Quantacraft Marine

Power / Telemetry / Solar

Patent-Pending System Architecture: Reactor

Modular power architecture for small craft, telemetry, and renewable charging.

Quantacraft Marine is developing Reactor as a patent-pending electrical backbone for kayaks, compact marine systems, and outdoor platforms that need controlled 12-volt accessory power, sensor inputs, solar-supported charging, and clear system telemetry.

Explore Reactor Reactor Flux View Modules

Patent-Pending

A system-level architecture for power, control, charging, and telemetry.

Solar

Renewable charging support for longer days and more self-sufficient rigs.

Control

App-based switching and status for kayak fishing and compact marine rigs.

Quantacraft Marine

Reactor

Patent Pending

In Development

Reactor is intended to organize power, control, sensing, and renewable charging around one expandable architecture rather than a collection of unrelated accessories.

What Reactor Is

A system architecture for small-craft electronics.

Reactor is being developed as a patent-pending core architecture for protected auxiliary power, digital switching, sensor inputs, renewable charging support, and onboard telemetry. It is designed to reduce fragmented wiring, create a cleaner expansion path, and surface meaningful data about both the electrical system and the surrounding water.

Protected Power Distribution

Switched and protected outputs for electronics, lighting, instruments, USB power, and future modules.

Mobile Control

Phone-based switching and status designed to reduce panel clutter while preserving clear control over onboard circuits.

Water Quality Sensing

Sensor pathways for water quality data, including dissolved oxygen, so Reactor can report more than voltage and circuit state.

Environmental Telemetry

A path for displaying and logging environmental readings such as water temperature, air conditions, sensor status, and location context.

Renewable Charging Path

Solar-supported charging is part of the roadmap, giving Reactor a cleaner path for extending runtime away from shore power.

Field-Oriented Design

Intended for use around water, where serviceability, clean routing, and durable integration matter more than decorative features.

Closed Reactor prototype showing connector panel and braided cable — Reactor Prototype Connector Panel

Open Reactor prototype showing internal battery, wiring, and electronics — Reactor Prototype Internal Components

System In Action

Connection and control between app and hardware.

This prototype demonstration shows Reactor behaving as a working system: the phone connects to the device, sends a control command, and the hardware responds through a switched load.

Phone connects to hardware

Commanded switching

Visible hardware response

Technical Baseline

Designed around the loads and data small craft actually carry.

Reactor is not meant to hide the technical details. The platform is being shaped around the 12-volt accessories, control circuits, sensors, and renewable charging problems that show up in real kayak fishing and compact marine builds.

12-Volt Accessory Power

Structured outputs for fish finders, lights, pumps, USB power, and electronics.

Switched / Protected Circuits

Designed around controlled outputs, circuit status, and cleaner service access.

BLE + App Control

A mobile control layer for switching, status, and future configuration workflows.

Water Quality Inputs

Environmental sensing pathways for dissolved oxygen and related water data.

System Telemetry

Voltage, circuit state, sensor readings, and operating context in one view.

Renewable Solar Charging

Solar-supported charging pathways for auxiliary batteries and longer off-grid operation.

Field Context

Built around real kayak rigs and open-water use.

The system language starts with actual conditions: clear-water kayak fishing, onboard electronics, trolling motors, and the need to keep power, renewable charging, control, and environmental data organized.

Old Town Autopilot kayak with electronics on Raystown Lake — Field electronics and kayak rigging on Raystown Lake.

Old Town Autopilot kayak underway on Lake Michigan with fish finder visible — Open-water operation with onboard electronics visible.

Jackson Cuda 12 kayak with electronics on Lake Michigan — Compact kayak setup with sonar and fishing gear in use.

Modular Showcase

A modular stack for power, data, and charging.

Reactor is meant to serve as the structured electrical layer for a kayak or compact craft: distribute power, control outputs, connect sensors, support renewable charging, and make operating data visible.

Aux Power

Protected 12-volt outputs for electronics, lighting, and accessory loads.

Dissolved Oxygen

Environmental sensing for monitoring oxygen levels in the water.

Water Quality

Sensor pathways for water condition data and future probe integrations.

Environment

Temperature and condition data alongside system-level telemetry.

