EMP Pulse Blaster: Difference between revisions

From FusionGirl Wiki
Jump to navigationJump to search
(Created page with "Electro Magnetic Pulse - Pulse Blaster")
 
No edit summary
Line 1: Line 1:
Electro Magnetic Pulse - Pulse Blaster
Electro Magnetic Pulse - Pulse Blaster
== Parameters ==
{| class="wikitable"
|-
! 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
|}
== Equations ==
# Energy Density: \( E = \frac{{B^2}}{{2 \mu_0}} \)
# Volume of a Sphere: \( V = \frac{4}{3} \pi r^3 \)
# Power Output (General): \( \text{Power Output} = \frac{\text{Total Energy Output}}{\text{Pulse Duration}} \)
== Components ==
* Coils:
** Number of Turns
** Coil Diameter
** Coil Material
* Magnet Arrays:
** Magnet Strength
** Magnet Configuration
* High-Voltage Generator Modules:
** Voltage Output
** Current Capability
** Efficiency
** Safety Features
* Batteries:
** Capacity
** Voltage
** Energy Storage
== Safety and Regulatory ==
* Safety Features:
** Overcurrent Protection
** Voltage Regulation
** Insulation Monitoring
* Regulatory Compliance:
** Emissions Limits
** Safety Standards
== Additional Considerations ==
* 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.

Revision as of 14:38, 15 May 2024

Electro Magnetic Pulse - Pulse Blaster

Parameters

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

Equations

  1. Energy Density: \( E = \fracTemplate:B^2Template:2 \mu 0 \)
  2. Volume of a Sphere: \( V = \frac{4}{3} \pi r^3 \)
  3. Power Output (General): \( \text{Power Output} = \frac{\text{Total Energy Output}}{\text{Pulse Duration}} \)

Components

  • Coils:
    • Number of Turns
    • Coil Diameter
    • Coil Material
  • Magnet Arrays:
    • Magnet Strength
    • Magnet Configuration
  • High-Voltage Generator Modules:
    • Voltage Output
    • Current Capability
    • Efficiency
    • Safety Features
  • Batteries:
    • Capacity
    • Voltage
    • Energy Storage

Safety and Regulatory

  • Safety Features:
    • Overcurrent Protection
    • Voltage Regulation
    • Insulation Monitoring
  • Regulatory Compliance:
    • Emissions Limits
    • Safety Standards

Additional Considerations

  • 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.