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11-917-M Patient Monitor Oxygen Sensor,
Original Patient Monitor Oxygen Sensor
All PSR 11-917-M oxygen sensor Patient Monitor Sensor
The PSR 11-917-M oxygen sensor is a vital component used in patient monitoring systems to measure the oxygen levels in a patient's blood. It is specifically designed for medical applications, ensuring accurate and reliable oxygen monitoring in various healthcare settings.
The sensor utilizes a galvanic cell technology, which is a widely accepted method for measuring oxygen concentration. It consists of two electrodes separated by an electrolyte. When oxygen is present, it reacts with one of the electrodes, creating a current that is proportional to the oxygen concentration. This current is then converted into an electrical signal that can be measured and interpreted by the patient monitor.
The PSR 11-917-M oxygen sensor is compatible with a range of patient monitoring systems and can be easily integrated into existing setups. It offers high sensitivity and fast response times, allowing healthcare professionals to quickly assess a patient's oxygen levels and respond accordingly.
Key features of the PSR 11-917-M oxygen sensor include:
Accuracy and reliability: The sensor provides precise and consistent oxygen measurements, ensuring reliable patient monitoring.
Fast response time: It quickly detects changes in oxygen levels, allowing healthcare providers to respond promptly to any fluctuations.
Wide compatibility: The sensor is designed to work seamlessly with various patient monitoring systems, making it versatile and adaptable for different healthcare environments.
Easy integration: It can be easily integrated into existing patient monitoring setups, minimizing installation time and effort.
Long lifespan: The sensor is durable and built to withstand the demands of continuous use in medical settings, ensuring a long operational life.
Overall, the PSR 11-917-M oxygen sensor is a crucial component in patient monitoring systems, enabling accurate and real-time oxygen level measurements. Its reliability, compatibility, and ease of integration make it an essential tool for healthcare professionals to monitor and manage patients' oxygenation effectively.