Mechanical, control, power and edge-AI decisions are coupled, but procurement usually sees only separate part numbers.
Robotics / embodied AI semiconductor path
Robotics and embodied AI teams often need motion/control, sensing, edge AI, power and connectivity parts to work together. MST can start from the application, route power components, substitute validation, sourcing, design and Ask MST review, then confirm fit, samples, small-batch supply and RFQ path case by case.
Domestic and overseas alternatives may look close on paper but need footprint, current, thermal, lifecycle and qualification checks.
Sample and small-batch needs are often too small for traditional suppliers to handle seriously.
What MST routes
What MST routes
Start from the scenario, then enter the correct SKU, MPW, sourcing, design, guide or RFQ path.
Describe the robot or embodied AI requirement and receive a first routing brief.
MAZO power inductorsCheck power and magnetic-component RFQ paths for compact high-current rails.
SourcingSubmit substitute, EOL, hard-to-source or small-batch sourcing requirements.
DesignScreen design, layout, verification or embedded-system partner needs.
What to prepare
- Product type: humanoid, AMR, drone, actuator, sensor, controller or edge-AI node.
- Known current MPNs, benchmark alternatives or blocked functions.
- Electrical, thermal, mechanical, lifecycle and certification constraints.
- Sample quantity, pilot quantity and target build window.
Human-confirmed boundaries
- Substitute suggestions require engineering fit check before design-in.
- MST does not publish final sample availability or replacement approval on public pages.
- Commercial quote, certificates, source evidence and logistics are confirmed after human review.
Turn this into a non-confidential MST brief
Use the scenario prompt to generate a first routing brief. Price, stock, slot, PDK/NDA path, sample availability and replacement fit are confirmed by MST after review.