Alat Resusitasi Jantung Paru Portable

Microcontroller-based Automatic Cardiopulmonary Resuscitation (CPR) is a medical technology innovation developed by Jakarta State University which functions to assist the resuscitation process in cardiac arrest patients. This tool works automatically to provide chest compressions with regular pressure and speed using a pneumatic system controlled by an Arduino Mega 2560 microcontroller. The purpose of this tool was developed, namely to produce domestically made medical aids that are capable of performing chest compressions automatically according to CPR standards, as well as supporting the independence of Indonesian medical devices through increasing the Domestic Component Level (TKDN). Currently, all CPR tools used in Indonesia are still imported, while the need for these tools is very high in type C hospitals and community health centers. Therefore, the development of locally made automatic CPR devices is important for the independence of national health equipment and expanding access to health facilities at more affordable prices. Benefits : 1. Helps the cardiopulmonary resuscitation process with stable and efficient automatic compression.2. Increase the chances of survival for cardiac arrest patients in health facilities with limited resources.3. Supporting research and learning in the field of biomedical engineering in universities.4. Encouraging the independence of national medical equipment and reducing imports. The system works using an Arduino Mega 2560 microcontroller which regulates the Airtec Valve solenoid valve and double pneumatic cylinders to produce automatic chest compressions. The pressure is regulated by a mini air compressor with a sensor system to control the patient's temperature and heart rate. All data is processed automatically to maintain rhythm and pressure stability. Features : Automatic control system based on Arduino Mega 2560 microcontroller. Adjustable chest compressions (60–100 rpm). Integrated temperature and heart rate sensors. 100% locally made components with high TKDN. Low power and ergonomic design, easy to mass produce.