Hardware,
As a System.
A unified embedded platform — power, sensing, control, and actuation engineered to work together from the start. No integration guesswork.
Four Layers. One Platform.
Eonix Motherboard
Central controller coordinating all modules with a single, structured communication architecture. No distributed logic chaos.
- Centralized control architecture
- USB interface to desktop app
- External MCU integration
CAN Bus Backbone
All modules talk through a structured, reliable communication layer. No I²C collisions, no SPI chaos — predictable by design.
- Multi-node reliable link
- Scalable to any module count
- Hardware-level fault isolation
Smart Power Block
Programmable CC/CV outputs with hardware OCP, SCP, and live telemetry. Power treated as an active system layer — not a passive supply.
- Programmable voltage & current
- Hardware OCP / SCP / thermal
- Real-time power telemetry
Sensors & Drivers
Sensor abstraction and high-current driver modules — built for real loads. Structured input, controlled output.
- Sensor abstraction layer
- High-current motor drivers
- Fault-protected outputs
Structured Sensing Layer
Sensors are not raw devices — they are system-aware modules with abstracted interfaces and standardized data output.
Temperature Sensor
Environmental sensing node focused on high-accuracy thermal data acquisition for system and environment monitoring.
- Stable calibrated output
- Low-noise measurement
- Standardized data interface
IMU Sensor
High-speed inertial measurement for orientation and motion tracking in dynamic environments.
- Acceleration + gyroscope
- Motion tracking algorithms
- Orientation estimation
LiDAR Module
Precision distance measurement node for spatial mapping and advanced detection applications.
- High precision targeting
- Long range mapping
- Fast response matrix
ToF Sensor
Time-of-flight optical distance measurement built for compact, fast-response applications.
- Short-range high accuracy
- Compact form factor
- Fast sampling rates
Ultrasonic Sensor
Acoustic distance sensing optimized for robust medium-range obstacle detection.
- Cost-effective sound reflection
- Medium range spread
- Simple system integration
IR Sensor
Infrared proximity detection for simple presence sensing and reflection boundaries.
- Proximity detection
- Short range boundaries
- Low power footprint
Why Existing Systems Break
Fragmented Hardware
Multiple boards. Multiple protocols. No clear structure linking power to control.
Unified Architecture
One engineered platform treating hardware as a continuous, structured system.
Unreliable Integration
Software glue logic and unstable buses. Random runtime failures at scale.
Hardware-Enforced Behavior
Zero protocol conflicts. Behavior protected natively at the hardware level.
Power is an Afterthought
Passive supplies blindly pouring voltage with zero system awareness.
Managed Energy Layer
Programmable limits, strict fault barriers, and live telemetry to the control brain.
Build Systems That Actually Ship
Stop assembling random fragmented hardware. Start building unified, scalable systems with Eonix.