HarvestStorm One — 4-Channel Pulsed DC Electroculture Controller
The original HarvestStorm One: a Raspberry Pi-powered 4-channel programmable pulsed DC electroculture controller with per-channel color status LEDs and full network connectivity. Selling as-is with 90-day warranty, source code, and programming enhancement guide.
Key Features
- 4-channel programmable pulsed DC outputs — control each zone independently
- Raspberry Pi powered — full Linux environment, easy to expand
- Per-channel color status LEDs — see exactly what each channel is doing
- Ethernet + WiFi — monitor and program remotely over your network
- Source code included — modify, extend, or completely reprogram
- Programming enhancement guide — documented extension points and ideas
- 90-day warranty — sold as-is, tested unit
Specifications
- Controller
- Raspberry Pi (full Linux)
- Outputs
- 4-channel pulsed DC
- Connectivity
- Ethernet + WiFi (RPi built-in)
- Status Indicators
- Per-channel color LEDs
- Software
- Source code included
- Warranty
- 90 days
- Condition
- As-is (functional, minor cosmetic wear)
Secure checkout via Payhip
Product Details
HarvestStorm One — 4-Channel Pulsed DC Controller
The most capable electroculture stimulation platform we’ve built — available now at a fraction of its original deployment cost.
What It Is
The HarvestStorm One is a Raspberry Pi-based control system that delivers independently programmable pulsed DC field stimulation across four separate output channels. Each channel drives an electrode pair in your soil, letting you run different stimulation protocols in different growing zones simultaneously — or cover a larger area with a single unit.
This unit was previously deployed commercially at $1,000/unit with on-site installation. You’re getting the hardware, source code, and full programming documentation for $449 — no installation service, but everything you need to deploy and customize it yourself.
Hardware Specs
4 Independent Output Channels Each channel delivers low-voltage pulsed DC through electrode leads placed in the root zone. Pulse frequency, duty cycle, and on/off scheduling are all independently configurable per channel.
Raspberry Pi Core Full Linux environment means you can SSH in, edit the code, install additional packages, or completely replace the control software. It’s a real computer, not a locked-down microcontroller.
Per-Channel Color LEDs At a glance you can see what each channel is doing — active pulse, idle, fault, or scheduled-off. No guessing.
Ethernet + WiFi Connect to your home or farm network and manage the unit remotely. The included software exposes a simple interface for schedule editing. The RPi’s built-in WiFi means no separate adapter needed.
What’s Included
- HarvestStorm One unit (tested, functional)
- Power supply
- Source code (Python-based control software)
- Programming enhancement guide — documented extension points, suggested modifications, protocol ideas
- 4 electrode lead pairs
- 90-day warranty
Who It’s For
This is a unit for the technical grower — someone comfortable with a Raspberry Pi, who wants to experiment seriously with active pulsed DC electroculture and has the confidence to work with the code. The enhancement guide gives you a running start on modifications; the full source means the ceiling is whatever you can build.
If you want a simpler passive setup, see the HarvestStorm Atmospheric Collector or Expansion Unit.
The Evidence Base
Active pulsed DC field stimulation of plant root zones is one of the most studied electroculture modalities. See our research cards below for the supporting literature on biomass gains, nutrient transport effects, and water enrichment responses documented in peer-reviewed studies.
What the Research Says
Scientific claims relevant to this product, drawn from our research library.
Active electric field stimulation significantly increases plant biomass and harvest yield.
Multiple empirical trials demonstrate that applying active electric fields or currents to seeds and growing plants promotes faster development and higher yields compared to untreated controls. This effect is observed across diverse species, including cereals, root vegetables, and leafy greens.
- Peer-Reviewed STUDY ON THE IMPACT OF ELECTROMAGNETIC FIELDS ON POTATO DEVELOPMENT AND YIELD ↗
- Peer-Reviewed Accelerated Growth and Development of Plants as a Result of Their Stimulation in the Impulsed Electric Field ↗
- Peer-Reviewed Analysis of seed dormancy breakage and seedling growth in sweet sorghum (Sorghum bicolor L.) through the electrical stimulation method ↗
DC Fields Affect Nutrient Uptake
Direct current fields might improve plant absorption of soil nutrients.
Weak pulsed electric fields trigger rapid water enrichment in plant stem tissues.
Low-energy excitation (~1 V/m) induces measurable water enrichment in stems within 10-15 minutes of exposure. This physiological response is contingent on adequate hydration and is thought to involve a shift in the plant's circadian regulation.
Research cards link to our science library, which rates evidence quality and tracks limitations. We present this data to help you make informed decisions — not as medical or agronomic advice.
