Industrial Automation Next Generation of Optical Dissolved Oxygen Sensors
Hamilton Process Analytics released the next generation of its popular Visiferm optical dissolved oxygen sensors, which greatly reduce calibration frequency and the risk of deviation while increasing the overall sensor lifetime at the same time.
‘Visiferm mA’ is based on the proven Visiferm sensor family which features the optical measurement principle, first introduced by Hamilton in 2007 and now state-of-the-art and preferred dissolved oxygen measuring method in most biological production processes.
A significantly increased cap lifetime and reduced signal drift over time makes the firm’s new Visiferm sensors unique. It reduces the need for calibration by 80 %, lowering maintenance efforts and costs significantly, states the company.
Currently, the standard optical dissolved oxygen best practice is to recalibrate the sensors after every run to prevent costly measurement deviations which occur from batch to batch. However, each application is unique and individual factors on site, such as sensor aging, chemical attack, temperature and physical damage all contribute to a measurement’s relative error.
Algorithms to compensate for aging and temperature errors have therefore limited utility. During the development of this next generation of sensors, Hamilton engineers looked at ways to overcome the influence of SIP/CIP and photobleaching in order to reduce the frequency of calibration and unnecessary deviation reports. This required innovations in both sensor and cap design. Both key components have been enhanced for the most robust Visiferm ever in the market, adds the firm.
Additional benefit of the Visiferm family is the proven integrated micro transmitter which eliminates signal noise and enables predictive estimates of sensor and cap life, calibration and troubleshooting, mentions the company. This can be conducted in a controlled lab or at line and documentation is simplified with automatic report generation.
The optical dissolved oxygen sensors are available in various configurations to meet the needs for most applications in GMP environments. The core measurement principle is consistent across all models with various electrical connections, sensor caps, firmware versions and Atex and FDA, USP Class VI certifications to ensure consistent performance and reliability across different applications.