Automatic External Defibrillator - AEDs

Life-Saving Emergency Defibrillators

Automated External Defibrillators (AEDs) and professional defibrillation equipment are designed for emergency cardiac response. Our collection features reliable defibrillators from leading brands to provide life-saving assistance during sudden cardiac arrest situations.

Automated Operation - User-friendly AEDs with voice prompts for emergency situations

Multiple Applications - Portable units for public spaces, workplaces, and home use

Advanced Technology - Reliable shock delivery with built-in safety features

Professional Grade - Trusted by medical professionals and emergency responders

Essential defibrillation equipment supporting the RESTART a HEART campaign and emergency preparedness.

At AMA Medical Products, we provide a diverse selection of defibrillators designed to meet various needs and preferences. Our collection includes:
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FAQ's

A defibrillator, also called an automated external defibrillator or AED, is a portable device that delivers a controlled electrical shock to someone experiencing sudden cardiac arrest. The goal is to restore a normal heart rhythm. AEDs provide clear voice and visual prompts and should be used when a person is unresponsive or not breathing normally. Early defibrillation significantly increases survival rates.
Semi automatic AEDs analyse the heart rhythm and instruct the user to press a button to deliver the shock. Fully automatic AEDs deliver the shock automatically without requiring user input. Manual defibrillators are used by clinicians and allow precise control over rhythm interpretation and shock energy. Public access sites usually use semi or fully automatic units.
Choosing the right AED depends on the user environment, expected responders and location conditions. Consider ease of use, whether untrained users need a fully automatic model, outdoor exposure, pad and battery shelf life, CPR feedback features, and IP rating. Schools, workplaces and gyms typically choose simple, durable AEDs with long life consumables.
AED pads usually last two to four years, while batteries last around four to five years, depending on the model and self test frequency. Pads and batteries must be replaced before expiry to ensure correct adhesion and energy delivery. Most AEDs notify you when consumables are due for replacement.
An AED’s IP rating shows its resistance to dust and water. Higher numbers indicate stronger protection. Outdoor, poolside, construction or community environments typically require a rating of IP55 or higher. These units tolerate rain, splashes and dusty conditions, making them suitable for Australian outdoor sites.
Yes, AEDs are generally safe to use in wet areas, on metal floors or during rain. Dry the chest area quickly before applying pads. The shock travels through the chest, not the ground surface. Many AEDs are designed with high IP ratings that protect them in challenging environments.
Paediatric pads or paediatric mode reduce the shock energy for children under eight or under 25 kilograms. Some AEDs activate paediatric settings automatically when the pads are connected. Schools, clubs and community venues should consider including paediatric capability to cover both adults and children.
Important features to compare include shock energy levels, pad and battery life, waveform type, IP rating, CPR feedback, voice prompts, and whether the unit runs automatic self tests. CPR feedback improves outcomes by guiding compression depth and rate. Long life consumables reduce maintenance costs.
AED prices generally range from around a thousand dollars to several thousand dollars depending on the brand and features. Total cost of ownership includes replacement pads, batteries, optional connectivity, cabinets and signage. Models with longer lasting consumables and automated self testing tend to be cheaper to maintain over time.
AEDs are designed so untrained users can operate them safely. Fully automatic units provide step by step instructions and deliver the shock automatically if required. Training is helpful for confidence and speed but not essential. The AED will not shock unless a shockable rhythm is detected.
AEDs perform regular self tests, often daily, weekly and monthly. These tests check the battery, pads, circuits, software and readiness indicators. If an issue is found, the device will display a warning light or audible alert. Self testing reduces manual checks and ensures the AED is ready to use.
Some AEDs meet aviation standards for use on aircraft, while others are approved for specific industries like mining or marine environments. If your organisation operates in a regulated sector, choose an AED with the required certifications and approvals.
In Australia, all AEDs must comply with TGA regulations and relevant safety standards. Many states encourage registering AEDs with local authorities to support emergency response networks. Ongoing compliance involves replacing pads and batteries before expiry and ensuring the device passes its self tests.