A commitment to innovation and sustainability

Zero-Latency AI & Decision Engine

Implementation of TinyML architecture to eliminate network latency.

This enables autonomous,on-device detection of shockable rhythms within miliseconds,removing the need for external server processing.

High-Voltage Power Electronics & Galvanic Isolation

Absolute galvanic isolation between the 5000V discharge circuit and the 3.3V microcontroller logic,utilizing high-speed optocouplers.

Features integrated “Dead-time” safety protocols within the H-Bridge gate drivers to prevent cross-function.

Adaptive Impedance & Dynamic Shock Control

Real-time PWM/Chopper control that modulates shock voltage and duration based on the patient’s transthoracic impedance.

Utilizing a Biphasic Truncated Exponential waveform to achieve maximum resuscitation rates at lower energy levels.

Regulatory-Driven Architecture & Compliance

Systems engineered from the ground up to meet IEC 60601-2-4 (Defibrillator Safety) and ISO 13485 Quality Management standards.

The architecture is fully optimized for GDPMD (Good Distribution Practice for Medical Devices) compliance, specifically targeting the Malaysian market.

Agile R&D & Product Lifecycle Management (PLM)

Deployment of Agile methodologies to accelerate hardware and software iterations during the R&D phase.

Continuous risk management and mitigation strategies are integrated throughout the entire product lifecycle to ensure reliability and safety.

IoT Telemetry & Next-Gen Energy Storage

Transition from conventional lithium batteries to high-density supercapacitor-based power units for extended service life.

Includes secure IoT telemetry (MQTT) for post-operative data transfer, feeding machine learning algorithms for continuous diagnostic improvement.