vacuum chamber defined by a vacuum housing. 11. The switch assembly according to claim 1 wherein one of the electronics is a switch closing device, the switch closing device being powered through the high impedance element to close the switch when it is open. 12. The switch assembly according to claim 11 wherein the switch closing device is a magnetic actuator. 13. The switch assembly according to claim 1 wherein the electronics include sensors, processors, communications devices and power storage devices. 14. The switch assembly according to claim 1 wherein the switch assembly is part of a self-powered magnetically actuated recloser. 15. A vacuum interrupter for controlling power flow on a power line, the vacuum interrupter comprising: electronics including a switch closing device; a switch electrically coupled at one end to the power line and at an opposite end to the electronics; a resistive element coupled at one end to the power line and at an opposite end to the electronics, the resistive element having higher impedance than the switch so that current flows through the switch from the power line when the switch is closed and through the resistive element from the power line when the switch is open, the switch closing device being powered through the resistive element to close the switch when it is open; a current sensing resistor electrically coupled in series with the high impedance element and the electronics, the current sensing resistor having a lower resistance than the resistance of the resistive element; and a control system operable to measure current flow using the current sensing resistor and calculate a voltage drop across the high impedance element using the measured current flow. 16. The vacuum interrupter according to claim 15 wherein the control system determines a magnitude and angle of the voltage drop across the resistive element. 17. The vacuum interrupter according to claim 16 wherein the control system uses the magnitude and angle of the voltage to provide point on wave closing of the switch. 18. The vacuum interrupter according to claim 16 wherein the control system uses the voltage magnitude to provide better distribution transformer protection and coordination. 19. The vacuum interrupter according to claim 15 wherein the switch closing device is a magnetic actuator. 20. The vacuum interrupter according to claim 15 wherein the vacuum interrupter is part of a self-powered magnetically actuated recloser.