High voltage explosive assembly for downhole detonations

The invention claimed is: 1. A downhole explosive initiation system comprising: a voltage multiplier circuit having a positive input, a negative input, a positive output, and a negative output; a capacitive discharge unit connected to the positive output and negative output of the voltage multiplier circuit; an electro-explosive initiator coupled to an output of the capacitive discharge unit; wherein the voltage multiplier circuit comprises a low impedence shunt electrically in parallel with the positive input and negative input, a power supply electrically in parallel with the positive input and negative input, a communications microprocessor electrically in parallel with the positive input and negative input and electrically connected to the power supply and a voltage multiplier that is electrically in parallel with the positive input and negative input and electrically connected to the positive output or negative output. 2. The downhole explosive initiation system of claim 1 further comprising a commutating diode positioned and arranged to allow only voltage of a single polarity to power the voltage multiplier circuit. 3. The downhole explosive initiation system of claim 1 wherein the communications microprocessor comprises a transmitter and a receiver for communicating with a surface tool control computer. 4. The downhole explosive initiation system of claim 3 wherein the communications microprocessor prevents activation of the power supply unless the microprocessor has received a correct activation signal. 5. The downhole explosive initiation system of claim 3 wherein the communications microprocessor received a voltage level from a voltage detector and uplinks it to a surface tool control computer. 6. The downhole explosive initiation system of claim 1 wherein the low impedence shunt comprises a fusing resistor. 7. The downhole explosive initiation system of claim 1 wherein the low impedence shunt comprises a depletion mode field effect transistor (DFET) in series with a resistor. 8. The downhole explosive initiation system of claim 1 wherein the low impedence shunt opens at voltages greater than 50 volts. 9. The downhole explosive initiation system of claim 1 wherein the low impedence shunt provides a constant load current at voltages greater than 50 volts. 10. The downhole explosive initiation system of claim 1 wherein the electro-explosive initiator is a semiconductor bridge (SCB), an exploding bridge wire (EBW), or an exploding foil initiator (EFI). 11. The downhole explosive initiation system of claim 5 wherein the microprocessor determines whether an activation signal is correct based on an address in the activation signal.