Technology
From Mechanical
Force to Digital Control
Robots can be mechanically capable but still blind at contact. The stack is vertically integrated from sensing to protocol output so teams can add reliable tactile feedback without custom signal chains.
Architecture Snapshot
Sensor Data Path
Mechanical Strain Capture
Step 1
Analog Conversion
Step 2
Calibration + Decoupling
Step 3
Digital Output Stream
Step 4
Monolithic Sensing Element
A monolithic aerospace-grade aluminum body minimizes hysteresis and supports repeatable long-cycle performance.
Embedded Signal Processing
On-board transforms and offset correction provide calibrated 6-axis output directly from the sensor, without external DAQ boxes.
Low-Latency Pipeline
Sub-100 microsecond force-to-data latency with output rates tuned for closed-loop control.
High Resolution, Low Noise
Low-noise signal chains help isolate real force events and keep data streams useful for logging and analysis.
IP67 Industrial Design
Sealed enclosures support washdown, coolant exposure, and harsh field environments.
Single-Cable Integration
Power, data, and ground over one cable with direct support for practical deployment workflows.
Integration Constraints
Practical Inputs for System Design
| Interfaces | RS-485 native, EtherCAT bridge module available |
| Output rates | 100 / 250 / 500 Hz (model dependent) |
| Environmental | IP67 ingress protection and industrial sealing |
| Integration assets | Drivers, tooling, diagnostics, and synchronized logging workflows |
Continue to Integration Planning
Review drivers, interfaces, and setup guidance before selecting final models.