The STM/ATM system is designed for aerospace applications and integrated within the PINAKA Rocket System. The primary functions of the fuze include enabling landmine deployment and supporting free-fall operation from altitudes ranging between 750 meters and 1 kilometer. The fuze is engineered to withstand ground impact while performing mission-critical tasks such as target activation and self-neutralization. Powered by a battery, the unit incorporates multiple sensor inputs for target detection and mission control.
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Operation Mode :
- Landmine / Free-Fall Deployment: Designed to deploy from altitudes of 750 m to 1 km and activate after impact.
- Target Fixing via Sensor Inputs: Uses three input signals (Pressure, Tilt, and Magnetic) to verify and fix targets.
- Tilt Detection via MEMS Accelerometer: The system receives tilt detection signals through a built-in 3-axis MEMS accelerometer.
- Self-Destruction Logic: Capable of generating a self-destruction command after 1, 4, 10, or 30 days based on mission configuration.
- Self-Deactivation Logic: Triggers battery discharge sequence for automatic deactivation after a defined period or event.
Fuze Safety:
STM/ATM is designed with safety-first logic. Activation sequences occur only after a complete verification of environmental and target signals. Built-in timers and logic blocks prevent premature arming or misfire.
Distant Arming:
The unit remains unarmed during flight and only activates after satisfying all environmental inputs post-deployment, ensuring safe handling and deployment.
FUZE ACTION:
Once armed, the STM/ATM monitors environmental cues and initiates action based on sensor readings and programmed logic. It can trigger detonation, self-destruct, or deactivation depending on mission requirements.
