Method for regulating TETS power transfer

What is claimed is: 1. An external power transmitter of an implanted medical device system, the external power transmitter comprising processing circuitry configured to: determine a current in an external coil of the external power transmitter; multiply the current by a supply voltage to determine a power delivered to the external coil; control the power delivered to the external coil by adjusting the current in the external coil; and adjust the power to account for resistive losses in the external coil. 2. The external power transmitter of claim 1 , wherein the processing circuitry is further configured to control the power by adjusting a duty cycle of a pulse-width-modulated bridge circuit. 3. The external power transmitter of claim 2 , wherein the processing circuitry is further configured to determine the current while the pulse-width-modulated bridge circuit is active. 4. The external power transmitter of claim 3 , wherein the processing circuitry is further configured to estimate the current in the external coil based at least in part on peak coil current, a pulse width of the pulse-width-modulated bridge circuit, and an approximation of the current as a sine wave. 5. The external power transmitter of claim 1 , wherein the processing circuitry is further configured to use the supply voltage to compensate a current proportional integral derivative (PID) controller to maintain a constant power over different supply voltages. 6. The external power transmitter of claim 1 , wherein processing circuitry is further configured to determine the current by by continuously measuring a current output of a bridge circuit. 7. The external power transmitter of claim 1 , wherein the processing circuitry is further configured to determine the current by measuring a peak current in the external coil. 8. A method in an external power transmitter of an implanted medical device system, the method comprising: determining a current in an external coil of the external power transmitter; multiplying the current by a supply voltage to determine a power delivered to the external coil; controlling the power delivered to the external coil by adjusting the current in the external coil; and adjusting the power to account for resistive losses in the external coil. 9. The method of claim 8 , wherein controlling the power comprises adjusting a duty cycle of a pulse-width-modulated bridge circuit. 10. The method of claim 9 , wherein determining the current is performed while the pulse-width-modulated bridge circuit is active. 11. The method of claim 10 , wherein determining the current in the external coil comprises estimating the current based at least in part on peak coil current, a pulse width of the pulse-width-modulated bridge circuit, and an approximation of the current as a sine wave. 12. The method of claim 8 , further comprising using the supply voltage to compensate a current proportional integral derivative (PID) controller to maintain a constant power over different supply voltages. 13. The method of claim 8 , wherein determining the current comprises continuously measuring a current output of a bridge circuit. 14. The method of claim 8 , wherein determining the current includes measuring a peak current in the external coil. 15. A current control loop in an external device of an implanted medical device system, the current control loop including: an H-bridge circuit configured to output a current to an external coil of the external device; processing circuitry configured to: determine the current to the external coil based on a current output of the H bridge circuit; multiplying the current by a supply voltage applied to the external coil to determine a power delivered to the external coil; and controlling the power delivered to the external coil by adjusting the current in the external coil, the adjusting being by controlling a pulse width modulation (PWM) duty cycle of the H-bridge circuit in response to the determined current; and a current proportional integral derivative (PID) controller configured to control the PWM duty cycle of the H-bridge circuit. 16. The current control loop of claim 15 , further comprising a current sensor configured to measure the current of the external coil, the processing circuitry being configured to compare the measured current to a current that is based on a difference between a voltage across an internal coil of the implanted medical device system and a target voltage. 17. The current control loop of claim 15 , wherein the current output of the H-bridge circuit is further based on a supply voltage provided by a power supply external to the external device.