XHV3001AT Dual-Camera AI Vision Processing Module
Up to 4 TOPS INT8 AI acceleration, dual MIPI camera inputs, compact OEM vision processing module for UAV and robotic integration.
System Detail
What It Is
The XHV3001AT is a compact dual-camera AI vision processing module designed for OEM embedded integration into UAVs, robotic systems, intelligent surveillance platforms, and autonomous systems requiring onboard target detection, recognition, and tracking.
Performance
The module delivers up to 4 TOPS of INT8 AI compute through a dedicated acceleration engine, supports dual MIPI camera inputs with FSYNC-based synchronization, and provides hardware H.264 / H.265 video encoding and decoding alongside CVBS analog video output.
Key Technical Features
- Cortex-A55 class CPU paired with dual DSP for embedded vision workloads
- Integrated image signal processor (ISP) for onboard camera pipeline handling
- SPI and UART interfaces for recognition and tracking data output to external system processors
- USB 2.0 and Ethernet interfaces for development and debug access
Platform Compatibility
The module is intended for OEM integration into UAV airframes, loitering munitions, counter-UAS systems, robotic platforms, and intelligent surveillance payloads where a compact embedded AI processing engine is required.
Dual-Camera AI Architecture
The XHV3001AT processes two synchronized MIPI camera feeds through a single onboard AI engine. This enables simultaneous dual-channel image analysis for applications requiring stereo or multi-angle target coverage.
4 TOPS AI Acceleration Engine
A dedicated AI acceleration engine delivers up to 4 TOPS of INT8 compute paired with a Cortex-A55 class processor and dual DSP. This combination supports real-time onboard object detection, recognition, and classification without offloading to an external computer.
Integrated Video Processing Pipeline
An integrated image signal processor works alongside hardware H.264 and H.265 encoding and decoding to manage the full camera-to-output pipeline on a single module. This reduces the system-level component count and processing latency for OEM integrators.
Multi-Interface System Integration
The module exposes SPI, UART, USB 2.0, and Ethernet interfaces alongside CVBS analog video output for connection to flight controllers and mission computers. Recognition and tracking results are output directly through SPI or UART for downstream system use.
Our technical team provides pre-sales support for system integration planning, field testing, and deployment assessment.
Contact Technical TeamFull Technical Specifications
| Parameter | Specification |
|---|---|
| GENERAL | |
| Model Number | XHV3001AT |
| Product Series | XHV Series |
| Product Type | AI Vision Processing Module |
| PERFORMANCE | |
| AI Compute Performance | Up to 4 TOPS INT8 |
| CPU Architecture | Cortex-A55 Class Processor |
| DSP | Dual DSP |
| Image Signal Processor (ISP) | Integrated ISP |
| MECHANICAL | |
| PCB Dimensions | 60 × 45 mm |
| Mounting Type | Embedded Integration |
| FEATURES | |
| SDK Support | Available |
| INTERFACE | |
| Video Output Format | H.264 / H.265 |
| Video Output | CVBS |
| Camera Interface | Dual MIPI CSI-2 |
| Serial Interface | SPI, UART |
| Camera Synchronization | FSYNC Supported |
| Development Interface | USB 2.0 |
| Debug Interface | Ethernet |
| Camera Control Interface | I2C |
Designed for the Field
UAV & Autonomous Onboard Processing
The XHV3001AT serves as an onboard AI vision engine for UAVs and autonomous platforms requiring real-time target detection, recognition, and tracking without relying on a ground-based processor.
Intelligent Surveillance & Robotics
The module supports embedded AI vision tasks in robotic systems and intelligent surveillance payloads that need dual-camera synchronized image analysis in a compact footprint.
OEM System Integration
System integrators incorporate the bare module into custom platforms, supplying their own camera, power, and mechanical integration around the processing core.
UAV & Loitering Munition Integration
UAV and loitering munition developers integrate the XHV3001AT as an onboard processing core to perform real-time target detection and tracking without a separate mission computer. This reduces payload complexity for size- and weight-constrained airframes. Dual MIPI camera inputs and the onboard AI acceleration engine deliver detection and tracking output directly through SPI or UART to the flight controller. The compact 60 × 45 mm bare-module form factor suits tightly integrated UAV payload bays.
- AI Compute Performance: Up to 4 TOPS INT8
- Camera Interface: Dual MIPI Camera Input
- Module Dimensions: 60 × 45 mm
- Communication Interface: SPI, UART
Robotics & Surveillance Vision
Robotic systems and intelligent surveillance platforms use the XHV3001AT to add onboard AI-based object detection, recognition, and classification without routing video to an external processor. This supports real-time decision-making at the edge for mobile and fixed platforms alike. Dual-camera synchronized acquisition via FSYNC lets integrators pair stereo or multi-angle camera setups for richer scene analysis. Hardware H.264 / H.265 encoding allows simultaneous AI processing and efficient video recording or streaming.
- Camera Synchronization: FSYNC Supported
- Video Codec: H.264 / H.265
- AI Processing: Detection, Recognition, Tracking
- Video Output: CVBS
OEM Platform Integration
OEM integrators incorporate the XHV3001AT into custom platforms as a bare processing module, supplying their own camera selection, housing, environmental protection, and power integration. This OEM-first design lets system builders tailor mechanical and electrical integration to their specific platform requirements. USB 2.0 and Ethernet interfaces support development, debugging, and custom algorithm integration during the platform build process, and SDK access is available directly from Star-Navi for deeper software customization.
- Development Interface: USB 2.0
- Debug Interface: Ethernet
- Mounting Type: Embedded Integration
- SDK Support: Available
System Integration
Interface Architecture
The XHV3001AT exposes SPI and UART for primary system communication alongside USB 2.0 and Ethernet for development and debug access, supporting flexible integration into UAV, robotic, and surveillance platforms.
Full integration detail, including pin-level configuration and SDK documentation, requires corporate account access.
SPI/UART Interface
The SPI and UART interfaces output real-time detection, recognition, and tracking results to an external flight controller or mission computer. These serial channels serve as the primary data path between the AI processing module and the host system.
Request a Quote or Demo Unit
Our technical sales team can arrange a field demonstration, provide deployment planning, and prepare a formal quotation for your procurement requirements.
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