12V LiFePO4 Battery Be Used in Medical Devices
In an age when many consumer electronics manufacturers are emphasizing portability, medical device makers must balance this requirement with a need to ensure their products function reliably. After all, while a broken cell phone may be frustrating, if a portable heart monitor or infusion pump stops working due to battery depletion, people’s lives could be at stake. This is why medical device manufacturers must take into account the specific requirements of their products when choosing the best batteries for them.
The choice of battery for a medical device depends on its size and design, as well as the type of device. For example, a defibrillator requires a standby battery that is integrated into the device and serves as backup power during transportation and at the patient’s bedside. This battery is typically a 12V LiFePO4 Battery.
Diagnostic equipment, such as portable ultrasound machines and handheld ECG monitors, also use lithium batteries for their portability and reliability. These devices are used in remote or challenging environments, so a robust and reliable battery is vital to the operation of the device. Lithium batteries are often preferred by healthcare professionals because of their high energy density, longer cycle life, and lower weight than traditional nickel-metal hydride (NiMH) or sealed lead acid (SLA) batteries.
A stable and reliable battery is also important for modern medical carts and computers. These devices are a staple in hospitals, and keeping them powered up allows hospital staff to access patient records and history quickly. When a medical cart or computer loses its power, it can be disruptive to workflow and potentially delay care. The right medical cart batteries can help prevent this issue by providing a consistent power source that will not interfere with the operation of a medical device.
Can a 12V LiFePO4 Battery Be Used in Medical Devices?
When choosing a battery for a medical device, healthcare professionals must consider safety and regulatory requirements. For example, medical device batteries must meet certain transportation and packaging regulations, such as UL 2054, IEC 60601-1, and ISO 13485. These regulations are designed to protect healthcare workers and patients from accidents caused by malfunctioning or improperly handling batteries.
In addition to meeting safety and transportation requirements, medical device batteries must be able to withstand temperature extremes, shock, vibration, and other environmental stresses. To do this, they must be tested according to strict standards such as IEC 62133. These testing standards are designed to ensure the long lifespan and reliable performance of medical device batteries.
By following the guidelines set out in these standards, medical device manufacturers can ensure that their batteries are safe and dependable for patients. This includes choosing the correct size battery for a particular medical device, as well as ensuring that the battery meets the voltage and power needs of the device. It is also necessary to ensure that the battery manufacturer adheres to strict quality control standards to minimize risks during production. This includes using certified materials and implementing procedures for identifying and mitigating risks, analyzing potential fire hazards, and verifying the quality of their batteries.