EMP Pulse Blaster: Difference between revisions

Revision as of 15:53, 15 May 2024

Electro Magnetic Pulse - Pulse Blaster

Parameter	Value/Equation
Range (r)	13 meters
Energy Density	$5\times 10^{5}$ to $10^{6}$ joules/m $^{3}$
Total Energy Output	$4.601\times 10^{9}$ joules
Voltage Output (High-Voltage Generator Modules)	3000V, 4000V, 400kV, 1MV

$E={\frac {B^{2}}{2\mu _{0}}}$

$V={\frac {4}{3}}\pi r^{3}$

<math"> \text{Power Output} = \frac{\text{Total Energy Output}}{\text{Pulse Duration}} </math>

High-Voltage Generator Modules:
- Voltage Output
- Current Capability
- Efficiency
- Safety Features

Safety Features:
- Overcurrent Protection
- Voltage Regulation
- Insulation Monitoring

Wire Gauge: Determine based on current and temperature rise.
Amps and Volts: Dependent on design and requirements.
Efficiency and Losses: Consider efficiency of components and system.
Integration and Compatibility: Ensure compatibility and effective integration of components.
Environmental Factors: Consider atmospheric conditions and electromagnetic interference.

@@ Line 19: / Line 19: @@
 # Energy Density:
-<math display="block"> E = \frac{{B^2}}{{2 \mu_0}} </math>
+<math> E = \frac{{B^2}}{{2 \mu_0}} </math>
 # Volume of a Sphere:
-<math display="block"> V = \frac{4}{3} \pi r^3 </math>
+<math> V = \frac{4}{3} \pi r^3 </math>
 # Power Output (General):
-<math display="block"> \text{Power Output} = \frac{\text{Total Energy Output}}{\text{Pulse Duration}} </math>
+<math"> \text{Power Output} = \frac{\text{Total Energy Output}}{\text{Pulse Duration}} </math>
 == Components ==