SlewPoint
Precision power electronics, engineered from first principles.
Simulation-driven GaN systems. End-to-end multi-physics modeling. Deterministic control and absolute-accuracy sensing — built for the instruments that define the edge of scientific discovery.
Model-first, risk-reduced engineering.
We design through exhaustive simulation, multi-physics co-optimization, and rigorous silicon correlation. Every subsystem is proven in the virtual domain long before hardware exists, so performance, thermal behavior, and reliability are engineered in — not discovered or tuned on the bench.
- 01
Simulate
- 02
Optimize
- 03
Transfer
- 04
Verify
No red rows in the comparison table. Ever.
Subsystems built from the physics up.
Four-quadrant power stages
GaN-based conversion with runtime-adaptive power envelopes, delivering clean bidirectional drive across the full operating range.
Precision measurement
High-bandwidth architectures modeled end-to-end for absolute accuracy under real-world inductive loads.
Thermal governance
Multi-physics thermal and energy management co-designed with the electrical path from the outset.
Deterministic control planes
FPGA-timed control with fiber-native interfaces for low-latency, coordinated high-power operation.
Optimized for inductive loads in scientific and high-tech instrumentation, where precision and reliability are non-negotiable.
Active development of next-generation precision power systems.
Selective engagement with component suppliers and lead technical partners across the scientific instrumentation ecosystem.
For partners and serious builders.
Engineering teams, component vendors, and serious instrumentation builders: we are actively sourcing competitive quotes and partnership discussions on the components and subsystems below. Serious technical discussions only.
- GaN devices
- High-bandwidth sensors
- Magnetics
- Simulation & modeling
- Precision subsystems