Intrinsic safety barrier

What is claimed is: 1. An intrinsic safety barrier comprising x barrier circuits connected in parallel, wherein each barrier circuit includes: a cathode node, an output node, and a ground node; a fuse connected between the cathode node and a V in node of the intrinsic safety barrier; y Zener diodes connected in parallel between the cathode node of the barrier circuit and the ground node of the barrier circuit, an anode of each Zener diode connected to the ground node of the barrier circuit and a cathode of each Zener diode connected to the cathode node of the barrier circuit; and z blocking diodes connected in series between the cathode node of the barrier circuit and the output node of the barrier circuit and oriented to pass electrical current only from the cathode node of the barrier circuit to the output node of the barrier circuit, wherein: the output nodes of the x barrier circuits are coupled together to define a VDC out node of the intrinsic safety barrier; the ground nodes of the x barrier circuits are coupled to electrical ground; and the cathode nodes of the x barrier circuits are coupled together at the V in node of the intrinsic safety barrier. 2. The intrinsic safety barrier of claim 1 , wherein: x≧2; y≧2; and z≧2. 3. The intrinsic safety barrier of claim 1 , wherein, for each barrier circuit: an anode of a first of the z blocking diodes connected in series is connected to the cathode node of the barrier circuit; a cathode of the first of the z blocking diodes connected in series is connected to supply current to an anode of a final blocking diode of the z blocking diodes connected in series; and a cathode of a final blocking diode of the z blocking diodes connected in series is connected to the output node of the barrier circuit. 4. The intrinsic safety barrier of claim 1 , wherein: the V in node is configured to be connected to an AC or a DC electrically powered device that is not configured to be intrinsically safe; and the VDC out node is configured to be connected to an electrical power consumption device that is configured to be intrinsically safe or which is configured to be used within a hazardous area after being disconnected from the VDC out node, wherein intrinsically safe means incapable of producing heat or a spark sufficient to ignite an explosive atmosphere. 5. The intrinsic safety barrier of claim 1 , wherein each barrier circuit further includes a resistor in series with the z blocking diodes between the cathode node of the barrier circuit and the output node of the barrier circuit. 6. The intrinsic safety barrier of claim 1 , further including m Zener diodes between the VDC out node and electrical ground, wherein an anode of each of the m Zener diodes is connected to the electrical ground, a cathode of each of the m Zener diodes is connected to the VDC out node, and each of the m Zener diodes is configured to provide transient overvoltage (Electro-Static Discharge) protection at the VDC out node. 7. The intrinsic safety barrier of claim 6 , wherein m≧1. 8. The intrinsic safety barrier of claim 1 , wherein an intrinsically safe DC current (IDC out ) output from the VDC out node=Σ 1 x I fuse x , wherein x is a total number of barrier network fuses, and I fuse x is a current rating of barrier network fuse x. 9. The intrinsic safety barrier of claim 8 , wherein a maximum current (I max ) output from the VDC out node≧1.7 IDC out . 10. The intrinsic safety barrier of claim 1 , wherein each barrier network fuse has a fusing current rating of <1 amp and an interrupt rating of ≧1,500 amps at a V in voltage of 250 VAC or 354 VDC. 11. The intrinsic safety barrier of claim 1 , wherein each blocking diode is a Schottky diode. 12. An intrinsic safety barrier comprising: a barrier circuit including: one or more Zener diodes connected in parallel between a cathode node of the barrier circuit and a ground node of the barrier circuit, the anode of each Zener diode connected to the ground node of the barrier circuit and the cathode of each Zener diode connected to the cathode node of the barrier circuit; one or more blocking diodes and a resistor connected in series directly between the cathode node of the barrier circuit and an output node of the barrier circuit and oriented to pass electrical current only from the cathode node of the barrier circuit to the output node of the barrier circuit; and a barrier network fuse having first and second ends, wherein the first end of the barrier network fuse is coupled to the cathode node of the barrier circuit. 13. A method of operation of the intrinsic safety barrier of claim 12 , comprising: (a) responsive to an AC or DC input voltage at the cathode node of the intrinsic safety barrier, establishing at the cathode node of the intrinsic safety barrier a voltage lower than the input voltage; (b) establishing at the output node of the intrinsic safety barrier a voltage that is lower than the voltage established at the cathode node of the intrinsic safety barrier; and (c) concurrent with step (b), restricting current flow in a direction from the cathode node to the output node.