System and method for firing a charge in a well tool

What is claimed is: 1 . A system for initiating a charge downhole in a wellbore, comprising: a first donor charge detonable to produce a first detonation wave; a second donor charge detonable to produce a second detonation wave; an acceptor charge detonable by either the first detonation wave or the second detonation wave; a donor charge barrier separating the first donor charge from the second donor charge, wherein the donor charge barrier comprises heat dissipative and conduction characteristics for preventing deflagration from spreading between the first donor charge and the second donor charge; and an acceptor charge barrier separating the acceptor charge from the first donor charge and the second donor charge, wherein the acceptor charge barrier comprises shockwave impedance characteristics for conveying the first detonation wave or the second detonation wave to the acceptor charge to detonate the acceptor charge. 2 . The system of claim 1 , wherein the charge is part of a perforating gun. 3 . The system of claim 1 , wherein the acceptor charge barrier comprises a material that is different from a material of the donor charge barrier. 4 . The system of claim 1 , wherein the donor charge barrier comprises a material such that the first detonation wave is dampened through the donor charge barrier to the second donor charge and the second detonation wave is dampened through the donor charge barrier to the first donor charge. 5 . The system of claim 1 , comprising a perforating gun comprising, a tubing string comprising a fluid-tight interior and a first firing pin within the interior, wherein the first firing pin is initiatable to detonate the first donor charge by pressurizing a fluid within the interior to a threshold pressure; and a second firing pin initiatable to detonate the second donor charge. 6 . The system of claim 1 , comprising an explosive container surrounding at least a portion of longitudinal sides of the first donor charge, the second donor charge, and the acceptor charge. 7 . The system of claim 6 , wherein the explosive container comprises brass. 8 . The system of claim 1 , wherein the acceptor charge comprises a lower density zone located adjacent to the acceptor barrier, and a higher density zone located away from the acceptor barrier, wherein the lower density zone detonates at a lower threshold pressure than the higher density zone. 9 . The system of claim 8 , wherein the lower density zone is 10 percent to 20 percent less dense than the higher density zone. 10 . A method of firing a perforating gun downhole within a wellbore, comprising: detonating a first donor charge to produce a first detonation wave, wherein the first donor charge and a second donor charge are separated by a donor charge barrier that comprises heat dissipative and conduction characteristics for preventing deflagration from spreading between the first donor charge and the second donor charge; propagating the first detonation wave through an acceptor charge barrier, wherein the acceptor charge barrier comprises shockwave impedance characteristics for conveying the first detonation wave to the acceptor charge; and detonating the acceptor charge with the detonation wave, if sufficient, or detonating the second donor charge to produce a second detonation wave, propagating the second detonation wave through the acceptor charge barrier, and detonating the acceptor charge with the detonation wave. 11 . The method of claim 10 , wherein the detonation wave propagates through the acceptor charge barrier without puncturing the acceptor charge barrier. 12 . The method of claim 10 , comprising detonating the first donor charge before detonating the second donor charge. 13 . The method of claim 10 , comprising: pressurizing a fluid within a tubing string from a surface of the wellbore; releasing a firing pin when the fluid reaches a threshold pressure to detonate the first donor charge, or the second donor charge; and initiating perforating charges in response to the detonation of the acceptor charge to perforate a production formation. 14 . The method of claim 10 , wherein detonating the acceptor charge comprises detonating a lower density zone of the acceptor charge before detonating a higher density zone of the acceptor charge. 15 . The method of claim 10 , comprising directing the detonation wave within an explosive container surrounding at least a portion of longitudinal sides of the first donor charge, the second donor charge, and the acceptor charge. 16 . A firing head for initiating a perforating gun downhole in a wellbore, comprising: a donor charge detonable to produce a donor detonation wave; an acceptor charge detonable by the donor detonation wave to produce an acceptor detonation wave conveyable to the perforating gun; an acceptor charge barrier located between the acceptor charge and the donor charge, wherein the acceptor charge barrier comprises heat dissipative and conduction characteristics for preventing deflagration from spreading between the donor charge and the acceptor charge. 17 . The firing head of claim 16 , wherein the acceptor charge barrier comprises stainless steel. 18 . The firing head of claim 16 , comprising an explosive container surrounding the first donor charge, the second donor charge, and the acceptor charge. 19 . The firing head of claim 16 , wherein the acceptor charge comprises a lower density zone located next to the acceptor barrier and a higher density zone located away from the acceptor barrier, wherein the lower density zone detonates at a lower threshold pressure than the higher density zone. 20 . The firing head of claim 16 , wherein the firing head is attachable at a location within a tubing string that is longitudinally above the perforating gun, or longitudinally below the perforating gun.