System Integration Methodology
AZJ Smart provides a structured system integration methodology for 60 GHz Human Presence mmWave Radar Sensor and 77 GHz Directional Motion & Zone Radar Sensor, enabling reliable, predictable, and scalable deployment within complex control and automation environments.
Methodology Overview
System integration is treated as a core engineering discipline throughout the lifecycle, rather than a post-development activity. AZJ Smart radar sensors are engineered for consistent integration into building automation, smart infrastructure, and industrial control systems.
The methodology emphasizes interface clarity, responsibility boundaries, and long-term operational stability at sensor level.
Integration Philosophy
- Clear separation between sensing, control, and application layers
- Stable and documented interfaces for 60 GHz and 77 GHz radar sensors
- Deterministic behavior under real-world operating conditions
- Scalable architecture from single-unit deployment to multi-node systems
- Minimal coupling between firmware and host platforms
Reference System Architecture
AZJ Smart radar sensors are designed to operate as deterministic system components, rather than opaque black-box elements.
| System Layer | Responsibility |
|---|---|
| Sensing Layer | Radar signal acquisition, signal processing, and generation of primary sensing outputs. |
| Interface Layer | Data transmission, configuration access, and operational status reporting. |
| Control Layer | Logic processing, automation coordination, and system-level decision handling. |
| Application Layer | User interaction, visualization, and application-specific behavior. |
Electrical Integration
Electrical integration focuses on power stability, signal integrity, and long-term system reliability for 60 GHz and 77 GHz radar sensors.
- Defined operating voltage ranges and current profiles
- Coordinated startup and reset behavior
- EMC-conscious grounding and signal routing practices
- Protection against transient and environmental disturbances
Communication Interfaces
AZJ Smart radar sensors expose structured communication interfaces to support integration with a wide range of industrial and building control platforms.
Configuration Interface
Parameter configuration, operating mode selection, and system adaptation during integration and commissioning.
Data Output Interface
Delivery of sensing results and operational status information with defined data formats and deterministic timing behavior.
Diagnostic Interface
Access to operational status and diagnostic indicators supporting commissioning and maintenance activities.
Mechanical Integration Considerations
Mechanical placement directly impacts radar sensing performance. Guidance covers mounting orientation, enclosure materials, and environmental constraints.
System designers are supported in aligning mechanical design decisions with sensor-level performance characteristics.
Commissioning & Validation
Commissioning is treated as a controlled and repeatable engineering process, rather than an ad-hoc adjustment phase.
- Initial system bring-up and interface verification
- Parameter tuning based on deployment conditions
- Functional validation under real operating scenarios
- Baseline performance documentation
Lifecycle Integration Support
Integration methodology extends beyond initial deployment to support long-term operation, system expansion, and controlled evolution.
Firmware updates, multi-unit scaling, and regulatory considerations are addressed as part of the radar sensor integration lifecycle.
Responsibility Boundary
AZJ Smart defines clear responsibility boundaries between 60 GHz and 77 GHz radar sensor functionality and system-level decision logic. This ensures transparency, integration flexibility, and long-term maintainability for OEM and system integrator partners.