Drone payload control
Products and reference designs
Drone payload control
Overview
Our integrated circuits and reference designs help you innovate and differentiate your drone payload control systems. These payload systems typically require control methods to compensate flight vibrations to improve image or tool stability.
Design requirements:
Drone payload control designs often require:
- Low-latency motor control to improve image or tool stability during flight.
- Energy-efficient motor control to enable longer drone flight time.
- Highly-integrated parts ensuring lowest form factor and weight.
Block diagram
Find products and reference designs for your system.
Technical documentation
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| Type | Title | Date | ||
|---|---|---|---|---|
| Technical articles | How semiconductor technologies are changing automotive lighting roadmaps | 24 Oct 2019 | ||
| Application note | Current Sensing for Inline Motor-Control Applications | 20 Oct 2016 | ||
| Application note | Understanding Smart Gate Drive (Rev. D) | 11 May 2022 | ||
| Application note | Sensored Field Oriented Control of 3-Phase Perm Magnet Sync Motors Using F2837x (Rev. A) | 11 May 2022 | ||
| Technical articles | Untangling electric vehicle chargers – Getting started | 07 Jul 2015 | ||
| Technical articles | Don’t power your FPGA like this! | 03 Nov 2016 | ||
| Technical articles | How smart amps are bringing high-fidelity audio into the smart home | 03 May 2021 |
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