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400KV High Voltage Step-Up Power Module (Super-High Voltage Direct-Current Pulse Arc Generator)

Introduce massive electrical potential, intense high-energy arc generation, and specialized physical electrostatic fields into your advanced hardware designs with the industrial-grade 400KV High Voltage Step-Up Power Module. Built using a multi-stage high-density step-up transformer core mated to a specialized internal high-voltage capacitor network, this compact cylindrical generator takes low-voltage direct-current inputs and scales them upward to an incredible 400,000 Volts of pulsing output potential.

Generating high-voltage arcs for custom scientific testing, negative ion generators, or physical electrostatic filters using standard bench transformers is highly inefficient and creates massive spatial footprints. This potted solid-state module resolves those structural limitations by packing high-frequency inductive step-up circuits inside an ultra-tough, moisture-proof polymer shell. It serves as the definitive high-energy choice for physics lab demonstrations, electronic scientific instruments, custom air-purification grids, and advanced electrostatic dust-precipitator prototypes.

Key Features

  • Massive 400,000V Pulse Output: Drives intense high-voltage pulsing arcs across an open-air gap, creating high-velocity thermal sparks for scientific experimentation.

  • Fully Potted Weatherproof Enclosure: Encapsulated inside a high-insulation plastic casing that locks out moisture, dampens acoustic noise, and completely prevents high-voltage internal arcing between components.

  • Low-Voltage DC Input Staging: Highly efficient power conversion tracking that runs safely off common low-voltage direct-current sources, ranging from 3.0V up to 6.0V.

  • High-Insulation Heavy Wire Leads: Outfitted with thick-gauge, ultra-insulated output cables designed specifically to prevent high-voltage surface leakage and accidental workbench discharge shocks.

  • Instantaneous Air-Gap Spark Ignition: Capable of throwing continuous high-frequency electrical arcs across a clean open-air gap of approximately 10 to 20 millimeters.

  • Seamless Customization Support: Developed around an exceptionally versatile manufacturing template. If your specialized commercial laboratory or institutional research project requires specific casing dimensions, alternative low-voltage input leads, or altered continuous duty-cycle parameters, we can easily modify the production configuration to match your exact business specifications.

Technical Specifications

Feature

Specification

Product Component Type

High-Voltage Direct-Current (DC) Pulse Arc Step-Up Module

Operating Input Voltage Range

DC 3.0V to 6.0V Continuous (Optimized for standard battery cells)

Operating Input Current Profile

2 Amps to 5 Amps high-drain input requirement

Peak Output Voltage Potential

Up to 400KV (400,000 Volts) Pulse Discharge Maximum

Open Air Spark Distance Limit

Approximately 10mm to 20mm maximum discharge arc gap

Chassis Housing Compound

High-Dielectric Insulation Potted Polymer Cylindrical Shell

Interface Input Harness Style

2-Wire Low-Voltage Flying Leads (Red and Green/Black)

Interface Output Cable Style

2-Wire Thick-Insulated High-Voltage Output Leads (Dual Red)

Design Flexibility Feature

Bespoke barrel lengths, customized input wires, and custom packs accepted on demand

Hardware Terminal & Interface Wire Mapping

The module architecture splits the low-voltage input current traces completely apart from the high-energy output cables to guarantee safe wiring routing across your test benches:

Low-Voltage Input Interface (Thin Wire Leads):

  • Red Wire (Positive Input Power): Connect to your low-voltage power source (Supports DC 3V to 6V high-drain battery rails or current-limited power supplies).

  • Green or Black Wire (Negative Ground Reference): Connect straight to the common negative return path of your low-voltage input battery bank.

High-Voltage Output Interface (Thick Insulated Leads):

  • Dual Identical Red Cables: These twin thick-gauge wires deliver the generated 400KV pulse discharge. Route these wires carefully away from all microcontrollers, metal chassis components, and low-voltage sensor tracks to eliminate catastrophic static induction feedback.

Strict Operational & Safety Guidelines

Because this module operates on an extreme high-voltage conversion framework, failure to follow exact wiring steps will permanently ruin the internal components or create major laboratory hazards:

  • The Air-Gap Pre-Adjustment Rule: You must physically position and fix the two thick red high-voltage output wires between 10mm and 20mm apart before applying any input power to the module. If you power the module on while the output wires are spaced too far apart, the 400,000 Volts will find no air path to discharge and will instantly arc backward inside the module shell, permanently melting the internal transformer core.

  • Short Pulse Intermittent Run Limit: This high-energy module is built for intermittent pulse bursts, not continuous operation. Limit individual active power cycles to a maximum of 5 to 10 seconds per burst, allowing the internal winding structures to cool down fully between triggers.

  • Pure Isolation Layout: Never route the input lines through standard digital breadboards or close to 1-channel, 2-channel, or 4-channel industrial relay modules without heavy shielding, as high-voltage electromagnetic radiation can induce destructive noise on nearby logic processing tracks.

Common Applications

  • High-Voltage Academic Physics Labs: Create highly illustrative classroom exhibits showcasing high-voltage arcing, electrical air breakdown thresholds, and electrostatic properties.

  • Electrostatic Negative Ion Filters: Act as the heavy high-potential power drive to energize micro-needle arrays inside experimental air-purification and smoke-precipitation enclosures.

  • Scientific Instrument Testing Calibration: Deploy as a calibrated high-voltage impulse source to test the dielectric breakdown properties of specialized insulating plastics and protective compounds.

  • Advanced Material Science Research: Conduct testing on thin polymer sheets and custom substrates to observe material structural integrity when subjected to intense electrostatic fields.

Package Includes:

  • 1 x 400KV High Voltage Step-Up Power Module

400KV High Voltage Step-Up Power Module

₹129.00Price
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