Shockwave catheter system with energy control

What is claimed is: 1. A balloon catheter for delivering shockwaves to a calcified lesion comprising: an elongated carrier; a flexible balloon mounted on the elongate carrier, said balloon being fillable with a conductive fluid; a pair of electrodes on the elongated carrier within the balloon; and a power source with a circuit coupled to the electrodes for supplying voltage pulses to the electrodes, each voltage pulse generating an arc in the fluid within the balloon and causing current to flow between the electrodes and producing a shockwave; wherein the power source includes a sensor for monitoring a parameter of the circuit that varies in response to each voltage pulse, and wherein when the monitored parameter reaches a predetermined value during each voltage pulse, the sensor generates a signal that causes the power source to terminate the voltage supplied to the electrodes for that pulse. 2. The balloon catheter of claim 1 , wherein the carrier has a guidewire lumen. 3. The balloon catheter of claim 1 , wherein the power source further includes a delay timer with a predetermined delay time, the delay timer being triggered in response to the sensor signal and wherein the voltage supplied to the electrodes is terminated after the predetermined delay time has expired. 4. The balloon catheter of claim 3 , wherein the predetermined delay time is 100 nanoseconds or more. 5. A balloon catheter for delivering shockwaves to a calcified lesion comprising: an elongated carrier; a flexible balloon mounted on the elongate carrier, said balloon being fillable with a conductive fluid; a pair of electrodes on the elongated carrier within the balloon; and a power source with a circuit coupled to the electrodes for supplying voltage pulses to the electrodes, each voltage pulse generating an arc in the balloon producing a shockwave, wherein the power source includes a sensor configured to monitor a parameter of the circuit during each pulse, wherein the parameter varies in response to each voltage pulse; wherein the power source is configured to terminate the voltage supply a predetermined delay time after the monitored parameter has reached a predetermined value during each voltage pulse. 6. The balloon catheter of claim 5 , wherein the carrier has a guidewire lumen. 7. The balloon catheter of claim 5 , wherein the predetermined delay time is 100 nanoseconds or more. 8. A method for delivering shockwaves to a calcified lesion comprising: advancing a balloon catheter to a calcified lesion, wherein the balloon catheter includes an elongated carrier, a flexible balloon, and a pair of electrodes on the elongated carrier within the balloon, wherein the electrodes are connected to a power source via a circuit; activating the power source to supply one or more voltage pulses to the electrodes such that during each pulse, an arc is generated in the balloon and a current flows between the electrodes producing a shockwave; detecting when a parameter of the circuit reaches a predetermined value during each pulse, wherein the parameter varies in response to each voltage pulse; and terminating the voltage supplied to the electrodes after the parameter reaches the predetermined value for that pulse. 9. The method of claim 8 , wherein after the detecting step and before the terminating step, waiting a predetermined delay time before terminating the voltage supplied to the electrodes. 10. The method of claim 9 , wherein the predetermined delay time is 100 nanoseconds or more.