Switching

Digital control for lights, pumps, instruments, and accessory circuits.

Lighting

Navigation, deck, utility, and task lighting tied into the same control layer.

Solar Charging

Renewable charging support for auxiliary batteries, field use, and longer runtimes.

Platform Ecosystem

One power and telemetry layer across multiple field systems.

Reactor is being designed as a shared architecture for small craft, field vehicles, and mobile outdoor systems: distributing protected power, connecting accessories, supporting sensors, incorporating renewable charging, and keeping system state visible through the app.

Use Cases

Fishing

Guide Operations

Camping

Overlanding

RVing

Emergency Response

Reactor Core

Power / Control / Telemetry

Protected 12V power

App-based switching

Sensor inputs

Solar charging path

Powered Loads

Trolling Motors

Bilge Pumps

Anchor Winches

Onboard Electronics

Personal Electronics

Lighting

Adapters

Brand Connectors

Battery Adapters

Accessory Pigtails

Waterproof Quick-Disconnects

Reactor Ecosystem Accessories

Water Quality Sensor

Storm / Lightning Detector

Leak Detector

Tip-Over Detection + Notification

Magnetic Wireless Lighting Kit

Environmental Telemetry Modules

Why It Matters

Small craft now need an electrical architecture, not just added wiring.

Plug-and-play connections solve part of the rigging problem. Reactor goes further by tying protected power, mobile control, telemetry, and renewable charging into one patent-pending platform.

One-off accessory wiring makes even capable rigs harder to inspect, service, and expand.

Charging, switching, sensing, and monitoring often sit in separate, unrelated systems.

Environmental data is harder to use when sensors are not integrated with power and telemetry.

A cleaner control layer can support real marine use without turning the craft into a wiring project.

Applications

Built for systems that need control, telemetry, and expansion.

Reactor is positioned as a patent-pending modular architecture rather than a single-purpose wiring accessory. That opens the door to kayak, compact marine, fishing, and outdoor use cases where controlled power, renewable charging, and environmental awareness belong in the same system.

Kayak Fishing Rigs

A structured backbone for electronics, lighting, accessory control, fish finders, sensor inputs, and future modules.

Water Monitoring Setups

Dissolved oxygen and water quality telemetry for users who need better visibility into local conditions.

Solar-Supported Charging

Renewable charging support for auxiliary batteries and field systems that need longer runtime away from shore power.

Outdoor Power Systems

A compact control and telemetry base for field kits, portable systems, and outdoor electronics that need organized power.

Product Direction

Current working product family

Quantacraft Marine is starting with Reactor as the core patent-pending architecture: protected power, app-based control, environmental sensing, renewable charging, and a clear path for accessory modules.

Flagship

Reactor

Patent-pending modular auxiliary power, digital control, water quality sensing, renewable charging, and telemetry for small craft and outdoor systems.

Auxiliary Charging + Energy Transfer

Flux

A practical range-extension module for electric kayak and small-craft systems, moving auxiliary 12V power into compatible higher-demand battery setups.

See Reactor and Flux in action

Open Reactor Flux prototype with foam insert and charging hardware — Flux is the auxiliary charging and energy-transfer side of the Quantacraft Marine platform.

Closed Reactor Flux prototype enclosure with charging cable — Field-case packaging, circuit protection, connector layout, and cable configuration are part of the product.

User Testing

Help shape the next version of Reactor.

If you fish from a kayak, run compact marine electronics, monitor water conditions, or are simply excited about the platform, your input can help prioritize the next hardware and software decisions.

Personal Watercraft Power Systems Survey

Interested in testing or giving product feedback?

Share how you power accessories, what electronics you carry, and where Reactor or Flux could fit into your setup. The survey opens in Jotform so the site stays fast and the form remains easy to update.

Open Survey

Best for prospective testers, early users, and marine electronics feedback. Quiet preview: Quantacraft Sense.

Contact

Talk through a rig, sensor path, or charging use case.

Reactor is currently in development. For early interest, sensor integration discussions, renewable charging partnerships, or product updates, reach out as the platform takes shape.

The form opens a pre-filled email so you can review the message before sending. Include enough detail about your setup or use case for a useful follow-up.